From b09a06011d7e62583b08cc019bdc3b2994d3ece9 Mon Sep 17 00:00:00 2001
From: gubaidulinvadim <gubaidulinvadim@gmail.com>
Date: Fri, 30 Jan 2026 17:51:27 +0100
Subject: [PATCH 1/5] Added tune and chromaticity measurement examples. Added
 necessary config files.

---
 .../01-SOLEIL_II_tune_example.ipynb           |   755 +
 .../02-chromaticity_measurement.ipynb         |   219 +
 .../SOLEIL_II_V3631_V001_database_rf.m        |  4249 ++++
 .../SOLEIL_II_V3631_sym1_V001_database_rf.m   |  4249 ++++
 examples/SOLEIL_examples/p.yaml               | 17710 ++++++++++++++++
 5 files changed, 27182 insertions(+)
 create mode 100644 examples/SOLEIL_examples/01-SOLEIL_II_tune_example.ipynb
 create mode 100644 examples/SOLEIL_examples/02-chromaticity_measurement.ipynb
 create mode 100644 examples/SOLEIL_examples/SOLEIL_II_V3631_V001_database_rf.m
 create mode 100644 examples/SOLEIL_examples/SOLEIL_II_V3631_sym1_V001_database_rf.m
 create mode 100644 examples/SOLEIL_examples/p.yaml

diff --git a/examples/SOLEIL_examples/01-SOLEIL_II_tune_example.ipynb b/examples/SOLEIL_examples/01-SOLEIL_II_tune_example.ipynb
new file mode 100644
index 0000000..8fa8de6
--- /dev/null
+++ b/examples/SOLEIL_examples/01-SOLEIL_II_tune_example.ipynb
@@ -0,0 +1,755 @@
+{
+ "cells": [
+  {
+   "cell_type": "code",
+   "execution_count": 3,
+   "id": "11bf6fa5-1b3c-4283-a4bc-cb27bac2e988",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "import os\n",
+    "\n",
+    "import matplotlib.pyplot as plt\n",
+    "import numpy as np\n",
+    "\n",
+    "from pyaml.accelerator import Accelerator\n",
+    "from pyaml.common.constants import ACTION_MEASURE\n",
+    "from pyaml.configuration.factory import Factory\n",
+    "from pyaml.magnet.magnet import Magnet"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 4,
+   "id": "5a5aa924-ffcd-4aba-a0c2-fb9e4955eb58",
+   "metadata": {},
+   "outputs": [
+    {
+     "name": "stdout",
+     "output_type": "stream",
+     "text": [
+      "30 Jan% 2026, 17:48:28 | WARNING | PyAML Tango control system binding (0.3.3) initialized with name 'live' and TANGO_HOST=localhost:11000\n"
+     ]
+    }
+   ],
+   "source": [
+    "sr = Accelerator.load(\"p.yaml\")\n",
+    "# This is a fix to be able to load multiple times.\n",
+    "# This will be fixed after pyAML workshop\n",
+    "Factory.clear()\n",
+    "# sr.design.get_lattice().disable_6d()"
+   ]
+  },
+  {
+   "cell_type": "markdown",
+   "id": "74299a03-49fe-4efe-a66b-3e21bc9feb05",
+   "metadata": {},
+   "source": [
+    "For the live control mode, you should have some control system emulation runing. It is possible to do \n",
+    "```\n",
+    "apptainer pull virtual-accelerator.sif oras://gitlab-registry.synchrotron-soleil.fr/software-control-system/containers/apptainer/virtual-accelerator:latest\n",
+    "apptainer run virtual-accelerator.sif\n",
+    "```\n",
+    "this will run SOLEIL II proof-of-concept digital twin on localhost:11000. You can play with the digital twin itself (without pyAML) via jive to check that everything is working. You can run jive in a different terminal with \n",
+    "```\n",
+    "apptainer pull jive.sif https://gitlab.synchrotron-soleil.fr/api/v4/projects/2739/packages/generic/jive/latest/jive.sif\n",
+    "apptainer run jive.sif\n",
+    "```\n",
+    "On linux you may need additionally to configure X11\n",
+    "```\n",
+    "export DISPLAY=:0\n",
+    "xhost +local:root\n",
+    "```\n",
+    "\n",
+    "NOTE: This is just a demonstration of pyAML functionality. Certain things may be done stupidly. The person who wrote this jupyter notebook only cared about showing that the code is working, not about intelligently controlling the accelerator."
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": null,
+   "id": "76146150-cfad-4579-9789-29da1bd766fa",
+   "metadata": {},
+   "outputs": [],
+   "source": []
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 5,
+   "id": "4316ad34-f146-442f-9250-8a750cf6f562",
+   "metadata": {},
+   "outputs": [
+    {
+     "data": {
+      "text/plain": [
+       "TangoControlSystem(name='live', tango_host='localhost:11000', debug_level=None, lazy_devices=True, scalar_aggregator='tango.pyaml.multi_attribute', vector_aggregator=None, timeout_ms=3000)"
+      ]
+     },
+     "execution_count": 5,
+     "metadata": {},
+     "output_type": "execute_result"
+    }
+   ],
+   "source": [
+    "control_mode = sr.live\n",
+    "control_mode"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 6,
+   "id": "9881f93b-68c1-41c9-b67d-0db5f9f4571c",
+   "metadata": {},
+   "outputs": [
+    {
+     "name": "stdout",
+     "output_type": "stream",
+     "text": [
+      "[0.21451629 0.30517208]\n"
+     ]
+    },
+    {
+     "data": {
+      "text/plain": [
+       "BetatronTuneMonitor(peer='TangoControlSystem:live', name='BETATRON_TUNE', lattice_names=None, tune_h=AttributeReadOnly(attribute='simulator/ringsimulator/ringsimulator/Tune_h', unit='', range=None), tune_v=AttributeReadOnly(attribute='simulator/ringsimulator/ringsimulator/Tune_v', unit='', range=None))"
+      ]
+     },
+     "execution_count": 6,
+     "metadata": {},
+     "output_type": "execute_result"
+    }
+   ],
+   "source": [
+    "tune_monitor = control_mode.get_betatron_tune_monitor(\"BETATRON_TUNE\")\n",
+    "print(tune_monitor.tune.get())\n",
+    "tune_monitor"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 9,
+   "id": "49e98106-dcd3-41f3-861a-a5bdac997ec9",
+   "metadata": {},
+   "outputs": [
+    {
+     "name": "stdout",
+     "output_type": "stream",
+     "text": [
+      "The ring has 208 quadrupolar correctors. The first one is named QCORR_001 (lattice name).\n"
+     ]
+    },
+    {
+     "data": {
+      "text/plain": [
+       "Quadrupole(peer='TangoControlSystem:live', name='QCORR_001', model_name='QCORR_001', magnet_model=IdentityMagnetModel(powerconverter=None, physics=Attribute(attribute='AN01-AR/EM-COR/CQLN.03/strength', unit='1/m', range=None), unit='1/m'))"
+      ]
+     },
+     "execution_count": 9,
+     "metadata": {},
+     "output_type": "execute_result"
+    }
+   ],
+   "source": [
+    "qcorrectors = control_mode.get_magnets(\"QCORR\")\n",
+    "first_qcorrector = qcorrectors[0]\n",
+    "print(\n",
+    "    f\"The ring has {len(qcorrectors)} quadrupolar correctors. \"\n",
+    "    f\"The first one is named {first_qcorrector.get_name()} (lattice name).\"\n",
+    ")\n",
+    "qcorrectors[0]  # String representation of the first corrector"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": null,
+   "id": "0b945d5d-09c9-48eb-a1e9-a8dbec2e76b8",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "# qcorrectors[0].strength.set(0.2)\n",
+    "qcorrectors[0].strength.get()"
+   ]
+  },
+  {
+   "cell_type": "markdown",
+   "id": "fda45408-f7c2-4bc0-a985-55fab65b6307",
+   "metadata": {},
+   "source": [
+    "### Standard tuning tool for tune correction"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 43,
+   "id": "78ea33ac-fc9d-4943-bdde-694e5f8ce3cf",
+   "metadata": {},
+   "outputs": [
+    {
+     "data": {
+      "text/plain": [
+       "Tune(peer='TangoControlSystem:live', name='DEFAULT_TUNE_CORRECTION', lattice_names=None, quad_array='QCORR', betatron_tune='BETATRON_TUNE', delta=0.001)"
+      ]
+     },
+     "execution_count": 43,
+     "metadata": {},
+     "output_type": "execute_result"
+    }
+   ],
+   "source": [
+    "tune_correction = control_mode.get_tune_tuning(\"DEFAULT_TUNE_CORRECTION\")\n",
+    "\n",
+    "tune_correction"
+   ]
+  },
+  {
+   "cell_type": "markdown",
+   "id": "d5abc174-b21c-4407-89a5-a2ef3f3f5121",
+   "metadata": {},
+   "source": [
+    "Let's try to set the tune using the tune correction tool."
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 44,
+   "id": "e848371d-90d5-4bbe-a034-66eb21d39d0c",
+   "metadata": {},
+   "outputs": [
+    {
+     "name": "stdout",
+     "output_type": "stream",
+     "text": [
+      "We've got an error saying: TuneResponse.correct(): no matrix loaded or measured\n"
+     ]
+    }
+   ],
+   "source": [
+    "from pyaml import PyAMLException\n",
+    "\n",
+    "try:\n",
+    "    tune_correction.set([0.21, 0.31])\n",
+    "except PyAMLException as e:\n",
+    "    print(f\"We've got an error saying: {e}\")"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 45,
+   "id": "72bcf013-c4a6-4695-9029-b899a53753bd",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "def tune_callback(step: int, action: int, m: Magnet, dtune: np.array):\n",
+    "    if action == ACTION_MEASURE:\n",
+    "        # On action measure, the measured dq / dk is passed as argument\n",
+    "        print(f\"Tune response: #{step} {m.get_name()}\")\n",
+    "    return True"
+   ]
+  },
+  {
+   "cell_type": "markdown",
+   "id": "8c2eef19-8fdb-4297-99aa-3be44f78085b",
+   "metadata": {},
+   "source": [
+    "It is not possible to do so without measuring the response matrix (or loading it from a file). In the properties of the tune_correction we can find TuneResponse object."
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 46,
+   "id": "d4712e98-a75a-41ae-8d11-18c3bee23a2a",
+   "metadata": {},
+   "outputs": [
+    {
+     "name": "stdout",
+     "output_type": "stream",
+     "text": [
+      "Tune response: #0 QCORR_001 [0. 0.]\n",
+      "Tune response: #1 QCORR_002 [ 0.14108408 -1.12654246]\n",
+      "Tune response: #2 QCORR_003 [ 0.12505253 -0.33585068]\n",
+      "Tune response: #3 QCORR_004 [ 0.12505253 -0.33585068]\n",
+      "Tune response: #4 QCORR_005 [ 0.12510871 -0.33496161]\n",
+      "Tune response: #5 QCORR_006 [ 0.12180106 -0.33812008]\n",
+      "Tune response: #6 QCORR_007 [ 0.12180106 -0.33812008]\n",
+      "Tune response: #7 QCORR_008 [ 0.12486034 -0.33514531]\n",
+      "Tune response: #8 QCORR_009 [ 0.12493914 -0.33546973]\n",
+      "Tune response: #9 QCORR_010 [ 0.12493914 -0.33546973]\n",
+      "Tune response: #10 QCORR_011 [ 0.12507861 -0.33620251]\n",
+      "Tune response: #11 QCORR_012 [ 0.12507861 -0.33620251]\n",
+      "Tune response: #12 QCORR_013 [ 0.25206877 -0.43354454]\n",
+      "Tune response: #13 QCORR_014 [ 0.12486482 -0.3361889 ]\n",
+      "Tune response: #14 QCORR_015 [ 0.12486482 -0.3361889 ]\n",
+      "Tune response: #15 QCORR_016 [ 0.12488068 -0.33530978]\n",
+      "Tune response: #16 QCORR_017 [ 0.12488068 -0.33530978]\n",
+      "Tune response: #17 QCORR_018 [ 0.23383542 -0.39128504]\n",
+      "Tune response: #18 QCORR_019 [ 0.51255924 -0.19282991]\n",
+      "Tune response: #19 QCORR_020 [ 0.51255924 -0.19282991]\n",
+      "Tune response: #20 QCORR_021 [ 0.23343669 -0.39127821]\n",
+      "Tune response: #21 QCORR_022 [ 0.23343669 -0.39127821]\n",
+      "Tune response: #22 QCORR_023 [ 0.12497345 -0.33484196]\n",
+      "Tune response: #23 QCORR_024 [ 0.12488524 -0.33536238]\n",
+      "Tune response: #24 QCORR_025 [ 0.12488524 -0.33536238]\n",
+      "Tune response: #25 QCORR_026 [ 0.12182225 -0.33964499]\n",
+      "Tune response: #26 QCORR_027 [ 0.1218687  -0.33962235]\n",
+      "Tune response: #27 QCORR_028 [ 0.1218687  -0.33962235]\n",
+      "Tune response: #28 QCORR_029 [ 0.12493511 -0.33523312]\n",
+      "Tune response: #29 QCORR_030 [ 0.12503031 -0.33476602]\n",
+      "Tune response: #30 QCORR_031 [ 0.12503031 -0.33476602]\n",
+      "Tune response: #31 QCORR_032 [ 0.23336101 -0.39139181]\n",
+      "Tune response: #32 QCORR_033 [ 0.23336101 -0.39139181]\n",
+      "Tune response: #33 QCORR_034 [ 0.51252458 -0.19277802]\n",
+      "Tune response: #34 QCORR_035 [ 0.51252458 -0.19277802]\n",
+      "Tune response: #35 QCORR_036 [ 0.12511647 -0.33515216]\n",
+      "Tune response: #36 QCORR_037 [ 0.12511647 -0.33515216]\n",
+      "Tune response: #37 QCORR_038 [ 0.12502361 -0.33614403]\n",
+      "Tune response: #38 QCORR_039 [ 0.12502361 -0.33614403]\n",
+      "Tune response: #39 QCORR_040 [ 0.23402823 -0.4194154 ]\n",
+      "Tune response: #40 QCORR_041 [ 0.23402823 -0.4194154 ]\n",
+      "Tune response: #41 QCORR_042 [ 0.12510591 -0.33619876]\n",
+      "Tune response: #42 QCORR_043 [ 0.12510591 -0.33619876]\n",
+      "Tune response: #43 QCORR_044 [ 0.12499713 -0.33534286]\n",
+      "Tune response: #44 QCORR_045 [ 0.12499713 -0.33534286]\n",
+      "Tune response: #45 QCORR_046 [ 0.12166254 -0.33815458]\n",
+      "Tune response: #46 QCORR_047 [ 0.12174441 -0.33810939]\n",
+      "Tune response: #47 QCORR_048 [ 0.12174441 -0.33810939]\n",
+      "Tune response: #48 QCORR_049 [ 0.12508502 -0.33508485]\n",
+      "Tune response: #49 QCORR_050 [ 0.12508502 -0.33508485]\n",
+      "Tune response: #50 QCORR_051 [ 0.12509343 -0.33612616]\n",
+      "Tune response: #51 QCORR_052 [ 0.08213163 -0.63877597]\n",
+      "Tune response: #52 QCORR_053 [ 0.08213163 -0.63877597]\n",
+      "Tune response: #53 QCORR_054 [ 0.12487347 -0.33435006]\n",
+      "Tune response: #54 QCORR_055 [ 0.12508113 -0.33443308]\n",
+      "Tune response: #55 QCORR_056 [ 0.12508113 -0.33443308]\n",
+      "Tune response: #56 QCORR_057 [ 0.1250788  -0.33544094]\n",
+      "Tune response: #57 QCORR_058 [ 0.1250788  -0.33544094]\n",
+      "Tune response: #58 QCORR_059 [ 0.12175333 -0.33999157]\n",
+      "Tune response: #59 QCORR_060 [ 0.12504199 -0.33577816]\n",
+      "Tune response: #60 QCORR_061 [ 0.12504199 -0.33577816]\n",
+      "Tune response: #61 QCORR_062 [ 0.12490695 -0.33464769]\n",
+      "Tune response: #62 QCORR_063 [ 0.12490695 -0.33464769]\n",
+      "Tune response: #63 QCORR_064 [ 0.2341997 -0.4173644]\n",
+      "Tune response: #64 QCORR_065 [ 0.23443821 -0.4174748 ]\n",
+      "Tune response: #65 QCORR_066 [ 0.23443821 -0.4174748 ]\n",
+      "Tune response: #66 QCORR_067 [ 0.12485773 -0.33502301]\n",
+      "Tune response: #67 QCORR_068 [ 0.12490317 -0.33603245]\n",
+      "Tune response: #68 QCORR_069 [ 0.12490317 -0.33603245]\n",
+      "Tune response: #69 QCORR_070 [ 0.23361061 -0.3932912 ]\n",
+      "Tune response: #70 QCORR_071 [ 0.23361061 -0.3932912 ]\n",
+      "Tune response: #71 QCORR_072 [ 0.51236801 -0.19310038]\n",
+      "Tune response: #72 QCORR_073 [ 0.23377253 -0.39230062]\n",
+      "Tune response: #73 QCORR_074 [ 0.23377253 -0.39230062]\n",
+      "Tune response: #74 QCORR_075 [ 0.12484581 -0.33649738]\n",
+      "Tune response: #75 QCORR_076 [ 0.12484581 -0.33649738]\n",
+      "Tune response: #76 QCORR_077 [ 0.12491847 -0.33521705]\n",
+      "Tune response: #77 QCORR_078 [ 0.12491847 -0.33521705]\n",
+      "Tune response: #78 QCORR_079 [ 0.12185943 -0.33780197]\n",
+      "Tune response: #79 QCORR_080 [ 0.12185943 -0.33780197]\n",
+      "Tune response: #80 QCORR_081 [ 0.12509877 -0.33475004]\n",
+      "Tune response: #81 QCORR_082 [ 0.12509302 -0.33596782]\n",
+      "Tune response: #82 QCORR_083 [ 0.12509302 -0.33596782]\n",
+      "Tune response: #83 QCORR_084 [ 0.23344347 -0.39309272]\n",
+      "Tune response: #84 QCORR_085 [ 0.23344347 -0.39309272]\n",
+      "Tune response: #85 QCORR_086 [ 0.5118344 -0.1933526]\n",
+      "Tune response: #86 QCORR_087 [ 0.5118344 -0.1933526]\n",
+      "Tune response: #87 QCORR_088 [ 0.12500307 -0.3368262 ]\n",
+      "Tune response: #88 QCORR_089 [ 0.12509966 -0.33676465]\n",
+      "Tune response: #89 QCORR_090 [ 0.12509966 -0.33676465]\n",
+      "Tune response: #90 QCORR_091 [ 0.12497516 -0.33542715]\n",
+      "Tune response: #91 QCORR_092 [ 0.12497516 -0.33542715]\n",
+      "Tune response: #92 QCORR_093 [ 0.25209882 -0.43242744]\n",
+      "Tune response: #93 QCORR_094 [ 0.12501387 -0.33442674]\n",
+      "Tune response: #94 QCORR_095 [ 0.12501387 -0.33442674]\n",
+      "Tune response: #95 QCORR_096 [ 0.12510526 -0.33461475]\n",
+      "Tune response: #96 QCORR_097 [ 0.12510526 -0.33461475]\n",
+      "Tune response: #97 QCORR_098 [ 0.12183786 -0.33961149]\n",
+      "Tune response: #98 QCORR_099 [ 0.12164935 -0.33985299]\n",
+      "Tune response: #99 QCORR_100 [ 0.12164935 -0.33985299]\n",
+      "Tune response: #100 QCORR_101 [ 0.12490289 -0.33599354]\n",
+      "Tune response: #101 QCORR_102 [ 0.12490289 -0.33599354]\n",
+      "Tune response: #102 QCORR_103 [ 0.12484849 -0.3351305 ]\n",
+      "Tune response: #103 QCORR_104 [ 0.14119285 -1.1206593 ]\n",
+      "Tune response: #104 QCORR_105 [ 0.14119285 -1.1206593 ]\n",
+      "Tune response: #105 QCORR_106 [ 0.12491291 -0.33451437]\n",
+      "Tune response: #106 QCORR_107 [ 0.12491291 -0.33451437]\n",
+      "Tune response: #107 QCORR_108 [ 0.12503198 -0.33442538]\n",
+      "Tune response: #108 QCORR_109 [ 0.12503198 -0.33442538]\n",
+      "Tune response: #109 QCORR_110 [ 0.12187792 -0.33943611]\n",
+      "Tune response: #110 QCORR_111 [ 0.12187792 -0.33943611]\n",
+      "Tune response: #111 QCORR_112 [ 0.12500107 -0.33626925]\n",
+      "Tune response: #112 QCORR_113 [ 0.12500107 -0.33626925]\n",
+      "Tune response: #113 QCORR_114 [ 0.12486868 -0.33616703]\n",
+      "Tune response: #114 QCORR_115 [ 0.1249361 -0.3350045]\n",
+      "Tune response: #115 QCORR_116 [ 0.1249361 -0.3350045]\n",
+      "Tune response: #116 QCORR_117 [ 0.25223    -0.43103031]\n",
+      "Tune response: #117 QCORR_118 [ 0.12500054 -0.33465988]\n",
+      "Tune response: #118 QCORR_119 [ 0.12500054 -0.33465988]\n",
+      "Tune response: #119 QCORR_120 [ 0.12487841 -0.3346831 ]\n",
+      "Tune response: #120 QCORR_121 [ 0.12489421 -0.33525374]\n",
+      "Tune response: #121 QCORR_122 [ 0.12495742 -0.3355479 ]\n",
+      "Tune response: #122 QCORR_123 [ 0.23366606 -0.39309083]\n",
+      "Tune response: #123 QCORR_124 [ 0.51212292 -0.19372257]\n",
+      "Tune response: #124 QCORR_125 [ 0.5122022  -0.19266529]\n",
+      "Tune response: #125 QCORR_126 [ 0.23369959 -0.39138518]\n",
+      "Tune response: #126 QCORR_127 [ 0.12497853 -0.33618062]\n",
+      "Tune response: #127 QCORR_128 [ 0.12487123 -0.33639981]\n",
+      "Tune response: #128 QCORR_129 [ 0.12495812 -0.33595205]\n",
+      "Tune response: #129 QCORR_130 [ 0.12495812 -0.33595205]\n",
+      "Tune response: #130 QCORR_131 [ 0.12169248 -0.3385926 ]\n",
+      "Tune response: #131 QCORR_132 [ 0.12186534 -0.33823447]\n",
+      "Tune response: #132 QCORR_133 [ 0.12500284 -0.3340644 ]\n",
+      "Tune response: #133 QCORR_134 [ 0.12506427 -0.3342082 ]\n",
+      "Tune response: #134 QCORR_135 [ 0.12508284 -0.3351985 ]\n",
+      "Tune response: #135 QCORR_136 [ 0.12495217 -0.3356052 ]\n",
+      "Tune response: #136 QCORR_137 [ 0.23341791 -0.39318205]\n",
+      "Tune response: #137 QCORR_138 [ 0.51168968 -0.19370972]\n",
+      "Tune response: #138 QCORR_139 [ 0.51199391 -0.1929018 ]\n",
+      "Tune response: #139 QCORR_140 [ 0.12503133 -0.33670963]\n",
+      "Tune response: #140 QCORR_141 [ 0.12503133 -0.33670963]\n",
+      "Tune response: #141 QCORR_142 [ 0.12506241 -0.33691474]\n",
+      "Tune response: #142 QCORR_143 [ 0.12509425 -0.33659454]\n",
+      "Tune response: #143 QCORR_144 [ 0.12494441 -0.33621135]\n",
+      "Tune response: #144 QCORR_145 [ 0.23420334 -0.41930918]\n",
+      "Tune response: #145 QCORR_146 [ 0.23420334 -0.41930918]\n",
+      "Tune response: #146 QCORR_147 [ 0.12503771 -0.33494526]\n",
+      "Tune response: #147 QCORR_148 [ 0.12508448 -0.33416002]\n",
+      "Tune response: #148 QCORR_149 [ 0.12508448 -0.33416002]\n",
+      "Tune response: #149 QCORR_150 [ 0.12179816 -0.33887895]\n",
+      "Tune response: #150 QCORR_151 [ 0.12179816 -0.33887895]\n",
+      "Tune response: #151 QCORR_152 [ 0.12488236 -0.33628702]\n",
+      "Tune response: #152 QCORR_153 [ 0.12488236 -0.33628702]\n",
+      "Tune response: #153 QCORR_154 [ 0.12487956 -0.33591298]\n",
+      "Tune response: #154 QCORR_155 [ 0.12487956 -0.33591298]\n",
+      "Tune response: #155 QCORR_156 [ 0.08218439 -0.63584414]\n",
+      "Tune response: #156 QCORR_157 [ 0.08218439 -0.63584414]\n",
+      "Tune response: #157 QCORR_158 [ 0.12500294 -0.33566578]\n",
+      "Tune response: #158 QCORR_159 [ 0.12500294 -0.33566578]\n",
+      "Tune response: #159 QCORR_160 [ 0.12511587 -0.33460896]\n",
+      "Tune response: #160 QCORR_161 [ 0.12511587 -0.33460896]\n",
+      "Tune response: #161 QCORR_162 [ 0.12185797 -0.33836285]\n",
+      "Tune response: #162 QCORR_163 [ 0.12185797 -0.33836285]\n",
+      "Tune response: #163 QCORR_164 [ 0.12490003 -0.33560632]\n",
+      "Tune response: #164 QCORR_165 [ 0.12490003 -0.33560632]\n",
+      "Tune response: #165 QCORR_166 [ 0.12483268 -0.33611606]\n",
+      "Tune response: #166 QCORR_167 [ 0.12483268 -0.33611606]\n",
+      "Tune response: #167 QCORR_168 [ 0.23444444 -0.41818123]\n",
+      "Tune response: #168 QCORR_169 [ 0.23422042 -0.41936039]\n",
+      "Tune response: #169 QCORR_170 [ 0.23422042 -0.41936039]\n",
+      "Tune response: #170 QCORR_171 [ 0.1248976  -0.33572379]\n",
+      "Tune response: #171 QCORR_172 [ 0.12484674 -0.33507633]\n",
+      "Tune response: #172 QCORR_173 [ 0.12505951 -0.33500042]\n",
+      "Tune response: #173 QCORR_174 [ 0.12505951 -0.33500042]\n",
+      "Tune response: #174 QCORR_175 [ 0.51252021 -0.19308975]\n",
+      "Tune response: #175 QCORR_176 [ 0.51252021 -0.19308975]\n",
+      "Tune response: #176 QCORR_177 [ 0.23353724 -0.39105368]\n",
+      "Tune response: #177 QCORR_178 [ 0.23353724 -0.39105368]\n",
+      "Tune response: #178 QCORR_179 [ 0.12491251 -0.33526429]\n",
+      "Tune response: #179 QCORR_180 [ 0.12491251 -0.33526429]\n",
+      "Tune response: #180 QCORR_181 [ 0.1250613  -0.33586471]\n",
+      "Tune response: #181 QCORR_182 [ 0.1250613  -0.33586471]\n",
+      "Tune response: #182 QCORR_183 [ 0.12190521 -0.33934169]\n",
+      "Tune response: #183 QCORR_184 [ 0.12190521 -0.33934169]\n",
+      "Tune response: #184 QCORR_185 [ 0.12499461 -0.33478587]\n",
+      "Tune response: #185 QCORR_186 [ 0.12499461 -0.33478587]\n",
+      "Tune response: #186 QCORR_187 [ 0.12485442 -0.33477016]\n",
+      "Tune response: #187 QCORR_188 [ 0.12485442 -0.33477016]\n",
+      "Tune response: #188 QCORR_189 [ 0.51140121 -0.19316921]\n",
+      "Tune response: #189 QCORR_190 [ 0.51140121 -0.19316921]\n",
+      "Tune response: #190 QCORR_191 [ 0.23373849 -0.39115692]\n",
+      "Tune response: #191 QCORR_192 [ 0.23373849 -0.39115692]\n",
+      "Tune response: #192 QCORR_193 [ 0.12511929 -0.33556909]\n",
+      "Tune response: #193 QCORR_194 [ 0.12508065 -0.33647682]\n",
+      "Tune response: #194 QCORR_195 [ 0.1248522  -0.33648323]\n",
+      "Tune response: #195 QCORR_196 [ 0.1248522  -0.33648323]\n",
+      "Tune response: #196 QCORR_197 [ 0.2523843  -0.43337695]\n",
+      "Tune response: #197 QCORR_198 [ 0.2523843  -0.43337695]\n",
+      "Tune response: #198 QCORR_199 [ 0.12495199 -0.33575267]\n",
+      "Tune response: #199 QCORR_200 [ 0.12495199 -0.33575267]\n",
+      "Tune response: #200 QCORR_201 [ 0.12505672 -0.33487426]\n",
+      "Tune response: #201 QCORR_202 [ 0.12169879 -0.33815934]\n",
+      "Tune response: #202 QCORR_203 [ 0.12169879 -0.33815934]\n",
+      "Tune response: #203 QCORR_204 [ 0.1248285  -0.33525018]\n",
+      "Tune response: #204 QCORR_205 [ 0.1248285  -0.33525018]\n",
+      "Tune response: #205 QCORR_206 [ 0.12493812 -0.33615742]\n",
+      "Tune response: #206 QCORR_207 [ 0.12511898 -0.33617475]\n",
+      "Tune response: #207 QCORR_208 [ 0.12511898 -0.33617475]\n",
+      "CPU times: user 764 ms, sys: 199 ms, total: 962 ms\n",
+      "Wall time: 5min 12s\n"
+     ]
+    }
+   ],
+   "source": [
+    "%%time\n",
+    "tune_correction.response.measure(callback=tune_callback, set_wait_time=1.5)"
+   ]
+  },
+  {
+   "cell_type": "markdown",
+   "id": "2c746dcf-c05f-4e5b-88cb-f4680e9dde18",
+   "metadata": {},
+   "source": [
+    "The correction matrix can be saved to a file (and added to the configuration file)."
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 55,
+   "id": "f2a78f30-9576-4ad3-bf9b-3f2233487a92",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "tune_correction.response.save_json(\"tune_response_matrix_live.json\")\n",
+    "# tune_correction.response.load_json('tune_response_matrix.json')"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 56,
+   "id": "40357e20-93d4-40b8-899c-b93a70378af6",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "tune_correction.set([0.21, 0.31], iter=10, wait_time=1.2)"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 57,
+   "id": "bdac5596-9b18-42a7-9670-1a2c825a25b0",
+   "metadata": {},
+   "outputs": [
+    {
+     "name": "stdout",
+     "output_type": "stream",
+     "text": [
+      "[0.21001973 0.30977679]\n",
+      "TangoControlSystem:live\n"
+     ]
+    },
+    {
+     "data": {
+      "text/plain": [
+       "Tune(peer='TangoControlSystem:live', name='DEFAULT_TUNE_CORRECTION', lattice_names=None, quad_array='QCORR', betatron_tune='BETATRON_TUNE', delta=0.001)"
+      ]
+     },
+     "execution_count": 57,
+     "metadata": {},
+     "output_type": "execute_result"
+    }
+   ],
+   "source": [
+    "print(tune_correction.readback())\n",
+    "print(tune_correction.get_peer())\n",
+    "tune_correction"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 58,
+   "id": "7958146e-d159-46ab-949a-e020e966a856",
+   "metadata": {},
+   "outputs": [
+    {
+     "data": {
+      "text/plain": [
+       "array([0.21001973, 0.30977679])"
+      ]
+     },
+     "execution_count": 58,
+     "metadata": {},
+     "output_type": "execute_result"
+    }
+   ],
+   "source": [
+    "tune_monitor.tune.get()"
+   ]
+  },
+  {
+   "cell_type": "markdown",
+   "id": "5f329b6f-2923-425a-85eb-89a934fa90e6",
+   "metadata": {},
+   "source": [
+    "It is also possible instead of measuring to load the file of a response matrix"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 59,
+   "id": "d0d7b41e-a8c3-4186-af18-c196dc86cd0d",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "# tune_correction.response.load_json('tune_response_matrix_live.json')"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 60,
+   "id": "50be3687-e087-4e3a-80ec-c71915642bde",
+   "metadata": {},
+   "outputs": [
+    {
+     "name": "stdout",
+     "output_type": "stream",
+     "text": [
+      "Tune readback is [0.21001973 0.30977679]\n",
+      "Let's change the tune to qx=0.19, qy=0.28\n",
+      "Tune readback is [0.18668703 0.26823733]\n",
+      "Let's change the tune to qx=0.21, qy=0.3\n",
+      "Tune readback is [0.21768279 0.31389756]\n"
+     ]
+    }
+   ],
+   "source": [
+    "print(f\"Tune readback is {tune_correction.readback()}\")\n",
+    "qx, qy = 0.19, 0.28\n",
+    "print(f\"Let's change the tune to {qx=:}, {qy=:}\")\n",
+    "tune_correction.set([qx, qy], iter=10, wait_time=1.2)\n",
+    "print(f\"Tune readback is {tune_correction.readback()}\")\n",
+    "\n",
+    "qx, qy = 0.21, 0.3\n",
+    "print(f\"Let's change the tune to {qx=:}, {qy=:}\")\n",
+    "\n",
+    "tune_correction.set([qx, qy], iter=10, wait_time=1.2)\n",
+    "print(f\"Tune readback is {tune_correction.readback()}\")\n",
+    "\n",
+    "# You can try to do something stupid too!\n",
+    "# qx, qy = 0.5, 0.0\n",
+    "# print(f\"Let's do something stupid and change the tune to {qx=:}, {qy=:}\")\n",
+    "# tune_correction.set([qx, qy])"
+   ]
+  },
+  {
+   "cell_type": "markdown",
+   "id": "861b7827-5207-4765-9604-380c609303b5",
+   "metadata": {},
+   "source": [
+    "### Manual tune correction"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 32,
+   "id": "d4c743fe-97df-4444-806d-f8c2f1caf613",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "control_mode = sr.live"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 33,
+   "id": "308ec9e2-d204-48dd-b90c-f6713ee15233",
+   "metadata": {},
+   "outputs": [
+    {
+     "name": "stdout",
+     "output_type": "stream",
+     "text": [
+      "Design tune is [0.21427229 0.30571746]\n",
+      "Tune in live mode is [0.21427229 0.30571746]\n"
+     ]
+    }
+   ],
+   "source": [
+    "tunemat = np.zeros((len(qcorrectors), 2))\n",
+    "design_tune = tune_monitor.tune.get()\n",
+    "print(f\"Design tune is {design_tune}\")\n",
+    "print(f\"Tune in live mode is {tune_monitor.tune.get()}\")"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 34,
+   "id": "b01e871b-bcef-4713-bbda-3c12d57894cd",
+   "metadata": {},
+   "outputs": [
+    {
+     "data": {
+      "application/vnd.jupyter.widget-view+json": {
+       "model_id": "9845e9f641cf4694afdf4541609cd901",
+       "version_major": 2,
+       "version_minor": 0
+      },
+      "text/plain": [
+       "  0%|          | 0/208 [00:00<?, ?it/s]"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    }
+   ],
+   "source": [
+    "from time import sleep\n",
+    "\n",
+    "from tqdm.notebook import tqdm\n",
+    "\n",
+    "for idx, m in enumerate(tqdm(qcorrectors)):\n",
+    "    strength = m.strength.get()\n",
+    "    delta = 1e-3\n",
+    "    m.strength.set(strength + delta)\n",
+    "    # print(f\"Changing magnet strength in {m.get_name()}\")\n",
+    "    sleep(1)\n",
+    "    dq = tune_monitor.tune.get() - design_tune\n",
+    "    tunemat[idx] = dq * delta\n",
+    "    m.strength.set(strength)\n",
+    "\n",
+    "# Compute correction matrix\n",
+    "correctionmat = np.linalg.pinv(tunemat.T)"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 35,
+   "id": "dceca704-2695-431c-a7a5-c32d7098220c",
+   "metadata": {},
+   "outputs": [
+    {
+     "name": "stdout",
+     "output_type": "stream",
+     "text": [
+      "Tune before correction [0.21439602 0.30539334]\n",
+      "Chanding tune by [0.01, -0.02]\n",
+      "Tune after correction [nan nan]\n",
+      "Tune setting the tune back to original value correction [0.21427229 0.30571746]\n"
+     ]
+    }
+   ],
+   "source": [
+    "old_strength_values = qcorrectors.strengths.get()\n",
+    "print(f\"Tune before correction {tune_monitor.tune.get()}\")\n",
+    "dqx, dqy = 0.01, -0.02\n",
+    "print(f\"Chanding tune by [{dqx}, {dqy}]\")\n",
+    "qcorrectors.strengths.set(old_strength_values + np.matmul(correctionmat, [dqx, dqy]))\n",
+    "sleep(3)\n",
+    "# tune_monitor.tune.get()\n",
+    "print(f\"Tune after correction {tune_monitor.tune.get()}\")\n",
+    "qcorrectors.strengths.set(old_strength_values)\n",
+    "sleep(3)\n",
+    "print(\n",
+    "    f\"Tune setting the tune back to original value correction {tune_monitor.tune.get()}\"\n",
+    ")"
+   ]
+  }
+ ],
+ "metadata": {
+  "kernelspec": {
+   "display_name": "Python 3 (ipykernel)",
+   "language": "python",
+   "name": "python3"
+  },
+  "language_info": {
+   "codemirror_mode": {
+    "name": "ipython",
+    "version": 3
+   },
+   "file_extension": ".py",
+   "mimetype": "text/x-python",
+   "name": "python",
+   "nbconvert_exporter": "python",
+   "pygments_lexer": "ipython3",
+   "version": "3.12.3"
+  }
+ },
+ "nbformat": 4,
+ "nbformat_minor": 5
+}
diff --git a/examples/SOLEIL_examples/02-chromaticity_measurement.ipynb b/examples/SOLEIL_examples/02-chromaticity_measurement.ipynb
new file mode 100644
index 0000000..c5d43d0
--- /dev/null
+++ b/examples/SOLEIL_examples/02-chromaticity_measurement.ipynb
@@ -0,0 +1,219 @@
+{
+ "cells": [
+  {
+   "cell_type": "code",
+   "execution_count": 1,
+   "id": "9fccf447-e065-46ab-88c3-a9763d9ed06b",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "import os\n",
+    "\n",
+    "import numpy as np\n",
+    "\n",
+    "from pyaml.accelerator import Accelerator\n",
+    "from pyaml.common.constants import ACTION_MEASURE\n",
+    "from pyaml.configuration.factory import Factory\n",
+    "from pyaml.magnet.magnet import Magnet"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 2,
+   "id": "6c657c45-2d0e-404a-8304-b250becea262",
+   "metadata": {},
+   "outputs": [
+    {
+     "name": "stdout",
+     "output_type": "stream",
+     "text": [
+      "30 Jan% 2026, 15:55:30 | WARNING | PyAML Tango control system binding (0.3.3) initialized with name 'live' and TANGO_HOST=localhost:11000\n"
+     ]
+    }
+   ],
+   "source": [
+    "sr = Accelerator.load(\"p.yaml\")\n",
+    "# This is a fix to be able to load multiple times.\n",
+    "# This will be fixed after pyAML workshop\n",
+    "Factory.clear()\n",
+    "# sr.design.get_lattice().disable_6d()"
+   ]
+  },
+  {
+   "cell_type": "markdown",
+   "id": "e300a41c-ee12-47db-80c3-090468b2c293",
+   "metadata": {},
+   "source": [
+    "For the live control mode, you should have some control system emulation runing. It is possible to do \n",
+    "```\n",
+    "apptainer pull virtual-accelerator.sif oras://gitlab-registry.synchrotron-soleil.fr/software-control-system/containers/apptainer/virtual-accelerator:latest\n",
+    "apptainer run virtual-accelerator.sif\n",
+    "```\n",
+    "this will run SOLEIL II proof-of-concept digital twin on localhost:11000. You can play with the digital twin itself (without pyAML) via jive to check that everything is working. You can run jive in a different terminal with \n",
+    "```\n",
+    "apptainer pull jive.sif https://gitlab.synchrotron-soleil.fr/api/v4/projects/2739/packages/generic/jive/latest/jive.sif\n",
+    "apptainer run jive.sif\n",
+    "```\n",
+    "On linux you may need additionally to configure X11\n",
+    "```\n",
+    "export DISPLAY=:0\n",
+    "xhost +local:root\n",
+    "```\n",
+    "\n",
+    "NOTE: This is just a demonstration of pyAML functionality. Certain things may be done stupidly. The person who wrote this jupyter notebook only cared about showing that the code is working, not about intelligently controlling the accelerator."
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 3,
+   "id": "a5bde3a2-b1aa-4c64-afaf-068ad61f0f1b",
+   "metadata": {},
+   "outputs": [
+    {
+     "data": {
+      "text/plain": [
+       "TangoControlSystem(name='live', tango_host='localhost:11000', debug_level=None, lazy_devices=True, scalar_aggregator='tango.pyaml.multi_attribute', vector_aggregator=None, timeout_ms=3000)"
+      ]
+     },
+     "execution_count": 3,
+     "metadata": {},
+     "output_type": "execute_result"
+    }
+   ],
+   "source": [
+    "control_mode = sr.live\n",
+    "control_mode"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 4,
+   "id": "1da59cb7-ba59-479f-97d2-4fa550574737",
+   "metadata": {},
+   "outputs": [
+    {
+     "data": {
+      "text/plain": [
+       "ChomaticityMonitor(peer='TangoControlSystem:live', name='DEFAULT_CHROMATICITY_MEASUREMENT', lattice_names=None, betatron_tune='BETATRON_TUNE', RFfreq='RF', N_step=15, alphac=None, E_delta=0.001, Max_E_delta=0.01, N_tune_meas=3, Sleep_between_meas=2.0, Sleep_between_RFvar=2.0, fit_order=2)"
+      ]
+     },
+     "execution_count": 4,
+     "metadata": {},
+     "output_type": "execute_result"
+    }
+   ],
+   "source": [
+    "chromaticity_measurement = control_mode.get_chromaticity_monitor(\n",
+    "    \"DEFAULT_CHROMATICITY_MEASUREMENT\"\n",
+    ")\n",
+    "chromaticity_measurement"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 5,
+   "id": "cbd5672c-79e6-457f-b388-b2fdcac77d11",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "def chroma_callback(step: int, action: int, rf: float, tune: np.array):\n",
+    "    if action == ACTION_MEASURE:\n",
+    "        print(f\"Tune response measurement: #{step} RF={rf} Tune={tune}\")\n",
+    "    return True"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 6,
+   "id": "bd984afc-d011-40a6-8a26-983fdc923a5b",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "sr.design.get_lattice().disable_6d()\n",
+    "alphac = sr.design.get_lattice().get_mcf()\n",
+    "sr.design.get_lattice().enable_6d()"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 7,
+   "id": "a0e66f14-cf54-4811-b728-652dd9f7025b",
+   "metadata": {},
+   "outputs": [
+    {
+     "name": "stdout",
+     "output_type": "stream",
+     "text": [
+      "Tune response measurement: #0 RF=352314214.3832288 Tune=[np.float64(0.21591200203326322), np.float64(0.30739352977216233)]\n",
+      "Tune response measurement: #0 RF=352314214.3832288 Tune=[np.float64(0.21591200203326322), np.float64(0.30739352977216233)]\n",
+      "Tune response measurement: #0 RF=352314214.3832288 Tune=[np.float64(0.21591200203326322), np.float64(0.30739352977216233)]\n",
+      "Tune response measurement: #1 RF=352314233.2437594 Tune=[np.float64(0.21508023857147912), np.float64(0.3065452310791728)]\n",
+      "Tune response measurement: #1 RF=352314233.2437594 Tune=[np.float64(0.21508023857147912), np.float64(0.3065452310791728)]\n",
+      "Tune response measurement: #1 RF=352314233.2437594 Tune=[np.float64(0.21508023857147912), np.float64(0.3065452310791728)]\n",
+      "Tune response measurement: #2 RF=352314252.10429 Tune=[np.float64(0.21427228672796908), np.float64(0.3057174574006098)]\n",
+      "Tune response measurement: #2 RF=352314252.10429 Tune=[np.float64(0.21427228672796908), np.float64(0.3057174574006098)]\n",
+      "Tune response measurement: #2 RF=352314252.10429 Tune=[np.float64(0.21427228672796908), np.float64(0.3057174574006098)]\n",
+      "Tune response measurement: #3 RF=352314270.9648206 Tune=[np.float64(0.21348998465245453), np.float64(0.30491033140939006)]\n",
+      "Tune response measurement: #3 RF=352314270.9648206 Tune=[np.float64(0.21348998465245453), np.float64(0.30491033140939006)]\n",
+      "Tune response measurement: #3 RF=352314270.9648206 Tune=[np.float64(0.21348998465245453), np.float64(0.30491033140939006)]\n",
+      "Tune response measurement: #4 RF=352314289.82535124 Tune=[np.float64(0.2127351726560798), np.float64(0.30412397465571234)]\n",
+      "Tune response measurement: #4 RF=352314289.82535124 Tune=[np.float64(0.2127351726560798), np.float64(0.30412397465571234)]\n",
+      "Tune response measurement: #4 RF=352314289.82535124 Tune=[np.float64(0.2127351726560798), np.float64(0.30412397465571234)]\n"
+     ]
+    },
+    {
+     "data": {
+      "image/png": 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",
+      "text/plain": [
+       "<Figure size 640x480 with 2 Axes>"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/plain": [
+       "array([1.58878253, 1.63480198])"
+      ]
+     },
+     "execution_count": 7,
+     "metadata": {},
+     "output_type": "execute_result"
+    }
+   ],
+   "source": [
+    "chromaticity_measurement.measure(\n",
+    "    callback=chroma_callback,\n",
+    "    do_plot=True,\n",
+    "    alphac=alphac,\n",
+    "    fit_order=2,\n",
+    "    N_step=5,\n",
+    "    Sleep_between_meas=2.5,\n",
+    "    Sleep_between_RFvar=2.5,\n",
+    ")"
+   ]
+  }
+ ],
+ "metadata": {
+  "kernelspec": {
+   "display_name": "Python 3 (ipykernel)",
+   "language": "python",
+   "name": "python3"
+  },
+  "language_info": {
+   "codemirror_mode": {
+    "name": "ipython",
+    "version": 3
+   },
+   "file_extension": ".py",
+   "mimetype": "text/x-python",
+   "name": "python",
+   "nbconvert_exporter": "python",
+   "pygments_lexer": "ipython3",
+   "version": "3.12.3"
+  }
+ },
+ "nbformat": 4,
+ "nbformat_minor": 5
+}
diff --git a/examples/SOLEIL_examples/SOLEIL_II_V3631_V001_database_rf.m b/examples/SOLEIL_examples/SOLEIL_II_V3631_V001_database_rf.m
new file mode 100644
index 0000000..18d213c
--- /dev/null
+++ b/examples/SOLEIL_examples/SOLEIL_II_V3631_V001_database_rf.m
@@ -0,0 +1,4249 @@
+function ring = SOLEIL_II_V3631_sym1_V001_database()
+ring = {...
+    atringparam('SOLEIL_II_V3631_sym1_V001_nomenclature_V1_close', 2750000000.0, 1, 'HarmNumber', 416, 'M_File', '/home/habet/Downloads/SOLEIL_II_V3631_sym1_pipe_mult2_V001.m', 'Particle', struct('name', 'relativistic', 'rest_energy', 0.0, 'charge', -1.0), 'RApertures', [-0.015   0.015  -0.0075  0.0075], 'beam_current', 0.0, 'cell_harmnumber', 416.0);...
+       atmarker('SD01ICENTER', 'RApertures', [-0.015   0.015  -0.0075  0.0075]);...
+        atdrift('SD1I_1', 1.54332916586002, 'Action', 'BPM', 'RApertures', [-0.015   0.008  -0.0075  0.0075]);...
+    atmultipole('SD01IKICKER4', 0.3, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Class', 'Octupole', 'RApertures', [-0.015   0.008  -0.0035  0.0035]);...
+        atdrift('SD1I_2', 0.265, 'Action', 'BPM', 'EApertures', [0.015  0.0035]);...
+       atmarker('MIKSTART', 'EApertures', [0.015  0.0035]);...
+    atmultipole('MIK', 0.15, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Class', 'Octupole', 'EApertures', [0.015  0.0035]);...
+        atdrift('SD1I_3', 0.0500000000000001, 'Action', 'BPM', 'EApertures', [0.015  0.0035]);...
+    atmultipole('MIK', 0.15, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Class', 'Octupole', 'EApertures', [0.015  0.0035]);...
+        atdrift('SD1I_4', 0.0500000000000002, 'Action', 'BPM', 'EApertures', [0.015  0.0035]);...
+    atmultipole('MIK', 0.15, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Class', 'Octupole', 'EApertures', [0.015  0.0035]);...
+        atdrift('SD1I_5', 0.0499999999999999, 'Action', 'BPM', 'EApertures', [0.015  0.0035]);...
+    atmultipole('MIK', 0.15, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Class', 'Octupole', 'EApertures', [0.015  0.0035]);...
+        atdrift('SD1I_6', 0.0500000000000001, 'Action', 'BPM', 'EApertures', [0.015               0.00572222222222222]);...
+    atmultipole('MIK', 0.15, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Class', 'Octupole', 'EApertures', [0.015  0.0075]);...
+       atmarker('MIKEND', 'EApertures', [0.015  0.0075]);...
+        atdrift('SD1I_7', 0.070533215851725, 'Action', 'BPM', 'EApertures', [0.015  0.0075]);...
+       atmarker('SD01ICOLLIMATORSTART', 'EApertures', [0.015  0.0075]);...
+        atdrift('SD01ICOLLIMATOR', 0.5, 'RApertures', [-0.015   0.008  -0.0075  0.0075]);...
+       atmarker('SD01ICOLLIMATOREND', 'EApertures', [0.015  0.0075]);...
+        atdrift('SD1I_8', 0.0703667841482742, 'Action', 'BPM', 'EApertures', [0.012 0.012]);...
+       atmarker('VANNE_START', 'EApertures', [0.012 0.012]);...
+        atdrift('SD1I_9', 0.322, 'Action', 'BPM', 'EApertures', [0.012 0.012]);...
+       atmarker('FCOR_1_2', 'UUID', 'rJ4jyhBzHRgK5KA');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'rEInQXsTb5ikehM');...
+       atmarker('VANNE_END', 'EApertures', [0.008 0.008]);...
+       atmarker('SD01IEND', 'EApertures', [0.008 0.008]);...
+       atmarker('AN-C01START', 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+    atsextupole('SH1_COR', 0.075, 180.531158381771, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.0062, 'BoLength', 0.075, 'EApertures', [0.008 0.008], 'KickAngle', [0. 0.], 'UUID', 'EtJmpy6H2l9ceFl');...
+        atdrift('D022HI', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH1_QCORROCT_1_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.00718, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'K9DCoKC9KdqLgE3');...
+        atdrift('D031HI', 0.052, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q1', 0.137671036897098, 9.06658187296726, 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.0085 0.0085], 'UUID', 'SbCUk2oqZDRv1aJ');...
+        atdrift('D03HI', 0.052, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH2_HCOR', 0.075, -0.0179339928448087, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.0062, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'a8OgqVuDFCiUtHY');...
+        atdrift('D022HI', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH2_QCORROCT_2', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.00718, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'BJGPCw4ONy98JHU');...
+        atdrift('D03HI', 0.052, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q2', 0.190595998125992, -9.58185915782871, 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.18, 'EApertures', [0.0085 0.0085], 'UUID', 'TjIV9Gwi8k61Fwi');...
+        atdrift('D041HI', 0.118040964330437, 'Action', 'BPM', 'EApertures', [0.0085 0.0085]);...
+      atmonitor('BPM', 'EApertures', [0.0085 0.0085], 'UUID', 'dOiXIaUSRHg6oUq');...
+    atsextupole('SH3_VCOR', 0.075, -319.26546309512, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.0062, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'eXLllDUsb1TAaRC');...
+        atdrift('D022HIQ', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0085 0.0085], 'UUID', 'UwRF50cGEWVOsPz');...
+        atdrift('D03HIQ', 0.1, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q3', 0.19168495937003, 8.41314022851464, 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.18, 'EApertures', [0.0085 0.0085], 'UUID', 'q0yZvW42s5qKVgn');...
+        atdrift('D05HI', 0.00499988833315879, 'EApertures', [0.0085 0.0085]);...
+        atdrift('LBD1I', 0.0395472975018047, 'EApertures', [0.0085 0.0085]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'U6Bnf69OXT5Ra1K');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00772413793103448 0.00772413793103448]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD11', 0.09, -701.568414672357, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'RX2c4Al3f5WiGTR');...
+       atmarker('CROTCH_01_1', 'EApertures', [0.006 0.006]);...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_3_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'RhPmQAOmVVy5gta');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'MjwqXMZqEu5oOC9');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF11_HCOR', 0.12, 831.660252988522, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'NJuzry8yOuLrka9');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'wS0poTZDHxnCyTY');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'zMkBTupr5sDlkxr');...
+    atsextupole('SXD11_VCOR', 0.09, -701.568414672357, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'xm0Sm0juaB2IH9Q');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'yBLIGAGcodwAXPv');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'z1RLULYBo54WQnh');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('MRSV', 'EApertures', [0.00785 0.00785]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'tyXQtKtdsSnZGV8');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD1', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'kRhDfs8zLjkvA1P');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_01_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'jLPhvfs1c2gCtcQ');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_4_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'sBH4eSukOMrou6I');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF1_HCOR', 0.12, 781.382308964691, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'WrCJaRDRB4A3RX2');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'CUAmhHP58u0oD3G');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'k3XgI7p0t0XPcX7');...
+    atsextupole('SXD1_VCOR', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'dgK1ooQg2O5cDQQ');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'Q1i1q312KLWFQL3');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'hlSwsln7F8jzSMM');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.0078974358974359 0.0078974358974359]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'TupyBCnExljzFRN');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD1', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'KSOWmEsQSZg6H8I');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_01_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'QhibW4X5s77Q3Oh');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_5_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'boTw9UpneBZXLHK');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF13_HCOR', 0.12, 750.901805779491, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'KEYkoINzDKzFIEl');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'rh0vjbDZYHMqxFg');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'aeRvqfHOj8ZeuqX');...
+    atsextupole('SXD13_VCOR', 0.09, -689.724579569546, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'z0Y4Odwn9HgjVaQ');...
+        atdrift('L071C', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'Gpp0uyCRmPBj9wG');...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00742857142857143 0.00742857142857143]);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00786363636363636], 'UUID', 'ZFfTpIuf9m6frD0');...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00765909090909091], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00629545454545455]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008 0.005], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00518367346938775], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00640816326530612]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00763265306122449], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00781632653061225]);...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.008 0.008]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00739393939393939 0.00739393939393939], 'UUID', 'ad4BDxnmOQDgFfd');...
+        atdrift('L071C', 0.048, 'EApertures', [0.00678787878787879 0.00678787878787879]);...
+    atsextupole('SXD13', 0.09, -689.724579569546, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.007, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'R6JXh38AP0acS8W');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_01_4', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'ZEn7pIK8eM7ouQ3');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF13_HCOR', 0.12, 750.901805779491, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'jcESxHoOmWEKk5f');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_6_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'wEe61Rffas88q0b');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'lhwlXraYaVaJCiO');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'xyfqrnaWtEyryzx');...
+    atsextupole('SXD1_VCOR', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'jP25UZCBHGFOBzJ');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'AO9qPZOPOkhbtfO');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'zhYyKmFaQYma4qx');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'r3xlJUal8F0whNx');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD1', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'LfHRrCCscc0OblQ');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_01_5', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'cvZgDFIl8UfjevA');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF1_HCOR', 0.12, 781.382308964691, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 't8yEFpX5pkSCPhr');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_7_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'uRnTawulurDcxWj');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'OtZrA6K6pGF6cjP');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'aURljmHyapcniNd');...
+    atsextupole('SXD1_VCOR', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'YWx0RUg1Cw1S5w6');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'L5iYgVCZn1DDx3V');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'LuWLdiy6W9eqYKy');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00785 0.00785]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.0073 0.0073]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'dopnTg6FFwHh4lz');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD12', 0.09, -749.191327132338, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'ZQuXNQKwtfahYZg');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_01_6', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'd3DYoEZz199wu3d');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF12_HCOR', 0.12, 860.065976124029, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'HARKRZWEQ00wvPY');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'hLln83iY6poO2vG');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_8_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'NSJyLXIjso3qTDD');...
+        atdrift('L05', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD12_VCOR', 0.09, -749.191327132338, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'shIE3icysBaEaUs');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'GwBiz2pj130dsRM');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'pLfc2EPnecGgJNq');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00747368421052632 0.00747368421052632]);...
+        atdrift('LBD1M1', 0.0395472975018047, 'EApertures', [0.00652631578947368 0.00652631578947368]);...
+        atdrift('D05HM1', 0.05, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q7', 0.0672457254622836, -11.8140171585779, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'PTO2p6M6Slblp61');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH6_COR', 0.06, -324.475203415205, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'Ic0LAfBXfTiL27l');...
+        atdrift('D022HM1Q', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'Oy8YreBTelEaCwO');...
+        atdrift('D040HM1Q', 0.128, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_01_7', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q6', 0.067209291601852, 11.9784555023184, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'FOnWUEkHtFI9F3W');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH5', 0.06, -514.413524183539, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'mUmaj7rXVCVOaQ2');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH5_QCORROCT_9', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.008 0.008], 'MaxOrder', 3, 'UUID', 'z8NPIKNaIZtlPVO');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'qicJqlDHADOF0W1');...
+        atdrift('D06HM1', 0.13, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q5', 0.105773394525209, 14.0793630884634, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'ce4QEKEIiU0Ow0W');...
+        atdrift('D032HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH4_COR', 0.06, 682.544409709839, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'ULyk32Ollmpd3bq');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH4_QCORROCT_10_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'tMdkyklUUfvW4mc');...
+        atdrift('D031HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q4', 0.0785476107439048, -13.6216098775293, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.008 0.008], 'UUID', 'hEmfoR2sNgiLy6v');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C01END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD02MLSTART', 'EApertures', [0.006 0.006]);...
+       atmarker('VANNE_START', 'EApertures', [0.006 0.006]);...
+       atmarker('FCOR_2_1', 'UUID', 'kW6WhvFHInBkQp8');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'qoTVmbKWRIy4O5K');...
+        atdrift('SD1M1_1', 0.272, 'Action', 'BPM', 'EApertures', [0.00818181818181818 0.00818181818181818]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_2', 0.0819863922450714, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('SYSTEME_RF_START', 'EApertures', [0.01 0.01]);...
+       atmarker('TRANSITION_AMONT_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_3', 0.33, 'Action', 'BPM', 'EApertures', [0.0332258064516129 0.0332258064516129]);...
+       atmarker('TRANSITION_AMONT_END', 'EApertures', [0.05 0.05]);...
+        atdrift('SD1M1_4', 0.5792, 'Action', 'BPM', 'EApertures', [0.05 0.05]);...
+       atmarker('RFCAV01', 'EApertures', [0.05 0.05]);...
+        atdrift('SD1M1_5', 0.5792, 'Action', 'BPM', 'EApertures', [0.05 0.05]);...
+       atmarker('RFCAV02', 'EApertures', [0.05 0.05]);...
+        atdrift('SD1M1_6', 0.2896, 'Action', 'BPM', 'EApertures', [0.05 0.05]);...
+       atmarker('SD02MLCENTER', 'EApertures', [0.05 0.05]);...
+     atrfcavity('RF', 0.0, 1700000.0, 352314252.10429, 416, 2750000000.0, 'EApertures', [0.05 0.05]);...
+        atdrift('SD1M1_7', 0.2896, 'Action', 'BPM', 'EApertures', [0.05 0.05]);...
+       atmarker('RFCAV03', 'EApertures', [0.05 0.05]);...
+        atdrift('SD1M1_8', 0.5792, 'Action', 'BPM', 'EApertures', [0.05 0.05]);...
+       atmarker('RFCAV04', 'EApertures', [0.05 0.05]);...
+        atdrift('SD1M1_9', 0.5792, 'Action', 'BPM', 'EApertures', [0.05 0.05]);...
+       atmarker('TRANSITION_AVALLE_START', 'EApertures', [0.05 0.05]);...
+        atdrift('SD1M1_10', 0.33, 'Action', 'BPM', 'RApertures', [-0.0326666666666667  0.0291428571428571 -0.0326666666666667  0.0326666666666667]);...
+       atmarker('TRANSITION_AVALLE_END', 'EApertures', [0.01 0.01]);...
+       atmarker('SYSTEME_RF_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_11', 0.0819863922450714, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_12', 0.272, 'Action', 'BPM', 'EApertures', [0.00818181818181818 0.00818181818181818]);...
+       atmarker('FCOR_2_2', 'UUID', 's652n3HDvBfuHeR');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'WfnRzZmwnq6oh2V');...
+       atmarker('VANNE_END', 'EApertures', [0.008 0.008]);...
+       atmarker('SD02MLEND', 'EApertures', [0.008 0.008]);...
+       atmarker('AN-C02START', 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q4', 0.0785476107439048, -13.6216098775293, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.00633333333333333 0.00633333333333333], 'UUID', 'kdZEHnourXfRTNO');...
+        atdrift('D031HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH4_QCORROCT_11_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'pwqRJutSMKzA4dw');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH4_COR', 0.06, 682.544409709839, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'LpErN4ZqG954IOH');...
+        atdrift('D032HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q5', 0.105773394525209, 14.0793630884634, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'FpxX1qtQIiwShvG');...
+        atdrift('D06HM1', 0.13, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'FNZruMcPOeXJ6jX');...
+    atmultipole('OH5_QCORROCT_12', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.008 0.008], 'MaxOrder', 3, 'UUID', 'XpzxZj6njcEh0pU');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH5', 0.06, -514.413524183539, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'K1ePpajVztAKMse');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q6', 0.067209291601852, 11.9784555023184, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'vTuIHyL7HxCgWGI');...
+        atdrift('D040HM1Q', 0.128, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'mue0K9ms06PFUjV');...
+        atdrift('D022HM1Q', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH6_COR', 0.06, -324.475203415205, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'c0d16Bv8vpYw2X8');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q7', 0.0672457254622836, -11.8140171585779, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'fbS3rm1EPv7h05U');...
+        atdrift('D05HM1', 0.05, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1M1', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.0076 0.0076], 'UUID', 'gwGN0h3Sq5K8eUP');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00786666666666667 0.00786666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD21', 0.09, -655.116114720116, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'sD4TKGmfHSziz2a');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_02_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF2_QCORROCT_13_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -262.360558705412], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'nPPnNroQpm90RF8');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'KllxpBTjxb9nI8e');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF21_HCOR', 0.12, 719.09699842571, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'y0uzKnug9KPaOvn');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'IxAzp3EF6aPVSaC');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'haHJaWmGF0Dg7lJ');...
+    atsextupole('SXD21_VCOR', 0.09, -655.116114720116, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'P0JPZ4xdVZotIw5');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'Befi7ozXnilRK11');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0068 0.0068]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'Z28O9vhdH8QdJNd');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00774358974358974 0.00774358974358974]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00733333333333333 0.00733333333333333], 'UUID', 'nrl0bgchakIsEB2');...
+        atdrift('L071', 0.048, 'EApertures', [0.00676923076923077 0.00676923076923077]);...
+    atsextupole('SXD2', 0.09, -617.904418360321, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'Xw7rpEqkZICsnUx');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_02_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'MkCFVgYQy2dfO5w');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF2_QCORROCT_14_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -262.360558705412], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'asXvzxl71biP2PI');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF2_HCOR', 0.12, 741.112250869933, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'UAO5y9U8OY585qk');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'VTxDwNdbXVHVN8Y');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'JLufUzy5slhZu9V');...
+    atsextupole('SXD2_VCOR', 0.09, -617.904418360321, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'T48ucxIrwjPuH9B');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'PALwbvWzjSsxrnB');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0068 0.0068]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'EgLdUSDY9SZZDk2');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('MIR_SMIS', 'RApertures', [-0.008   0.0045 -0.008   0.008 ]);...
+       atmarker('GIRDEREND', 'RApertures', [-0.008   0.0045 -0.008   0.008 ]);...
+        atdrift('L073', 0.0372677805661953, 'RApertures', [-0.00774358974358974  0.0045              -0.00774358974358974  0.00774358974358974]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00748717948717949 0.00748717948717949]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00728205128205128 0.00728205128205128], 'UUID', 't3q1K8FZHOXgSKs');...
+        atdrift('L071', 0.048, 'EApertures', [0.00676923076923077 0.00676923076923077]);...
+    atsextupole('SXD22', 0.09, -636.039531358256, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'FFWAIq4LAmxdRrI');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_02_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'lAC8h0zcBo5eaHh');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF22_HCOR', 0.12, 843.464304725645, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'DHmhq3UDQfQUyMB');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'Gpo12f8azjMVW8s');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF2_QCORROCT_15_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -262.360558705412], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'dHi0AOKVpWzFYKN');...
+        atdrift('L05', 0.06, 'EApertures', [0.008 0.008]);...
+    atsextupole('SXD22_VCOR', 0.09, -636.039531358256, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.0068 0.0068], 'KickAngle', [0. 0.], 'UUID', 'raV0GKqm0pQTEaW');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'it9Zh2nMidiLAkf');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'Hf8DdLqUwojCSag');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00722222222222222 0.00722222222222222]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.00611111111111111 0.00611111111111111]);...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'WSWp8mF0QcbwRq3');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'VzysczFjc63Ue7s');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'Ky4itctVlF2BO1i');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_02_4', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'SDt5FL2dgAnY5eR');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'Yec6g143pIFJp71');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'fdr3MxWvXArT5Ab');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'Fh3tv9cVJLbQLDQ');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'nXbkG3M12YlJQCg');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'UodK6YwG7wiATVi');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_16_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'E7H8oUrODAAtprt');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'nOs3rxOSs341O84');...
+       atmarker('GIRDEREND', 'EApertures', [0.0076 0.0076]);...
+       atmarker('AN-C02END', 'EApertures', [0.0076 0.0076]);...
+       atmarker('SD03CSTART', 'EApertures', [0.0076 0.0076]);...
+       atmarker('VANNE_START', 'EApertures', [0.0076 0.0076]);...
+       atmarker('FCOR_3_1', 'UUID', 'DOni8vvyOpxj85A');...
+      atmonitor('BPM', 'EApertures', [0.0076 0.0076], 'UUID', 'QNHQ1lKOcFpBS6G');...
+        atdrift('SD1C_1', 0.322, 'Action', 'BPM', 'EApertures', [0.00854545454545455 0.00854545454545455]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_2', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_3', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('SD03CCENTER', 'EApertures', [0.0475 0.002 ]);...
+        atdrift('SD1C_4', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_5', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_6', 0.322, 'Action', 'BPM', 'EApertures', [0.00847619047619048 0.00847619047619048]);...
+       atmarker('FCOR_3_2', 'UUID', 'NPfj9V4Pssdybtp');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'ydXXbYQcZl9SRmG');...
+       atmarker('VANNE_END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD03CEND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C03START', 'EApertures', [0.006 0.006]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'ARwCsNpSkj2GP1m');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_17_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'UdtxeQKCpQnCXX4');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'dTKxy2bim7veDhi');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'xbNGAyscqe78HYH');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'y3KdHN0OXw5YTab');...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'WIBlz0NUsGts0Ph');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'gfkIAUe0uWdYnpo');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'teVnsyTSFJpawOe');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'b7ShhD5lJNhBM7t');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'W2IfNW7fdGeqJfm');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'gOi5iJqVjNeA52z');...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'cNng2ZysXiEJ13c');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00772413793103448 0.00772413793103448]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD31', 0.09, -681.129428046866, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'poJnwUdKXl4ecwa');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_03_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_18_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'xKigDUs5VdwzNp8');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'BONRblnEwxs46s0');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF31_HCOR', 0.12, 734.143510940683, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'ohxkxHu87LH8Zwb');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'qXyJ988mCk5B86r');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'V4h313dsDkxkbL5');...
+    atsextupole('SXD31_VCOR', 0.09, -681.129428046866, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'zzqSrfb2S5U85sb');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'C6wGT7WKeOD346J');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'yF2AtvQzq6j1ijA');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'Q1La9BK7hwQjO9t');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD3', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'NqaVBwBwD9HDxDr');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_03_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'oo7xDavd3Ck8PCX');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_19_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'dMyc0Pvz84i8feM');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF3_HCOR', 0.12, 675.00095481734, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'TPmnawWYE2ocRC0');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'n4JfHtRB8G7AUTE');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'vS2PY52CQJXCjRc');...
+    atsextupole('SXD3_VCOR', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'ttYluFCxHpMlIhH');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'YjhUfmNClTrJLyd');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'EgwKqb8F7ppaLTT');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.0078974358974359 0.0078974358974359]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'Vt4rQW17x77yJgT');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD3', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'tMGagJ4a9digNC3');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_03_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BXa0YccALJp3yQO');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_20_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'TF0PjdvUJNkPDRY');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF33_HCOR', 0.12, 686.795497427942, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'VwWPAsH5J1chNcJ');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'DHprs4lSirJurxQ');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'vSiHxz2MNGy4BgD');...
+    atsextupole('SXD33_VCOR', 0.09, -764.318658802759, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'kCQRHZ1A7JSZML1');...
+        atdrift('L071C', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'P7Qb6qfCNTVWmQg');...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00742857142857143 0.00742857142857143]);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00786363636363636], 'UUID', 'FL9dddQXHpn13R5');...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00765909090909091], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00629545454545455]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008 0.005], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00518367346938775], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00640816326530612]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00763265306122449], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00781632653061225]);...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.008 0.008]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00739393939393939 0.00739393939393939], 'UUID', 'XdHoLfFCSIewG8Z');...
+        atdrift('L071C', 0.048, 'EApertures', [0.00678787878787879 0.00678787878787879]);...
+    atsextupole('SXD33', 0.09, -764.318658802759, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.007, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'xR4OCNCFE6rHYRm');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_03_4', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'lkP2RCjPJzWuGfa');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF33_HCOR', 0.12, 686.795497427942, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'iL9tne0guJoecmU');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_21_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'qLYZLsrXeLPIAkX');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'znvwj8whEwGTfPV');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'SsqV4AifmH7bunv');...
+    atsextupole('SXD3_VCOR', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'g09JM4m52IIXWs7');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'XvhW0ZaBcKjWj9N');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'gBl65XeySyVMqgM');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'JkHhKimiwcnpa6r');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD3', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'nzfWITaD0gRrMQ8');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_03_5', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'AtKSoQ5z1Lo9Ybj');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF3_HCOR', 0.12, 675.00095481734, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'tsjTyMWjQbeQkVM');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_22_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'oyXPQEfTlvheeTz');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'xBLaojtSDfARL1R');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'S9HPKx2p7Qdf4Z7');...
+    atsextupole('SXD3_VCOR', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'fJQDM1ZNlMkvmpE');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'PljZA3ysY5JnGxD');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'b71ylUXHlnpoX07');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.0078974358974359 0.0078974358974359]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'HXLV7WZjXkrdqHI');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD32', 0.09, -729.521731325636, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'WJvuJpESOOXUdOd');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'gxH4ZNtefn9DelK');...
+       atmarker('CROTCH_03_6', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF32_HCOR', 0.12, 782.043582880113, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'pgjTsX2RXv9dVMD');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'lE1FLZZtUqfuFk4');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_23_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'ePvuy0DH7CSZMgC');...
+        atdrift('L05', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD32_VCOR', 0.09, -729.521731325636, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'h8wn2Aoh43tSwyp');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'FsbG45HbIlWrVJu');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'YVUlXXFFVLSFzkL');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00747368421052632 0.00747368421052632]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.00652631578947368 0.00652631578947368]);...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'TM1uDO8GAjdGJ3P');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'ILQxnlVjdwxtHUT');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'Xicg5JfkxjPza2w');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_03_7', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'gntjaAtTgVa3gXr');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'D2PcXoli7GmvkxC');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'u8Jv5BKQzd3SiZB');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'nahqf22GUaRe2JP');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'FtigcbxWx5tzWQd');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'xwljVREQG1U3zPH');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_24_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'C7bnUgWTTukQ4gy');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'twyz8VXS0LUnbRe');...
+       atmarker('GIRDEREND', 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+       atmarker('AN-C03END', 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+       atmarker('SD04CSTART', 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+       atmarker('VANNE_START', 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+       atmarker('FCOR_4_1', 'UUID', 'QPmCAZMao8sWOw4');...
+      atmonitor('BPM', 'EApertures', [0.00666666666666667 0.00666666666666667], 'UUID', 'IOoOMuQ1DoPi5dB');...
+        atdrift('SD1C_7', 0.322, 'Action', 'BPM', 'EApertures', [0.00847619047619048 0.00847619047619048]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_8', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_9', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('SD04CCENTER', 'EApertures', [0.0475 0.002 ]);...
+        atdrift('SD1C_10', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_11', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_12', 0.322, 'Action', 'BPM', 'EApertures', [0.00854545454545455 0.00854545454545455]);...
+       atmarker('FCOR_4_2', 'UUID', 'Yv723Y5fCvuATRH');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'ejs6UzWrKNqRtXq');...
+       atmarker('VANNE_END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD04CEND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C04START', 'EApertures', [0.006 0.006]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'uyApAcv4NrZZQK4');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_25_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'axZ2Ns2grpK2GBR');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'CE24H4c21zlqIpL');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'VhzRChxxNUaGYBW');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'KtcOB9QbQMd9axv');...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'xz9rsREo00RJnRW');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'ILcun44BNY06N3s');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'NEfKqVehJMwDfBw');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'og2biQH6E2zjZ36');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'YtTof8KfNribIBe');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Kv00H453vUEnOcH');...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.0076 0.0076], 'UUID', 'jCU1d6NPKWj3iSq');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00786666666666667 0.00786666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD41', 0.09, -735.729130725313, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'AzizLO063zYD0yS');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_04_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF4_QCORROCT_26_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -183.939387091905], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'E0rQYusFa9WYnZq');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'QA88bo6ZdWnNKY8');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF41_HCOR', 0.12, 846.26087738574, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'NvemmDQGd9i2EPB');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'jYF851icAT4gUK4');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'ib0CnMbOJvmlosn');...
+    atsextupole('SXD41_VCOR', 0.09, -735.729130725313, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'rBERTRPkdlZmQCE');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'j4EchFVgEVKDDGl');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0068 0.0068]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'LTGMSA2WZVcIQHf');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00774358974358974 0.00774358974358974]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00728205128205128 0.00728205128205128], 'UUID', 'wWsQHCuK5yWGJ7y');...
+        atdrift('L071', 0.048, 'EApertures', [0.00676923076923077 0.00676923076923077]);...
+    atsextupole('SXD4', 0.09, -748.397964225485, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'l2vvSC6SWlfMcNA');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_04_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'vB0ByODEwC0m3sT');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF4_HCOR', 0.12, 811.758492840009, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'gEV9ghbbk7hVA3H');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF4_QCORROCT_27_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -183.939387091905], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'xpazeKUnq8Nikhm');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'CoNs7giT6BVrSih');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'KfmxXiRIdhK2CpE');...
+    atsextupole('SXD4_VCOR', 0.09, -748.397964225485, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'vYAYi0dc02xll2N');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'XgYrHi6toxYezBo');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'L8J7hCqmcHm4jWW');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00775 0.00775]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.0075 0.0075]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0073 0.0073], 'UUID', 'dgUz9v1P3cIhFJt');...
+        atdrift('L071', 0.048, 'EApertures', [0.0068 0.0068]);...
+    atsextupole('SXD42', 0.09, -652.433055715131, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'vczmCS2I3dX2XPe');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_04_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'VQATvLx5hDKf0vS');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF42_HCOR', 0.12, 832.798385062542, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'CMWqPWfqZ4gjMgl');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'r3sGN1o3rzU8rui');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF4_QCORROCT_28_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -183.939387091905], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'mmRv2WY4Qih29Bq');...
+        atdrift('L05', 0.06, 'EApertures', [0.008 0.008]);...
+    atsextupole('SXD42_VCOR', 0.09, -652.433055715131, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.007 0.007], 'KickAngle', [0. 0.], 'UUID', 'cEDIY2S5ecG4Ga5');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'FnCnyqGaFNU1onC');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'cnJrEhYuryXfIan');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00722222222222222 0.00722222222222222]);...
+        atdrift('LBD1M', 0.0395472975018047, 'EApertures', [0.00611111111111111 0.00611111111111111]);...
+        atdrift('D05HM', 0.0250000000000106, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q15', 0.0669665183225528, -13.0158117569202, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'EMo5uD0tclkcXtD');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH12_COR', 0.06, -549.693929899786, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'RUECWMhacHyDJq7');...
+        atdrift('D022HMQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'AWLLmPtHT284WyM');...
+        atdrift('D040HMQ', 0.108, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_04_4', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q14', 0.0669654375650683, 13.020316581933, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'rH8zeFGHNBiaBSB');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH11', 0.06, -342.377584906705, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'q6FjfLiZYB9eiRk');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH11_QCORROCT_29', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.007 0.007], 'MaxOrder', 3, 'UUID', 'jR12dzIbfaDOLY4');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'zJtmGMrGO7o2ed5');...
+        atdrift('D06HM', 0.13, 'Action', 'BPM', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('Q13', 0.105549024737856, 14.4734284467452, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'J9MyrKMdQ8ft85X');...
+        atdrift('D032HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH10_COR', 0.06, 767.610099578133, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SaFXod7PuKCtACc');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH10_QCORROCT_30_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'Kqqk5J8OVqry7C2');...
+        atdrift('D031HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q12', 0.0785288819736742, -13.6759084023114, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'iESDZXOZVLCY1Al');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C04END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD05MCSTART', 'EApertures', [0.006 0.006]);...
+       atmarker('VANNE_START', 'EApertures', [0.006 0.006]);...
+       atmarker('FCOR_5_1', 'UUID', 'f1o81AW3epHX4zg');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'DSDnSMX4wSYteym');...
+        atdrift('SD1M_1', 0.322, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M_2', 0.287381847814076, 'Action', 'BPM', 'RApertures', [-0.0045  0.004  -0.0035  0.0035]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1M_3', 1.29, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('SD05MCCENTER', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1M_4', 1.29, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1M_5', 0.287381847814076, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M_6', 0.322, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+       atmarker('FCOR_5_2', 'UUID', 'hnQu21Zbe3PABJe');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'yEXLNYVpmVyYe8N');...
+       atmarker('VANNE_END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD05MCEND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C05START', 'EApertures', [0.006 0.006]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q12', 0.0785288819736742, -13.6759084023114, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'dHZFibfpaZ0s2Mv');...
+        atdrift('D031HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH10_QCORROCT_31_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'dQCxiDn9wWVgBgE');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH10_COR', 0.06, 767.610099578133, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'fS4MYo3zObneJTA');...
+        atdrift('D032HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q13', 0.105549024737856, 14.4734284467452, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'gVYWSdWDAtZkHlq');...
+        atdrift('D06HM', 0.13, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+      atmonitor('BPM', 'EApertures', [0.00633333333333333 0.00633333333333333], 'UUID', 'EcRo93r3hk3y1WC');...
+    atmultipole('OH11_QCORROCT_32', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'umMpImL9dApOyB8');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH11', 0.06, -342.377584906705, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'Vu7VwxtzGaAgokz');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q14', 0.0669654375650683, 13.020316581933, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'KODWaEoBEMy7iSs');...
+        atdrift('D040HMQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'DkIJbed2eVibl9V');...
+        atdrift('D022HMQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH12_COR', 0.06, -549.693929899786, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'pmQzcQegfhkvsvv');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q15', 0.0669665183225528, -13.0158117569202, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'LDKuj2xV68qzceE');...
+        atdrift('D05HM', 0.0250000000000106, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1M', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227518, -1.18160211440423, 'EApertures', [0.00733333333333333 0.00733333333333333], 'UUID', 'DhHeeVfvQTY4hj5');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.00793333333333333 0.00793333333333333], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227518, -1.18160211440423, 'EApertures', [0.0074 0.0074]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD51', 0.09, -647.766469752565, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'uY7QaxBUSpwd01M');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_05_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_33_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'qeoMl2cgMCIeok0');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060752, 'UUID', 'wYxmi8mZ4OItLOM');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060752);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF51_HCOR', 0.12, 840.822202380127, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'QXHfsq9iDxxdI4s');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'Vxny2uYt6OhVO2V');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'dPIIjcEfrLO62uK');...
+    atsextupole('SXD51_VCOR', 0.09, -647.766469752565, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'i2uwSt1vyF2Vfv9');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'PLeAoOukyqssRbJ');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'WJUYkmlCoPeV12x');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'ioVrPTZmBrMQw1n');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD5', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'iIS16ndrztrfxXU');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_05_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BDRbnFdfsJDUMzg');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_34_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'VERbQ7lie96mZen');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF5_HCOR', 0.12, 715.553794609745, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'fN30ItlfkJeDOw5');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'MV5PIVorXodvirD');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'SGcuTX8VQZ81V4C');...
+    atsextupole('SXD5_VCOR', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'diDxVxWUmlrK39g');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'GTQ1SH36btuvz8z');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'leCNjQRWzm2JIBz');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.0078974358974359 0.0078974358974359]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00764102564102564 0.00764102564102564]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'u7170HfLDtpn24D');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD5', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'cWZBIGzNjtgVb1O');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_05_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'KBKCMznmutvA09S');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_35_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'Kyp6PcWXsPSyAcr');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF53_HCOR', 0.12, 711.229968977946, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'Rwm0mFen1vCn84k');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'y02hdDNPOs4L1Pv');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'a7qgUdwHj8pCrkD');...
+    atsextupole('SXD53_VCOR', 0.09, -625.758067765939, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'WCIWiOxZueWSuVX');...
+        atdrift('L071C', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'WTit1ijAvlbWwhR');...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00714285714285714 0.00714285714285714]);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00786363636363636], 'UUID', 'opaQweCpi9EAGoc');...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00765909090909091], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00629545454545455]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008 0.005], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00521428571428571], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00643877551020408]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00766326530612245], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00781632653061225]);...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00794117647058824 0.00794117647058824]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00741176470588235 0.00741176470588235], 'UUID', 'RTAvlisNwopfpdE');...
+        atdrift('L071C', 0.048, 'EApertures', [0.00676470588235294 0.00676470588235294]);...
+    atsextupole('SXD53', 0.09, -625.758067765939, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.007, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'OSluTbsDoqcWgAe');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_05_4', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'EWRFJcNhUmUlQ7Z');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF53_HCOR', 0.12, 711.229968977946, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'lunNzNgucTghasQ');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_36_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'RRPU5kDgezuTmpr');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'PUjx2CXrOAdLtmj');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'mG71Rdw9v0Ml6pi');...
+    atsextupole('SXD5_VCOR', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'W2edaUwJcgpLZUH');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'lAhP2wlkk7HeTqc');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'RApertures', [-0.008   0.0045 -0.008   0.008 ]);...
+       atmarker('MVUV_DISCO', 'RApertures', [-0.008   0.0045 -0.008   0.008 ]);...
+       atmarker('GIRDERSTART', 'RApertures', [-0.008   0.0045 -0.008   0.008 ]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'oKVtlV9l5WgaHkH');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'ICDTU0YWWklWFFm');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD5', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'JWZsz0EJwooruiY');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_05_5', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'IEchnmX1z2ZDMmB');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF5_HCOR', 0.12, 715.553794609745, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'sUb8JSzVhEUP6ks');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_37_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'JGlsZRQ4crm10xN');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'D9z6AW2hTQhrZRI');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'HivnXnoe8mnAWu1');...
+    atsextupole('SXD5_VCOR', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'FuS5PPc5ABgQ1vk');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'tfVyi7Nm92O26um');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'l7zWyqoKPHXdWoS');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00785 0.00785]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.0073 0.0073]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'vPHRMMA8F4QiBc3');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD52', 0.09, -734.183150728341, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'MuNVWyx8vJ34QwF');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'AG1arMM289xgOS6');...
+       atmarker('CROTCH_05_6', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF52_HCOR', 0.12, 788.330339912278, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'r61IR18D3bLpDlg');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060752, 'UUID', 'xMihhq364PJGn0B');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060752);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_38_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'YqBhcZTlllYtQDo');...
+        atdrift('L05', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD52_VCOR', 0.09, -734.183150728341, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'UpU0LToJkaiAvty');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'CozhZLEcQ6o1oNc');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227518, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'bMSMB1ojVuaFab9');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227518, -1.18160211440423, 'EApertures', [0.0085 0.0085]);...
+        atdrift('LBD1T', 0.0395472975018047, 'EApertures', [0.0085 0.0085]);...
+        atdrift('D021HTQ', 0.0529998883331588, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0085 0.0085], 'UUID', 'R9uIFeYyH3tOmM0');...
+        atdrift('D022HTQ', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH15_VCOR', 0.075, -151.263624499999, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'Yt4Pmr5P0VT1CCD');...
+        atdrift('D05HT', 0.22, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q21', 0.118594861317721, -8.24976089349076, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.106, 'EApertures', [0.0085 0.0085], 'UUID', 'tFyIhbdwGyaoako');...
+      atmonitor('BPM', 'EApertures', [0.0085 0.0085], 'UUID', 'Q47EbEOOLWh6mh3');...
+        atdrift('D041HT', 0.18, 'Action', 'BPM', 'EApertures', [0.0085 0.0085]);...
+       atmarker('CROTCH_05_7', 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q20', 0.122440853589187, 8.42972886822337, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.11, 'EApertures', [0.0085 0.0085], 'UUID', 'YOhUiAIuDHGZDtq');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH14_HCOR', 0.075, -335.348316276613, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'WO4Bng8CvdSF6TX');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH14_QCORROCT_39', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'YyqNQiAOOXDe5pk');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q19', 0.118733643867383, 8.01541064610388, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.106, 'EApertures', [0.0085 0.0085], 'UUID', 'eOHX368Fl1w0ajy');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH13_COR', 0.075, 476.313437796132, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'e5I2aRNUvRyFq7N');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.008 0.008]);...
+    atmultipole('OH13_QCORROCT_40_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.008 0.008], 'MaxOrder', 3, 'UUID', 'enJ2TUWoKke6vJa');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q18', 0.0932053766613153, -7.2301598888015, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.08, 'EApertures', [0.008 0.008], 'UUID', 'Zada4IGN6DfSDTe');...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+       atmarker('AN-C05END', 'EApertures', [0.008 0.008]);...
+       atmarker('SD06LSTART', 'EApertures', [0.008 0.008]);...
+       atmarker('VANNE_START', 'EApertures', [0.008 0.008]);...
+       atmarker('FCOR_6_1', 'UUID', 'sb2uPyAT4brkEAq');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'rOkFifu7LAe0Unx');...
+        atdrift('SD12T_1', 0.272, 'Action', 'BPM', 'EApertures', [0.0115238095238095 0.0115238095238095]);...
+       atmarker('VANNE_END', 'EApertures', [0.012 0.012]);...
+        atdrift('SD12T_2', 0.309170347288528, 'Action', 'BPM', 'EApertures', [0.03 0.03]);...
+       atmarker('SYSTEME_HARMONIQUE_START', 'EApertures', [0.03 0.03]);...
+       atmarker('TRANSITION_RFHARM_AMONT_START', 'EApertures', [0.03 0.03]);...
+        atdrift('SD12T_3', 0.25, 'Action', 'BPM', 'EApertures', [0.03 0.03]);...
+       atmarker('TRANSITION_RFHARM_AMONT_END', 'EApertures', [0.03 0.03]);...
+       atmarker('VANNE_RFHARM_AMONT_START', 'EApertures', [0.03 0.03]);...
+        atdrift('SD12T_4', 0.082, 'Action', 'BPM', 'EApertures', [0.03 0.03]);...
+       atmarker('VANNE_RFHARM_AMONT_END', 'EApertures', [0.03 0.03]);...
+        atdrift('SD12T_5', 0.25, 'Action', 'BPM', 'EApertures', [0.03 0.03]);...
+       atmarker('BLOC_CAVITE_HARMONIQUE_START', 'EApertures', [0.03 0.03]);...
+        atdrift('SD12T_6', 0.78, 'Action', 'BPM', 'EApertures', [0.03 0.03]);...
+       atmarker('SD06LACENTER', 'EApertures', [0.03 0.03]);...
+     atrfcavity('RFHARMON', 0.0, 0.0, 1409257008.41716, 1664, 2750000000.0, 'EApertures', [0.03 0.03]);...
+        atdrift('SD12T_7', 0.78, 'Action', 'BPM', 'EApertures', [0.03 0.03]);...
+       atmarker('BLOC_CAVITE_HARMONIQUE_END', 'EApertures', [0.03 0.03]);...
+        atdrift('SD12T_8', 0.25, 'Action', 'BPM', 'EApertures', [0.03 0.03]);...
+       atmarker('VANNE_RFHARM_AVALLE_START', 'EApertures', [0.0085 0.0085]);...
+        atdrift('SD12T_9', 0.082, 'Action', 'BPM', 'EApertures', [0.0085 0.0085]);...
+       atmarker('VANNE_RFHARM_AVALLE_END', 'EApertures', [0.0085 0.0085]);...
+       atmarker('TRANSITION_RFHARM_AVALLE_START', 'EApertures', [0.0085 0.0085]);...
+        atdrift('SD12T_10', 0.3, 'Action', 'BPM', 'EApertures', [0.0085 0.0085]);...
+       atmarker('TRANSITION_RFHARM_AVALLE_END', 'EApertures', [0.0085 0.0085]);...
+       atmarker('SYSTEME_HARMONIQUE_END', 'EApertures', [0.0085 0.0085]);...
+        atdrift('SD12T_11', 0.259170347288528, 'Action', 'BPM', 'EApertures', [0.0085 0.0085]);...
+       atmarker('VANNE_START', 'EApertures', [0.0085 0.0085]);...
+        atdrift('SD12T_12', 0.272, 'Action', 'BPM', 'EApertures', [0.0085 0.0085]);...
+       atmarker('FCOR_6_2', 'UUID', 'zW1ylc5vweE2wIr');...
+      atmonitor('BPM', 'EApertures', [0.0085 0.0085], 'UUID', 'iMkR2jgAIxkxfjQ');...
+       atmarker('VANNE_END', 'EApertures', [0.0085 0.0085]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q17', 0.0929982217794612, -7.83896314384854, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.08, 'EApertures', [0.0085 0.0085], 'UUID', 'NPQWPre3asOrD9Q');...
+        atdrift('D032HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH16_QCORROCT_41', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'J3pQbRQkRWGHqUW');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH16_COR', 0.075, 0.0, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'qCs4LS5kVxYeQjH');...
+        atdrift('D031HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q16', 0.132220666360538, 8.59624027008373, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.12, 'EApertures', [0.0085 0.0085], 'UUID', 'SNEjjrWmR5mYbA7');...
+        atdrift('D031HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH16_COR', 0.075, 0.0, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'oSeE0x8txolG5sL');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH16_QCORROCT_42', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'YfZpMVlqBjgAA6B');...
+        atdrift('D032HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q17', 0.0929982217794612, -7.83896314384854, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.08, 'EApertures', [0.0085 0.0085], 'UUID', 'MPYWTy0fMtJaIxk');...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.0085 0.0085], 'UUID', 'hIHvJKwREiSwgih');...
+       atmarker('VANNE_START', 'EApertures', [0.0085 0.0085]);...
+       atmarker('FCOR_6_3', 'UUID', 'hAqbarR30s9MkVm');...
+        atdrift('SD34T_1', 0.272, 'Action', 'BPM', 'EApertures', [0.012 0.012]);...
+       atmarker('VANNE_END', 'EApertures', [0.012 0.012]);...
+        atdrift('SD34T_2', 0.01, 'Action', 'BPM', 'EApertures', [0.012 0.012]);...
+       atmarker('CAVITE_FBL_START', 'EApertures', [0.012 0.012]);...
+        atdrift('SD34T_3', 0.3, 'Action', 'BPM', 'EApertures', [0.016 0.016]);...
+       atmarker('CAVITE_FBL_END', 'EApertures', [0.016 0.016]);...
+       atmarker('ELECTRODES_RF_START', 'EApertures', [0.016 0.016]);...
+        atdrift('SD34T_4', 0.3, 'Action', 'BPM', 'EApertures', [0.016 0.016]);...
+       atmarker('ELECTRODES_RF_END', 'EApertures', [0.016 0.016]);...
+        atdrift('SD34T_5', 0.01, 'Action', 'BPM', 'EApertures', [0.016 0.016]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.016 0.016]);...
+        atdrift('SD34T_6', 0.991, 'Action', 'BPM', 'RApertures', [-0.0045  0.004  -0.0035  0.0035]);...
+       atmarker('SD06LB_ONDULEURCENTER', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD34T_7', 0.991, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD34T_8', 0.01, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('STRIPLINE_SECOURS_START', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD34T_9', 0.542, 'Action', 'BPM', 'EApertures', [0.012 0.012]);...
+       atmarker('STRIPLINE_SECOURS_END', 'EApertures', [0.012 0.012]);...
+        atdrift('SD34T_10', 0.01, 'Action', 'BPM', 'EApertures', [0.012 0.012]);...
+       atmarker('SHAKER_START', 'EApertures', [0.012 0.012]);...
+        atdrift('SD34T_11', 0.1706, 'Action', 'BPM', 'EApertures', [0.012 0.012]);...
+       atmarker('SHAKER_END', 'EApertures', [0.012 0.012]);...
+        atdrift('SD34T_12', 0.00774069457705604, 'Action', 'BPM', 'EApertures', [0.012 0.012]);...
+       atmarker('VANNE_START', 'EApertures', [0.012 0.012]);...
+        atdrift('SD34T_13', 0.272, 'Action', 'BPM', 'EApertures', [0.0115238095238095 0.0115238095238095]);...
+       atmarker('FCOR_6_4', 'UUID', 'EEMtOOSN4pQUB7p');...
+       atmarker('VANNE_END', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'hFaGAwYEKjpG3Zs');...
+       atmarker('SD06LEND', 'EApertures', [0.008 0.008]);...
+       atmarker('AN-C06START', 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q18', 0.0932053766613153, -7.2301598888015, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.08, 'EApertures', [0.008 0.008], 'UUID', 'LtFYgXu2NsBbB0l');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.008 0.008]);...
+    atmultipole('OH13_QCORROCT_43_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.008 0.008], 'MaxOrder', 3, 'UUID', 'KrdKhBaA858RMnM');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.008 0.008]);...
+    atsextupole('SH13_COR', 0.075, 476.313437796132, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'duZUUi8Ao4cy1Ik');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q19', 0.118733643867383, 8.01541064610388, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.106, 'EApertures', [0.0085 0.0085], 'UUID', 'ZapXYLedwlT4usw');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH14_QCORROCT_44', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'kL3afxzDD8J9RYM');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH14_HCOR', 0.075, -335.348316276613, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'pCmY5eRssiK103k');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q20', 0.122440853589187, 8.42972886822337, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.11, 'EApertures', [0.0085 0.0085], 'UUID', 'ELYKz2LVGlidmf8');...
+        atdrift('D041HT', 0.18, 'Action', 'BPM', 'EApertures', [0.0085 0.0085]);...
+      atmonitor('BPM', 'EApertures', [0.0085 0.0085], 'UUID', 'mqsq8qyVY5cwydv');...
+   atquadrupole('Q21', 0.118594861317721, -8.24976089349076, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.106, 'EApertures', [0.0085 0.0085], 'UUID', 'BVYcXOYfAg2GFRf');...
+        atdrift('D05HT', 0.22, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH15_VCOR', 0.075, -151.263624499999, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'NwaP5D6Ne6xDMy2');...
+        atdrift('D022HTQ', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0085 0.0085], 'UUID', 'CWgbcqyUTm014FW');...
+        atdrift('D021HTQ', 0.0529998883331588, 'EApertures', [0.0085 0.0085]);...
+        atdrift('LBD1T', 0.0395472975018047, 'EApertures', [0.0085 0.0085]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227518, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'sTpDahHgPGmeylQ');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227518, -1.18160211440423, 'EApertures', [0.00772413793103448 0.00772413793103448]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD52', 0.09, -734.183150728341, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'feRkRv4OSRvi1JL');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_06_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_45_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'TjoA3ER18Dv6weZ');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060752, 'UUID', 'Ah25Fot91oGtmKo');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060752);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF52_HCOR', 0.12, 788.330339912278, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'XcH14x7rvtvwnz5');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'ZGQJciG0EHbksS2');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'M820EZyM63gRRwO');...
+    atsextupole('SXD52_VCOR', 0.09, -734.183150728341, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'KgkcibKi5SS9Drf');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'ZCHbmyNd1vWwuDn');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'eMmuhUAvuXiWDis');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'gWrQWLBt2z8lwrr');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD5', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'S2fHK5YWdBC88X0');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_06_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'HS3ynQKLqECave1');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_46_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'zc50mK31yR5mklM');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF5_HCOR', 0.12, 715.553794609745, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'Sv5s7GdVGv2C1vp');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'Q5BGINph5ydNBXA');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'wDfBQRw7NdJrrMD');...
+    atsextupole('SXD5_VCOR', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'z2BNBz35rKwk6Dm');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'Cgnkh04Sd7sE4Xw');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'aoncCuC5QKkekCN');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.0078974358974359 0.0078974358974359]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'AG7GypGxdh728yW');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD5', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 's2PWw6UGJZNAKva');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_06_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'ldnasZbtRSBiHOk');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_47_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'v8QsCTWxKLxD2a5');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF53_HCOR', 0.12, 711.229968977946, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'Ta2ycJ8DkYA9ars');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'mp2XgN22cL43Szn');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'te2hub5tEF4SnxO');...
+    atsextupole('SXD53_VCOR', 0.09, -625.758067765939, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'pRyCsCxjwSrgxif');...
+        atdrift('L071C', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'VR8rhWtmTvVbJCg');...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00742857142857143 0.00742857142857143]);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00786363636363636], 'UUID', 'POQA0i9pOix7RTt');...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00765909090909091], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00629545454545455]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008 0.005], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00518367346938775], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00640816326530612]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00763265306122449], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00781632653061225]);...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.008 0.008]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00739393939393939 0.00739393939393939], 'UUID', 'FMAGeUUi7x79WT6');...
+        atdrift('L071C', 0.048, 'EApertures', [0.00678787878787879 0.00678787878787879]);...
+    atsextupole('SXD53', 0.09, -625.758067765939, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.007, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'W73DthizyQli9zg');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_06_4', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'IF3IxdXFNGbyxsV');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF53_HCOR', 0.12, 711.229968977946, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'Qa7WjOMPMMny5zF');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_48_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'AbFdMz3A65I2O7K');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'WFCSa2SxyFvKrv0');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'dCRUtRLU0hIhvka');...
+    atsextupole('SXD5_VCOR', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'Y8sHX9YDS1wdBol');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'k9eZ8jJk8ExicZl');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'NqJ5lERfR3HHdGZ');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'ZpuX7pXjSWZm0cb');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD5', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'eBwYIenA6fVW4YU');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_06_5', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'GgQSyydxXSX7122');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF5_HCOR', 0.12, 715.553794609745, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'NtXUuY0CEwyOxB3');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_49_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'GA3gqqrkTDAotFP');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'KtCErG1nNRmWaJP');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'VTqyhuSQMG3pLhk');...
+    atsextupole('SXD5_VCOR', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'EoTTSXa9SPOxXq8');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'EkiRJSioBWprNNP');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'F0on1NPMQejTCmq');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00785 0.00785]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.0073 0.0073]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'i3cXCHnis76ow8w');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD51', 0.09, -647.766469752565, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'TeSYnlNreJwINji');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'UlVIIEp9gmj2OA2');...
+       atmarker('CROTCH_06_6', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF51_HCOR', 0.12, 840.822202380127, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'UJTwjrU0KXp8Tcx');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060752, 'UUID', 'ANsWdPweQnSGGYg');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060752);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_50_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'tPRN8CJQRSKF8Ey');...
+        atdrift('L05', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD51_VCOR', 0.09, -647.766469752565, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'LDRY1EIn814U6aZ');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'FqzXxluOxfKoreu');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227518, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'mwOph7lOoAuCSkA');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227518, -1.18160211440423, 'EApertures', [0.00747368421052632 0.00747368421052632]);...
+        atdrift('LBD1M', 0.0395472975018047, 'EApertures', [0.00652631578947368 0.00652631578947368]);...
+        atdrift('D05HM', 0.0250000000000106, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q15', 0.0669665183225528, -13.0158117569202, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'O5ZgkPcWl5piN6O');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH12_COR', 0.06, -549.693929899786, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'UtuiqznQbRlZ8DI');...
+        atdrift('D022HMQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'rTJk1CZvAS45ObQ');...
+        atdrift('D040HMQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q14', 0.0669654375650683, 13.020316581933, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'gA9Nv2zNHrKaYFj');...
+       atmarker('CROTCH_06_7', 'EApertures', [0.006 0.006]);...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH11', 0.06, -342.377584906705, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'OqBIxNJ34jMP1Pa');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH11_QCORROCT_51', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'izB8cNwxVdVo9AW');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'CgpohrEJoEueZlF');...
+        atdrift('D06HM', 0.13, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q13', 0.105549024737856, 14.4734284467452, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'xl5hO4okAzJRChF');...
+        atdrift('D032HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH10_COR', 0.06, 767.610099578133, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'pvnrxg85jkoWskL');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH10_QCORROCT_52_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'vFMiFaSnHtVF1JW');...
+        atdrift('D031HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q12', 0.0785288819736742, -13.6759084023114, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'eT2LizS4CIQm2hm');...
+       atmarker('GIRDEREND', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+       atmarker('AN-C06END', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+       atmarker('SD07MCSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+       atmarker('VANNE_START', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+       atmarker('FCOR_7_1', 'UUID', 'SqLDOdAwsjWePpa');...
+      atmonitor('BPM', 'EApertures', [0.00733333333333333 0.00733333333333333], 'UUID', 'oLdfchxtRFbgkfu');...
+        atdrift('SD1M_7', 0.322, 'Action', 'BPM', 'EApertures', [0.00838095238095238 0.00838095238095238]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M_8', 0.287381847814076, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M_9', 1.29, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('SD07MCCENTER', 'EApertures', [0.0475 0.002 ]);...
+        atdrift('SD1M_10', 1.29, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M_11', 0.287381847814076, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M_12', 0.322, 'Action', 'BPM', 'EApertures', [0.00838095238095238 0.00838095238095238]);...
+       atmarker('FCOR_7_2', 'UUID', 'gGoVEovXXelqqVV');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'ZWFWAsEoR4csQZZ');...
+       atmarker('VANNE_END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD07MCEND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C07START', 'EApertures', [0.006 0.006]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q12', 0.0785288819736742, -13.6759084023114, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'eS7UlZ8aASLxEsy');...
+        atdrift('D031HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH10_QCORROCT_53_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'u3sPGnBo71hOxC6');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH10_COR', 0.06, 767.610099578133, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'PTrnpkI85Ew2MLK');...
+        atdrift('D032HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q13', 0.105549024737856, 14.4734284467452, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'RvqjZSirvEjgYzq');...
+        atdrift('D06HM', 0.13, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.00733333333333333 0.00733333333333333], 'UUID', 'FFOYYge32yRksmN');...
+    atmultipole('OH11_QCORROCT_54', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'lWMX5aQZzrqtXos');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH11', 0.06, -342.377584906705, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'w7Z6lDotjVEDNO7');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q14', 0.0669654375650683, 13.020316581933, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'RC8UBKjjZj3KFh7');...
+        atdrift('D040HMQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'T3QXHEuCbRhcmcj');...
+        atdrift('D022HMQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH12_COR', 0.06, -549.693929899786, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'W92Fj1YsGYzAOAZ');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q15', 0.0669665183225528, -13.0158117569202, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'QjtMXQnvVQ6A8Yp');...
+        atdrift('D05HM', 0.0250000000000106, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1M', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00766666666666667 0.00766666666666667], 'UUID', 'hDxFw8UiCF5GmEz');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00786206896551724 0.00786206896551724]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD42', 0.09, -652.433055715131, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'OVuVV4vGODJkne8');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_07_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF4_QCORROCT_55_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -183.939387091905], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'NROSMXt9SvU4Wod');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'wJcdRUsbph7S7Sc');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF42_HCOR', 0.12, 832.798385062542, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'Qtsa7TWksgqXqjg');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'oOZEFLOd2UxktEs');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'YQFVXfHnsMDgwWO');...
+    atsextupole('SXD42_VCOR', 0.09, -652.433055715131, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'ZyWfEixTJRE16Bt');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'RjP27JiCOZPxPK8');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'duIaKNB2e2MkUxf');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00775 0.00775]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0073 0.0073], 'UUID', 'cExCPMysCXzkc0o');...
+        atdrift('L071', 0.048, 'EApertures', [0.0068 0.0068]);...
+    atsextupole('SXD4', 0.09, -748.397964225485, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'o9ciLvbmppugwf5');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_07_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'IdpzjAchCvznhOa');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF4_QCORROCT_56_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -183.939387091905], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'kciEjosNGQ98JGM');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF4_HCOR', 0.12, 811.758492840009, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'IhynJmFn0MdqYMc');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'gy9wB5hu8Fohz8C');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'ktyrOvCGrD8MLiw');...
+    atsextupole('SXD4_VCOR', 0.09, -748.397964225485, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'bqLjXtR1Uu4nZOG');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'JHUcvZQnQahIsVp');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0068 0.0068]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'h0uYaKcKMqAdDYP');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00774358974358974 0.00774358974358974]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00748717948717949 0.00748717948717949]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00733333333333333 0.00733333333333333], 'UUID', 'kJsqrjBHL3bgjMy');...
+        atdrift('L071', 0.048, 'EApertures', [0.00676923076923077 0.00676923076923077]);...
+    atsextupole('SXD41', 0.09, -735.729130725313, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'mJ5bOeg7x6tQJt4');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_07_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'dGVLSQb3fYpmtAm');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF41_HCOR', 0.12, 846.26087738574, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'R2868lvuoNTcSjC');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'KK2He0HMn1YZZJP');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF4_QCORROCT_57_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -183.939387091905], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'kw9Yp87azt6kzWi');...
+        atdrift('L05', 0.06, 'EApertures', [0.008 0.008]);...
+    atsextupole('SXD41_VCOR', 0.09, -735.729130725313, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.0068 0.0068], 'KickAngle', [0. 0.], 'UUID', 'VuvumDoCJLRGEyP');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'jCEQAFeoOjOcmxb');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'uF9wj1WfrIeHrag');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00715789473684211 0.00715789473684211]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.00610526315789474 0.00610526315789474]);...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'H9VfJRA4Z3n9yHM');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'vFGL09m6KRfSeUk');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'lF0rk21oOl520kV');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_07_4', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'fvH4SzWuCTCX6Ae');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'i1CUUpE9SppYqDf');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'adepF3T3RDTou4G');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'bfrOHmCP42i7ovE');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'QP25TRCeeVFM39t');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'hIDf3aou30LAsff');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_58_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'Yqv9Z7GPN2e9nlx');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'r5fxJaL3LQTxevd');...
+       atmarker('GIRDEREND', 'EApertures', [0.0076 0.0076]);...
+       atmarker('AN-C07END', 'EApertures', [0.0076 0.0076]);...
+       atmarker('SD08CSTART', 'EApertures', [0.0076 0.0076]);...
+       atmarker('VANNE_START', 'EApertures', [0.0076 0.0076]);...
+       atmarker('FCOR_8_1', 'UUID', 'Znmy5nWv6APhoye');...
+      atmonitor('BPM', 'EApertures', [0.0076 0.0076], 'UUID', 'XI7HiaYADkw9p7c');...
+        atdrift('SD1C_13', 0.322, 'Action', 'BPM', 'EApertures', [0.00847619047619048 0.00847619047619048]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_14', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_15', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('SD08CCENTER', 'EApertures', [0.0475 0.002 ]);...
+        atdrift('SD1C_16', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_17', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_18', 0.322, 'Action', 'BPM', 'EApertures', [0.00854545454545455 0.00854545454545455]);...
+       atmarker('FCOR_8_2', 'UUID', 'YxyphJT5rNL5dZU');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'qViAzHMQVvvIiRq');...
+       atmarker('VANNE_END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD08CEND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C08START', 'EApertures', [0.006 0.006]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'izv0aOdsyVj6wwf');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_59_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'ZYD4E4eldGkAF2U');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'r9c6PHD6PUVtTFF');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'f8V9fsiDSFsXD8x');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'oJ1JAH5jR8zn6EN');...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'N2ASE91SwevCvE0');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'hFCPjwO5N1rFqv5');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'y8uxjYDyHzRcp3L');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'UER5tuwC0QHM4ZU');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'ezie7gpvwkOBDqr');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'V21Vx8b2legvjMD');...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'pJrUDjl5Kqv9DQO');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD32', 0.09, -729.521731325636, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'LGwq2sqEbsOwMuv');...
+       atmarker('CROTCH_08_1', 'EApertures', [0.006 0.006]);...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_60_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'HD2pMubXDlFcKGD');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'cZnveMtGieyZ6ca');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF32_HCOR', 0.12, 782.043582880113, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'fRwsCx8DTOprddT');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'HrAB4MDq6VbbtVy');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'wiXoLkzFeeSBpGT');...
+    atsextupole('SXD32_VCOR', 0.09, -729.521731325636, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'npXTJclhV1WKDfU');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'H9UDO2nii0ICZK4');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'd4qFCCTPjuUGR34');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'dp9pjzr0ctGFBDl');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD3', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'gD7KahKFoHg1NIn');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_08_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'Us24R32F2PwNjxG');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_61_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'O2DyaHePzIXpONu');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF3_HCOR', 0.12, 675.00095481734, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'BWWwWPebYf22BY6');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'q7nF9IOHMBVsuOM');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'HsUpgEgVUW8hJ24');...
+    atsextupole('SXD3_VCOR', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'HaOJlObcFHYGyGE');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'GLrMrZY5ZqkcGi4');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'OewuEWZ2fW0bhJo');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+       atmarker('PHC1', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00785 0.00785]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.0073 0.0073]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'gkkNaX3gLdcMkoK');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD3', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'cyDLYYIPlJyWSfV');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_08_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'LWlteenDdHyxuzt');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_62_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'P9dboIt3L47SbMZ');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF33_HCOR', 0.12, 686.795497427942, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'RfPySzLVOPjpKUB');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'HEKr3vtAPO5IfXo');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'HgjaAVM4ubfC0gW');...
+    atsextupole('SXD33_VCOR', 0.09, -764.318658802759, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'zibop5DgOHZIeiI');...
+        atdrift('L071C', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'w3mJ5G9fypRro6F');...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00714285714285714 0.00714285714285714]);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00786363636363636], 'UUID', 'zSIBFTeBGxI91HI');...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00769318181818182], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00629545454545455]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008 0.005], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008   0.00425]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008  0.0046]);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00521428571428571], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00643877551020408]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00766326530612245], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00781632653061225]);...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00794117647058824 0.00794117647058824]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00741176470588235 0.00741176470588235], 'UUID', 'Gu2cQdAiQHYzn7I');...
+        atdrift('L071C', 0.048, 'EApertures', [0.00682352941176471 0.00682352941176471]);...
+    atsextupole('SXD33', 0.09, -764.318658802759, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.007, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'bKWDiAXhLPz4p9r');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_08_4', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'ZF4bSfItE81xrKQ');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF33_HCOR', 0.12, 686.795497427942, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'bIXPTfgZUPEphov');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_63_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'DxVLbXbi82ORFsn');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'FAIE4cGZRgH98Ct');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'mjDcenawzExyYrp');...
+    atsextupole('SXD3_VCOR', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'F7NiFeHWsGRtwVb');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'uBre6WtI9noFwYV');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'mXv8fzFD3UB5R9w');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00712820512820513 0.00712820512820513], 'UUID', 'kSLF7RrQeTqFiOa');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD3', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'LOQ2hIFkTngHgGx');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_08_5', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'PVvmwMsh81hbmbj');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF3_HCOR', 0.12, 675.00095481734, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'hTqv5SrksuCeHpe');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_64_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'SJoT4vwDwzijua7');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'MO248PU0JQKmwiT');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'OfxXgTZBus6Kb66');...
+    atsextupole('SXD3_VCOR', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'ReSSeSK6yZhygYr');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'PV3IfSOrrCd3RRD');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'h4o2rsn4qSveyAa');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00785 0.00785]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.0073 0.0073]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'ISccWbOO5eMqpUm');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD31', 0.09, -681.129428046866, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'WHpVWxcAbjiNJWj');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'qlLKxwhIoXPZzwQ');...
+       atmarker('CROTCH_08_6', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF31_HCOR', 0.12, 734.143510940683, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'sA3BrePyo6KjNFx');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'tHL9I2TuBt6bpKf');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_65_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OGQUS8NFfNnvtUB');...
+        atdrift('L05', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD31_VCOR', 0.09, -681.129428046866, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'Hljs2n9ocAmliKU');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'otuufs5G9zzKEoy');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'VWfYs4jWGA78II9');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00744444444444444 0.00744444444444444]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.00644444444444444 0.00644444444444444]);...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'cTl2BNTgMAoI1u5');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'ShxHdV9L4ShVAGq');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'gacREUwYD8bZJuF');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_08_7', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'zVl9hDZY470BRH4');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'WNC5ETcmvEA8Rx5');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'UsHYon5RrXzwg1Q');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'eYqObI703LHfRk0');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'PiG8jkVJIzfDNq2');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'BvYcR1YuSx6y6rC');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_66_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'AuRWrL4QTZQEAle');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'RSpLUEDBdWm4EgM');...
+       atmarker('GIRDEREND', 'EApertures', [0.0064 0.0064]);...
+       atmarker('AN-C08END', 'EApertures', [0.0064 0.0064]);...
+       atmarker('SD09CSTART', 'EApertures', [0.0064 0.0064]);...
+       atmarker('VANNE_START', 'EApertures', [0.0064 0.0064]);...
+       atmarker('FCOR_9_1', 'UUID', 'GYpX1eOq7SgL2Xa');...
+      atmonitor('BPM', 'EApertures', [0.0064 0.0064], 'UUID', 'SMNpZody5eY4ovH');...
+        atdrift('SD1C_19', 0.322, 'Action', 'BPM', 'EApertures', [0.00847619047619048 0.00847619047619048]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_20', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_21', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('SD09CCENTER', 'EApertures', [0.0475 0.002 ]);...
+        atdrift('SD1C_22', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_23', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_24', 0.322, 'Action', 'BPM', 'EApertures', [0.00847619047619048 0.00847619047619048]);...
+       atmarker('FCOR_9_2', 'UUID', 'BQLDnE7nQKfJnoG');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'OBdotBa6gJIgNEo');...
+       atmarker('VANNE_END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD09CEND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C09START', 'EApertures', [0.006 0.006]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'KWaYG0lYjxtTqPE');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_67_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'xl9epwzPxUPe75a');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'zQmjrMXkSrvGiQp');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Xg9IF0BQSi5NCMJ');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'mIu9J1U9aDraKLv');...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'YsjWtEw7rMSi8jh');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'I09cHWZx7tHimTt');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'nsomHHwFj20RqoE');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'WYH0PORuFDBnmPY');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'mpJi67Q2UObUcMn');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'dVBetUAjN59GWSy');...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.0076 0.0076], 'UUID', 'rgalqfRHf3geRob');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00786206896551724 0.00786206896551724]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD22', 0.09, -636.039531358256, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'kaUyA9mtlLs4xbP');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_09_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF2_QCORROCT_68_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -262.360558705412], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'Q9TXgalFFexq42L');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'uEZ6ZGLmzvfcEHi');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF22_HCOR', 0.12, 843.464304725645, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SLplQFbiICdxIvS');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'TFWD82A8dk7B3hA');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'q8TKeiPee1G9Lcl');...
+    atsextupole('SXD22_VCOR', 0.09, -636.039531358256, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'q1h1c3V31menz5i');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'obv9i0wNUiVOm1r');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0064 0.0064]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'Zi0lXFSQfCqsHus');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00774358974358974 0.00774358974358974]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00733333333333333 0.00733333333333333], 'UUID', 'IotAss0QRNlYdFs');...
+        atdrift('L071', 0.048, 'EApertures', [0.00682051282051282 0.00682051282051282]);...
+    atsextupole('SXD2', 0.09, -617.904418360321, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'bjcc03T7FYhWHHh');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_09_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'DfBCS0bRNeTlcIB');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF2_HCOR', 0.12, 741.112250869933, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'V2Y5auTja8BYU9O');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF2_QCORROCT_69_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -262.360558705412], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'ebSic5qh0qwS4JR');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'S4C3VW8w0cnJVuq');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'EaJCgmJaqlajjOZ');...
+    atsextupole('SXD2_VCOR', 0.09, -617.904418360321, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'qLg9ttFJS7Zbuj3');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'Ge3WZvjHA3eHTLV');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0068 0.0068]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'MTwPe2hvZV71YKQ');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00774358974358974 0.00774358974358974]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00748717948717949 0.00748717948717949]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00728205128205128 0.00728205128205128], 'UUID', 'hYt8RFsRGVqPRHA');...
+        atdrift('L071', 0.048, 'EApertures', [0.00676923076923077 0.00676923076923077]);...
+    atsextupole('SXD21', 0.09, -655.116114720116, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'S0voWMk6gr9sGt8');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_09_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'XUdeVvx9bQv6xof');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF21_HCOR', 0.12, 719.09699842571, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'yIAlEkzUwCO393S');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'wqhIcsUJAW1Comc');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF2_QCORROCT_70_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -262.360558705412], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'dYF3ViweNp1jycf');...
+        atdrift('L05', 0.06, 'EApertures', [0.008 0.008]);...
+    atsextupole('SXD21_VCOR', 0.09, -655.116114720116, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.0068 0.0068], 'KickAngle', [0. 0.], 'UUID', 'W2TmaUIUel3sTho');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'geTmMyJWbIw8i1k');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'HMtWS7Yjf87C78F');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00722222222222222 0.00722222222222222]);...
+        atdrift('LBD1M1', 0.0395472975018047, 'EApertures', [0.00611111111111111 0.00611111111111111]);...
+        atdrift('D05HM1', 0.05, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q7', 0.0672457254622836, -11.8140171585779, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Iq0VeqXewFccCwT');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH6_COR', 0.06, -324.475203415205, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'umZ9pnE3qn1WrLb');...
+        atdrift('D022HM1Q', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'LXVDcsLF3psB2WT');...
+        atdrift('D040HM1Q', 0.128, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_09_4', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q6', 0.067209291601852, 11.9784555023184, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'SfoLCstq3s1G6zd');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH5', 0.06, -514.413524183539, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'PNVpl7qeoqDVwiN');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH5_QCORROCT_71', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.008 0.008], 'MaxOrder', 3, 'UUID', 'K7pAT73mzbBBhPL');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'WtkxFJIwOYYeKAE');...
+        atdrift('D06HM1', 0.13, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q5', 0.105773394525209, 14.0793630884634, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'yXvae0ujw60WCy9');...
+        atdrift('D032HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH4_COR', 0.06, 682.544409709839, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'fCKjOUJMg7jyLwo');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH4_QCORROCT_72_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'DrNS1nuOw6WQGDn');...
+        atdrift('D031HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q4', 0.0785476107439048, -13.6216098775293, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'vRcRSiaOn9OEPmV');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C09END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD10MLSTART', 'EApertures', [0.006 0.006]);...
+       atmarker('VANNE_START', 'EApertures', [0.006 0.006]);...
+       atmarker('FCOR_10_1', 'UUID', 'AMGGlguQKO0nYhy');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'ekwHoTFaDbWrW9F');...
+        atdrift('SD1M1_13', 0.322, 'Action', 'BPM', 'EApertures', [0.00876190476190476 0.00876190476190476]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_14', 0.01, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('ELECTRODES_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_15', 0.3, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('ELECTRODES_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_16', 0.209986392245071, 'Action', 'BPM', 'RApertures', [-0.00895714285714286  0.00828571428571429 -0.00895714285714286  0.00895714285714286]);...
+       atmarker('ONDULEURMARK_START', 'RApertures', [-0.00878333333333333  0.008               -0.00878333333333333  0.00878333333333333]);...
+        atdrift('SD1M1_17', 1.29, 'Action', 'BPM', 'RApertures', [-0.0045  0.004  -0.0035  0.0035]);...
+       atmarker('SD10MLCENTER', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1M1_18', 1.29, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.00902941176470588 0.00885294117647059]);...
+        atdrift('SD1M1_19', 0.01, 'Action', 'BPM', 'EApertures', [0.00935294117647059 0.00923529411764706]);...
+       atmarker('STRIPLINE_FBT_SPARE_START', 'EApertures', [0.00951470588235294 0.00942647058823529]);...
+        atdrift('SD1M1_20', 0.45, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('STRIPLINE_FBT_SPARE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_21', 0.0599863922450715, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_22', 0.322, 'Action', 'BPM', 'EApertures', [0.00872727272727273 0.00872727272727273]);...
+       atmarker('FCOR_10_2', 'UUID', 'Tmq2WbktOPZaAYq');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'GVievUUlCRwtxA9');...
+       atmarker('VANNE_END', 'EApertures', [0.008 0.008]);...
+       atmarker('SD10MLEND', 'EApertures', [0.008 0.008]);...
+       atmarker('AN-C10START', 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q4', 0.0785476107439048, -13.6216098775293, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'FnyKebcx9McE09T');...
+        atdrift('D031HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH4_QCORROCT_73_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'hftAlsnufyZGHWs');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH4_COR', 0.06, 682.544409709839, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'KaXd3vaGaWcahBt');...
+        atdrift('D032HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q5', 0.105773394525209, 14.0793630884634, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'ga2oVs2f3CkMrbq');...
+        atdrift('D06HM1', 0.13, 'Action', 'BPM', 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'xfxROpJq3vpHFia');...
+    atmultipole('OH5_QCORROCT_74', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.008 0.008], 'MaxOrder', 3, 'UUID', 'PjXdWLkWiDUlZjp');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH5', 0.06, -514.413524183539, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'l8rk0kmgNt6GQXy');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q6', 0.067209291601852, 11.9784555023184, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'cQxZNmIxE2dKYQh');...
+        atdrift('D040HM1Q', 0.128, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'PQLIwLlrzOWJ59o');...
+        atdrift('D022HM1Q', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH6_COR', 0.06, -324.475203415205, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'h5sb2zqGQJBuBuZ');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q7', 0.0672457254622836, -11.8140171585779, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'g0hVUuxsSyxlN34');...
+        atdrift('D05HM1', 0.05, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1M1', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'bChE9u4eBbOIVXf');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD12', 0.09, -749.191327132338, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'VdPJU3abssiy7D6');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_10_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_75_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'Tce3amaUToWTGPk');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'GNw9JqplpxkLtIu');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF12_HCOR', 0.12, 860.065976124029, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'bLrmQH8NNri0dLx');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'On4enEmZFRl207U');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'rYAhe5AOrbcuyxc');...
+    atsextupole('SXD12_VCOR', 0.09, -749.191327132338, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'YVHJkOf6WqgaPRM');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'e6JTTVBSzh0ghfE');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'hjnO7xerzjr64kZ');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'A4vZJ1bnPggblo9');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD1', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'AH9IrqAwCqvI9xH');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_10_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'x7hu0Xb0GgqVhrd');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_76_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'XDOob7io3V1qTVZ');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF1_HCOR', 0.12, 781.382308964691, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'vEhQdLQLF0HREYU');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'I2UWllHu2uaZAyg');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'VqChxxNZ2h8AGFT');...
+    atsextupole('SXD1_VCOR', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'K8b0hWsxxRXzN5r');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'WCEwf4M7i2OFbNn');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'g36W7BDaSVayfPX');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.0078974358974359 0.0078974358974359]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00764102564102564 0.00764102564102564]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'c3RERwj5E2JhkVh');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD1', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'lAUAjaGBVg69v70');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_10_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'M8tQvVnHkgBIKU7');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_77_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'xNoMZ1Bi6QaPGnb');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF13_HCOR', 0.12, 750.901805779491, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'tjRAKPEdRFInKUY');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'jBuIi5vZ0fYEM81');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'IsobJMAPlbN57SI');...
+    atsextupole('SXD13_VCOR', 0.09, -689.724579569546, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'ci3E8UBX18eQjP6');...
+        atdrift('L071C', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'mMQ9i0SYdcYXyom');...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00714285714285714 0.00714285714285714]);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00786363636363636], 'UUID', 'yKcARqADG3aAniN');...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00765909090909091], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00629545454545455]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008 0.005], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00521428571428571], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00643877551020408]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00766326530612245], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00781632653061225]);...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00794117647058824 0.00794117647058824]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00741176470588235 0.00741176470588235], 'UUID', 'qbIxLUY9ayAZsot');...
+        atdrift('L071C', 0.048, 'EApertures', [0.00676470588235294 0.00676470588235294]);...
+    atsextupole('SXD13', 0.09, -689.724579569546, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.007, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'eeUWOlDofsFH7Qi');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'YIBPBZjGMlBArRk');...
+       atmarker('CROTCH_10_4', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF13_HCOR', 0.12, 750.901805779491, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'AUbLGQ0nbmaGYEg');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_78_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'DX9PtcLWCcCLhio');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'RfMiRNktiUgJ8wK');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'l7bf4tTOknkOns1');...
+    atsextupole('SXD1_VCOR', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'AVuUhHxgYtWGiIu');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'v3XnBgW4niLmv0h');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'MRDy6dz8HD6eNVI');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'bCbCMzUlnSmDAgI');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD1', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'p0ZJXfeDpgJYfWu');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'c48HFSCVnPWvP86');...
+       atmarker('CROTCH_10_5', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF1_HCOR', 0.12, 781.382308964691, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'ayTDHV0WtYGGyRd');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_79_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'VE2IMweAjpMs25d');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'peaDW6XgsKWmZuz');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'DFfevtDyP35DulW');...
+    atsextupole('SXD1_VCOR', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'UKj45x3Yt2gwZla');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'pmcVSYMUdJ83hJY');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'd12jlJYcefkx1aj');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00785 0.00785]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.0073 0.0073]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'fPmRPyP2e58JZtk');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD11', 0.09, -701.568414672357, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'koXmXLzU7GN1wFr');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'GTZXxX28geuuBEQ');...
+       atmarker('CROTCH_10_6', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF11_HCOR', 0.12, 831.660252988522, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'CjLNXMf3tngrkFw');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'ARG5j05NUXjl4rP');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_80_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'x2fRtSKPfXAUu7k');...
+        atdrift('L05', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD11_VCOR', 0.09, -701.568414672357, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'S2qbALrppabNaE5');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'xdITtbnfPuWtCPG');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'd4LdReLb0KuEhEH');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.0085 0.0085]);...
+        atdrift('LBD1I', 0.0395472975018047, 'EApertures', [0.0085 0.0085]);...
+        atdrift('D05HI', 0.00499988833315879, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q3', 0.19168495937003, 8.41314022851464, 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.18, 'EApertures', [0.0085 0.0085], 'UUID', 'AGGL2fEKYHt1EaG');...
+        atdrift('D03HIQ', 0.1, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0085 0.0085], 'UUID', 'lFkEbjRQmkeDoxt');...
+        atdrift('D022HIQ', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH3_VCOR', 0.075, -319.26546309512, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.0062, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'j87lRIeIBoD0XF5');...
+      atmonitor('BPM', 'EApertures', [0.0085 0.0085], 'UUID', 'g0rLjjNZw2L2Sm6');...
+        atdrift('D041HI', 0.118040964330437, 'Action', 'BPM', 'EApertures', [0.0085 0.0085]);...
+       atmarker('CROTCH_10_7', 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q2', 0.190595998125992, -9.58185915782871, 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.18, 'EApertures', [0.0085 0.0085], 'UUID', 'xWiqaAuvYVdGDFH');...
+        atdrift('D03HI', 0.052, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH2_QCORROCT_81', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.00718, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'KZW4aqnYvY1kZho');...
+        atdrift('D022HI', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH2_HCOR', 0.075, -0.0179339928448087, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.0062, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'eXjQLUGY4im4Nug');...
+        atdrift('D03HI', 0.052, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q1', 0.137671036897098, 9.06658187296726, 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.0085 0.0085], 'UUID', 'wTOjUGrBH2d2i7o');...
+        atdrift('D031HI', 0.052, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH1_QCORROCT_82_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.00718, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'qk4CcH7WaA1GKAw');...
+        atdrift('D022HI', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH1_COR', 0.075, 180.531158381771, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.0062, 'BoLength', 0.075, 'EApertures', [0.008 0.008], 'KickAngle', [0. 0.], 'UUID', 'owrmEteGL3ic4mn');...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+       atmarker('AN-C10END', 'EApertures', [0.008 0.008]);...
+       atmarker('SD11ISTART', 'EApertures', [0.008 0.008]);...
+       atmarker('VANNE_START', 'EApertures', [0.008 0.008]);...
+       atmarker('FCOR_11_1', 'UUID', 'yHHtXVb3FZZktlt');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'QMXFE1vVNT8Krx9');...
+        atdrift('SD1I_10', 0.322, 'Action', 'BPM', 'EApertures', [0.010952380952381 0.010952380952381]);...
+       atmarker('VANNE_END', 'EApertures', [0.012 0.012]);...
+        atdrift('SD1I_11', 0.01, 'Action', 'BPM', 'EApertures', [0.012 0.012]);...
+       atmarker('DOUBLEBPM_START', 'EApertures', [0.012 0.012]);...
+        atdrift('SD1I_12', 0.3, 'Action', 'BPM', 'EApertures', [0.01568 0.01568]);...
+       atmarker('DOUBLEBPM_END', 'EApertures', [0.016 0.016]);...
+        atdrift('SD1I_13', 0.01, 'Action', 'BPM', 'EApertures', [0.016 0.016]);...
+       atmarker('STRIPLINE_FBT_V_START', 'EApertures', [0.016 0.016]);...
+        atdrift('SD1I_14', 0.542, 'Action', 'BPM', 'EApertures', [0.016 0.016]);...
+       atmarker('STRIPLINE_FBT_V_END', 'EApertures', [0.0133 0.0133]);...
+        atdrift('SD1I_15', 0.01, 'Action', 'BPM', 'EApertures', [0.013 0.013]);...
+       atmarker('STRIPLINE_FBT_H_START', 'EApertures', [0.0124 0.0124]);...
+        atdrift('SD1I_16', 0.542, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('STRIPLINE_FBT_H_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1I_17', 0.01, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1I_18', 2.86, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('SD11I_ONDULEURCENTER', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1I_19', 2.86, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.016 0.016]);...
+        atdrift('SD1I_20', 0.254458331720047, 'Action', 'BPM', 'EApertures', [0.0075 0.0045]);...
+       atmarker('VANNE_START', 'EApertures', [0.012 0.012]);...
+        atdrift('SD1I_21', 0.322, 'Action', 'BPM', 'EApertures', [0.010952380952381 0.010952380952381]);...
+       atmarker('FCOR_11_2', 'UUID', 'CdhmOvQ9OTGDILc');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'Cc8ZFPaEtkeCRBF');...
+       atmarker('VANNE_END', 'EApertures', [0.008 0.008]);...
+       atmarker('SD11IEND', 'EApertures', [0.008 0.008]);...
+       atmarker('AN-C11START', 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+    atsextupole('SH1_COR', 0.075, 180.531158381771, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.0062, 'BoLength', 0.075, 'EApertures', [0.008 0.008], 'KickAngle', [0. 0.], 'UUID', 'Wy3JE4PvVJsdQDc');...
+        atdrift('D022HI', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH1_QCORROCT_83_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.00718, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'gnh0VlujcSNQWZ5');...
+        atdrift('D031HI', 0.052, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q1', 0.137671036897098, 9.06658187296726, 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.0085 0.0085], 'UUID', 'y0SHUqU8rgGVOBT');...
+        atdrift('D03HI', 0.052, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH2_HCOR', 0.075, -0.0179339928448087, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.0062, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'g2crvbGwB3k7CJf');...
+        atdrift('D022HI', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH2_QCORROCT_84', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.00718, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'sXpmCWmPNFzGO7V');...
+        atdrift('D03HI', 0.052, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q2', 0.190595998125992, -9.58185915782871, 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.18, 'EApertures', [0.0085 0.0085], 'UUID', 'l6lzAmcPff4CXYt');...
+        atdrift('D041HI', 0.118040964330437, 'Action', 'BPM', 'EApertures', [0.0085 0.0085]);...
+      atmonitor('BPM', 'EApertures', [0.0085 0.0085], 'UUID', 'qHUdy1dOl1dBPgc');...
+    atsextupole('SH3_VCOR', 0.075, -319.26546309512, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.0062, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'Ug98H0yZc28cf8s');...
+        atdrift('D022HIQ', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0085 0.0085], 'UUID', 'FpGbB8hDqlE1VlH');...
+        atdrift('D03HIQ', 0.1, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q3', 0.19168495937003, 8.41314022851464, 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.18, 'EApertures', [0.0085 0.0085], 'UUID', 'qtsBAOvTGriideM');...
+        atdrift('D05HI', 0.00499988833315879, 'EApertures', [0.0085 0.0085]);...
+        atdrift('LBD1I', 0.0395472975018047, 'EApertures', [0.0085 0.0085]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'Vmes5SFhqhI54LO');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD11', 0.09, -701.568414672357, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'bK5S9OB0Ys7zxeK');...
+       atmarker('CROTCH_11_1', 'EApertures', [0.006 0.006]);...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_85_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'm33DrisBkDuo7hX');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'f2yHBOtgEc1jwNf');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF11_HCOR', 0.12, 831.660252988522, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'h4aV333QnOOxSd9');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'RjZJmismjVd71Fc');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'I9cHU8jEE6OcoRt');...
+    atsextupole('SXD11_VCOR', 0.09, -701.568414672357, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'McQ3n7YVbwEarnS');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'wX24x1XdRpdMJVz');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'oKiS9TXGNEeMeK6');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'X4GRQMmEgfG1RZM');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD1', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'i7C716wcD83OCcu');...
+       atmarker('CROTCH_11_2', 'EApertures', [0.006 0.006]);...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'ldYFvA0YCnLCo2o');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_86_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'kMqW0e4iBTXGYDW');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF1_HCOR', 0.12, 781.382308964691, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'ARXVs12XnBLCHQA');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'm60llCpFQtVEr1l');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'RE96NkB133sMsHB');...
+    atsextupole('SXD1_VCOR', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'u2l5rLkZP0vhz9R');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'Rdoze0uOiE22FwS');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'EgYYWfKNLPjDBvP');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00785 0.00785]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00735 0.00735]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'DFIrSgVfJeVb6lZ');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD1', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'lGKtwl7FZsItV2o');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_11_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'h1MPaXqhqSPoBH3');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_87_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'aSZNrvCyKrlPZbR');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF13_HCOR', 0.12, 750.901805779491, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SBh95P4NRRrVy2D');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'N61STpOyU7VYWnS');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'qk7Bxfb3U6Lo9Jm');...
+    atsextupole('SXD13_VCOR', 0.09, -689.724579569546, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'QyJfG04OWPX6Pxp');...
+        atdrift('L071C', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'l2IxSXerrj20sAY');...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00714285714285714 0.00714285714285714]);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00786363636363636], 'UUID', 'ASjq2BvBwo8jV6x');...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00769318181818182], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00632954545454545]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008 0.005], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008   0.00425]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008               0.00457894736842105]);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00518367346938775], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00640816326530612]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00763265306122449], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00781632653061225]);...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00793939393939394 0.00793939393939394]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00739393939393939 0.00739393939393939], 'UUID', 'DH7jyjqXUjMeIWh');...
+        atdrift('L071C', 0.048, 'EApertures', [0.00678787878787879 0.00678787878787879]);...
+    atsextupole('SXD13', 0.09, -689.724579569546, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.007, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'teJyGkMiGJx7W9E');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_11_4', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 't0bSyVh9RmS36z1');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF13_HCOR', 0.12, 750.901805779491, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'DN7E08sMYoxU7nI');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_88_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'ibTWTrbCm6sWjgA');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'N8PkH7h3EMAAHNp');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'be44GFJfO0XxV3U');...
+    atsextupole('SXD1_VCOR', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'hgg0BUUOWeRdeG4');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'bK5VgV9g8lvzumA');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'Fj4jlOunCGMoe2t');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'GDNn20G4aEMN9m3');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD1', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'iM2M4UOZE3J41YS');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_11_5', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'GwgSZN2328rp3PT');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF1_HCOR', 0.12, 781.382308964691, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'DSM3GmNlqvp9Gjd');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_89_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'ERjmLMe0rcRk6b0');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'unghcATDPyEBOB8');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'Cq2iwlZESZjufd0');...
+    atsextupole('SXD1_VCOR', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'sbxHoVYIV8IIf1d');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'F3IfjjeIVKOLvSm');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'HrfAnlAoacVLBvK');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00784615384615385 0.00784615384615385]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00712820512820513 0.00712820512820513], 'UUID', 'RCDLnwSVDLIblEU');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD12', 0.09, -749.191327132338, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'vzlIDNxN3NVzArZ');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_11_6', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'M034x2N9ERAlVo6');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF12_HCOR', 0.12, 860.065976124029, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'vBXIIPRxb50EZ6B');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'mKLB68WE5XQlO7e');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_90_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'Z1Strx97kRnCu2u');...
+        atdrift('L05', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD12_VCOR', 0.09, -749.191327132338, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'hNCAVNs5I9yVB1a');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'ZytQwc960lwSVjp');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'SryfejfB4391bmQ');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00755555555555556 0.00755555555555556]);...
+        atdrift('LBD1M1', 0.0395472975018047, 'EApertures', [0.00644444444444444 0.00644444444444444]);...
+        atdrift('D05HM1', 0.05, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q7', 0.0672457254622836, -11.8140171585779, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Ytrr4vxVRZKdwZu');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH6_COR', 0.06, -324.475203415205, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'ZKSyntFNaJ5Wlg6');...
+        atdrift('D022HM1Q', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'CpFCRFRm2EmkRc3');...
+        atdrift('D040HM1Q', 0.128, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_11_7', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q6', 0.067209291601852, 11.9784555023184, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'liPfobAKD0CpaKl');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH5', 0.06, -514.413524183539, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'X83nhDrjryH7iB1');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH5_QCORROCT_91', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.008 0.008], 'MaxOrder', 3, 'UUID', 'xO0M72uYnVimv47');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'Cdy2y0iEgEZJjLb');...
+        atdrift('D06HM1', 0.13, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q5', 0.105773394525209, 14.0793630884634, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'fMXpqgwBTl07FIS');...
+        atdrift('D032HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH4_COR', 0.06, 682.544409709839, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'ZNa8VtbTbW73h9V');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH4_QCORROCT_92_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'wLLWJTnL06nZk2k');...
+        atdrift('D031HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q4', 0.0785476107439048, -13.6216098775293, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'QUOv7VmeMswD0Wd');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C11END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD12MLSTART', 'EApertures', [0.006 0.006]);...
+       atmarker('VANNE_START', 'EApertures', [0.006 0.006]);...
+       atmarker('FCOR_12_1', 'UUID', 'e8J6KdMSYnGCT2j');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'JIT1CM87U7f4sSM');...
+        atdrift('SD1M1_23', 0.322, 'Action', 'BPM', 'EApertures', [0.00876190476190476 0.00876190476190476]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_24', 0.01, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('DCCT_1_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_25', 0.3, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('DCCT_1_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_26', 0.209986392245071, 'Action', 'BPM', 'RApertures', [-0.00895714285714286  0.00828571428571429 -0.00895714285714286  0.00895714285714286]);...
+       atmarker('ONDULEURMARK_START', 'RApertures', [-0.00878333333333333  0.008               -0.00878333333333333  0.00878333333333333]);...
+        atdrift('SD1M1_27', 1.29, 'Action', 'BPM', 'RApertures', [-0.0045  0.004  -0.0035  0.0035]);...
+       atmarker('SD12MLCENTER', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1M1_28', 1.29, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.00902941176470588 0.00885294117647059]);...
+        atdrift('SD1M1_29', 0.01, 'Action', 'BPM', 'EApertures', [0.00935294117647059 0.00923529411764706]);...
+       atmarker('DCCT_2_START', 'EApertures', [0.00951470588235294 0.00942647058823529]);...
+        atdrift('SD1M1_30', 0.3, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('DCCT_2_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_31', 0.209986392245071, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_32', 0.322, 'Action', 'BPM', 'EApertures', [0.00872727272727273 0.00872727272727273]);...
+       atmarker('FCOR_12_2', 'UUID', 'u6FYxdu0vwJcxnl');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'xl9mC7lqmTqw3NT');...
+       atmarker('VANNE_END', 'EApertures', [0.008 0.008]);...
+       atmarker('SD12MLEND', 'EApertures', [0.008 0.008]);...
+       atmarker('AN-C12START', 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q4', 0.0785476107439048, -13.6216098775293, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.0064 0.0064], 'UUID', 'Fs4DiUQO4kjDvur');...
+        atdrift('D031HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH4_QCORROCT_93_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'mLYELpqhxv7LXyE');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH4_COR', 0.06, 682.544409709839, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'qgS7WaCgZ7v4DJT');...
+        atdrift('D032HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q5', 0.105773394525209, 14.0793630884634, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'K5GBRpf1PQIhGIc');...
+        atdrift('D06HM1', 0.13, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'dylsTFwUnut1uCO');...
+    atmultipole('OH5_QCORROCT_94', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.008 0.008], 'MaxOrder', 3, 'UUID', 'NnT50e4H2AVaXMm');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH5', 0.06, -514.413524183539, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'Uceb2R74KqMI5jL');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q6', 0.067209291601852, 11.9784555023184, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'd426WyYXdYWCHi1');...
+        atdrift('D040HM1Q', 0.128, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'wPAv3F6z1PIYCz2');...
+        atdrift('D022HM1Q', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH6_COR', 0.06, -324.475203415205, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'Zc3mpeel8cmiEw5');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q7', 0.0672457254622836, -11.8140171585779, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'tp9g2fAbWWeNqeB');...
+        atdrift('D05HM1', 0.05, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1M1', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00766666666666667 0.00766666666666667], 'UUID', 'lvA8xYXzR6p9dmO');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00786666666666667 0.00786666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD21', 0.09, -655.116114720116, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'QUo81bF22BWsxnt');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_12_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF2_QCORROCT_95_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -262.360558705412], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'lUnOSQN39f9QGnO');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'XNyWR5sBrnnpwGM');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF21_HCOR', 0.12, 719.09699842571, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SQ9v7VjsMH1lfcH');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 't640rtQ8y3C0Syp');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'OzQDlf1tpVXse6K');...
+    atsextupole('SXD21_VCOR', 0.09, -655.116114720116, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'cBZAfI8iAtqDNJa');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'KDjDZSG2icVkABm');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'YSfZr2qVvTm2Y8p');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00775 0.00775]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0073 0.0073], 'UUID', 'w75bu50AEqeikMF');...
+        atdrift('L071', 0.048, 'EApertures', [0.0068 0.0068]);...
+    atsextupole('SXD2', 0.09, -617.904418360321, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'rmYqQcyTwYCBs40');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_12_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'sChWuqKvR1tZyqg');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF2_QCORROCT_96_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -262.360558705412], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'gU04ATyKRetMXar');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF2_HCOR', 0.12, 741.112250869933, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'wyOSoyR9QEpWjCy');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'lW1n9z7dHcUxWMx');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'bXsY2iJKRYZ7mTu');...
+    atsextupole('SXD2_VCOR', 0.09, -617.904418360321, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'B9A7A0lG3cgWy5n');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'cngVsTs3Xlg90xc');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'SeMXAlyOwvdABQQ');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00775 0.00775]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00745 0.00745]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0073 0.0073], 'UUID', 'badXwt4qn8KQq2W');...
+        atdrift('L071', 0.048, 'EApertures', [0.0068 0.0068]);...
+    atsextupole('SXD22', 0.09, -636.039531358256, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'GmUq6lryvVbNf3J');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_12_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'Jmj5HWNDjmYXtiv');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF22_HCOR', 0.12, 843.464304725645, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'mBtmcLffL5Idqs3');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'pbRGq4pI0x23ylt');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF2_QCORROCT_97_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -262.360558705412], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'PhA1lcL64Z4Ms7G');...
+        atdrift('L05', 0.06, 'EApertures', [0.008 0.008]);...
+    atsextupole('SXD22_VCOR', 0.09, -636.039531358256, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.0068 0.0068], 'KickAngle', [0. 0.], 'UUID', 'dONmHdXjUuVa1LY');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'PkES8ZRWWPQfNT4');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'F9gY0KLLkYYWq0i');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00715789473684211 0.00715789473684211]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.00621052631578947 0.00621052631578947]);...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'p4NrhTXoufdtcAs');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'kWgTY9cQdx1798J');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'IJqoJWkKJozrY0n');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_12_4', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'lPMJWqOZ5sefgS0');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'ay3dUu3BmUVlxo9');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'FzX7uTKu4DgUyWm');...
+      atmonitor('BPM', 'EApertures', [0.00633333333333333 0.00633333333333333], 'UUID', 'EdAbJKEnJVmdDjL');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'sCKSj9BG7Hafr3N');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'XvEMdh1NroVOuMj');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_98_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'ccP89YdPMyfFKJL');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'MBbn2dkZQWLfudB');...
+       atmarker('GIRDEREND', 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('AN-C12END', 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('SD13CSTART', 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('VANNE_START', 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('FCOR_13_1', 'UUID', 'QudgYae9CkqGqIW');...
+      atmonitor('BPM', 'EApertures', [0.00766666666666667 0.00766666666666667], 'UUID', 'R8Bl4211IDF971s');...
+        atdrift('SD1C_25', 0.322, 'Action', 'BPM', 'EApertures', [0.00847619047619048 0.00847619047619048]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_26', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_27', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('SD13CCENTER', 'EApertures', [0.0475 0.002 ]);...
+        atdrift('SD1C_28', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_29', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_30', 0.322, 'Action', 'BPM', 'EApertures', [0.00847619047619048 0.00847619047619048]);...
+       atmarker('FCOR_13_2', 'UUID', 'q8neXiGLayNFazn');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'xqOgUiITKNcbrPL');...
+       atmarker('VANNE_END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD13CEND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C13START', 'EApertures', [0.006 0.006]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'uZRI20TwQ88JUFD');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_99_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'AFS7Cc3VtVmTiXv');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'MXopiGpLw5onq48');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'AAsoh6R6rPAwQRF');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'Lq7dNpoYRkmOcja');...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'VTkKaUmydfLJNrm');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'ERDOHmUCxSNHr4v');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'Be4xSLaL3Wo2882');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'aeOqUUEBHR64sjs');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'vsaKtRci2RYyotb');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'LwXrF9DtgXyNv4k');...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'p5jlwQ6vpXwIzxP');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD31', 0.09, -681.129428046866, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'nyy4XwCqG0iQzqW');...
+       atmarker('CROTCH_13_1', 'EApertures', [0.006 0.006]);...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_100_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'NslSFmZ9kPBipCg');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'BF8pNahhv1EocYQ');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF31_HCOR', 0.12, 734.143510940683, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'ZEwL4bSg54KVajf');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'ms0v4CTDUc5z7hC');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'WfhB00gENCQ2XGo');...
+    atsextupole('SXD31_VCOR', 0.09, -681.129428046866, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'GESCtLQAgVlaPgP');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'olWoRPaECgEAZ7w');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'ML76XVX7jRCNvwW');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'MxCLewDof1Ejuxl');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD3', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'fc5A7NOU6qqWLOn');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_13_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'YlgroRvmwkPg5w0');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_101_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'yCjAj985yA3bkF4');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF3_HCOR', 0.12, 675.00095481734, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SMK1L6jPpupdMPf');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'VJbcWqpefpjNBmu');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'AhK2z645wciuxHN');...
+    atsextupole('SXD3_VCOR', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'LpB98xLwHXHRlxD');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'X5tLyNwCX1w6PFh');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'g7iepB8tyuU4pkV');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00785 0.00785]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00735 0.00735]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'OjAGpsax99WBgsn');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD3', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'CFjqYn8es9N2T7o');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_13_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'j3J87Gr6FbGwpWh');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_102_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'ZE4GEA0kdBONq4h');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF33_HCOR', 0.12, 686.795497427942, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'GfZMsbNAdVY3LiS');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'SUF8BakDHI5jpGF');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'dmdruSYIRfOKzhe');...
+    atsextupole('SXD33_VCOR', 0.09, -764.318658802759, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'Iby6tuoHsUcIZuC');...
+        atdrift('L071C', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'K5SO69paM5UUHih');...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00714285714285714 0.00714285714285714]);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00786363636363636], 'UUID', 'O4wNX3Usaidjghb');...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00769318181818182], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00632954545454545]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008 0.005], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008   0.00425]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008               0.00457894736842105]);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00518367346938775], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00640816326530612]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00763265306122449], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00781632653061225]);...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00793939393939394 0.00793939393939394]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00739393939393939 0.00739393939393939], 'UUID', 'HNvBNJcWNBkcZ5l');...
+        atdrift('L071C', 0.048, 'EApertures', [0.00678787878787879 0.00678787878787879]);...
+    atsextupole('SXD33', 0.09, -764.318658802759, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.007, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'xlIEVtMQU5HJHcR');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_13_4', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'FfM358opdtPwHaB');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF33_HCOR', 0.12, 686.795497427942, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'co8lRNq7moMqOTz');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_103_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OmgygYUEmN5Yw8G');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'DOQdon0ZATEu7Dm');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'bZT9L7aTqVF1zzL');...
+    atsextupole('SXD3_VCOR', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'zKNylquD7Tmr5iq');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'l5TMCr31sHLvQdF');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'IwZQzN2ee0NJCvV');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'MymhJznUz8g7iZ5');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD3', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'lPE0AF8fQzCAPwH');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_13_5', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'quszCPurIUOcdA0');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF3_HCOR', 0.12, 675.00095481734, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'z7AnodZWpuvjotv');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_104_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'gvqmnn1rRZN0XbM');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'yfYp6IkivatKE7Z');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'cfcDJHEZbqEj7hL');...
+    atsextupole('SXD3_VCOR', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'VHWpEiqXjvKqhmE');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'hsIR1y8Th7EBSyM');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'HQLZUxHDeP0v0xZ');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00784615384615385 0.00784615384615385]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00712820512820513 0.00712820512820513], 'UUID', 'YaSLGYZaWh3jiPy');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD32', 0.09, -729.521731325636, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'kE45ZdNfKQ7m7ba');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'Fjwy0TueQRNujWQ');...
+       atmarker('CROTCH_13_6', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF32_HCOR', 0.12, 782.043582880113, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'yd85yuEXw7RdsXU');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'FzRsrx0fOaLrANG');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_105_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'GRqU7dLwyyTX7Ca');...
+        atdrift('L05', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD32_VCOR', 0.09, -729.521731325636, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'fZtYIb6GoEgFncv');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'xKF2hMLVCI41pK9');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'NHuU8pOjDnZlMVU');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00755555555555556 0.00755555555555556]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.00644444444444444 0.00644444444444444]);...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'obUfSZ3c1Zey4lS');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'fSRKTfK5nkU7pAn');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'jn0TvGIXm3RoTen');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_13_7', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'pPmZx3ywO4HidYn');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'bYG4Bn8u33v7JDV');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'FaBEohCl4bsqPMk');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'JH5Mk95hhkB1bHA');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'bqMIYCskvbdG9mE');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'ecOO9iqZZ2wfniF');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_106_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'LcJ8ki6N8Q3gqEe');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'm9zFxJfBDeA1jq6');...
+       atmarker('GIRDEREND', 'EApertures', [0.0064 0.0064]);...
+       atmarker('AN-C13END', 'EApertures', [0.0064 0.0064]);...
+       atmarker('SD14CSTART', 'EApertures', [0.0064 0.0064]);...
+       atmarker('VANNE_START', 'EApertures', [0.0064 0.0064]);...
+       atmarker('FCOR_14_1', 'UUID', 'j4XMUmOrkUFOcHe');...
+      atmonitor('BPM', 'EApertures', [0.0064 0.0064], 'UUID', 'j6NcgQ1qCzXmBlV');...
+        atdrift('SD1C_31', 0.322, 'Action', 'BPM', 'EApertures', [0.00854545454545455 0.00854545454545455]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_32', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_33', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('SD14CCENTER', 'EApertures', [0.0475 0.002 ]);...
+        atdrift('SD1C_34', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_35', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_36', 0.322, 'Action', 'BPM', 'EApertures', [0.00847619047619048 0.00847619047619048]);...
+       atmarker('FCOR_14_2', 'UUID', 'KCOgNwsCqWAnJ4q');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'pFQGuI2mNMnSMeu');...
+       atmarker('VANNE_END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD14CEND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C14START', 'EApertures', [0.006 0.006]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'UOGnlBYKa3jPVCd');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_107_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'ZUurJPhHrx2tsut');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'juWoqLPZWt6GI05');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'faCsS4y5WcKgXxF');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'PBMfcean4xEavYn');...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'FdY19vMt5ITT0GN');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'GqKdhasehUrby03');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'kqJV9g5UKSrCmpi');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'O8Lns6Dy6yZbQ6X');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'ooFIyWY4j2hPu5i');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'x01LNl8rcmbH3fC');...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00766666666666667 0.00766666666666667], 'UUID', 'u7XaFZzZMFdK2mk');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00786666666666667 0.00786666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD41', 0.09, -735.729130725313, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'oYwrIh66qlPbgUI');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_14_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF4_QCORROCT_108_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -183.939387091905], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'FZZME3CRQhJ5x7S');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'RTZyN4szGa9hhuz');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF41_HCOR', 0.12, 846.26087738574, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'TM1gUa4dvKrfGXh');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'UtbUUoqzwkDdT5T');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'raG9pffBX3ZDAkA');...
+    atsextupole('SXD41_VCOR', 0.09, -735.729130725313, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'UPZwZ246zMHMKbh');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'wmgb4gfVXvR9CiJ');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'gPh5H41fJW9SlEj');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00775 0.00775]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0073 0.0073], 'UUID', 'xo6LJ9Ea5JGZZvJ');...
+        atdrift('L071', 0.048, 'EApertures', [0.0068 0.0068]);...
+    atsextupole('SXD4', 0.09, -748.397964225485, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'BUL20FQzeyrHwcx');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_14_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'j6U4NPohs42tAoj');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF4_HCOR', 0.12, 811.758492840009, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'PvzTf9OTGZ0B7KH');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF4_QCORROCT_109_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -183.939387091905], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'BxWhjhyQ2h0xdcs');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'eefnj2xqeOvbf2N');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'Z70pqHiUdL1XQ7q');...
+    atsextupole('SXD4_VCOR', 0.09, -748.397964225485, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'vldAs4EQNVsBY7i');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'tsvj5jnA6ODyFMf');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0068 0.0068]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'jmnpbWYMmWVFTeJ');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00774358974358974 0.00774358974358974]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00748717948717949 0.00748717948717949]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00733333333333333 0.00733333333333333], 'UUID', 'wL5krLgp2kxkKIC');...
+        atdrift('L071', 0.048, 'EApertures', [0.00682051282051282 0.00682051282051282]);...
+    atsextupole('SXD42', 0.09, -652.433055715131, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'JyMMFWowtrLnE8R');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_14_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'A4RON6ijHBbXyJf');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF42_HCOR', 0.12, 832.798385062542, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'mARm8jvW4HGoF2h');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'kYBiCT8xFr2BPaG');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF4_QCORROCT_110_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -183.939387091905], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'HxkL1wp7JudXi5m');...
+        atdrift('L05', 0.06, 'EApertures', [0.008 0.008]);...
+    atsextupole('SXD42_VCOR', 0.09, -652.433055715131, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.0068 0.0068], 'KickAngle', [0. 0.], 'UUID', 'skVE5sdheod2Cra');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'aLTTGPoKk6ITtbF');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'mMlLj5lRmSro3sb');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00715789473684211 0.00715789473684211]);...
+        atdrift('LBD1M', 0.0395472975018047, 'EApertures', [0.00610526315789474 0.00610526315789474]);...
+        atdrift('D05HM', 0.0250000000000106, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q15', 0.0669665183225528, -13.0158117569202, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'xKj6eRPKxbqSp7F');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH12_COR', 0.06, -549.693929899786, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'iGyyDBtOJzC1d0E');...
+        atdrift('D022HMQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'jPcNrqZo2R3qVJO');...
+        atdrift('D040HMQ', 0.108, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_14_4', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q14', 0.0669654375650683, 13.020316581933, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'QTB7x1pocsX3aJG');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH11', 0.06, -342.377584906705, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'OpZivFOociTOGgS');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH11_QCORROCT_111', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0068 0.0068], 'MaxOrder', 3, 'UUID', 'ZTLTvcGPnKCMnQA');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'fVbvTf7RGHawXIv');...
+        atdrift('D06HM', 0.13, 'Action', 'BPM', 'EApertures', [0.0076 0.0076]);...
+   atquadrupole('Q13', 0.105549024737856, 14.4734284467452, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'fUCu5CSEqFHJQ8t');...
+        atdrift('D032HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH10_COR', 0.06, 767.610099578133, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'xMBhVfJTovzLJOp');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH10_QCORROCT_112_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'ewCD99RrkqWtw2B');...
+        atdrift('D031HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q12', 0.0785288819736742, -13.6759084023114, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'BWJezAoVd19KYKq');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C14END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD15MCSTART', 'EApertures', [0.006 0.006]);...
+       atmarker('VANNE_START', 'EApertures', [0.006 0.006]);...
+       atmarker('FCOR_15_1', 'UUID', 'IGsfPoUG387PHZc');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'UI81zvjwEouBlit');...
+        atdrift('SD1M_13', 0.322, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M_14', 0.287381847814076, 'Action', 'BPM', 'RApertures', [-0.0045  0.004  -0.0035  0.0035]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1M_15', 1.29, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('SD15MCCENTER', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1M_16', 1.29, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1M_17', 0.287381847814076, 'Action', 'BPM', 'EApertures', [0.00660294117647059 0.00598529411764706]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M_18', 0.322, 'Action', 'BPM', 'EApertures', [0.00838095238095238 0.00838095238095238]);...
+       atmarker('FCOR_15_2', 'UUID', 'izVoiLoy7ytiFyi');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'yXnw1lqTCrXN37Q');...
+       atmarker('VANNE_END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD15MCEND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C15START', 'EApertures', [0.006 0.006]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q12', 0.0785288819736742, -13.6759084023114, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'n8OfauRnBcsQc65');...
+        atdrift('D031HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH10_QCORROCT_113_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'AfpdsVIsA6Z3Cac');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH10_COR', 0.06, 767.610099578133, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'WKM3C8nKwLQsCnF');...
+        atdrift('D032HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q13', 0.105549024737856, 14.4734284467452, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'c1fngAxk9DEeGKB');...
+        atdrift('D06HM', 0.13, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.0064 0.0064], 'UUID', 'DE2aLtHDy4nNI7B');...
+    atmultipole('OH11_QCORROCT_114', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'XC9OTQmS4GqwBaN');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH11', 0.06, -342.377584906705, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'WJIiwmv4zP4JIC2');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q14', 0.0669654375650683, 13.020316581933, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'wV6gKIBDqn9QvmI');...
+        atdrift('D040HMQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'wuk0G2WEjyRQHZy');...
+        atdrift('D022HMQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH12_COR', 0.06, -549.693929899786, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'FZSbWLznCfLlKxK');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q15', 0.0669665183225528, -13.0158117569202, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'KMCqg5DZ517zkqK');...
+        atdrift('D05HM', 0.0250000000000106, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1M', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227518, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'to0A3OZBBaP9EC8');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227518, -1.18160211440423, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD51', 0.09, -647.766469752565, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'hZrwRczSF85F2oe');...
+       atmarker('CROTCH_15_1', 'EApertures', [0.006 0.006]);...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_115_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'hnXUV6myKbEC5Le');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060752, 'UUID', 'FDkKVC9mRLvmRTe');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060752);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF51_HCOR', 0.12, 840.822202380127, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'lo23mq0X610fQmP');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'Akcxaubk3JejS8c');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'WGcy7jsNGHcDb8n');...
+    atsextupole('SXD51_VCOR', 0.09, -647.766469752565, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'Guw2t67tOfDFg6M');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'JV3GUvxRYQSgt5k');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'Nzo0uPUg0lqCLnN');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'gt2lS78SREGuiKO');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD5', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'kqB4hRSHexsVjRB');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_15_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'pCwvbnw9pW9ABD4');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_116_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'k0nZhgGG6r7K9iY');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF5_HCOR', 0.12, 715.553794609745, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'dvJdbEl7NlnLI3n');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'R3veD55cBQCKQNX');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'osrddddesB47ijf');...
+    atsextupole('SXD5_VCOR', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'zE1gZZGVJMXG7hQ');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'B0mv77qxcqMxwr3');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'r8ke1Cz6MksYLWK');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00784615384615385 0.00784615384615385]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00712820512820513 0.00712820512820513], 'UUID', 'MadG3hacwjhgNCc');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD5', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'rkPRZFPV9MEJwaJ');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_15_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'ZnadMrmKn0uyogU');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_117_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'pyVI2pju0uZiwX5');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF53_HCOR', 0.12, 711.229968977946, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'CWIWe4zbvWpNk6e');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'UlOwXoIcVAkMY19');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'yIsINGqu1E8M4TW');...
+    atsextupole('SXD53_VCOR', 0.09, -625.758067765939, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'kb1VYeuTsSUdoVd');...
+        atdrift('L071C', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'oqCdkbalqxuzstw');...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00725 0.00725]);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00789655172413793], 'UUID', 'coINBTmhYAREVYi');...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00768965517241379], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00631034482758621]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008 0.005], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008   0.00425]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008  0.0046]);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00518367346938775], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00640816326530612]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00763265306122449], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00781632653061225]);...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.008 0.008]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00739393939393939 0.00739393939393939], 'UUID', 'OvuSOnkxzJOTQEK');...
+        atdrift('L071C', 0.048, 'EApertures', [0.00678787878787879 0.00678787878787879]);...
+    atsextupole('SXD53', 0.09, -625.758067765939, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.007, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'mFSssdJto5f8TAq');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_15_4', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'smBn2RVzgfHk7bQ');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF53_HCOR', 0.12, 711.229968977946, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'AwRPYrmfZUuzTL8');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_118_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'LBhdKZH5frDv4Vq');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'cJPMi9VX10KERr7');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'w8HygZQX1LRgX0b');...
+    atsextupole('SXD5_VCOR', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'ICmgRKynpF00edg');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'syE18okB1o9Fg8n');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'yeeVKvLjZDog2zv');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'gPopd25zYxoWGsv');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD5', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'z4e5JEEDt638QYe');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_15_5', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'NIW8DdACfkIJ0FK');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF5_HCOR', 0.12, 715.553794609745, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'caMRtbOsUqFo5ya');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_119_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OxMDw8leZO2B0T6');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'D8aQvN4xmAAzt9S');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'VJl19oIkpLLbfFy');...
+    atsextupole('SXD5_VCOR', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'xvgVGXBGwUtkkjk');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'iPDFl502rzZ5dEn');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H1', 0.0393049032024916, 0.00245617208465066, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'qdRH7zznjTRPdfW');...
+        atsbend('BD5H1', 0.398927492296932, 0.0318559418401438, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H1', 0.398927492296932, 0.0318559418401438, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H1', 0.0393049032024916, 0.00245617208465066, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00784615384615385 0.00784615384615385]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'ko3nuDeF3hxwk7U');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD52', 0.09, -734.183150728341, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'WBjneDVk7VLGOxs');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H1', 0.0689196396343699, -0.00140236294993324, 8.79568061387988, 'Action', 'FocTune', 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'YiWqimBdj5VOeuH');...
+       atmarker('CROTCH_15_6', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H1', 0.0689196396343699, -0.00140236294993324, 8.79568061387988, 'Action', 'FocTune', 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF52_HCOR', 0.12, 788.330339912278, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'fNVcnQDQ9fmdh4Z');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060752, 'UUID', 'JZzF8giOzQbfJHp');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060752);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_120_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'rvv3pmVklde1C3o');...
+        atdrift('L05', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD52_VCOR', 0.09, -734.183150728341, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'emOpzfn4mA1Rwpf');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'mFiBG1ueRKxCQiE');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+        atsbend('BD21', 0.0284984341976272, 0.00221003821940246, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'FlopfMnmqHCI41E');...
+        atsbend('BD11', 0.0959771205127194, 0.00894539503346868, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD11', 0.0959771205127194, 0.00894539503346868, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD11', 0.0959771205127194, 0.00894539503346868, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD11', 0.0959771205127194, 0.00894539503346868, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD21', 0.0284984341976272, 0.00221003821940246, -1.18160211440423, 'EApertures', [0.0085 0.0085]);...
+        atdrift('LBD1T', 0.0395472975018047, 'EApertures', [0.0085 0.0085]);...
+        atdrift('D021HTQ', 0.0529998883331588, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0085 0.0085], 'UUID', 'ekhtLacIEsvuyv4');...
+        atdrift('D022HTQ', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH15_VCOR', 0.075, -151.263624499999, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'pFgRRCygsw5MRdp');...
+        atdrift('D05HT', 0.22, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q21', 0.118594861317721, -8.24976089349076, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.106, 'EApertures', [0.0085 0.0085], 'UUID', 'SrEjB0m3hHgCzjX');...
+      atmonitor('BPM', 'EApertures', [0.0085 0.0085], 'UUID', 'oAlmbsh6UeWHnvt');...
+        atdrift('D041HT', 0.18, 'Action', 'BPM', 'EApertures', [0.0085 0.0085]);...
+       atmarker('CROTCH_15_7', 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q20', 0.122440853589187, 8.42972886822337, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.11, 'EApertures', [0.0085 0.0085], 'UUID', 'ta4aPfjB5KTSq2w');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH14_HCOR', 0.075, -335.348316276613, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'NX6jPh7y7Ys8j6C');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH141_QCORROCT_121', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'w80CXeRmZCkyswV');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q19', 0.118733643867383, 8.01541064610388, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.106, 'EApertures', [0.0085 0.0085], 'UUID', 'B7ouMPyvpxUVRYo');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH13_COR', 0.075, 476.313437796132, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'I0g6IhZaxrz9YMj');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.008 0.008]);...
+    atmultipole('OH131_QCORROCT_122', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.008 0.008], 'MaxOrder', 3, 'UUID', 'vwvgxHQoQN4mfnx');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q18', 0.0932053766613153, -7.2301598888015, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.08, 'EApertures', [0.008 0.008], 'UUID', 'MYln1ZdMvE34BRh');...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+       atmarker('AN-C15END', 'EApertures', [0.008 0.008]);...
+       atmarker('SD16LSTART', 'EApertures', [0.008 0.008]);...
+       atmarker('VANNE_START', 'EApertures', [0.008 0.008]);...
+       atmarker('FCOR_16_1', 'UUID', 'MARp2WBx8NKjkTI');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'eGM6LKQb7Ho99pT');...
+        atdrift('SD12_1', 0.272, 'Action', 'BPM', 'EApertures', [0.0107619047619048 0.0107619047619048]);...
+       atmarker('VANNE_END', 'EApertures', [0.012 0.012]);...
+       atmarker('ANATOMIX_START', 'EApertures', [0.012 0.012]);...
+        atdrift('SD12_2', 0.396170347288528, 'Action', 'BPM', 'EApertures', [0.0408461538461539 0.0124807692307692]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.0475 0.0025]);...
+        atdrift('SD12_3', 1.0, 'Action', 'BPM', 'EApertures', [0.0475 0.0025]);...
+       atmarker('SD16LACENTER', 'EApertures', [0.0475 0.0025]);...
+        atdrift('SD12_4', 1.0, 'Action', 'BPM', 'EApertures', [0.0475 0.0025]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.0475 0.0025]);...
+        atdrift('SD12_5', 0.396170347288528, 'Action', 'BPM', 'EApertures', [0.027   0.01225]);...
+       atmarker('ANATOMIX_END', 'EApertures', [0.012 0.012]);...
+       atmarker('VANNE_START', 'EApertures', [0.012 0.012]);...
+        atdrift('SD12_6', 0.272, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('FCOR_16_2', 'UUID', 'AsGpSogeBO7DgMs');...
+      atmonitor('BPM', 'EApertures', [0.01 0.01], 'UUID', 'XjhKKWFemAh12Jl');...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('CHIC2', 0.2, -0.0126637486005222, 0.0, 'EApertures', [0.01 0.01], 'EntranceAngle', -0.006, 'ExitAngle', -0.006, 'UUID', 'xOsX13sGZ3gBFdZ');...
+        atdrift('SD23T', 0.35011537936444, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q17', 0.0929982217794612, -7.83896314384854, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.08, 'EApertures', [0.0085 0.0085], 'UUID', 'VQCY0GmOixWYj2X');...
+        atdrift('D032HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH16_QCORROCT_123', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'tVw5dp7STtN1NiD');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH16_COR', 0.075, 0.0, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'CDYCXJFcewStKOT');...
+        atdrift('D031HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q16', 0.132220666360538, 8.59624027008373, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.12, 'EApertures', [0.0085 0.0085], 'UUID', 'HoHLN3GIoqvBalH');...
+        atdrift('D031HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH16_COR', 0.075, 0.0, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'br60wNMReCRi1dj');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH16_QCORROCT_124', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'SV55kcq60G6AhCw');...
+        atdrift('D032HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q17', 0.0929982217794612, -7.83896314384854, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.08, 'EApertures', [0.0085 0.0085], 'UUID', 'Azi2eHkFNMNEX2a');...
+        atdrift('SD23T', 0.35011537936444, 'EApertures', [0.00850340136054422 0.00850340136054422]);...
+        atsbend('CHIC3', 0.2, 0.0191637486005153, 0.0, 'EApertures', [0.00956462585034014 0.00956462585034014], 'EntranceAngle', 0.00925, 'ExitAngle', 0.00925, 'UUID', 'Brvnxi99i7GCP2t');...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.00994557823129252 0.00994557823129252], 'UUID', 'Pv85rZLYETartan');...
+       atmarker('VANNE_START', 'EApertures', [0.00994557823129252 0.00994557823129252]);...
+       atmarker('FCOR_16_3', 'UUID', 'EKOLyPpVmIRKvj6');...
+        atdrift('SD34_1', 0.272, 'Action', 'BPM', 'EApertures', [0.012 0.012]);...
+       atmarker('VANNE_END', 'EApertures', [0.012 0.012]);...
+       atmarker('NANOSCOPIUM_START', 'EApertures', [0.012 0.012]);...
+        atdrift('SD34_2', 0.396170347288528, 'Action', 'BPM', 'EApertures', [0.0205714285714286 0.0121428571428571]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.0475 0.0025]);...
+        atdrift('SD34_3', 1.0, 'Action', 'BPM', 'EApertures', [0.0475 0.0025]);...
+       atmarker('SD16LBCENTER', 'EApertures', [0.0475 0.0025]);...
+        atdrift('SD34_4', 1.0, 'Action', 'BPM', 'EApertures', [0.0475 0.0025]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.0475 0.0025]);...
+        atdrift('SD34_5', 0.396170347288528, 'Action', 'BPM', 'RApertures', [-0.0288157894736842  0.0176052631578947 -0.0101630434782609  0.0101630434782609]);...
+       atmarker('NANOSCOPIUM_END', 'EApertures', [0.012 0.012]);...
+       atmarker('VANNE_START', 'EApertures', [0.012 0.012]);...
+        atdrift('SD34_6', 0.272, 'Action', 'BPM', 'RApertures', [-0.01    0.0095 -0.01    0.01  ]);...
+       atmarker('FCOR_16_4', 'UUID', 'X68nFpi4HOPcnjF');...
+       atmarker('VANNE_END', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'd8UL65ixfJhBVMw');...
+       atmarker('SD16LEND', 'EApertures', [0.008 0.008]);...
+       atmarker('AN-C16START', 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q18', 0.0932053766613153, -7.2301598888015, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.08, 'EApertures', [0.008 0.008], 'UUID', 'eRn981gY5oCoohz');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.008 0.008]);...
+    atmultipole('OH132_QCORROCT_125', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.008 0.008], 'MaxOrder', 3, 'UUID', 'ZZfHR5Dat9oAZCu');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.008 0.008]);...
+    atsextupole('SH13_COR', 0.075, 476.313437796132, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'q8aRllIZ5rsx6q5');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q19', 0.118733643867383, 8.01541064610388, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.106, 'EApertures', [0.0085 0.0085], 'UUID', 'gdPBxgdap0WiRuw');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH142_QCORROCT_126', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'xVm0X7Nof3reUPP');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH14_HCOR', 0.075, -335.348316276613, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'nlSCV2RCK67BqFB');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q20', 0.122440853589187, 8.42972886822337, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.11, 'EApertures', [0.0085 0.0085], 'UUID', 'N7BKJRN5crqvxBZ');...
+        atdrift('D041HT', 0.18, 'Action', 'BPM', 'EApertures', [0.0085 0.0085]);...
+      atmonitor('BPM', 'EApertures', [0.0085 0.0085], 'UUID', 'VHtvh3zH8bS4Mke');...
+   atquadrupole('Q21', 0.118594861317721, -8.24976089349076, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.106, 'EApertures', [0.0085 0.0085], 'UUID', 'GzJv6SWFbv05IDh');...
+        atdrift('D05HTC', 0.06, 'EApertures', [0.0085 0.0085]);...
+        atsbend('CHIC4', 0.1, -0.0118434756989878, 0.0, 'EApertures', [0.0085 0.0085], 'EntranceAngle', -0.0029, 'ExitAngle', -0.0029, 'UUID', 'I3srlbxQtoyEmwP');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH15_VCOR', 0.075, -151.263624499999, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'G1NE7XpqAmZS3tJ');...
+        atdrift('D022HTQ', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0085 0.0085], 'UUID', 'NC87YAIqeX1lltb');...
+        atdrift('D021HTQ', 0.0529998883331588, 'EApertures', [0.0085 0.0085]);...
+        atdrift('LBD1T', 0.0395472975018047, 'EApertures', [0.0085 0.0085]);...
+        atsbend('BD22', 0.0284984341976272, 0.00259580023151625, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'CM2PRs9jqUdRxbS');...
+        atsbend('BD12', 0.0959771205127194, 0.0105068130926535, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD12', 0.0959771205127194, 0.0105068130926535, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD12', 0.0959771205127194, 0.0105068130926535, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD12', 0.0959771205127194, 0.0105068130926535, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD22', 0.0284984341976272, 0.00259580023151625, -1.18160211440423, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD52', 0.09, -734.183150728341, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'vGzK8cOk2GRJuZG');...
+       atmarker('CROTCH_16_1', 'EApertures', [0.006 0.006]);...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_127_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'Ku23BwhZuVoseEw');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060752, 'UUID', 'EhbmUOlPoyhEDGV');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060752);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF52_HCOR', 0.12, 788.330339912278, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'A086ykLLbQQT6L2');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'TJ602uDtvgvt9CX');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'PuM8kVufdAXux9A');...
+    atsextupole('SXD52_VCOR', 0.09, -734.183150728341, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'p7RXCIIj0evaLfo');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'VEMQIPMZbCt7YGm');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H2', 0.0393049032024916, 0.00243989287061025, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'S8O9UutAfpOsT7s');...
+        atsbend('BD5H2', 0.398927492296932, 0.0316448044776945, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H2', 0.398927492296932, 0.0316448044776945, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H2', 0.0393049032024916, 0.00243989287061025, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'zRQeur40Lo9LwcZ');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD5', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'ekPI3q1gQTLvgJj');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_16_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'GOBVMz9uhQmokRN');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_128_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'dV3RBRhlozjjgAO');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF5_HCOR', 0.12, 715.553794609745, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'X4ojpnPSq3ZrJTf');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'wAcGJEtcptX4vKX');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'pZAYCW3qvYJPQOT');...
+    atsextupole('SXD5_VCOR', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'KIskSDNye84LxdX');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'qrhcIxFmArp8vw8');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'QFYKYplxeXpZ4jW');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00785 0.00785]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00735 0.00735]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'ilRWTfqIQoJED7Z');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD5', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'bqOnx7ODgdBCsmo');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_16_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'qCEsDwrprcCOVPQ');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_129_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'px1H2bHgu3GFSqr');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF53_HCOR', 0.12, 711.229968977946, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'jfZNdNoaWSgOJzh');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'A5i2SN6AS5qtizP');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'o27LiOfkthSVjRs');...
+    atsextupole('SXD53_VCOR', 0.09, -625.758067765939, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'Z636VaGpckqDoP6');...
+        atdrift('L071C', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'y032fCS7V5ZZroM');...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00714285714285714 0.00714285714285714]);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00786363636363636], 'UUID', 'QvyZLsYTYZE3hVG');...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00769318181818182], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00632954545454545]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008 0.005], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008   0.00425]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008               0.00457894736842105]);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00518367346938775], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00640816326530612]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00763265306122449], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00781632653061225]);...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00793939393939394 0.00793939393939394]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00739393939393939 0.00739393939393939], 'UUID', 'bFhZaOOmmYVwphu');...
+        atdrift('L071C', 0.048, 'EApertures', [0.00678787878787879 0.00678787878787879]);...
+    atsextupole('SXD53', 0.09, -625.758067765939, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.007, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'B0FN5qrW0z5o00w');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_16_4', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'zhKD68Ov5TN6X7K');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF53_HCOR', 0.12, 711.229968977946, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'qIjRVrSbfKRVmIK');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_130_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'CbhhOsbSLkbCiUu');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'wBffWaZjLQsWKNY');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'jFX6k7Cn0SeqNZi');...
+    atsextupole('SXD5_VCOR', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'zHYyRcduJ0kZlxq');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'N4SjloPj2YtCsuR');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'fsmTHZCkZaD1qYY');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'LVDVCuG3QzBpE9i');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD5', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'y0oNu9QbVL49Csd');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_16_5', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'eSYx8vTP4TMaXBX');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF5_HCOR', 0.12, 715.553794609745, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'yJ5xnt3QcTwl3ZX');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_131_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'z1IaLOMkdqZPACy');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'rUbISSWlcYvkEMd');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'xfVQbKFv7EKjZpH');...
+    atsextupole('SXD5_VCOR', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'hVV0I97EeKfzAMz');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'DuLcafiLzh8uwV7');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'HWd1zCsEJznVwCP');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00784615384615385 0.00784615384615385]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00712820512820513 0.00712820512820513], 'UUID', 'KWdsOPw38EyhxFx');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD51', 0.09, -647.766469752565, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'i0y4K1pg3OUt0gM');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'NgMo9ZjDDS7hZkN');...
+       atmarker('CROTCH_16_6', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF51_HCOR', 0.12, 840.822202380127, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'YhI2LpoOPW2GEYy');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060752, 'UUID', 'Pc2E4fsMoo1DL7y');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060752);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_132_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'jjtfOPNLAU06mVd');...
+        atdrift('L05', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD51_VCOR', 0.09, -647.766469752565, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'JbUiagivs77V0bj');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'Vu1jXdwVgoQ5jUQ');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227518, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'Kh2OT31f4t89Wcn');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227518, -1.18160211440423, 'EApertures', [0.00755555555555556 0.00755555555555556]);...
+        atdrift('LBD1M', 0.0395472975018047, 'EApertures', [0.00644444444444444 0.00644444444444444]);...
+        atdrift('D05HM', 0.0250000000000106, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q15', 0.0669665183225528, -13.0158117569202, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Hz741xEEty29NBK');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH12_COR', 0.06, -549.693929899786, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'KOk66UeKhWqDhIR');...
+        atdrift('D022HMQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'eUsQEGeU8yvgyuV');...
+        atdrift('D040HMQ', 0.108, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_16_7', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q14', 0.0669654375650683, 13.020316581933, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'wDqSL3o4LBjc4TZ');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH11', 0.06, -342.377584906705, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'UYV0gsuv8NnjwNU');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH11_QCORROCT_133', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'eViSO6pxLkNNsg0');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'ztL40iZhgNc7zQ9');...
+        atdrift('D06HM', 0.13, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q13', 0.105549024737856, 14.4734284467452, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'WGiLK493ihRqsXh');...
+        atdrift('D032HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH10_COR', 0.06, 767.610099578133, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'UNq74adoAZaUIVE');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH10_QCORROCT_134_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'myORYXyys6ALHr9');...
+        atdrift('D031HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q12', 0.0785288819736742, -13.6759084023114, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'dnngwM9K0OK97nO');...
+       atmarker('GIRDEREND', 'EApertures', [0.0076 0.0076]);...
+       atmarker('AN-C16END', 'EApertures', [0.0076 0.0076]);...
+       atmarker('SD17MCSTART', 'EApertures', [0.0076 0.0076]);...
+       atmarker('VANNE_START', 'EApertures', [0.0076 0.0076]);...
+       atmarker('FCOR_17_1', 'UUID', 'aQdbFdDLbn0Z1vB');...
+      atmonitor('BPM', 'EApertures', [0.0076 0.0076], 'UUID', 'lWEeZ6FjZUAiRfe');...
+        atdrift('SD1M_19', 0.322, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M_20', 0.287381847814076, 'Action', 'BPM', 'RApertures', [-0.0045  0.004  -0.0035  0.0035]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1M_21', 1.29, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('SD17MCCENTER', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1M_22', 1.29, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1M_23', 0.287381847814076, 'Action', 'BPM', 'EApertures', [0.00644117647058823 0.00579411764705882]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M_24', 0.322, 'Action', 'BPM', 'EApertures', [0.00836363636363636 0.00836363636363636]);...
+       atmarker('FCOR_17_2', 'UUID', 'lfFkYX13vkhOn5C');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'cxhu22O4rqlQdeM');...
+       atmarker('VANNE_END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD17MCEND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C17START', 'EApertures', [0.006 0.006]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q12', 0.0785288819736742, -13.6759084023114, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'voA9qQ8wiO7m26D');...
+        atdrift('D031HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH10_QCORROCT_135_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'I4fl1EakbfIXCFh');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH10_COR', 0.06, 767.610099578133, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SSnyQ4aGX38s3iu');...
+        atdrift('D032HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q13', 0.105549024737856, 14.4734284467452, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Ypo7fpuvXjXNgmw');...
+        atdrift('D06HM', 0.13, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.0072 0.0072], 'UUID', 'eDrtsaD1wmDsgAW');...
+    atmultipole('OH11_QCORROCT_136', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'UGjl7fhokr0WvEr');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH11', 0.06, -342.377584906705, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'yn3E9y1VcwcSHLs');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q14', 0.0669654375650683, 13.020316581933, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'VAi1RJ1u6EEmQFW');...
+        atdrift('D040HMQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'FeX9hyEqgF5llhY');...
+        atdrift('D022HMQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH12_COR', 0.06, -549.693929899786, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'xdqzEfyKHYpyF8R');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q15', 0.0669665183225528, -13.0158117569202, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'iM5jmziTEDUR1eT');...
+        atdrift('D05HM', 0.0250000000000106, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1M', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'fQM3KDvqNb4dJHs');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00786666666666667 0.00786666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD42', 0.09, -652.433055715131, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'Pt4f5frF8dOV1da');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_17_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF4_QCORROCT_137_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -183.939387091905], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'RWqlH29a8OmCn7s');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'TuKpbbrz1qjYf4a');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF42_HCOR', 0.12, 832.798385062542, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'pmwTvcb9ZSXU0gR');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'H1UZwAJ0EINVvWp');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'vs3ZdJznNAkCZAa');...
+    atsextupole('SXD42_VCOR', 0.09, -652.433055715131, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'TUwgeZU4gvgHtSZ');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'v40iswKoDxyUM6l');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0068 0.0068]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'AfuQionHTobfYWO');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00774358974358974 0.00774358974358974]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00728205128205128 0.00728205128205128], 'UUID', 'lzTEfb3VWk4jsAr');...
+        atdrift('L071', 0.048, 'EApertures', [0.00676923076923077 0.00676923076923077]);...
+    atsextupole('SXD4', 0.09, -748.397964225485, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'Yo0iQBzn3DIm4ei');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_17_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'CmnqwKilyvSa8HX');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF4_QCORROCT_138_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -183.939387091905], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'Q40DUlfmSoXszSJ');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF4_HCOR', 0.12, 811.758492840009, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'YfD5zypzOb0N1lG');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'q5khZn3IpmN5Dzx');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'CsWQ231UK32E9bF');...
+    atsextupole('SXD4_VCOR', 0.09, -748.397964225485, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'IpBGnelhShKmhnr');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'ec78mqFMxSLSLTf');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'PtuHfucnfmvFKlf');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00775 0.00775]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00745 0.00745]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0073 0.0073], 'UUID', 'TkvsXfhLJIFfABM');...
+        atdrift('L071', 0.048, 'EApertures', [0.0068 0.0068]);...
+    atsextupole('SXD41', 0.09, -735.729130725313, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'pTJJvHpQHuxPIxp');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_17_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'IVZIfPzRP8mJgiL');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF41_HCOR', 0.12, 846.26087738574, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'TZ8usiDczydemub');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'Vseu6pAIhl7EiZK');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF4_QCORROCT_139_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -183.939387091905], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'kT0OfewNU5cvjhK');...
+        atdrift('L05', 0.06, 'EApertures', [0.008 0.008]);...
+    atsextupole('SXD41_VCOR', 0.09, -735.729130725313, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.00666666666666667 0.00666666666666667], 'KickAngle', [0. 0.], 'UUID', 'KB64140GgWlwLNW');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'pPZBmtoZoCQV210');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'e3McR9VZOKLioBx');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00711111111111111 0.00711111111111111]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.00611111111111111 0.00611111111111111]);...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Yu8smQ8xQuYYp4R');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'emaMkGTmuGv6rL2');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'LV3MuajMtYXPYgS');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_17_4', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'N9Pv2M9B73U0yhO');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'WFrDKwTeiPXXBon');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'vgYGC0CROj3pH9K');...
+      atmonitor('BPM', 'EApertures', [0.00633333333333333 0.00633333333333333], 'UUID', 'SFkVgLEATUnN6QF');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'bqcdyAFZHabj3ot');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'pA1ucYqoawf59s1');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_140_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'oGYDCsPEhrjS0d1');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'BLQvMEgYHfsU4Fo');...
+       atmarker('GIRDEREND', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+       atmarker('AN-C17END', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+       atmarker('SD18CSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+       atmarker('VANNE_START', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+       atmarker('FCOR_18_1', 'UUID', 'SONxjHpiQcoK7PC');...
+      atmonitor('BPM', 'EApertures', [0.00733333333333333 0.00733333333333333], 'UUID', 'BwhET6izmX1TJNR');...
+        atdrift('SD1C_37', 0.322, 'Action', 'BPM', 'EApertures', [0.00847619047619048 0.00847619047619048]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_38', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_39', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('SD18CCENTER', 'EApertures', [0.0475 0.002 ]);...
+        atdrift('SD1C_40', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_41', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_42', 0.322, 'Action', 'BPM', 'EApertures', [0.00847619047619048 0.00847619047619048]);...
+       atmarker('FCOR_18_2', 'UUID', 'qbQdLCOdYOXssQL');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'nKmvUMGD8cBizs6');...
+       atmarker('VANNE_END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD18CEND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C18START', 'EApertures', [0.006 0.006]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'XrmpRCUXlvEq9kG');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_141_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'odNAB4WIaMh0bfk');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'ZT4oLCYt1Zd9kX6');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'UmKffUsqEkKBzgo');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'RxnVqwMn70CYNuM');...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'zTMvAYBa61OATdL');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'GVdbApJdPoWOxCY');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'dpyCmy5IDFwEFHX');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'yoJGY8iufxIjfuV');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'l1lZb6es7hykeJb');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'fEmk2B9P7yt4UwV');...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'pUDV1TsPMPRQdpg');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD32', 0.09, -729.521731325636, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'oFRkZAEJYVCV4vO');...
+       atmarker('CROTCH_18_1', 'EApertures', [0.006 0.006]);...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_142_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OndtG1uJFrF7b7A');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'htBx8A1j2JU9Zkg');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF32_HCOR', 0.12, 782.043582880113, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'ooHEikFF9BPKm5H');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'EeB2O3uIhNuB49C');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'ogoWcGIvHY5fLKi');...
+    atsextupole('SXD32_VCOR', 0.09, -729.521731325636, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'gunmM2jDJkiJJeJ');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'cmYZtpqdcu7lG7v');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'f7SVbEjWCScDLK7');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'sjldOIpbJz7Pd7I');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD3', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'ENKdn0PqFFK4Zon');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_18_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'bL2VZXZ2BGzi8ar');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_143_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'vRTP9f7PRG6wr1F');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF3_HCOR', 0.12, 675.00095481734, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'mpkTEpz95QRjqFE');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'ExuUvuTRjYRCtS9');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'VKTosMhkcj1wVML');...
+    atsextupole('SXD3_VCOR', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'NB61fDvHJUMEnzv');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'eGHchyOTXeDlg1S');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'ZYOH75n2SyiGvd3');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00784615384615385 0.00784615384615385]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00712820512820513 0.00712820512820513], 'UUID', 'Vnr5RagaoqrgP7d');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD3', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'YT8Ue2L4kT3mCyi');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_18_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'ASKAeDByXD3eCnk');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_144_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'cnaTTEY42gz5mQ0');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF33_HCOR', 0.12, 686.795497427942, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'nTCeomWPAJrGaQN');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'Xin2sMoSNMhBee9');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'wsAzV8nFPI8aKE0');...
+    atsextupole('SXD33_VCOR', 0.09, -764.318658802759, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'y2hRz0Q3zAAku3R');...
+        atdrift('L071C', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'fapVJ3ERgSfR0nZ');...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00725 0.00725]);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00789655172413793], 'UUID', 'j5izIwpRz2fdLd7');...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00768965517241379], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00631034482758621]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008 0.005], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008   0.00425]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008  0.0046]);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00518367346938775], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00640816326530612]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00763265306122449], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00781632653061225]);...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.008 0.008]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00739393939393939 0.00739393939393939], 'UUID', 'jkhmIZIdBM3Dtdu');...
+        atdrift('L071C', 0.048, 'EApertures', [0.00678787878787879 0.00678787878787879]);...
+    atsextupole('SXD33', 0.09, -764.318658802759, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.007, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'ZtWDVgICQkWJPLV');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_18_4', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'r6topuPkmrtoeyi');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF33_HCOR', 0.12, 686.795497427942, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'I0eu98esyJLYOW2');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_145_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'REEosZm4tw9I6th');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'TDmx2h7Jy8CVmKK');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'twbfXQ05tzphUIV');...
+    atsextupole('SXD3_VCOR', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'PQ0zsAgNjW8in3O');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'PmJZM2T6SwTZ375');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'mTC2XoVKDr76XuE');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'A4tun126wuuFW6B');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD3', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'eWzK0drvSjgKBHb');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_18_5', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'O291rEZAQy7bLOr');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF3_HCOR', 0.12, 675.00095481734, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'CwwPGuo8mntFGIQ');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_146_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'nhRqewz8vJ2E1zC');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'whfiX2IRKdnkVRZ');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'PM05t3RNNzfEP33');...
+    atsextupole('SXD3_VCOR', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'fH2ixh22UBANYPm');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'PUvsLvFaHfxFhAs');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'j1Fo2ru0E4XO8uk');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00784615384615385 0.00784615384615385]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'MYYbYLxDzHDJYwj');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD31', 0.09, -681.129428046866, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'AlkYpqxacajIqNO');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_18_6', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'nmOdvRFqpqtaFLm');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF31_HCOR', 0.12, 734.143510940683, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'qzFuyCVODz6mSTg');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'y83Rf0myitM8Waa');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_147_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'f4TaIhp1nlic4Y7');...
+        atdrift('L05', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD31_VCOR', 0.09, -681.129428046866, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'q5IvlzX32D0uYQA');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'mJzw33ptOAwtoKO');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'DYk8RTmJInxM1ns');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00747368421052632 0.00747368421052632]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.00642105263157895 0.00642105263157895]);...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'FSHG2FNcT25Ui54');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'fFGEjJfBbV1qaNc');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'IaF6LApWYNw7RC6');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_18_7', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'GEExtKpaGu1jFUn');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'h1Upx27BFwLGwBI');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'nAV7Efpa1kUVQ3H');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'ZscyvXhvvCri9BL');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'XXobmlH22XP4HfW');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'vcmbYb5ehtnBP1y');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_148_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'GVSLEzvRE9rZivm');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'nHyOeAkyxmk93Ie');...
+       atmarker('GIRDEREND', 'EApertures', [0.0064 0.0064]);...
+       atmarker('AN-C18END', 'EApertures', [0.0064 0.0064]);...
+       atmarker('SD19CSTART', 'EApertures', [0.0064 0.0064]);...
+       atmarker('VANNE_START', 'EApertures', [0.0064 0.0064]);...
+       atmarker('FCOR_19_1', 'UUID', 'fMyPJEmWJ5wyC8I');...
+      atmonitor('BPM', 'EApertures', [0.0064 0.0064], 'UUID', 'PnuyQL4aLdWZw4a');...
+        atdrift('SD1C_43', 0.322, 'Action', 'BPM', 'EApertures', [0.00847619047619048 0.00847619047619048]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_44', 0.0835458676300582, 'Action', 'BPM', 'RApertures', [-0.00903809523809524  0.00857142857142857 -0.00903809523809524  0.00903809523809524]);...
+       atmarker('ONDULEURMARK_START', 'RApertures', [-0.00884571428571429  0.00828571428571429 -0.00884571428571429  0.00884571428571429]);...
+        atdrift('SD1C_45', 1.189, 'Action', 'BPM', 'RApertures', [-0.0045  0.004  -0.0035  0.0035]);...
+       atmarker('SD19CCENTER', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1C_46', 1.189, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.00902941176470588 0.00885294117647059]);...
+        atdrift('SD1C_47', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_48', 0.322, 'Action', 'BPM', 'EApertures', [0.00854545454545455 0.00854545454545455]);...
+       atmarker('FCOR_19_2', 'UUID', 'UTC35J40gByrBIh');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'Y7G3120LZb4a4Nl');...
+       atmarker('VANNE_END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD19CEND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C19START', 'EApertures', [0.006 0.006]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Z0lI3nYCBdhztr6');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_149_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'x25PcJJz5zTf7ie');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'vueMlrgHlbOTynr');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'BjHNZrYmvm4v7ha');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'IDKTI3kuRtqUOSr');...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'Zs2mV8YsIwN1H4v');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'J25XJvMN9cMLGxG');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'btB5tSYGgiUjgCv');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'rIVFVkVyRW5dixG');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'z1q14vO734eaT5Y');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'BPNgEDjjZaKhRB1');...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00766666666666667 0.00766666666666667], 'UUID', 'L7ZFz18CZxDflPV');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00786666666666667 0.00786666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD22', 0.09, -636.039531358256, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'LGAU8cbj5n6Y7j8');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_19_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF2_QCORROCT_150_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -262.360558705412], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'NeSaa0C9CiDEXHd');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'NPZ6GVOC6I60cQ1');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF22_HCOR', 0.12, 843.464304725645, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'txsp2V7qhNEYVaQ');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'TalKeBTVfrm8dbq');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'tOfJn0DB90cj8ET');...
+    atsextupole('SXD22_VCOR', 0.09, -636.039531358256, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'pePAGl1ox3rdBtc');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'wM3RPLD2TTDu9ko');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'riwtItBXdhNJzaA');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00775 0.00775]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0073 0.0073], 'UUID', 'spnUZWGaQvpScxT');...
+        atdrift('L071', 0.048, 'EApertures', [0.0068 0.0068]);...
+    atsextupole('SXD2', 0.09, -617.904418360321, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'Hp6aOQTMckAcrsW');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_19_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'CGIdLCp7JRkiis6');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF2_HCOR', 0.12, 741.112250869933, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'BASzM3dHxgRIvTw');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF2_QCORROCT_151_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -262.360558705412], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'wgBOMR7nevSzk7v');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'kKKeEGTyW0SaoLw');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'oMMWUbqayZl6TfJ');...
+    atsextupole('SXD2_VCOR', 0.09, -617.904418360321, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'oEyIdZ6SavCymdU');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'tKK9uIHui1Clvs2');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'Z03GNsCyqmm9QKY');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00775 0.00775]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00745 0.00745]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0073 0.0073], 'UUID', 'zyPnJG4cGsMvPX6');...
+        atdrift('L071', 0.048, 'EApertures', [0.0068 0.0068]);...
+    atsextupole('SXD21', 0.09, -655.116114720116, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'wlQQmcEjC9aCMa7');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_19_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'w2nbrPZun1Dz6wm');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF21_HCOR', 0.12, 719.09699842571, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'G4knoteyfcX2Kzs');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'NWTOFGWSTUHHNLi');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF2_QCORROCT_152_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -262.360558705412], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'USWmg6o05VrSSLj');...
+        atdrift('L05', 0.06, 'EApertures', [0.008 0.008]);...
+    atsextupole('SXD21_VCOR', 0.09, -655.116114720116, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.00666666666666667 0.00666666666666667], 'KickAngle', [0. 0.], 'UUID', 'X82Qfp4nQAulvxE');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'dEHThwXtqsyXmop');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'PUNYoOMNd3xlDre');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00715789473684211 0.00715789473684211]);...
+        atdrift('LBD1M1', 0.0395472975018047, 'EApertures', [0.00621052631578947 0.00621052631578947]);...
+        atdrift('D05HM1', 0.05, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q7', 0.0672457254622836, -11.8140171585779, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'sYmwW8xbhItB9Pc');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH6_COR', 0.06, -324.475203415205, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'bLsbvOynecY6JBa');...
+        atdrift('D022HM1Q', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'MDFR0bVD8c3Cfnp');...
+        atdrift('D040HM1Q', 0.128, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_19_4', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q6', 0.067209291601852, 11.9784555023184, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'xboJuDWAkFZ0gyx');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH5', 0.06, -514.413524183539, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'ufI0XAhRqBTcuom');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH5_QCORROCT_153', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.008 0.008], 'MaxOrder', 3, 'UUID', 'oYm3av3egKvAf3i');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'HMKAYEtATKE9oXo');...
+        atdrift('D06HM1', 0.13, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q5', 0.105773394525209, 14.0793630884634, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'qdA8QQHW6hJ3Grd');...
+        atdrift('D032HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH4_COR', 0.06, 682.544409709839, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'e2kv7G9OPQnhqlF');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH4_QCORROCT_154_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'QTZOilDm3187Xx5');...
+        atdrift('D031HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q4', 0.0785476107439048, -13.6216098775293, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'aTzhNVLnrgXBg7S');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C19END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD20MLSTART', 'EApertures', [0.006 0.006]);...
+       atmarker('VANNE_START', 'EApertures', [0.006 0.006]);...
+       atmarker('FCOR_20_1', 'UUID', 'AqKSFfJ38w94Sfy');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'Bq7j1gw5uNBinzR');...
+        atdrift('SD1M1_33', 0.322, 'Action', 'BPM', 'EApertures', [0.00881818181818182 0.00881818181818182]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_34', 0.519986392245071, 'Action', 'BPM', 'RApertures', [-0.00895714285714286  0.00828571428571429 -0.00895714285714286  0.00895714285714286]);...
+       atmarker('ONDULEURMARK_START', 'RApertures', [-0.00895714285714286  0.00828571428571429 -0.00895714285714286  0.00895714285714286]);...
+        atdrift('SD1M1_35', 1.29, 'Action', 'BPM', 'RApertures', [-0.0045  0.004  -0.0035  0.0035]);...
+       atmarker('SD20MLCENTER', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1M1_36', 1.29, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.00902941176470588 0.00885294117647059]);...
+        atdrift('SD1M1_37', 0.519986392245071, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_38', 0.322, 'Action', 'BPM', 'EApertures', [0.00876190476190476 0.00876190476190476]);...
+       atmarker('FCOR_20_2', 'UUID', 'zachHqxwjvw6wnm');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'Q9Ao6m17VzQgn3S');...
+       atmarker('VANNE_END', 'EApertures', [0.008 0.008]);...
+       atmarker('SD20MLEND', 'EApertures', [0.008 0.008]);...
+       atmarker('AN-C20START', 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q4', 0.0785476107439048, -13.6216098775293, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'VkLiG7VAsHJOo63');...
+        atdrift('D031HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH4_QCORROCT_155_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'qk132wKa5bKZShO');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH4_COR', 0.06, 682.544409709839, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'fZb7pwVck98y7hI');...
+        atdrift('D032HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q5', 0.105773394525209, 14.0793630884634, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'nfHOPB7WaJ8Fhga');...
+        atdrift('D06HM1', 0.13, 'Action', 'BPM', 'EApertures', [0.0064 0.0064]);...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'dMr06o1aiIx009E');...
+    atmultipole('OH5_QCORROCT_156', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.008 0.008], 'MaxOrder', 3, 'UUID', 'Qx8vzidqOYkSZhj');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH5', 0.06, -514.413524183539, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'pw7fZ9gXlZ2JZtj');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q6', 0.067209291601852, 11.9784555023184, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'nz1HuAJacRfVxah');...
+        atdrift('D040HM1Q', 0.128, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'rQoFmGYzhWFWB53');...
+        atdrift('D022HM1Q', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH6_COR', 0.06, -324.475203415205, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'VhfxMIOxPCrTeZI');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q7', 0.0672457254622836, -11.8140171585779, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'mjf3qdP3i3b1oUZ');...
+        atdrift('D05HM1', 0.05, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1M1', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'kb5cpnZUEnyIhlW');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD12', 0.09, -749.191327132338, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'OYFzqVUDBsvNAT0');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_20_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_157_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'KnHxkgAtVumr1k9');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'lXryYb0Wj1zz7Z1');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF12_HCOR', 0.12, 860.065976124029, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'rbHffhDPOjWqXys');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'saBqTYGXCkxKcEC');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'Z29ivEy8lBhOQgM');...
+    atsextupole('SXD12_VCOR', 0.09, -749.191327132338, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'DSBRD09WHeqbFtv');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'uCvFyvJgakOBToC');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'Z4uQoTXOenwbnEQ');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'MmTpYeIeyscsM3t');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD1', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'N2ZLM9dMhEatF0I');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_20_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'eDI8tRf5wT2a5Wa');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_158_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'WLqPpsU8fDzhyg1');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF1_HCOR', 0.12, 781.382308964691, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'ZoDamNK4oa9LvSl');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'kTT7I0Anrru819W');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'bGAZmLGFB8hKgzb');...
+    atsextupole('SXD1_VCOR', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'VQ5sOs5GIiBgiSc');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'eo8fNipLiyMkOuw');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'S9XZfq2a92kR0du');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00785 0.00785]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00735 0.00735]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'Ojhl2IuszpU7tWW');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD1', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'JFfYWwjVNUUfcGU');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_20_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'sxzxN3CxdICnJZs');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_159_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'sTEzbpTI1d7KPuM');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF13_HCOR', 0.12, 750.901805779491, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'aj1dkJs3wWXGJPF');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'VVxNnpyiiciUheX');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'bsUxUBAYZmrUWnO');...
+    atsextupole('SXD13_VCOR', 0.09, -689.724579569546, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'GrPbM0Zs00spWSG');...
+        atdrift('L071C', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'uo1sfk7h2rRDlAT');...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00714285714285714 0.00714285714285714]);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00789772727272727], 'UUID', 'RwnpEJB6cLATOz3');...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00769318181818182], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00632954545454545]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008 0.005], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00518367346938775], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00640816326530612]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00763265306122449], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00781632653061225]);...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.008 0.008]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00739393939393939 0.00739393939393939], 'UUID', 'iBVRlShfwSvcWGO');...
+        atdrift('L071C', 0.048, 'EApertures', [0.00678787878787879 0.00678787878787879]);...
+    atsextupole('SXD13', 0.09, -689.724579569546, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.007, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'hoK4WKiAyCC6HcI');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_20_4', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'KtsCZaMDWCRUjNI');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF13_HCOR', 0.12, 750.901805779491, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'hea85zyEJsiKPqL');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_160_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'J9ORU0xHCzNjjst');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'PQzR4CSXZF6TtTQ');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'YHY7K9oT2ICtCyN');...
+    atsextupole('SXD1_VCOR', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'BSyxMxJfxZwVcyY');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'uMgiDjOK3nT4s0g');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'ro0mzqJT9itOJWL');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'o5p07N7sNRFd02P');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD1', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'Vebx2B2Y3YxInze');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'c1ZZIREcLTJrXc5');...
+       atmarker('CROTCH_20_5', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF1_HCOR', 0.12, 781.382308964691, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'ujQiSXqQ18bIkuQ');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_161_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'G4sVx6wVUQe26Rl');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'AQ8UWNnP5ti3lDC');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'iTYHBkk5stYNYlV');...
+    atsextupole('SXD1_VCOR', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'I8NHw2uLHnMeVsp');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'SHTP9QXxOblGbio');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'Jl09JJXnl48gSPC');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'RApertures', [-0.008   0.0045 -0.008   0.008 ]);...
+       atmarker('MIR_AILES', 'RApertures', [-0.00784615384615385  0.0045              -0.00784615384615385  0.00784615384615385]);...
+       atmarker('GIRDEREND', 'RApertures', [-0.00784615384615385  0.0045              -0.00784615384615385  0.00784615384615385]);...
+        atdrift('L073', 0.0372677805661953, 'RApertures', [-0.00758974358974359  0.0045              -0.00758974358974359  0.00758974358974359]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00712820512820513 0.00712820512820513], 'UUID', 'weu7nuTl0pyNBCf');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD11', 0.09, -701.568414672357, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'Ov2Carfp7fdn6BI');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'DzC6YxD7LQxFtTo');...
+       atmarker('CROTCH_20_6', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF11_HCOR', 0.12, 831.660252988522, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'DQnVAPH7up0fL06');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'zVxnceXz4ZyLP0b');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_162_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'CYTVrdYUwKhPIQe');...
+        atdrift('L05', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD11_VCOR', 0.09, -701.568414672357, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'AgjTPv2JF6IEc3E');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BCa3Ing8w6Ng9ZI');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'a0RS6N78p0SfNgH');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.0085 0.0085]);...
+        atdrift('LBD1I', 0.0395472975018047, 'EApertures', [0.0085 0.0085]);...
+        atdrift('D05HI', 0.00499988833315879, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q3', 0.19168495937003, 8.41314022851464, 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.18, 'EApertures', [0.0085 0.0085], 'UUID', 'kykngw0t5feEkRR');...
+        atdrift('D03HIQ', 0.1, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0085 0.0085], 'UUID', 'ad5AhG1Szpogedd');...
+        atdrift('D022HIQ', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH3_VCOR', 0.075, -319.26546309512, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.0062, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'bbFYic0laS2uQuB');...
+      atmonitor('BPM', 'EApertures', [0.0085 0.0085], 'UUID', 'Ns7gM6AC1TYzzaZ');...
+        atdrift('D041HI', 0.118040964330437, 'Action', 'BPM', 'EApertures', [0.0085 0.0085]);...
+       atmarker('CROTCH_20_7', 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q2', 0.190595998125992, -9.58185915782871, 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.18, 'EApertures', [0.0085 0.0085], 'UUID', 'dgVlnn4k4nJAPNV');...
+        atdrift('D03HI', 0.052, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH2_QCORROCT_163', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.00718, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'SR8OxYoX0K5Bdmg');...
+        atdrift('D022HI', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH2_HCOR', 0.075, -0.0179339928448087, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.0062, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'jRc0Ac6bgI0kAEW');...
+        atdrift('D03HI', 0.052, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q1', 0.137671036897098, 9.06658187296726, 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.0085 0.0085], 'UUID', 'NBDkSXw811iGpbp');...
+        atdrift('D031HI', 0.052, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH1_QCORROCT_164_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.00718, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'z35zCEuVjs1EjX1');...
+        atdrift('D022HI', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH1_COR', 0.075, 180.531158381771, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.0062, 'BoLength', 0.075, 'EApertures', [0.008 0.008], 'KickAngle', [0. 0.], 'UUID', 'f4skuhB8iEgKY8l');...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+       atmarker('AN-C20END', 'EApertures', [0.008 0.008]);...
+       atmarker('SD01ISTART', 'EApertures', [0.008 0.008]);...
+       atmarker('VANNE_START', 'EApertures', [0.008 0.008]);...
+       atmarker('FCOR_1_1', 'UUID', 'SfeWFXLm429zQKj');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'IAgGAY1sGtr3nk6');...
+        atdrift('SD1I_22', 0.322, 'Action', 'BPM', 'EApertures', [0.012 0.012]);...
+       atmarker('VANNE_END', 'EApertures', [0.012 0.012]);...
+        atdrift('SD1I_23', 0.166164763423493, 'Action', 'BPM', 'EApertures', [0.0137777777777778  0.00933333333333333]);...
+    atmultipole('SD01IKICKER1', 0.3, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Class', 'Octupole', 'EApertures', [0.015  0.0075]);...
+        atdrift('SD1I_24', 0.3433, 'Action', 'BPM', 'RApertures', [-0.0146797153024911  0.008              -0.0075              0.0075            ]);...
+       atmarker('THICKSEPTUMSTART', 'RApertures', [-0.014653024911032  0.015             -0.0075             0.0075           ]);...
+    atmultipole('THICKSEPTUM', 0.8973, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Class', 'Octupole', 'RApertures', [-0.0112900355871886  0.015              -0.0075              0.0075            ]);...
+       atmarker('THICKSEPTUMEND', 'RApertures', [-0.00790035587188612  0.015               -0.0075               0.0075             ]);...
+        atdrift('SD1I_25', 0.236459999999998, 'Action', 'BPM', 'RApertures', [-0.005               0.0153654822335025 -0.0075              0.0075            ]);...
+       atmarker('THINSEPTUMSTART', 'RApertures', [-0.005               0.0160355329949239 -0.0075              0.0075            ]);...
+    atmultipole('THINSEPTUM', 0.4, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Class', 'Octupole', 'RApertures', [-0.005               0.0160355329949239 -0.0075              0.0075            ]);...
+       atmarker('THINSEPTUMEND', 'RApertures', [-0.005               0.0183299492385787 -0.0075              0.0075            ]);...
+        atdrift('SD1I_26', 0.225, 'Action', 'BPM', 'RApertures', [-0.005                0.00990909090909091 -0.0075               0.0075             ]);...
+    atmultipole('SD01IKICKER2', 0.3, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Class', 'Octupole', 'EApertures', [0.015  0.0075]);...
+        atdrift('SD1I_27', 0.1, 'Action', 'BPM', 'EApertures', [0.015  0.0075]);...
+    atmultipole('SD01IKICKER3', 0.3, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Class', 'Octupole', 'EApertures', [0.015  0.0075]);...
+        atdrift('SD1I_28', 0.43100440243653, 'Action', 'BPM', 'EApertures', [0.015  0.0075]);...
+};
+    function v=False()
+        v=false;
+    end
+    function v=True()
+        v=true;
+    end
+end
diff --git a/examples/SOLEIL_examples/SOLEIL_II_V3631_sym1_V001_database_rf.m b/examples/SOLEIL_examples/SOLEIL_II_V3631_sym1_V001_database_rf.m
new file mode 100644
index 0000000..3600e59
--- /dev/null
+++ b/examples/SOLEIL_examples/SOLEIL_II_V3631_sym1_V001_database_rf.m
@@ -0,0 +1,4249 @@
+function ring = SOLEIL_II_V3631_sym1_V001_database()
+ring = {...
+    atringparam('SOLEIL_II_V3631_sym1_V001_nomenclature_V1_close', 2750000000.0, 1, 'HarmNumber', 416, 'M_File', '/home/habet/Downloads/SOLEIL_II_V3631_sym1_pipe_mult2_V001.m', 'Particle', struct('name', 'relativistic', 'rest_energy', 0.0, 'charge', -1.0), 'RApertures', [-0.015   0.015  -0.0075  0.0075], 'beam_current', 0.0, 'cell_harmnumber', 416.0);...
+       atmarker('SD01ICENTER', 'RApertures', [-0.015   0.015  -0.0075  0.0075]);...
+        atdrift('SD1I_1', 1.54332916586002, 'Action', 'BPM', 'RApertures', [-0.015   0.008  -0.0075  0.0075]);...
+    atmultipole('SD01IKICKER4', 0.3, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Class', 'Octupole', 'RApertures', [-0.015   0.008  -0.0035  0.0035]);...
+        atdrift('SD1I_2', 0.265, 'Action', 'BPM', 'EApertures', [0.015  0.0035]);...
+       atmarker('MIKSTART', 'EApertures', [0.015  0.0035]);...
+    atmultipole('MIK', 0.15, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Class', 'Octupole', 'EApertures', [0.015  0.0035]);...
+        atdrift('SD1I_3', 0.0500000000000001, 'Action', 'BPM', 'EApertures', [0.015  0.0035]);...
+    atmultipole('MIK', 0.15, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Class', 'Octupole', 'EApertures', [0.015  0.0035]);...
+        atdrift('SD1I_4', 0.0500000000000002, 'Action', 'BPM', 'EApertures', [0.015  0.0035]);...
+    atmultipole('MIK', 0.15, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Class', 'Octupole', 'EApertures', [0.015  0.0035]);...
+        atdrift('SD1I_5', 0.0499999999999999, 'Action', 'BPM', 'EApertures', [0.015  0.0035]);...
+    atmultipole('MIK', 0.15, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Class', 'Octupole', 'EApertures', [0.015  0.0035]);...
+        atdrift('SD1I_6', 0.0500000000000001, 'Action', 'BPM', 'EApertures', [0.015               0.00572222222222222]);...
+    atmultipole('MIK', 0.15, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Class', 'Octupole', 'EApertures', [0.015  0.0075]);...
+       atmarker('MIKEND', 'EApertures', [0.015  0.0075]);...
+        atdrift('SD1I_7', 0.070533215851725, 'Action', 'BPM', 'EApertures', [0.015  0.0075]);...
+       atmarker('SD01ICOLLIMATORSTART', 'EApertures', [0.015  0.0075]);...
+        atdrift('SD01ICOLLIMATOR', 0.5, 'RApertures', [-0.015   0.008  -0.0075  0.0075]);...
+       atmarker('SD01ICOLLIMATOREND', 'EApertures', [0.015  0.0075]);...
+        atdrift('SD1I_8', 0.0703667841482742, 'Action', 'BPM', 'EApertures', [0.012 0.012]);...
+       atmarker('VANNE_START', 'EApertures', [0.012 0.012]);...
+        atdrift('SD1I_9', 0.322, 'Action', 'BPM', 'EApertures', [0.012 0.012]);...
+       atmarker('FCOR_1_2', 'UUID', 'FCOR_1_2_001');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'BPM_001');...
+       atmarker('VANNE_END', 'EApertures', [0.008 0.008]);...
+       atmarker('SD01IEND', 'EApertures', [0.008 0.008]);...
+       atmarker('AN-C01START', 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+    atsextupole('SH1_COR', 0.075, 180.531158381771, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.0062, 'BoLength', 0.075, 'EApertures', [0.008 0.008], 'KickAngle', [0. 0.], 'UUID', 'SH1_COR_001');...
+        atdrift('D022HI', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH1_QCORROCT_1_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.00718, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'OH1_QCORROCT_1_QT_001');...
+        atdrift('D031HI', 0.052, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q1', 0.137671036897098, 9.06658187296726, 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.0085 0.0085], 'UUID', 'Q1_001');...
+        atdrift('D03HI', 0.052, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH2_HCOR', 0.075, -0.0179339928448087, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.0062, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'SH2_HCOR_001');...
+        atdrift('D022HI', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH2_QCORROCT_2', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.00718, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'OH2_QCORROCT_2_001');...
+        atdrift('D03HI', 0.052, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q2', 0.190595998125992, -9.58185915782871, 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.18, 'EApertures', [0.0085 0.0085], 'UUID', 'Q2_001');...
+        atdrift('D041HI', 0.118040964330437, 'Action', 'BPM', 'EApertures', [0.0085 0.0085]);...
+      atmonitor('BPM', 'EApertures', [0.0085 0.0085], 'UUID', 'BPM_002');...
+    atsextupole('SH3_VCOR', 0.075, -319.26546309512, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.0062, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'SH3_VCOR_001');...
+        atdrift('D022HIQ', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0085 0.0085], 'UUID', 'QCORR_001');...
+        atdrift('D03HIQ', 0.1, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q3', 0.19168495937003, 8.41314022851464, 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.18, 'EApertures', [0.0085 0.0085], 'UUID', 'Q3_001');...
+        atdrift('D05HI', 0.00499988833315879, 'EApertures', [0.0085 0.0085]);...
+        atdrift('LBD1I', 0.0395472975018047, 'EApertures', [0.0085 0.0085]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD27_001');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00772413793103448 0.00772413793103448]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD11', 0.09, -701.568414672357, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD11_001');...
+       atmarker('CROTCH_01_1', 'EApertures', [0.006 0.006]);...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_3_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF1_QCORROCT_3_QT_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'BQ4H7_001');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF11_HCOR', 0.12, 831.660252988522, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF11_HCOR_001');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_001');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_003');...
+    atsextupole('SXD11_VCOR', 0.09, -701.568414672357, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD11_VCOR_001');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_002');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_001');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('MRSV', 'EApertures', [0.00785 0.00785]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'QCORR_003');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD1', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD1_001');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_01_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_003');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_4_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF1_QCORROCT_4_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF1_HCOR', 0.12, 781.382308964691, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF1_HCOR_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_005');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_004');...
+    atsextupole('SXD1_VCOR', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD1_VCOR_001');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_004');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_003');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.0078974358974359 0.0078974358974359]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'QCORR_005');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD1', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD1_002');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_01_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BQ6H7_007');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_5_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF1_QCORROCT_5_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF13_HCOR', 0.12, 750.901805779491, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF13_HCOR_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'BQ6HC7_001');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_005');...
+    atsextupole('SXD13_VCOR', 0.09, -689.724579569546, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD13_VCOR_001');...
+        atdrift('L071C', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_006');...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00742857142857143 0.00742857142857143]);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00786363636363636], 'UUID', 'BD3HC7_001');...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00765909090909091], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00629545454545455]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008 0.005], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00518367346938775], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00640816326530612]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00763265306122449], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00781632653061225]);...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.008 0.008]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00739393939393939 0.00739393939393939], 'UUID', 'QCORR_007');...
+        atdrift('L071C', 0.048, 'EApertures', [0.00678787878787879 0.00678787878787879]);...
+    atsextupole('SXD13', 0.09, -689.724579569546, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.007, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD13_001');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_01_4', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'BQ6HC7_003');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF13_HCOR', 0.12, 750.901805779491, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF13_HCOR_002');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_6_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF1_QCORROCT_6_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BQ6H7_009');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_006');...
+    atsextupole('SXD1_VCOR', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD1_VCOR_002');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_008');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_005');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'QCORR_009');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD1', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD1_003');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_01_5', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_011');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF1_HCOR', 0.12, 781.382308964691, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF1_HCOR_002');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_7_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF1_QCORROCT_7_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_013');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_007');...
+    atsextupole('SXD1_VCOR', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD1_VCOR_003');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_010');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_007');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00785 0.00785]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.0073 0.0073]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'QCORR_011');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD12', 0.09, -749.191327132338, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD12_001');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_01_6', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_015');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF12_HCOR', 0.12, 860.065976124029, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF12_HCOR_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'BQ4H7_003');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_8_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF1_QCORROCT_8_QT_001');...
+        atdrift('L05', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD12_VCOR', 0.09, -749.191327132338, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD12_VCOR_001');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_008');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD27_003');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00747368421052632 0.00747368421052632]);...
+        atdrift('LBD1M1', 0.0395472975018047, 'EApertures', [0.00652631578947368 0.00652631578947368]);...
+        atdrift('D05HM1', 0.05, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q7', 0.0672457254622836, -11.8140171585779, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q7_001');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH6_COR', 0.06, -324.475203415205, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH6_COR_001');...
+        atdrift('D022HM1Q', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_012');...
+        atdrift('D040HM1Q', 0.128, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_01_7', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q6', 0.067209291601852, 11.9784555023184, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q6_001');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH5', 0.06, -514.413524183539, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH5_001');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH5_QCORROCT_9', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.008 0.008], 'MaxOrder', 3, 'UUID', 'OH5_QCORROCT_9_001');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'BPM_009');...
+        atdrift('D06HM1', 0.13, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q5', 0.105773394525209, 14.0793630884634, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q5_001');...
+        atdrift('D032HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH4_COR', 0.06, 682.544409709839, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH4_COR_001');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH4_QCORROCT_10_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH4_QCORROCT_10_QT_001');...
+        atdrift('D031HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q4', 0.0785476107439048, -13.6216098775293, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.008 0.008], 'UUID', 'Q4_001');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C01END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD02MLSTART', 'EApertures', [0.006 0.006]);...
+       atmarker('VANNE_START', 'EApertures', [0.006 0.006]);...
+       atmarker('FCOR_2_1', 'UUID', 'FCOR_2_1_001');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_010');...
+        atdrift('SD1M1_1', 0.272, 'Action', 'BPM', 'EApertures', [0.00818181818181818 0.00818181818181818]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_2', 0.0819863922450714, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('SYSTEME_RF_START', 'EApertures', [0.01 0.01]);...
+       atmarker('TRANSITION_AMONT_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_3', 0.33, 'Action', 'BPM', 'EApertures', [0.0332258064516129 0.0332258064516129]);...
+       atmarker('TRANSITION_AMONT_END', 'EApertures', [0.05 0.05]);...
+        atdrift('SD1M1_4', 0.5792, 'Action', 'BPM', 'EApertures', [0.05 0.05]);...
+       atmarker('RFCAV01', 'EApertures', [0.05 0.05]);...
+        atdrift('SD1M1_5', 0.5792, 'Action', 'BPM', 'EApertures', [0.05 0.05]);...
+       atmarker('RFCAV02', 'EApertures', [0.05 0.05]);...
+        atdrift('SD1M1_6', 0.2896, 'Action', 'BPM', 'EApertures', [0.05 0.05]);...
+       atmarker('SD02MLCENTER', 'EApertures', [0.05 0.05]);...
+     atrfcavity('RF', 0.0, 1700000.0, 352314252.10429, 416, 2750000000.0, 'EApertures', [0.05 0.05], 'UUID', 'RF_002');...
+        atdrift('SD1M1_7', 0.2896, 'Action', 'BPM', 'EApertures', [0.05 0.05]);...
+       atmarker('RFCAV03', 'EApertures', [0.05 0.05]);...
+        atdrift('SD1M1_8', 0.5792, 'Action', 'BPM', 'EApertures', [0.05 0.05]);...
+       atmarker('RFCAV04', 'EApertures', [0.05 0.05]);...
+        atdrift('SD1M1_9', 0.5792, 'Action', 'BPM', 'EApertures', [0.05 0.05]);...
+       atmarker('TRANSITION_AVALLE_START', 'EApertures', [0.05 0.05]);...
+        atdrift('SD1M1_10', 0.33, 'Action', 'BPM', 'RApertures', [-0.0326666666666667  0.0291428571428571 -0.0326666666666667  0.0326666666666667]);...
+       atmarker('TRANSITION_AVALLE_END', 'EApertures', [0.01 0.01]);...
+       atmarker('SYSTEME_RF_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_11', 0.0819863922450714, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_12', 0.272, 'Action', 'BPM', 'EApertures', [0.00818181818181818 0.00818181818181818]);...
+       atmarker('FCOR_2_2', 'UUID', 'FCOR_2_2_001');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'BPM_011');...
+       atmarker('VANNE_END', 'EApertures', [0.008 0.008]);...
+       atmarker('SD02MLEND', 'EApertures', [0.008 0.008]);...
+       atmarker('AN-C02START', 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q4', 0.0785476107439048, -13.6216098775293, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.00633333333333333 0.00633333333333333], 'UUID', 'Q4_002');...
+        atdrift('D031HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH4_QCORROCT_11_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH4_QCORROCT_11_QT_001');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH4_COR', 0.06, 682.544409709839, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH4_COR_002');...
+        atdrift('D032HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q5', 0.105773394525209, 14.0793630884634, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q5_002');...
+        atdrift('D06HM1', 0.13, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'BPM_012');...
+    atmultipole('OH5_QCORROCT_12', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.008 0.008], 'MaxOrder', 3, 'UUID', 'OH5_QCORROCT_12_001');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH5', 0.06, -514.413524183539, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH5_002');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q6', 0.067209291601852, 11.9784555023184, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q6_002');...
+        atdrift('D040HM1Q', 0.128, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_013');...
+        atdrift('D022HM1Q', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH6_COR', 0.06, -324.475203415205, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH6_COR_002');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q7', 0.0672457254622836, -11.8140171585779, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q7_002');...
+        atdrift('D05HM1', 0.05, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1M1', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.0076 0.0076], 'UUID', 'BD24_001');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00786666666666667 0.00786666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD21', 0.09, -655.116114720116, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD21_001');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_02_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF2_QCORROCT_13_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -262.360558705412], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF2_QCORROCT_13_QT_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'BQ4H4_001');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF21_HCOR', 0.12, 719.09699842571, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF21_HCOR_001');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_001');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_013');...
+    atsextupole('SXD21_VCOR', 0.09, -655.116114720116, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD21_VCOR_001');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_014');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0068 0.0068]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H4_001');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00774358974358974 0.00774358974358974]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00733333333333333 0.00733333333333333], 'UUID', 'QCORR_015');...
+        atdrift('L071', 0.048, 'EApertures', [0.00676923076923077 0.00676923076923077]);...
+    atsextupole('SXD2', 0.09, -617.904418360321, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD2_001');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_02_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_003');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF2_QCORROCT_14_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -262.360558705412], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF2_QCORROCT_14_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF2_HCOR', 0.12, 741.112250869933, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF2_HCOR_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_005');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_014');...
+    atsextupole('SXD2_VCOR', 0.09, -617.904418360321, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD2_VCOR_001');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_016');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0068 0.0068]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H4_003');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('MIR_SMIS', 'RApertures', [-0.008   0.0045 -0.008   0.008 ]);...
+       atmarker('GIRDEREND', 'RApertures', [-0.008   0.0045 -0.008   0.008 ]);...
+        atdrift('L073', 0.0372677805661953, 'RApertures', [-0.00774358974358974  0.0045              -0.00774358974358974  0.00774358974358974]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00748717948717949 0.00748717948717949]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00728205128205128 0.00728205128205128], 'UUID', 'QCORR_017');...
+        atdrift('L071', 0.048, 'EApertures', [0.00676923076923077 0.00676923076923077]);...
+    atsextupole('SXD22', 0.09, -636.039531358256, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD22_001');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_02_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_007');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF22_HCOR', 0.12, 843.464304725645, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF22_HCOR_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'BQ4H4_003');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF2_QCORROCT_15_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -262.360558705412], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF2_QCORROCT_15_QT_001');...
+        atdrift('L05', 0.06, 'EApertures', [0.008 0.008]);...
+    atsextupole('SXD22_VCOR', 0.09, -636.039531358256, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.0068 0.0068], 'KickAngle', [0. 0.], 'UUID', 'SXD22_VCOR_001');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_015');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD24_003');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00722222222222222 0.00722222222222222]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.00611111111111111 0.00611111111111111]);...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q11_001');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH9_COR_001');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_018');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_02_4', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'Q10_001');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH8_001');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_019');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_016');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q9_001');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH7_COR_001');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_16_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH7_QCORROCT_16_QT_001');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q8_001');...
+       atmarker('GIRDEREND', 'EApertures', [0.0076 0.0076]);...
+       atmarker('AN-C02END', 'EApertures', [0.0076 0.0076]);...
+       atmarker('SD03CSTART', 'EApertures', [0.0076 0.0076]);...
+       atmarker('VANNE_START', 'EApertures', [0.0076 0.0076]);...
+       atmarker('FCOR_3_1', 'UUID', 'FCOR_3_1_001');...
+      atmonitor('BPM', 'EApertures', [0.0076 0.0076], 'UUID', 'BPM_017');...
+        atdrift('SD1C_1', 0.322, 'Action', 'BPM', 'EApertures', [0.00854545454545455 0.00854545454545455]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_2', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_3', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('SD03CCENTER', 'EApertures', [0.0475 0.002 ]);...
+        atdrift('SD1C_4', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_5', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_6', 0.322, 'Action', 'BPM', 'EApertures', [0.00847619047619048 0.00847619047619048]);...
+       atmarker('FCOR_3_2', 'UUID', 'FCOR_3_2_001');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_018');...
+       atmarker('VANNE_END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD03CEND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C03START', 'EApertures', [0.006 0.006]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q8_002');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_17_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH7_QCORROCT_17_QT_001');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH7_COR_002');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q9_002');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_019');...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_020');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH8_002');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'Q10_002');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_021');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH9_COR_002');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q11_002');...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD27_005');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00772413793103448 0.00772413793103448]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD31', 0.09, -681.129428046866, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD31_001');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_03_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_18_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF3_QCORROCT_18_QT_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'BQ4H7_005');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF31_HCOR', 0.12, 734.143510940683, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF31_HCOR_001');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_017');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_020');...
+    atsextupole('SXD31_VCOR', 0.09, -681.129428046866, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD31_VCOR_001');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_022');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_009');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'QCORR_023');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD3', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD3_001');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_03_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_019');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_19_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF3_QCORROCT_19_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF3_HCOR', 0.12, 675.00095481734, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF3_HCOR_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_021');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_021');...
+    atsextupole('SXD3_VCOR', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD3_VCOR_001');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_024');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_011');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.0078974358974359 0.0078974358974359]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'QCORR_025');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD3', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD3_002');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_03_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BQ6H7_023');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_20_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF3_QCORROCT_20_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF33_HCOR', 0.12, 686.795497427942, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF33_HCOR_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'BQ6HC7_005');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_022');...
+    atsextupole('SXD33_VCOR', 0.09, -764.318658802759, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD33_VCOR_001');...
+        atdrift('L071C', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_026');...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00742857142857143 0.00742857142857143]);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00786363636363636], 'UUID', 'BD3HC7_003');...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00765909090909091], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00629545454545455]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008 0.005], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00518367346938775], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00640816326530612]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00763265306122449], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00781632653061225]);...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.008 0.008]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00739393939393939 0.00739393939393939], 'UUID', 'QCORR_027');...
+        atdrift('L071C', 0.048, 'EApertures', [0.00678787878787879 0.00678787878787879]);...
+    atsextupole('SXD33', 0.09, -764.318658802759, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.007, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD33_001');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_03_4', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'BQ6HC7_007');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF33_HCOR', 0.12, 686.795497427942, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF33_HCOR_002');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_21_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF3_QCORROCT_21_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BQ6H7_025');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_023');...
+    atsextupole('SXD3_VCOR', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD3_VCOR_002');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_028');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_013');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'QCORR_029');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD3', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD3_003');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_03_5', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_027');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF3_HCOR', 0.12, 675.00095481734, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF3_HCOR_002');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_22_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF3_QCORROCT_22_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_029');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_024');...
+    atsextupole('SXD3_VCOR', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD3_VCOR_003');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_030');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_015');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.0078974358974359 0.0078974358974359]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'QCORR_031');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD32', 0.09, -729.521731325636, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD32_001');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_031');...
+       atmarker('CROTCH_03_6', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF32_HCOR', 0.12, 782.043582880113, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF32_HCOR_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'BQ4H7_007');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_23_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF3_QCORROCT_23_QT_001');...
+        atdrift('L05', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD32_VCOR', 0.09, -729.521731325636, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD32_VCOR_001');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_025');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD27_007');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00747368421052632 0.00747368421052632]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.00652631578947368 0.00652631578947368]);...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q11_003');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH9_COR_003');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_032');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_03_7', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'Q10_003');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH8_003');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_033');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_026');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q9_003');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH7_COR_003');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_24_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH7_QCORROCT_24_QT_001');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q8_003');...
+       atmarker('GIRDEREND', 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+       atmarker('AN-C03END', 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+       atmarker('SD04CSTART', 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+       atmarker('VANNE_START', 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+       atmarker('FCOR_4_1', 'UUID', 'FCOR_4_1_001');...
+      atmonitor('BPM', 'EApertures', [0.00666666666666667 0.00666666666666667], 'UUID', 'BPM_027');...
+        atdrift('SD1C_7', 0.322, 'Action', 'BPM', 'EApertures', [0.00847619047619048 0.00847619047619048]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_8', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_9', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('SD04CCENTER', 'EApertures', [0.0475 0.002 ]);...
+        atdrift('SD1C_10', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_11', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_12', 0.322, 'Action', 'BPM', 'EApertures', [0.00854545454545455 0.00854545454545455]);...
+       atmarker('FCOR_4_2', 'UUID', 'FCOR_4_2_001');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_028');...
+       atmarker('VANNE_END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD04CEND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C04START', 'EApertures', [0.006 0.006]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q8_004');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_25_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH7_QCORROCT_25_QT_001');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH7_COR_004');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q9_004');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_029');...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_034');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH8_004');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'Q10_004');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_035');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH9_COR_004');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q11_004');...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.0076 0.0076], 'UUID', 'BD24_005');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00786666666666667 0.00786666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD41', 0.09, -735.729130725313, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD41_001');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_04_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF4_QCORROCT_26_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -183.939387091905], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF4_QCORROCT_26_QT_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'BQ4H4_005');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF41_HCOR', 0.12, 846.26087738574, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF41_HCOR_001');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_009');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_030');...
+    atsextupole('SXD41_VCOR', 0.09, -735.729130725313, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD41_VCOR_001');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_036');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0068 0.0068]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H4_005');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00774358974358974 0.00774358974358974]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00728205128205128 0.00728205128205128], 'UUID', 'QCORR_037');...
+        atdrift('L071', 0.048, 'EApertures', [0.00676923076923077 0.00676923076923077]);...
+    atsextupole('SXD4', 0.09, -748.397964225485, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD4_001');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_04_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_011');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF4_HCOR', 0.12, 811.758492840009, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF4_HCOR_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF4_QCORROCT_27_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -183.939387091905], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF4_QCORROCT_27_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_013');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_031');...
+    atsextupole('SXD4_VCOR', 0.09, -748.397964225485, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD4_VCOR_001');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_038');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H4_007');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00775 0.00775]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.0075 0.0075]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0073 0.0073], 'UUID', 'QCORR_039');...
+        atdrift('L071', 0.048, 'EApertures', [0.0068 0.0068]);...
+    atsextupole('SXD42', 0.09, -652.433055715131, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD42_001');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_04_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_015');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF42_HCOR', 0.12, 832.798385062542, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF42_HCOR_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'BQ4H4_007');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF4_QCORROCT_28_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -183.939387091905], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF4_QCORROCT_28_QT_001');...
+        atdrift('L05', 0.06, 'EApertures', [0.008 0.008]);...
+    atsextupole('SXD42_VCOR', 0.09, -652.433055715131, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.007 0.007], 'KickAngle', [0. 0.], 'UUID', 'SXD42_VCOR_001');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_032');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD24_007');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00722222222222222 0.00722222222222222]);...
+        atdrift('LBD1M', 0.0395472975018047, 'EApertures', [0.00611111111111111 0.00611111111111111]);...
+        atdrift('D05HM', 0.0250000000000106, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q15', 0.0669665183225528, -13.0158117569202, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q15_001');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH12_COR', 0.06, -549.693929899786, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH12_COR_001');...
+        atdrift('D022HMQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_040');...
+        atdrift('D040HMQ', 0.108, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_04_4', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q14', 0.0669654375650683, 13.020316581933, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q14_001');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH11', 0.06, -342.377584906705, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH11_001');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH11_QCORROCT_29', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.007 0.007], 'MaxOrder', 3, 'UUID', 'OH11_QCORROCT_29_001');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'BPM_033');...
+        atdrift('D06HM', 0.13, 'Action', 'BPM', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('Q13', 0.105549024737856, 14.4734284467452, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q13_001');...
+        atdrift('D032HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH10_COR', 0.06, 767.610099578133, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH10_COR_001');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH10_QCORROCT_30_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH10_QCORROCT_30_QT_001');...
+        atdrift('D031HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q12', 0.0785288819736742, -13.6759084023114, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q12_001');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C04END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD05MCSTART', 'EApertures', [0.006 0.006]);...
+       atmarker('VANNE_START', 'EApertures', [0.006 0.006]);...
+       atmarker('FCOR_5_1', 'UUID', 'FCOR_5_1_001');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_034');...
+        atdrift('SD1M_1', 0.322, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M_2', 0.287381847814076, 'Action', 'BPM', 'RApertures', [-0.0045  0.004  -0.0035  0.0035]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1M_3', 1.29, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('SD05MCCENTER', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1M_4', 1.29, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1M_5', 0.287381847814076, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M_6', 0.322, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+       atmarker('FCOR_5_2', 'UUID', 'FCOR_5_2_001');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_035');...
+       atmarker('VANNE_END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD05MCEND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C05START', 'EApertures', [0.006 0.006]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q12', 0.0785288819736742, -13.6759084023114, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q12_002');...
+        atdrift('D031HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH10_QCORROCT_31_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH10_QCORROCT_31_QT_001');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH10_COR', 0.06, 767.610099578133, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH10_COR_002');...
+        atdrift('D032HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q13', 0.105549024737856, 14.4734284467452, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q13_002');...
+        atdrift('D06HM', 0.13, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+      atmonitor('BPM', 'EApertures', [0.00633333333333333 0.00633333333333333], 'UUID', 'BPM_036');...
+    atmultipole('OH11_QCORROCT_32', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH11_QCORROCT_32_001');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH11', 0.06, -342.377584906705, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH11_002');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q14', 0.0669654375650683, 13.020316581933, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q14_002');...
+        atdrift('D040HMQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_041');...
+        atdrift('D022HMQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH12_COR', 0.06, -549.693929899786, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH12_COR_002');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q15', 0.0669665183225528, -13.0158117569202, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q15_002');...
+        atdrift('D05HM', 0.0250000000000106, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1M', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227518, -1.18160211440423, 'EApertures', [0.00733333333333333 0.00733333333333333], 'UUID', 'BD27_009');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.00793333333333333 0.00793333333333333], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227518, -1.18160211440423, 'EApertures', [0.0074 0.0074]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD51', 0.09, -647.766469752565, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD51_001');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_05_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_33_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF5_QCORROCT_33_QT_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060752, 'UUID', 'BQ4H7_009');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060752);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF51_HCOR', 0.12, 840.822202380127, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF51_HCOR_001');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BQ6H7_033');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_037');...
+    atsextupole('SXD51_VCOR', 0.09, -647.766469752565, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD51_VCOR_001');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_042');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_017');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'QCORR_043');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD5', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD5_001');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_05_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BQ6H7_035');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_34_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF5_QCORROCT_34_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF5_HCOR', 0.12, 715.553794609745, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF5_HCOR_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BQ6H7_037');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_038');...
+    atsextupole('SXD5_VCOR', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD5_VCOR_001');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_044');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_019');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.0078974358974359 0.0078974358974359]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00764102564102564 0.00764102564102564]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'QCORR_045');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD5', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD5_002');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_05_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BQ6H7_039');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_35_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF5_QCORROCT_35_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF53_HCOR', 0.12, 711.229968977946, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF53_HCOR_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'BQ6HC7_009');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_039');...
+    atsextupole('SXD53_VCOR', 0.09, -625.758067765939, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD53_VCOR_001');...
+        atdrift('L071C', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_046');...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00714285714285714 0.00714285714285714]);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00786363636363636], 'UUID', 'BD3HC7_005');...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00765909090909091], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00629545454545455]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008 0.005], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00521428571428571], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00643877551020408]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00766326530612245], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00781632653061225]);...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00794117647058824 0.00794117647058824]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00741176470588235 0.00741176470588235], 'UUID', 'QCORR_047');...
+        atdrift('L071C', 0.048, 'EApertures', [0.00676470588235294 0.00676470588235294]);...
+    atsextupole('SXD53', 0.09, -625.758067765939, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.007, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD53_001');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_05_4', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'BQ6HC7_011');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF53_HCOR', 0.12, 711.229968977946, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF53_HCOR_002');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_36_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF5_QCORROCT_36_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BQ6H7_041');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_040');...
+    atsextupole('SXD5_VCOR', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD5_VCOR_002');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_048');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'RApertures', [-0.008   0.0045 -0.008   0.008 ]);...
+       atmarker('MVUV_DISCO', 'RApertures', [-0.008   0.0045 -0.008   0.008 ]);...
+       atmarker('GIRDERSTART', 'RApertures', [-0.008   0.0045 -0.008   0.008 ]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_021');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'QCORR_049');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD5', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD5_003');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_05_5', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BQ6H7_043');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF5_HCOR', 0.12, 715.553794609745, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF5_HCOR_002');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_37_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF5_QCORROCT_37_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BQ6H7_045');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_041');...
+    atsextupole('SXD5_VCOR', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD5_VCOR_003');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_050');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_023');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00785 0.00785]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.0073 0.0073]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'QCORR_051');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD52', 0.09, -734.183150728341, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD52_001');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BQ6H7_047');...
+       atmarker('CROTCH_05_6', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF52_HCOR', 0.12, 788.330339912278, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF52_HCOR_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060752, 'UUID', 'BQ4H7_011');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060752);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_38_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF5_QCORROCT_38_QT_001');...
+        atdrift('L05', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD52_VCOR', 0.09, -734.183150728341, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD52_VCOR_001');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_042');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227518, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD27_011');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227518, -1.18160211440423, 'EApertures', [0.0085 0.0085]);...
+        atdrift('LBD1T', 0.0395472975018047, 'EApertures', [0.0085 0.0085]);...
+        atdrift('D021HTQ', 0.0529998883331588, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0085 0.0085], 'UUID', 'QCORR_052');...
+        atdrift('D022HTQ', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH15_VCOR', 0.075, -151.263624499999, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'SH15_VCOR_001');...
+        atdrift('D05HT', 0.22, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q21', 0.118594861317721, -8.24976089349076, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.106, 'EApertures', [0.0085 0.0085], 'UUID', 'Q21_001');...
+      atmonitor('BPM', 'EApertures', [0.0085 0.0085], 'UUID', 'BPM_043');...
+        atdrift('D041HT', 0.18, 'Action', 'BPM', 'EApertures', [0.0085 0.0085]);...
+       atmarker('CROTCH_05_7', 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q20', 0.122440853589187, 8.42972886822337, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.11, 'EApertures', [0.0085 0.0085], 'UUID', 'Q20_001');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH14_HCOR', 0.075, -335.348316276613, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'SH14_HCOR_001');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH14_QCORROCT_39', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'OH14_QCORROCT_39_001');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q19', 0.118733643867383, 8.01541064610388, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.106, 'EApertures', [0.0085 0.0085], 'UUID', 'Q19_001');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH13_COR', 0.075, 476.313437796132, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'SH13_COR_001');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.008 0.008]);...
+    atmultipole('OH13_QCORROCT_40_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.008 0.008], 'MaxOrder', 3, 'UUID', 'OH13_QCORROCT_40_QT_001');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q18', 0.0932053766613153, -7.2301598888015, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.08, 'EApertures', [0.008 0.008], 'UUID', 'Q18_001');...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+       atmarker('AN-C05END', 'EApertures', [0.008 0.008]);...
+       atmarker('SD06LSTART', 'EApertures', [0.008 0.008]);...
+       atmarker('VANNE_START', 'EApertures', [0.008 0.008]);...
+       atmarker('FCOR_6_1', 'UUID', 'FCOR_6_1_001');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'BPM_044');...
+        atdrift('SD12T_1', 0.272, 'Action', 'BPM', 'EApertures', [0.0115238095238095 0.0115238095238095]);...
+       atmarker('VANNE_END', 'EApertures', [0.012 0.012]);...
+        atdrift('SD12T_2', 0.309170347288528, 'Action', 'BPM', 'EApertures', [0.03 0.03]);...
+       atmarker('SYSTEME_HARMONIQUE_START', 'EApertures', [0.03 0.03]);...
+       atmarker('TRANSITION_RFHARM_AMONT_START', 'EApertures', [0.03 0.03]);...
+        atdrift('SD12T_3', 0.25, 'Action', 'BPM', 'EApertures', [0.03 0.03]);...
+       atmarker('TRANSITION_RFHARM_AMONT_END', 'EApertures', [0.03 0.03]);...
+       atmarker('VANNE_RFHARM_AMONT_START', 'EApertures', [0.03 0.03]);...
+        atdrift('SD12T_4', 0.082, 'Action', 'BPM', 'EApertures', [0.03 0.03]);...
+       atmarker('VANNE_RFHARM_AMONT_END', 'EApertures', [0.03 0.03]);...
+        atdrift('SD12T_5', 0.25, 'Action', 'BPM', 'EApertures', [0.03 0.03]);...
+       atmarker('BLOC_CAVITE_HARMONIQUE_START', 'EApertures', [0.03 0.03]);...
+        atdrift('SD12T_6', 0.78, 'Action', 'BPM', 'EApertures', [0.03 0.03]);...
+       atmarker('SD06LACENTER', 'EApertures', [0.03 0.03]);...
+     atrfcavity('RFHARMON', 0.0, 0.0, 1409257008.41716, 1664, 2750000000.0, 'EApertures', [0.03 0.03], 'UUID', 'RFHARMON_002');...
+        atdrift('SD12T_7', 0.78, 'Action', 'BPM', 'EApertures', [0.03 0.03]);...
+       atmarker('BLOC_CAVITE_HARMONIQUE_END', 'EApertures', [0.03 0.03]);...
+        atdrift('SD12T_8', 0.25, 'Action', 'BPM', 'EApertures', [0.03 0.03]);...
+       atmarker('VANNE_RFHARM_AVALLE_START', 'EApertures', [0.0085 0.0085]);...
+        atdrift('SD12T_9', 0.082, 'Action', 'BPM', 'EApertures', [0.0085 0.0085]);...
+       atmarker('VANNE_RFHARM_AVALLE_END', 'EApertures', [0.0085 0.0085]);...
+       atmarker('TRANSITION_RFHARM_AVALLE_START', 'EApertures', [0.0085 0.0085]);...
+        atdrift('SD12T_10', 0.3, 'Action', 'BPM', 'EApertures', [0.0085 0.0085]);...
+       atmarker('TRANSITION_RFHARM_AVALLE_END', 'EApertures', [0.0085 0.0085]);...
+       atmarker('SYSTEME_HARMONIQUE_END', 'EApertures', [0.0085 0.0085]);...
+        atdrift('SD12T_11', 0.259170347288528, 'Action', 'BPM', 'EApertures', [0.0085 0.0085]);...
+       atmarker('VANNE_START', 'EApertures', [0.0085 0.0085]);...
+        atdrift('SD12T_12', 0.272, 'Action', 'BPM', 'EApertures', [0.0085 0.0085]);...
+       atmarker('FCOR_6_2', 'UUID', 'FCOR_6_2_001');...
+      atmonitor('BPM', 'EApertures', [0.0085 0.0085], 'UUID', 'BPM_045');...
+       atmarker('VANNE_END', 'EApertures', [0.0085 0.0085]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q17', 0.0929982217794612, -7.83896314384854, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.08, 'EApertures', [0.0085 0.0085], 'UUID', 'Q17_001');...
+        atdrift('D032HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH16_QCORROCT_41', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'OH16_QCORROCT_41_001');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH16_COR', 0.075, 0.0, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'SH16_COR_001');...
+        atdrift('D031HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q16', 0.132220666360538, 8.59624027008373, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.12, 'EApertures', [0.0085 0.0085], 'UUID', 'Q16_001');...
+        atdrift('D031HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH16_COR', 0.075, 0.0, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'SH16_COR_002');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH16_QCORROCT_42', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'OH16_QCORROCT_42_001');...
+        atdrift('D032HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q17', 0.0929982217794612, -7.83896314384854, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.08, 'EApertures', [0.0085 0.0085], 'UUID', 'Q17_002');...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.0085 0.0085], 'UUID', 'BPM_046');...
+       atmarker('VANNE_START', 'EApertures', [0.0085 0.0085]);...
+       atmarker('FCOR_6_3', 'UUID', 'FCOR_6_3_001');...
+        atdrift('SD34T_1', 0.272, 'Action', 'BPM', 'EApertures', [0.012 0.012]);...
+       atmarker('VANNE_END', 'EApertures', [0.012 0.012]);...
+        atdrift('SD34T_2', 0.01, 'Action', 'BPM', 'EApertures', [0.012 0.012]);...
+       atmarker('CAVITE_FBL_START', 'EApertures', [0.012 0.012]);...
+        atdrift('SD34T_3', 0.3, 'Action', 'BPM', 'EApertures', [0.016 0.016]);...
+       atmarker('CAVITE_FBL_END', 'EApertures', [0.016 0.016]);...
+       atmarker('ELECTRODES_RF_START', 'EApertures', [0.016 0.016]);...
+        atdrift('SD34T_4', 0.3, 'Action', 'BPM', 'EApertures', [0.016 0.016]);...
+       atmarker('ELECTRODES_RF_END', 'EApertures', [0.016 0.016]);...
+        atdrift('SD34T_5', 0.01, 'Action', 'BPM', 'EApertures', [0.016 0.016]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.016 0.016]);...
+        atdrift('SD34T_6', 0.991, 'Action', 'BPM', 'RApertures', [-0.0045  0.004  -0.0035  0.0035]);...
+       atmarker('SD06LB_ONDULEURCENTER', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD34T_7', 0.991, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD34T_8', 0.01, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('STRIPLINE_SECOURS_START', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD34T_9', 0.542, 'Action', 'BPM', 'EApertures', [0.012 0.012]);...
+       atmarker('STRIPLINE_SECOURS_END', 'EApertures', [0.012 0.012]);...
+        atdrift('SD34T_10', 0.01, 'Action', 'BPM', 'EApertures', [0.012 0.012]);...
+       atmarker('SHAKER_START', 'EApertures', [0.012 0.012]);...
+        atdrift('SD34T_11', 0.1706, 'Action', 'BPM', 'EApertures', [0.012 0.012]);...
+       atmarker('SHAKER_END', 'EApertures', [0.012 0.012]);...
+        atdrift('SD34T_12', 0.00774069457705604, 'Action', 'BPM', 'EApertures', [0.012 0.012]);...
+       atmarker('VANNE_START', 'EApertures', [0.012 0.012]);...
+        atdrift('SD34T_13', 0.272, 'Action', 'BPM', 'EApertures', [0.0115238095238095 0.0115238095238095]);...
+       atmarker('FCOR_6_4', 'UUID', 'FCOR_6_4_001');...
+       atmarker('VANNE_END', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'BPM_047');...
+       atmarker('SD06LEND', 'EApertures', [0.008 0.008]);...
+       atmarker('AN-C06START', 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q18', 0.0932053766613153, -7.2301598888015, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.08, 'EApertures', [0.008 0.008], 'UUID', 'Q18_002');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.008 0.008]);...
+    atmultipole('OH13_QCORROCT_43_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.008 0.008], 'MaxOrder', 3, 'UUID', 'OH13_QCORROCT_43_QT_001');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.008 0.008]);...
+    atsextupole('SH13_COR', 0.075, 476.313437796132, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'SH13_COR_002');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q19', 0.118733643867383, 8.01541064610388, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.106, 'EApertures', [0.0085 0.0085], 'UUID', 'Q19_002');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH14_QCORROCT_44', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'OH14_QCORROCT_44_001');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH14_HCOR', 0.075, -335.348316276613, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'SH14_HCOR_002');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q20', 0.122440853589187, 8.42972886822337, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.11, 'EApertures', [0.0085 0.0085], 'UUID', 'Q20_002');...
+        atdrift('D041HT', 0.18, 'Action', 'BPM', 'EApertures', [0.0085 0.0085]);...
+      atmonitor('BPM', 'EApertures', [0.0085 0.0085], 'UUID', 'BPM_048');...
+   atquadrupole('Q21', 0.118594861317721, -8.24976089349076, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.106, 'EApertures', [0.0085 0.0085], 'UUID', 'Q21_002');...
+        atdrift('D05HT', 0.22, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH15_VCOR', 0.075, -151.263624499999, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'SH15_VCOR_002');...
+        atdrift('D022HTQ', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0085 0.0085], 'UUID', 'QCORR_053');...
+        atdrift('D021HTQ', 0.0529998883331588, 'EApertures', [0.0085 0.0085]);...
+        atdrift('LBD1T', 0.0395472975018047, 'EApertures', [0.0085 0.0085]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227518, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD27_013');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227518, -1.18160211440423, 'EApertures', [0.00772413793103448 0.00772413793103448]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD52', 0.09, -734.183150728341, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD52_002');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_06_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_45_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF5_QCORROCT_45_QT_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060752, 'UUID', 'BQ4H7_013');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060752);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF52_HCOR', 0.12, 788.330339912278, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF52_HCOR_002');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BQ6H7_049');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_049');...
+    atsextupole('SXD52_VCOR', 0.09, -734.183150728341, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD52_VCOR_002');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_054');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_025');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'QCORR_055');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD5', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD5_004');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_06_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BQ6H7_051');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_46_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF5_QCORROCT_46_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF5_HCOR', 0.12, 715.553794609745, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF5_HCOR_003');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BQ6H7_053');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_050');...
+    atsextupole('SXD5_VCOR', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD5_VCOR_004');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_056');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_027');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.0078974358974359 0.0078974358974359]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'QCORR_057');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD5', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD5_005');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_06_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BQ6H7_055');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_47_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF5_QCORROCT_47_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF53_HCOR', 0.12, 711.229968977946, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF53_HCOR_003');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'BQ6HC7_013');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_051');...
+    atsextupole('SXD53_VCOR', 0.09, -625.758067765939, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD53_VCOR_002');...
+        atdrift('L071C', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_058');...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00742857142857143 0.00742857142857143]);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00786363636363636], 'UUID', 'BD3HC7_007');...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00765909090909091], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00629545454545455]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008 0.005], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00518367346938775], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00640816326530612]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00763265306122449], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00781632653061225]);...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.008 0.008]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00739393939393939 0.00739393939393939], 'UUID', 'QCORR_059');...
+        atdrift('L071C', 0.048, 'EApertures', [0.00678787878787879 0.00678787878787879]);...
+    atsextupole('SXD53', 0.09, -625.758067765939, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.007, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD53_002');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_06_4', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'BQ6HC7_015');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF53_HCOR', 0.12, 711.229968977946, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF53_HCOR_004');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_48_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF5_QCORROCT_48_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BQ6H7_057');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_052');...
+    atsextupole('SXD5_VCOR', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD5_VCOR_005');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_060');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_029');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'QCORR_061');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD5', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD5_006');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_06_5', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BQ6H7_059');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF5_HCOR', 0.12, 715.553794609745, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF5_HCOR_004');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_49_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF5_QCORROCT_49_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BQ6H7_061');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_053');...
+    atsextupole('SXD5_VCOR', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD5_VCOR_006');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_062');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_031');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00785 0.00785]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.0073 0.0073]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'QCORR_063');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD51', 0.09, -647.766469752565, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD51_002');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BQ6H7_063');...
+       atmarker('CROTCH_06_6', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF51_HCOR', 0.12, 840.822202380127, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF51_HCOR_002');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060752, 'UUID', 'BQ4H7_015');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060752);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_50_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF5_QCORROCT_50_QT_001');...
+        atdrift('L05', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD51_VCOR', 0.09, -647.766469752565, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD51_VCOR_002');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_054');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227518, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD27_015');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227518, -1.18160211440423, 'EApertures', [0.00747368421052632 0.00747368421052632]);...
+        atdrift('LBD1M', 0.0395472975018047, 'EApertures', [0.00652631578947368 0.00652631578947368]);...
+        atdrift('D05HM', 0.0250000000000106, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q15', 0.0669665183225528, -13.0158117569202, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q15_003');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH12_COR', 0.06, -549.693929899786, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH12_COR_003');...
+        atdrift('D022HMQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_064');...
+        atdrift('D040HMQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q14', 0.0669654375650683, 13.020316581933, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q14_003');...
+       atmarker('CROTCH_06_7', 'EApertures', [0.006 0.006]);...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH11', 0.06, -342.377584906705, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH11_003');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH11_QCORROCT_51', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH11_QCORROCT_51_001');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'BPM_055');...
+        atdrift('D06HM', 0.13, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q13', 0.105549024737856, 14.4734284467452, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q13_003');...
+        atdrift('D032HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH10_COR', 0.06, 767.610099578133, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH10_COR_003');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH10_QCORROCT_52_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH10_QCORROCT_52_QT_001');...
+        atdrift('D031HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q12', 0.0785288819736742, -13.6759084023114, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q12_003');...
+       atmarker('GIRDEREND', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+       atmarker('AN-C06END', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+       atmarker('SD07MCSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+       atmarker('VANNE_START', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+       atmarker('FCOR_7_1', 'UUID', 'FCOR_7_1_001');...
+      atmonitor('BPM', 'EApertures', [0.00733333333333333 0.00733333333333333], 'UUID', 'BPM_056');...
+        atdrift('SD1M_7', 0.322, 'Action', 'BPM', 'EApertures', [0.00838095238095238 0.00838095238095238]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M_8', 0.287381847814076, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M_9', 1.29, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('SD07MCCENTER', 'EApertures', [0.0475 0.002 ]);...
+        atdrift('SD1M_10', 1.29, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M_11', 0.287381847814076, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M_12', 0.322, 'Action', 'BPM', 'EApertures', [0.00838095238095238 0.00838095238095238]);...
+       atmarker('FCOR_7_2', 'UUID', 'FCOR_7_2_001');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_057');...
+       atmarker('VANNE_END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD07MCEND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C07START', 'EApertures', [0.006 0.006]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q12', 0.0785288819736742, -13.6759084023114, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q12_004');...
+        atdrift('D031HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH10_QCORROCT_53_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH10_QCORROCT_53_QT_001');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH10_COR', 0.06, 767.610099578133, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH10_COR_004');...
+        atdrift('D032HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q13', 0.105549024737856, 14.4734284467452, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q13_004');...
+        atdrift('D06HM', 0.13, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.00733333333333333 0.00733333333333333], 'UUID', 'BPM_058');...
+    atmultipole('OH11_QCORROCT_54', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH11_QCORROCT_54_001');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH11', 0.06, -342.377584906705, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH11_004');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q14', 0.0669654375650683, 13.020316581933, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q14_004');...
+        atdrift('D040HMQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_065');...
+        atdrift('D022HMQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH12_COR', 0.06, -549.693929899786, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH12_COR_004');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q15', 0.0669665183225528, -13.0158117569202, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q15_004');...
+        atdrift('D05HM', 0.0250000000000106, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1M', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00766666666666667 0.00766666666666667], 'UUID', 'BD24_009');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00786206896551724 0.00786206896551724]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD42', 0.09, -652.433055715131, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD42_002');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_07_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF4_QCORROCT_55_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -183.939387091905], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF4_QCORROCT_55_QT_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'BQ4H4_009');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF42_HCOR', 0.12, 832.798385062542, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF42_HCOR_002');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_017');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_059');...
+    atsextupole('SXD42_VCOR', 0.09, -652.433055715131, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD42_VCOR_002');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_066');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H4_009');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00775 0.00775]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0073 0.0073], 'UUID', 'QCORR_067');...
+        atdrift('L071', 0.048, 'EApertures', [0.0068 0.0068]);...
+    atsextupole('SXD4', 0.09, -748.397964225485, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD4_002');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_07_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_019');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF4_QCORROCT_56_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -183.939387091905], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF4_QCORROCT_56_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF4_HCOR', 0.12, 811.758492840009, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF4_HCOR_002');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_021');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_060');...
+    atsextupole('SXD4_VCOR', 0.09, -748.397964225485, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD4_VCOR_002');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_068');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0068 0.0068]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H4_011');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00774358974358974 0.00774358974358974]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00748717948717949 0.00748717948717949]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00733333333333333 0.00733333333333333], 'UUID', 'QCORR_069');...
+        atdrift('L071', 0.048, 'EApertures', [0.00676923076923077 0.00676923076923077]);...
+    atsextupole('SXD41', 0.09, -735.729130725313, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD41_002');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_07_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_023');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF41_HCOR', 0.12, 846.26087738574, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF41_HCOR_002');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'BQ4H4_011');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF4_QCORROCT_57_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -183.939387091905], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF4_QCORROCT_57_QT_001');...
+        atdrift('L05', 0.06, 'EApertures', [0.008 0.008]);...
+    atsextupole('SXD41_VCOR', 0.09, -735.729130725313, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.0068 0.0068], 'KickAngle', [0. 0.], 'UUID', 'SXD41_VCOR_002');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_061');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD24_011');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00715789473684211 0.00715789473684211]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.00610526315789474 0.00610526315789474]);...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q11_005');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH9_COR_005');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_070');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_07_4', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'Q10_005');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH8_005');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_071');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_062');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q9_005');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH7_COR_005');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_58_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH7_QCORROCT_58_QT_001');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q8_005');...
+       atmarker('GIRDEREND', 'EApertures', [0.0076 0.0076]);...
+       atmarker('AN-C07END', 'EApertures', [0.0076 0.0076]);...
+       atmarker('SD08CSTART', 'EApertures', [0.0076 0.0076]);...
+       atmarker('VANNE_START', 'EApertures', [0.0076 0.0076]);...
+       atmarker('FCOR_8_1', 'UUID', 'FCOR_8_1_001');...
+      atmonitor('BPM', 'EApertures', [0.0076 0.0076], 'UUID', 'BPM_063');...
+        atdrift('SD1C_13', 0.322, 'Action', 'BPM', 'EApertures', [0.00847619047619048 0.00847619047619048]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_14', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_15', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('SD08CCENTER', 'EApertures', [0.0475 0.002 ]);...
+        atdrift('SD1C_16', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_17', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_18', 0.322, 'Action', 'BPM', 'EApertures', [0.00854545454545455 0.00854545454545455]);...
+       atmarker('FCOR_8_2', 'UUID', 'FCOR_8_2_001');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_064');...
+       atmarker('VANNE_END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD08CEND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C08START', 'EApertures', [0.006 0.006]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q8_006');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_59_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH7_QCORROCT_59_QT_001');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH7_COR_006');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q9_006');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_065');...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_072');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH8_006');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'Q10_006');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_073');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH9_COR_006');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q11_006');...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD27_017');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD32', 0.09, -729.521731325636, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD32_002');...
+       atmarker('CROTCH_08_1', 'EApertures', [0.006 0.006]);...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_60_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF3_QCORROCT_60_QT_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'BQ4H7_017');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF32_HCOR', 0.12, 782.043582880113, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF32_HCOR_002');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_065');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_066');...
+    atsextupole('SXD32_VCOR', 0.09, -729.521731325636, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD32_VCOR_002');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_074');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_033');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'QCORR_075');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD3', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD3_004');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_08_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_067');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_61_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF3_QCORROCT_61_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF3_HCOR', 0.12, 675.00095481734, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF3_HCOR_003');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_069');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_067');...
+    atsextupole('SXD3_VCOR', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD3_VCOR_004');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_076');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_035');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+       atmarker('PHC1', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00785 0.00785]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.0073 0.0073]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'QCORR_077');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD3', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD3_005');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_08_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BQ6H7_071');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_62_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF3_QCORROCT_62_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF33_HCOR', 0.12, 686.795497427942, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF33_HCOR_003');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'BQ6HC7_017');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_068');...
+    atsextupole('SXD33_VCOR', 0.09, -764.318658802759, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD33_VCOR_002');...
+        atdrift('L071C', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_078');...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00714285714285714 0.00714285714285714]);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00786363636363636], 'UUID', 'BD3HC7_009');...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00769318181818182], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00629545454545455]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008 0.005], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008   0.00425]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008  0.0046]);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00521428571428571], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00643877551020408]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00766326530612245], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00781632653061225]);...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00794117647058824 0.00794117647058824]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00741176470588235 0.00741176470588235], 'UUID', 'QCORR_079');...
+        atdrift('L071C', 0.048, 'EApertures', [0.00682352941176471 0.00682352941176471]);...
+    atsextupole('SXD33', 0.09, -764.318658802759, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.007, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD33_002');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_08_4', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'BQ6HC7_019');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF33_HCOR', 0.12, 686.795497427942, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF33_HCOR_004');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_63_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF3_QCORROCT_63_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BQ6H7_073');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_069');...
+    atsextupole('SXD3_VCOR', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD3_VCOR_005');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_080');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_037');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00712820512820513 0.00712820512820513], 'UUID', 'QCORR_081');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD3', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD3_006');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_08_5', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_075');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF3_HCOR', 0.12, 675.00095481734, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF3_HCOR_004');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_64_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF3_QCORROCT_64_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_077');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_070');...
+    atsextupole('SXD3_VCOR', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD3_VCOR_006');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_082');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_039');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00785 0.00785]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.0073 0.0073]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'QCORR_083');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD31', 0.09, -681.129428046866, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD31_002');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_079');...
+       atmarker('CROTCH_08_6', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF31_HCOR', 0.12, 734.143510940683, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF31_HCOR_002');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'BQ4H7_019');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_65_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF3_QCORROCT_65_QT_001');...
+        atdrift('L05', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD31_VCOR', 0.09, -681.129428046866, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD31_VCOR_002');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_071');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD27_019');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00744444444444444 0.00744444444444444]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.00644444444444444 0.00644444444444444]);...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q11_007');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH9_COR_007');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_084');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_08_7', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'Q10_007');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH8_007');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_085');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_072');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q9_007');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH7_COR_007');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_66_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH7_QCORROCT_66_QT_001');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q8_007');...
+       atmarker('GIRDEREND', 'EApertures', [0.0064 0.0064]);...
+       atmarker('AN-C08END', 'EApertures', [0.0064 0.0064]);...
+       atmarker('SD09CSTART', 'EApertures', [0.0064 0.0064]);...
+       atmarker('VANNE_START', 'EApertures', [0.0064 0.0064]);...
+       atmarker('FCOR_9_1', 'UUID', 'FCOR_9_1_001');...
+      atmonitor('BPM', 'EApertures', [0.0064 0.0064], 'UUID', 'BPM_073');...
+        atdrift('SD1C_19', 0.322, 'Action', 'BPM', 'EApertures', [0.00847619047619048 0.00847619047619048]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_20', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_21', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('SD09CCENTER', 'EApertures', [0.0475 0.002 ]);...
+        atdrift('SD1C_22', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_23', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_24', 0.322, 'Action', 'BPM', 'EApertures', [0.00847619047619048 0.00847619047619048]);...
+       atmarker('FCOR_9_2', 'UUID', 'FCOR_9_2_001');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_074');...
+       atmarker('VANNE_END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD09CEND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C09START', 'EApertures', [0.006 0.006]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q8_008');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_67_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH7_QCORROCT_67_QT_001');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH7_COR_008');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q9_008');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_075');...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_086');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH8_008');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'Q10_008');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_087');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH9_COR_008');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q11_008');...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.0076 0.0076], 'UUID', 'BD24_013');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00786206896551724 0.00786206896551724]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD22', 0.09, -636.039531358256, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD22_002');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_09_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF2_QCORROCT_68_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -262.360558705412], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF2_QCORROCT_68_QT_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'BQ4H4_013');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF22_HCOR', 0.12, 843.464304725645, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF22_HCOR_002');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_025');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_076');...
+    atsextupole('SXD22_VCOR', 0.09, -636.039531358256, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD22_VCOR_002');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_088');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0064 0.0064]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H4_013');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00774358974358974 0.00774358974358974]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00733333333333333 0.00733333333333333], 'UUID', 'QCORR_089');...
+        atdrift('L071', 0.048, 'EApertures', [0.00682051282051282 0.00682051282051282]);...
+    atsextupole('SXD2', 0.09, -617.904418360321, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD2_002');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_09_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_027');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF2_HCOR', 0.12, 741.112250869933, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF2_HCOR_002');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF2_QCORROCT_69_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -262.360558705412], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF2_QCORROCT_69_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_029');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_077');...
+    atsextupole('SXD2_VCOR', 0.09, -617.904418360321, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD2_VCOR_002');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_090');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0068 0.0068]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H4_015');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00774358974358974 0.00774358974358974]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00748717948717949 0.00748717948717949]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00728205128205128 0.00728205128205128], 'UUID', 'QCORR_091');...
+        atdrift('L071', 0.048, 'EApertures', [0.00676923076923077 0.00676923076923077]);...
+    atsextupole('SXD21', 0.09, -655.116114720116, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD21_002');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_09_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_031');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF21_HCOR', 0.12, 719.09699842571, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF21_HCOR_002');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'BQ4H4_015');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF2_QCORROCT_70_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -262.360558705412], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF2_QCORROCT_70_QT_001');...
+        atdrift('L05', 0.06, 'EApertures', [0.008 0.008]);...
+    atsextupole('SXD21_VCOR', 0.09, -655.116114720116, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.0068 0.0068], 'KickAngle', [0. 0.], 'UUID', 'SXD21_VCOR_002');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_078');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD24_015');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00722222222222222 0.00722222222222222]);...
+        atdrift('LBD1M1', 0.0395472975018047, 'EApertures', [0.00611111111111111 0.00611111111111111]);...
+        atdrift('D05HM1', 0.05, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q7', 0.0672457254622836, -11.8140171585779, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q7_003');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH6_COR', 0.06, -324.475203415205, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH6_COR_003');...
+        atdrift('D022HM1Q', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_092');...
+        atdrift('D040HM1Q', 0.128, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_09_4', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q6', 0.067209291601852, 11.9784555023184, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q6_003');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH5', 0.06, -514.413524183539, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH5_003');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH5_QCORROCT_71', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.008 0.008], 'MaxOrder', 3, 'UUID', 'OH5_QCORROCT_71_001');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'BPM_079');...
+        atdrift('D06HM1', 0.13, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q5', 0.105773394525209, 14.0793630884634, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q5_003');...
+        atdrift('D032HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH4_COR', 0.06, 682.544409709839, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH4_COR_003');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH4_QCORROCT_72_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH4_QCORROCT_72_QT_001');...
+        atdrift('D031HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q4', 0.0785476107439048, -13.6216098775293, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q4_003');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C09END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD10MLSTART', 'EApertures', [0.006 0.006]);...
+       atmarker('VANNE_START', 'EApertures', [0.006 0.006]);...
+       atmarker('FCOR_10_1', 'UUID', 'FCOR_10_1_001');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_080');...
+        atdrift('SD1M1_13', 0.322, 'Action', 'BPM', 'EApertures', [0.00876190476190476 0.00876190476190476]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_14', 0.01, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('ELECTRODES_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_15', 0.3, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('ELECTRODES_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_16', 0.209986392245071, 'Action', 'BPM', 'RApertures', [-0.00895714285714286  0.00828571428571429 -0.00895714285714286  0.00895714285714286]);...
+       atmarker('ONDULEURMARK_START', 'RApertures', [-0.00878333333333333  0.008               -0.00878333333333333  0.00878333333333333]);...
+        atdrift('SD1M1_17', 1.29, 'Action', 'BPM', 'RApertures', [-0.0045  0.004  -0.0035  0.0035]);...
+       atmarker('SD10MLCENTER', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1M1_18', 1.29, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.00902941176470588 0.00885294117647059]);...
+        atdrift('SD1M1_19', 0.01, 'Action', 'BPM', 'EApertures', [0.00935294117647059 0.00923529411764706]);...
+       atmarker('STRIPLINE_FBT_SPARE_START', 'EApertures', [0.00951470588235294 0.00942647058823529]);...
+        atdrift('SD1M1_20', 0.45, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('STRIPLINE_FBT_SPARE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_21', 0.0599863922450715, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_22', 0.322, 'Action', 'BPM', 'EApertures', [0.00872727272727273 0.00872727272727273]);...
+       atmarker('FCOR_10_2', 'UUID', 'FCOR_10_2_001');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'BPM_081');...
+       atmarker('VANNE_END', 'EApertures', [0.008 0.008]);...
+       atmarker('SD10MLEND', 'EApertures', [0.008 0.008]);...
+       atmarker('AN-C10START', 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q4', 0.0785476107439048, -13.6216098775293, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q4_004');...
+        atdrift('D031HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH4_QCORROCT_73_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH4_QCORROCT_73_QT_001');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH4_COR', 0.06, 682.544409709839, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH4_COR_004');...
+        atdrift('D032HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q5', 0.105773394525209, 14.0793630884634, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q5_004');...
+        atdrift('D06HM1', 0.13, 'Action', 'BPM', 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'BPM_082');...
+    atmultipole('OH5_QCORROCT_74', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.008 0.008], 'MaxOrder', 3, 'UUID', 'OH5_QCORROCT_74_001');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH5', 0.06, -514.413524183539, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH5_004');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q6', 0.067209291601852, 11.9784555023184, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q6_004');...
+        atdrift('D040HM1Q', 0.128, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_093');...
+        atdrift('D022HM1Q', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH6_COR', 0.06, -324.475203415205, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH6_COR_004');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q7', 0.0672457254622836, -11.8140171585779, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q7_004');...
+        atdrift('D05HM1', 0.05, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1M1', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD27_021');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD12', 0.09, -749.191327132338, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD12_002');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_10_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_75_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF1_QCORROCT_75_QT_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'BQ4H7_021');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF12_HCOR', 0.12, 860.065976124029, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF12_HCOR_002');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_081');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_083');...
+    atsextupole('SXD12_VCOR', 0.09, -749.191327132338, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD12_VCOR_002');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_094');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_041');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'QCORR_095');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD1', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD1_004');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_10_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_083');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_76_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF1_QCORROCT_76_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF1_HCOR', 0.12, 781.382308964691, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF1_HCOR_003');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_085');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_084');...
+    atsextupole('SXD1_VCOR', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD1_VCOR_004');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_096');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_043');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.0078974358974359 0.0078974358974359]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00764102564102564 0.00764102564102564]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'QCORR_097');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD1', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD1_005');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_10_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BQ6H7_087');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_77_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF1_QCORROCT_77_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF13_HCOR', 0.12, 750.901805779491, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF13_HCOR_003');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'BQ6HC7_021');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_085');...
+    atsextupole('SXD13_VCOR', 0.09, -689.724579569546, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD13_VCOR_002');...
+        atdrift('L071C', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_098');...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00714285714285714 0.00714285714285714]);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00786363636363636], 'UUID', 'BD3HC7_011');...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00765909090909091], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00629545454545455]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008 0.005], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00521428571428571], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00643877551020408]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00766326530612245], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00781632653061225]);...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00794117647058824 0.00794117647058824]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00741176470588235 0.00741176470588235], 'UUID', 'QCORR_099');...
+        atdrift('L071C', 0.048, 'EApertures', [0.00676470588235294 0.00676470588235294]);...
+    atsextupole('SXD13', 0.09, -689.724579569546, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.007, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD13_002');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'BQ6HC7_023');...
+       atmarker('CROTCH_10_4', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF13_HCOR', 0.12, 750.901805779491, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF13_HCOR_004');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_78_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF1_QCORROCT_78_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BQ6H7_089');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_086');...
+    atsextupole('SXD1_VCOR', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD1_VCOR_005');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_100');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_045');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'QCORR_101');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD1', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD1_006');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_091');...
+       atmarker('CROTCH_10_5', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF1_HCOR', 0.12, 781.382308964691, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF1_HCOR_004');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_79_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF1_QCORROCT_79_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_093');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_087');...
+    atsextupole('SXD1_VCOR', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD1_VCOR_006');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_102');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_047');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00785 0.00785]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.0073 0.0073]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'QCORR_103');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD11', 0.09, -701.568414672357, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD11_002');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_095');...
+       atmarker('CROTCH_10_6', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF11_HCOR', 0.12, 831.660252988522, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF11_HCOR_002');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'BQ4H7_023');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_80_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF1_QCORROCT_80_QT_001');...
+        atdrift('L05', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD11_VCOR', 0.09, -701.568414672357, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD11_VCOR_002');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_088');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD27_023');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.0085 0.0085]);...
+        atdrift('LBD1I', 0.0395472975018047, 'EApertures', [0.0085 0.0085]);...
+        atdrift('D05HI', 0.00499988833315879, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q3', 0.19168495937003, 8.41314022851464, 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.18, 'EApertures', [0.0085 0.0085], 'UUID', 'Q3_002');...
+        atdrift('D03HIQ', 0.1, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0085 0.0085], 'UUID', 'QCORR_104');...
+        atdrift('D022HIQ', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH3_VCOR', 0.075, -319.26546309512, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.0062, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'SH3_VCOR_002');...
+      atmonitor('BPM', 'EApertures', [0.0085 0.0085], 'UUID', 'BPM_089');...
+        atdrift('D041HI', 0.118040964330437, 'Action', 'BPM', 'EApertures', [0.0085 0.0085]);...
+       atmarker('CROTCH_10_7', 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q2', 0.190595998125992, -9.58185915782871, 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.18, 'EApertures', [0.0085 0.0085], 'UUID', 'Q2_002');...
+        atdrift('D03HI', 0.052, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH2_QCORROCT_81', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.00718, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'OH2_QCORROCT_81_001');...
+        atdrift('D022HI', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH2_HCOR', 0.075, -0.0179339928448087, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.0062, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'SH2_HCOR_002');...
+        atdrift('D03HI', 0.052, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q1', 0.137671036897098, 9.06658187296726, 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.0085 0.0085], 'UUID', 'Q1_002');...
+        atdrift('D031HI', 0.052, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH1_QCORROCT_82_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.00718, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'OH1_QCORROCT_82_QT_001');...
+        atdrift('D022HI', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH1_COR', 0.075, 180.531158381771, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.0062, 'BoLength', 0.075, 'EApertures', [0.008 0.008], 'KickAngle', [0. 0.], 'UUID', 'SH1_COR_002');...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+       atmarker('AN-C10END', 'EApertures', [0.008 0.008]);...
+       atmarker('SD11ISTART', 'EApertures', [0.008 0.008]);...
+       atmarker('VANNE_START', 'EApertures', [0.008 0.008]);...
+       atmarker('FCOR_11_1', 'UUID', 'FCOR_11_1_001');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'BPM_090');...
+        atdrift('SD1I_10', 0.322, 'Action', 'BPM', 'EApertures', [0.010952380952381 0.010952380952381]);...
+       atmarker('VANNE_END', 'EApertures', [0.012 0.012]);...
+        atdrift('SD1I_11', 0.01, 'Action', 'BPM', 'EApertures', [0.012 0.012]);...
+       atmarker('DOUBLEBPM_START', 'EApertures', [0.012 0.012]);...
+        atdrift('SD1I_12', 0.3, 'Action', 'BPM', 'EApertures', [0.01568 0.01568]);...
+       atmarker('DOUBLEBPM_END', 'EApertures', [0.016 0.016]);...
+        atdrift('SD1I_13', 0.01, 'Action', 'BPM', 'EApertures', [0.016 0.016]);...
+       atmarker('STRIPLINE_FBT_V_START', 'EApertures', [0.016 0.016]);...
+        atdrift('SD1I_14', 0.542, 'Action', 'BPM', 'EApertures', [0.016 0.016]);...
+       atmarker('STRIPLINE_FBT_V_END', 'EApertures', [0.0133 0.0133]);...
+        atdrift('SD1I_15', 0.01, 'Action', 'BPM', 'EApertures', [0.013 0.013]);...
+       atmarker('STRIPLINE_FBT_H_START', 'EApertures', [0.0124 0.0124]);...
+        atdrift('SD1I_16', 0.542, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('STRIPLINE_FBT_H_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1I_17', 0.01, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1I_18', 2.86, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('SD11I_ONDULEURCENTER', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1I_19', 2.86, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.016 0.016]);...
+        atdrift('SD1I_20', 0.254458331720047, 'Action', 'BPM', 'EApertures', [0.0075 0.0045]);...
+       atmarker('VANNE_START', 'EApertures', [0.012 0.012]);...
+        atdrift('SD1I_21', 0.322, 'Action', 'BPM', 'EApertures', [0.010952380952381 0.010952380952381]);...
+       atmarker('FCOR_11_2', 'UUID', 'FCOR_11_2_001');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'BPM_091');...
+       atmarker('VANNE_END', 'EApertures', [0.008 0.008]);...
+       atmarker('SD11IEND', 'EApertures', [0.008 0.008]);...
+       atmarker('AN-C11START', 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+    atsextupole('SH1_COR', 0.075, 180.531158381771, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.0062, 'BoLength', 0.075, 'EApertures', [0.008 0.008], 'KickAngle', [0. 0.], 'UUID', 'SH1_COR_003');...
+        atdrift('D022HI', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH1_QCORROCT_83_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.00718, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'OH1_QCORROCT_83_QT_001');...
+        atdrift('D031HI', 0.052, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q1', 0.137671036897098, 9.06658187296726, 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.0085 0.0085], 'UUID', 'Q1_003');...
+        atdrift('D03HI', 0.052, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH2_HCOR', 0.075, -0.0179339928448087, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.0062, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'SH2_HCOR_003');...
+        atdrift('D022HI', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH2_QCORROCT_84', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.00718, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'OH2_QCORROCT_84_001');...
+        atdrift('D03HI', 0.052, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q2', 0.190595998125992, -9.58185915782871, 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.18, 'EApertures', [0.0085 0.0085], 'UUID', 'Q2_003');...
+        atdrift('D041HI', 0.118040964330437, 'Action', 'BPM', 'EApertures', [0.0085 0.0085]);...
+      atmonitor('BPM', 'EApertures', [0.0085 0.0085], 'UUID', 'BPM_092');...
+    atsextupole('SH3_VCOR', 0.075, -319.26546309512, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.0062, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'SH3_VCOR_003');...
+        atdrift('D022HIQ', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0085 0.0085], 'UUID', 'QCORR_105');...
+        atdrift('D03HIQ', 0.1, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q3', 0.19168495937003, 8.41314022851464, 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.18, 'EApertures', [0.0085 0.0085], 'UUID', 'Q3_003');...
+        atdrift('D05HI', 0.00499988833315879, 'EApertures', [0.0085 0.0085]);...
+        atdrift('LBD1I', 0.0395472975018047, 'EApertures', [0.0085 0.0085]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD27_025');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD11', 0.09, -701.568414672357, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD11_003');...
+       atmarker('CROTCH_11_1', 'EApertures', [0.006 0.006]);...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_85_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF1_QCORROCT_85_QT_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'BQ4H7_025');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF11_HCOR', 0.12, 831.660252988522, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF11_HCOR_003');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_097');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_093');...
+    atsextupole('SXD11_VCOR', 0.09, -701.568414672357, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD11_VCOR_003');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_106');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_049');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'QCORR_107');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD1', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD1_007');...
+       atmarker('CROTCH_11_2', 'EApertures', [0.006 0.006]);...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_099');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_86_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF1_QCORROCT_86_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF1_HCOR', 0.12, 781.382308964691, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF1_HCOR_005');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_101');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_094');...
+    atsextupole('SXD1_VCOR', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD1_VCOR_007');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_108');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_051');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00785 0.00785]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00735 0.00735]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'QCORR_109');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD1', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD1_008');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_11_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BQ6H7_103');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_87_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF1_QCORROCT_87_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF13_HCOR', 0.12, 750.901805779491, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF13_HCOR_005');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'BQ6HC7_025');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_095');...
+    atsextupole('SXD13_VCOR', 0.09, -689.724579569546, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD13_VCOR_003');...
+        atdrift('L071C', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_110');...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00714285714285714 0.00714285714285714]);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00786363636363636], 'UUID', 'BD3HC7_013');...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00769318181818182], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00632954545454545]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008 0.005], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008   0.00425]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008               0.00457894736842105]);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00518367346938775], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00640816326530612]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00763265306122449], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00781632653061225]);...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00793939393939394 0.00793939393939394]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00739393939393939 0.00739393939393939], 'UUID', 'QCORR_111');...
+        atdrift('L071C', 0.048, 'EApertures', [0.00678787878787879 0.00678787878787879]);...
+    atsextupole('SXD13', 0.09, -689.724579569546, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.007, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD13_003');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_11_4', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'BQ6HC7_027');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF13_HCOR', 0.12, 750.901805779491, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF13_HCOR_006');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_88_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF1_QCORROCT_88_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BQ6H7_105');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_096');...
+    atsextupole('SXD1_VCOR', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD1_VCOR_008');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_112');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_053');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'QCORR_113');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD1', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD1_009');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_11_5', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_107');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF1_HCOR', 0.12, 781.382308964691, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF1_HCOR_006');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_89_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF1_QCORROCT_89_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_109');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_097');...
+    atsextupole('SXD1_VCOR', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD1_VCOR_009');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_114');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_055');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00784615384615385 0.00784615384615385]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00712820512820513 0.00712820512820513], 'UUID', 'QCORR_115');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD12', 0.09, -749.191327132338, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD12_003');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_11_6', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_111');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF12_HCOR', 0.12, 860.065976124029, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF12_HCOR_003');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'BQ4H7_027');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_90_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF1_QCORROCT_90_QT_001');...
+        atdrift('L05', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD12_VCOR', 0.09, -749.191327132338, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD12_VCOR_003');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_098');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD27_027');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00755555555555556 0.00755555555555556]);...
+        atdrift('LBD1M1', 0.0395472975018047, 'EApertures', [0.00644444444444444 0.00644444444444444]);...
+        atdrift('D05HM1', 0.05, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q7', 0.0672457254622836, -11.8140171585779, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q7_005');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH6_COR', 0.06, -324.475203415205, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH6_COR_005');...
+        atdrift('D022HM1Q', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_116');...
+        atdrift('D040HM1Q', 0.128, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_11_7', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q6', 0.067209291601852, 11.9784555023184, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q6_005');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH5', 0.06, -514.413524183539, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH5_005');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH5_QCORROCT_91', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.008 0.008], 'MaxOrder', 3, 'UUID', 'OH5_QCORROCT_91_001');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'BPM_099');...
+        atdrift('D06HM1', 0.13, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q5', 0.105773394525209, 14.0793630884634, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q5_005');...
+        atdrift('D032HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH4_COR', 0.06, 682.544409709839, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH4_COR_005');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH4_QCORROCT_92_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH4_QCORROCT_92_QT_001');...
+        atdrift('D031HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q4', 0.0785476107439048, -13.6216098775293, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q4_005');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C11END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD12MLSTART', 'EApertures', [0.006 0.006]);...
+       atmarker('VANNE_START', 'EApertures', [0.006 0.006]);...
+       atmarker('FCOR_12_1', 'UUID', 'FCOR_12_1_001');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_100');...
+        atdrift('SD1M1_23', 0.322, 'Action', 'BPM', 'EApertures', [0.00876190476190476 0.00876190476190476]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_24', 0.01, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('DCCT_1_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_25', 0.3, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('DCCT_1_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_26', 0.209986392245071, 'Action', 'BPM', 'RApertures', [-0.00895714285714286  0.00828571428571429 -0.00895714285714286  0.00895714285714286]);...
+       atmarker('ONDULEURMARK_START', 'RApertures', [-0.00878333333333333  0.008               -0.00878333333333333  0.00878333333333333]);...
+        atdrift('SD1M1_27', 1.29, 'Action', 'BPM', 'RApertures', [-0.0045  0.004  -0.0035  0.0035]);...
+       atmarker('SD12MLCENTER', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1M1_28', 1.29, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.00902941176470588 0.00885294117647059]);...
+        atdrift('SD1M1_29', 0.01, 'Action', 'BPM', 'EApertures', [0.00935294117647059 0.00923529411764706]);...
+       atmarker('DCCT_2_START', 'EApertures', [0.00951470588235294 0.00942647058823529]);...
+        atdrift('SD1M1_30', 0.3, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('DCCT_2_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_31', 0.209986392245071, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_32', 0.322, 'Action', 'BPM', 'EApertures', [0.00872727272727273 0.00872727272727273]);...
+       atmarker('FCOR_12_2', 'UUID', 'FCOR_12_2_001');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'BPM_101');...
+       atmarker('VANNE_END', 'EApertures', [0.008 0.008]);...
+       atmarker('SD12MLEND', 'EApertures', [0.008 0.008]);...
+       atmarker('AN-C12START', 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q4', 0.0785476107439048, -13.6216098775293, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.0064 0.0064], 'UUID', 'Q4_006');...
+        atdrift('D031HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH4_QCORROCT_93_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH4_QCORROCT_93_QT_001');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH4_COR', 0.06, 682.544409709839, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH4_COR_006');...
+        atdrift('D032HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q5', 0.105773394525209, 14.0793630884634, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q5_006');...
+        atdrift('D06HM1', 0.13, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'BPM_102');...
+    atmultipole('OH5_QCORROCT_94', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.008 0.008], 'MaxOrder', 3, 'UUID', 'OH5_QCORROCT_94_001');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH5', 0.06, -514.413524183539, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH5_006');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q6', 0.067209291601852, 11.9784555023184, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q6_006');...
+        atdrift('D040HM1Q', 0.128, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_117');...
+        atdrift('D022HM1Q', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH6_COR', 0.06, -324.475203415205, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH6_COR_006');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q7', 0.0672457254622836, -11.8140171585779, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q7_006');...
+        atdrift('D05HM1', 0.05, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1M1', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00766666666666667 0.00766666666666667], 'UUID', 'BD24_017');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00786666666666667 0.00786666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD21', 0.09, -655.116114720116, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD21_003');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_12_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF2_QCORROCT_95_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -262.360558705412], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF2_QCORROCT_95_QT_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'BQ4H4_017');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF21_HCOR', 0.12, 719.09699842571, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF21_HCOR_003');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_033');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_103');...
+    atsextupole('SXD21_VCOR', 0.09, -655.116114720116, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD21_VCOR_003');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_118');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H4_017');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00775 0.00775]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0073 0.0073], 'UUID', 'QCORR_119');...
+        atdrift('L071', 0.048, 'EApertures', [0.0068 0.0068]);...
+    atsextupole('SXD2', 0.09, -617.904418360321, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD2_003');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_12_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_035');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF2_QCORROCT_96_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -262.360558705412], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF2_QCORROCT_96_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF2_HCOR', 0.12, 741.112250869933, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF2_HCOR_003');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_037');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_104');...
+    atsextupole('SXD2_VCOR', 0.09, -617.904418360321, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD2_VCOR_003');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_120');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H4_019');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00775 0.00775]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00745 0.00745]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0073 0.0073], 'UUID', 'QCORR_121');...
+        atdrift('L071', 0.048, 'EApertures', [0.0068 0.0068]);...
+    atsextupole('SXD22', 0.09, -636.039531358256, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD22_003');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_12_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_039');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF22_HCOR', 0.12, 843.464304725645, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF22_HCOR_003');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'BQ4H4_019');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF2_QCORROCT_97_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -262.360558705412], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF2_QCORROCT_97_QT_001');...
+        atdrift('L05', 0.06, 'EApertures', [0.008 0.008]);...
+    atsextupole('SXD22_VCOR', 0.09, -636.039531358256, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.0068 0.0068], 'KickAngle', [0. 0.], 'UUID', 'SXD22_VCOR_003');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_105');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD24_019');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00715789473684211 0.00715789473684211]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.00621052631578947 0.00621052631578947]);...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q11_009');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH9_COR_009');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_122');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_12_4', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'Q10_009');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH8_009');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_123');...
+      atmonitor('BPM', 'EApertures', [0.00633333333333333 0.00633333333333333], 'UUID', 'BPM_106');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q9_009');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH7_COR_009');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_98_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH7_QCORROCT_98_QT_001');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q8_009');...
+       atmarker('GIRDEREND', 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('AN-C12END', 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('SD13CSTART', 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('VANNE_START', 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('FCOR_13_1', 'UUID', 'FCOR_13_1_001');...
+      atmonitor('BPM', 'EApertures', [0.00766666666666667 0.00766666666666667], 'UUID', 'BPM_107');...
+        atdrift('SD1C_25', 0.322, 'Action', 'BPM', 'EApertures', [0.00847619047619048 0.00847619047619048]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_26', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_27', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('SD13CCENTER', 'EApertures', [0.0475 0.002 ]);...
+        atdrift('SD1C_28', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_29', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_30', 0.322, 'Action', 'BPM', 'EApertures', [0.00847619047619048 0.00847619047619048]);...
+       atmarker('FCOR_13_2', 'UUID', 'FCOR_13_2_001');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_108');...
+       atmarker('VANNE_END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD13CEND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C13START', 'EApertures', [0.006 0.006]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q8_010');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_99_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH7_QCORROCT_99_QT_001');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH7_COR_010');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q9_010');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_109');...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_124');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH8_010');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'Q10_010');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_125');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH9_COR_010');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q11_010');...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD27_029');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD31', 0.09, -681.129428046866, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD31_003');...
+       atmarker('CROTCH_13_1', 'EApertures', [0.006 0.006]);...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_100_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF3_QCORROCT_100_QT_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'BQ4H7_029');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF31_HCOR', 0.12, 734.143510940683, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF31_HCOR_003');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_113');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_110');...
+    atsextupole('SXD31_VCOR', 0.09, -681.129428046866, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD31_VCOR_003');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_126');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_057');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'QCORR_127');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD3', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD3_007');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_13_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_115');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_101_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF3_QCORROCT_101_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF3_HCOR', 0.12, 675.00095481734, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF3_HCOR_005');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_117');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_111');...
+    atsextupole('SXD3_VCOR', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD3_VCOR_007');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_128');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_059');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00785 0.00785]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00735 0.00735]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'QCORR_129');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD3', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD3_008');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_13_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BQ6H7_119');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_102_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF3_QCORROCT_102_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF33_HCOR', 0.12, 686.795497427942, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF33_HCOR_005');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'BQ6HC7_029');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_112');...
+    atsextupole('SXD33_VCOR', 0.09, -764.318658802759, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD33_VCOR_003');...
+        atdrift('L071C', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_130');...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00714285714285714 0.00714285714285714]);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00786363636363636], 'UUID', 'BD3HC7_015');...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00769318181818182], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00632954545454545]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008 0.005], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008   0.00425]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008               0.00457894736842105]);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00518367346938775], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00640816326530612]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00763265306122449], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00781632653061225]);...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00793939393939394 0.00793939393939394]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00739393939393939 0.00739393939393939], 'UUID', 'QCORR_131');...
+        atdrift('L071C', 0.048, 'EApertures', [0.00678787878787879 0.00678787878787879]);...
+    atsextupole('SXD33', 0.09, -764.318658802759, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.007, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD33_003');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_13_4', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'BQ6HC7_031');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF33_HCOR', 0.12, 686.795497427942, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF33_HCOR_006');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_103_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF3_QCORROCT_103_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BQ6H7_121');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_113');...
+    atsextupole('SXD3_VCOR', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD3_VCOR_008');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_132');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_061');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'QCORR_133');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD3', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD3_009');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_13_5', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_123');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF3_HCOR', 0.12, 675.00095481734, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF3_HCOR_006');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_104_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF3_QCORROCT_104_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_125');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_114');...
+    atsextupole('SXD3_VCOR', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD3_VCOR_009');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_134');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_063');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00784615384615385 0.00784615384615385]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00712820512820513 0.00712820512820513], 'UUID', 'QCORR_135');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD32', 0.09, -729.521731325636, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD32_003');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_127');...
+       atmarker('CROTCH_13_6', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF32_HCOR', 0.12, 782.043582880113, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF32_HCOR_003');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'BQ4H7_031');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_105_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF3_QCORROCT_105_QT_001');...
+        atdrift('L05', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD32_VCOR', 0.09, -729.521731325636, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD32_VCOR_003');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_115');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD27_031');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00755555555555556 0.00755555555555556]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.00644444444444444 0.00644444444444444]);...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q11_011');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH9_COR_011');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_136');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_13_7', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'Q10_011');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH8_011');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_137');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_116');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q9_011');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH7_COR_011');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_106_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH7_QCORROCT_106_QT_001');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q8_011');...
+       atmarker('GIRDEREND', 'EApertures', [0.0064 0.0064]);...
+       atmarker('AN-C13END', 'EApertures', [0.0064 0.0064]);...
+       atmarker('SD14CSTART', 'EApertures', [0.0064 0.0064]);...
+       atmarker('VANNE_START', 'EApertures', [0.0064 0.0064]);...
+       atmarker('FCOR_14_1', 'UUID', 'FCOR_14_1_001');...
+      atmonitor('BPM', 'EApertures', [0.0064 0.0064], 'UUID', 'BPM_117');...
+        atdrift('SD1C_31', 0.322, 'Action', 'BPM', 'EApertures', [0.00854545454545455 0.00854545454545455]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_32', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_33', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('SD14CCENTER', 'EApertures', [0.0475 0.002 ]);...
+        atdrift('SD1C_34', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_35', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_36', 0.322, 'Action', 'BPM', 'EApertures', [0.00847619047619048 0.00847619047619048]);...
+       atmarker('FCOR_14_2', 'UUID', 'FCOR_14_2_001');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_118');...
+       atmarker('VANNE_END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD14CEND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C14START', 'EApertures', [0.006 0.006]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q8_012');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_107_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH7_QCORROCT_107_QT_001');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH7_COR_012');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q9_012');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_119');...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_138');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH8_012');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'Q10_012');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_139');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH9_COR_012');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q11_012');...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00766666666666667 0.00766666666666667], 'UUID', 'BD24_021');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00786666666666667 0.00786666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD41', 0.09, -735.729130725313, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD41_003');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_14_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF4_QCORROCT_108_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -183.939387091905], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF4_QCORROCT_108_QT_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'BQ4H4_021');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF41_HCOR', 0.12, 846.26087738574, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF41_HCOR_003');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_041');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_120');...
+    atsextupole('SXD41_VCOR', 0.09, -735.729130725313, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD41_VCOR_003');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_140');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H4_021');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00775 0.00775]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0073 0.0073], 'UUID', 'QCORR_141');...
+        atdrift('L071', 0.048, 'EApertures', [0.0068 0.0068]);...
+    atsextupole('SXD4', 0.09, -748.397964225485, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD4_003');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_14_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_043');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF4_HCOR', 0.12, 811.758492840009, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF4_HCOR_003');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF4_QCORROCT_109_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -183.939387091905], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF4_QCORROCT_109_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_045');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_121');...
+    atsextupole('SXD4_VCOR', 0.09, -748.397964225485, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD4_VCOR_003');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_142');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0068 0.0068]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H4_023');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00774358974358974 0.00774358974358974]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00748717948717949 0.00748717948717949]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00733333333333333 0.00733333333333333], 'UUID', 'QCORR_143');...
+        atdrift('L071', 0.048, 'EApertures', [0.00682051282051282 0.00682051282051282]);...
+    atsextupole('SXD42', 0.09, -652.433055715131, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD42_003');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_14_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_047');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF42_HCOR', 0.12, 832.798385062542, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF42_HCOR_003');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'BQ4H4_023');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF4_QCORROCT_110_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -183.939387091905], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF4_QCORROCT_110_QT_001');...
+        atdrift('L05', 0.06, 'EApertures', [0.008 0.008]);...
+    atsextupole('SXD42_VCOR', 0.09, -652.433055715131, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.0068 0.0068], 'KickAngle', [0. 0.], 'UUID', 'SXD42_VCOR_003');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_122');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD24_023');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00715789473684211 0.00715789473684211]);...
+        atdrift('LBD1M', 0.0395472975018047, 'EApertures', [0.00610526315789474 0.00610526315789474]);...
+        atdrift('D05HM', 0.0250000000000106, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q15', 0.0669665183225528, -13.0158117569202, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q15_005');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH12_COR', 0.06, -549.693929899786, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH12_COR_005');...
+        atdrift('D022HMQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_144');...
+        atdrift('D040HMQ', 0.108, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_14_4', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q14', 0.0669654375650683, 13.020316581933, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q14_005');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH11', 0.06, -342.377584906705, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH11_005');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH11_QCORROCT_111', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0068 0.0068], 'MaxOrder', 3, 'UUID', 'OH11_QCORROCT_111_001');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'BPM_123');...
+        atdrift('D06HM', 0.13, 'Action', 'BPM', 'EApertures', [0.0076 0.0076]);...
+   atquadrupole('Q13', 0.105549024737856, 14.4734284467452, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q13_005');...
+        atdrift('D032HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH10_COR', 0.06, 767.610099578133, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH10_COR_005');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH10_QCORROCT_112_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH10_QCORROCT_112_QT_001');...
+        atdrift('D031HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q12', 0.0785288819736742, -13.6759084023114, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q12_005');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C14END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD15MCSTART', 'EApertures', [0.006 0.006]);...
+       atmarker('VANNE_START', 'EApertures', [0.006 0.006]);...
+       atmarker('FCOR_15_1', 'UUID', 'FCOR_15_1_001');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_124');...
+        atdrift('SD1M_13', 0.322, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M_14', 0.287381847814076, 'Action', 'BPM', 'RApertures', [-0.0045  0.004  -0.0035  0.0035]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1M_15', 1.29, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('SD15MCCENTER', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1M_16', 1.29, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1M_17', 0.287381847814076, 'Action', 'BPM', 'EApertures', [0.00660294117647059 0.00598529411764706]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M_18', 0.322, 'Action', 'BPM', 'EApertures', [0.00838095238095238 0.00838095238095238]);...
+       atmarker('FCOR_15_2', 'UUID', 'FCOR_15_2_001');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_125');...
+       atmarker('VANNE_END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD15MCEND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C15START', 'EApertures', [0.006 0.006]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q12', 0.0785288819736742, -13.6759084023114, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q12_006');...
+        atdrift('D031HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH10_QCORROCT_113_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH10_QCORROCT_113_QT_001');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH10_COR', 0.06, 767.610099578133, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH10_COR_006');...
+        atdrift('D032HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q13', 0.105549024737856, 14.4734284467452, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q13_006');...
+        atdrift('D06HM', 0.13, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.0064 0.0064], 'UUID', 'BPM_126');...
+    atmultipole('OH11_QCORROCT_114', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH11_QCORROCT_114_001');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH11', 0.06, -342.377584906705, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH11_006');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q14', 0.0669654375650683, 13.020316581933, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q14_006');...
+        atdrift('D040HMQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_145');...
+        atdrift('D022HMQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH12_COR', 0.06, -549.693929899786, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH12_COR_006');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q15', 0.0669665183225528, -13.0158117569202, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q15_006');...
+        atdrift('D05HM', 0.0250000000000106, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1M', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227518, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD27_033');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227518, -1.18160211440423, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD51', 0.09, -647.766469752565, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD51_003');...
+       atmarker('CROTCH_15_1', 'EApertures', [0.006 0.006]);...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_115_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF5_QCORROCT_115_QT_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060752, 'UUID', 'BQ4H7_033');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060752);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF51_HCOR', 0.12, 840.822202380127, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF51_HCOR_003');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BQ6H7_129');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_127');...
+    atsextupole('SXD51_VCOR', 0.09, -647.766469752565, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD51_VCOR_003');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_146');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_065');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'QCORR_147');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD5', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD5_007');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_15_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BQ6H7_131');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_116_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF5_QCORROCT_116_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF5_HCOR', 0.12, 715.553794609745, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF5_HCOR_005');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BQ6H7_133');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_128');...
+    atsextupole('SXD5_VCOR', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD5_VCOR_007');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_148');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_067');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00784615384615385 0.00784615384615385]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00712820512820513 0.00712820512820513], 'UUID', 'QCORR_149');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD5', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD5_008');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_15_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BQ6H7_135');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_117_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF5_QCORROCT_117_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF53_HCOR', 0.12, 711.229968977946, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF53_HCOR_005');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'BQ6HC7_033');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_129');...
+    atsextupole('SXD53_VCOR', 0.09, -625.758067765939, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD53_VCOR_003');...
+        atdrift('L071C', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_150');...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00725 0.00725]);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00789655172413793], 'UUID', 'BD3HC7_017');...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00768965517241379], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00631034482758621]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008 0.005], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008   0.00425]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008  0.0046]);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00518367346938775], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00640816326530612]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00763265306122449], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00781632653061225]);...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.008 0.008]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00739393939393939 0.00739393939393939], 'UUID', 'QCORR_151');...
+        atdrift('L071C', 0.048, 'EApertures', [0.00678787878787879 0.00678787878787879]);...
+    atsextupole('SXD53', 0.09, -625.758067765939, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.007, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD53_003');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_15_4', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'BQ6HC7_035');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF53_HCOR', 0.12, 711.229968977946, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF53_HCOR_006');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_118_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF5_QCORROCT_118_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BQ6H7_137');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_130');...
+    atsextupole('SXD5_VCOR', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD5_VCOR_008');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_152');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_069');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'QCORR_153');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD5', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD5_009');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_15_5', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BQ6H7_139');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF5_HCOR', 0.12, 715.553794609745, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF5_HCOR_006');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_119_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF5_QCORROCT_119_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BQ6H7_141');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_131');...
+    atsextupole('SXD5_VCOR', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD5_VCOR_009');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_154');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H1', 0.0393049032024916, 0.00245617208465066, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H1_001');...
+        atsbend('BD5H1', 0.398927492296932, 0.0318559418401438, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H1', 0.398927492296932, 0.0318559418401438, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H1', 0.0393049032024916, 0.00245617208465066, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00784615384615385 0.00784615384615385]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'QCORR_155');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD52', 0.09, -734.183150728341, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD52_003');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H1', 0.0689196396343699, -0.00140236294993324, 8.79568061387988, 'Action', 'FocTune', 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BQ6H1_001');...
+       atmarker('CROTCH_15_6', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H1', 0.0689196396343699, -0.00140236294993324, 8.79568061387988, 'Action', 'FocTune', 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF52_HCOR', 0.12, 788.330339912278, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF52_HCOR_003');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060752, 'UUID', 'BQ4H7_035');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060752);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_120_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF5_QCORROCT_120_QT_001');...
+        atdrift('L05', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD52_VCOR', 0.09, -734.183150728341, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD52_VCOR_003');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_132');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+        atsbend('BD21', 0.0284984341976272, 0.00221003821940246, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD21_001');...
+        atsbend('BD11', 0.0959771205127194, 0.00894539503346868, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD11', 0.0959771205127194, 0.00894539503346868, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD11', 0.0959771205127194, 0.00894539503346868, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD11', 0.0959771205127194, 0.00894539503346868, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD21', 0.0284984341976272, 0.00221003821940246, -1.18160211440423, 'EApertures', [0.0085 0.0085]);...
+        atdrift('LBD1T', 0.0395472975018047, 'EApertures', [0.0085 0.0085]);...
+        atdrift('D021HTQ', 0.0529998883331588, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0085 0.0085], 'UUID', 'QCORR_156');...
+        atdrift('D022HTQ', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH15_VCOR', 0.075, -151.263624499999, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'SH15_VCOR_003');...
+        atdrift('D05HT', 0.22, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q21', 0.118594861317721, -8.24976089349076, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.106, 'EApertures', [0.0085 0.0085], 'UUID', 'Q21_003');...
+      atmonitor('BPM', 'EApertures', [0.0085 0.0085], 'UUID', 'BPM_133');...
+        atdrift('D041HT', 0.18, 'Action', 'BPM', 'EApertures', [0.0085 0.0085]);...
+       atmarker('CROTCH_15_7', 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q20', 0.122440853589187, 8.42972886822337, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.11, 'EApertures', [0.0085 0.0085], 'UUID', 'Q20_003');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH14_HCOR', 0.075, -335.348316276613, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'SH14_HCOR_003');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH141_QCORROCT_121', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'OH141_QCORROCT_121_001');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q19', 0.118733643867383, 8.01541064610388, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.106, 'EApertures', [0.0085 0.0085], 'UUID', 'Q19_003');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH13_COR', 0.075, 476.313437796132, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'SH13_COR_003');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.008 0.008]);...
+    atmultipole('OH131_QCORROCT_122', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.008 0.008], 'MaxOrder', 3, 'UUID', 'OH131_QCORROCT_122_001');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q18', 0.0932053766613153, -7.2301598888015, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.08, 'EApertures', [0.008 0.008], 'UUID', 'Q18_003');...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+       atmarker('AN-C15END', 'EApertures', [0.008 0.008]);...
+       atmarker('SD16LSTART', 'EApertures', [0.008 0.008]);...
+       atmarker('VANNE_START', 'EApertures', [0.008 0.008]);...
+       atmarker('FCOR_16_1', 'UUID', 'FCOR_16_1_001');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'BPM_134');...
+        atdrift('SD12_1', 0.272, 'Action', 'BPM', 'EApertures', [0.0107619047619048 0.0107619047619048]);...
+       atmarker('VANNE_END', 'EApertures', [0.012 0.012]);...
+       atmarker('ANATOMIX_START', 'EApertures', [0.012 0.012]);...
+        atdrift('SD12_2', 0.396170347288528, 'Action', 'BPM', 'EApertures', [0.0408461538461539 0.0124807692307692]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.0475 0.0025]);...
+        atdrift('SD12_3', 1.0, 'Action', 'BPM', 'EApertures', [0.0475 0.0025]);...
+       atmarker('SD16LACENTER', 'EApertures', [0.0475 0.0025]);...
+        atdrift('SD12_4', 1.0, 'Action', 'BPM', 'EApertures', [0.0475 0.0025]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.0475 0.0025]);...
+        atdrift('SD12_5', 0.396170347288528, 'Action', 'BPM', 'EApertures', [0.027   0.01225]);...
+       atmarker('ANATOMIX_END', 'EApertures', [0.012 0.012]);...
+       atmarker('VANNE_START', 'EApertures', [0.012 0.012]);...
+        atdrift('SD12_6', 0.272, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('FCOR_16_2', 'UUID', 'FCOR_16_2_001');...
+      atmonitor('BPM', 'EApertures', [0.01 0.01], 'UUID', 'BPM_135');...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('CHIC2', 0.2, -0.0126637486005222, 0.0, 'EApertures', [0.01 0.01], 'EntranceAngle', -0.006, 'ExitAngle', -0.006, 'UUID', 'CHIC2_001');...
+        atdrift('SD23T', 0.35011537936444, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q17', 0.0929982217794612, -7.83896314384854, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.08, 'EApertures', [0.0085 0.0085], 'UUID', 'Q17_003');...
+        atdrift('D032HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH16_QCORROCT_123', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'OH16_QCORROCT_123_001');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH16_COR', 0.075, 0.0, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'SH16_COR_003');...
+        atdrift('D031HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q16', 0.132220666360538, 8.59624027008373, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.12, 'EApertures', [0.0085 0.0085], 'UUID', 'Q16_002');...
+        atdrift('D031HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH16_COR', 0.075, 0.0, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'SH16_COR_004');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH16_QCORROCT_124', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'OH16_QCORROCT_124_001');...
+        atdrift('D032HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q17', 0.0929982217794612, -7.83896314384854, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.08, 'EApertures', [0.0085 0.0085], 'UUID', 'Q17_004');...
+        atdrift('SD23T', 0.35011537936444, 'EApertures', [0.00850340136054422 0.00850340136054422]);...
+        atsbend('CHIC3', 0.2, 0.0191637486005153, 0.0, 'EApertures', [0.00956462585034014 0.00956462585034014], 'EntranceAngle', 0.00925, 'ExitAngle', 0.00925, 'UUID', 'CHIC3_001');...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.00994557823129252 0.00994557823129252], 'UUID', 'BPM_136');...
+       atmarker('VANNE_START', 'EApertures', [0.00994557823129252 0.00994557823129252]);...
+       atmarker('FCOR_16_3', 'UUID', 'FCOR_16_3_001');...
+        atdrift('SD34_1', 0.272, 'Action', 'BPM', 'EApertures', [0.012 0.012]);...
+       atmarker('VANNE_END', 'EApertures', [0.012 0.012]);...
+       atmarker('NANOSCOPIUM_START', 'EApertures', [0.012 0.012]);...
+        atdrift('SD34_2', 0.396170347288528, 'Action', 'BPM', 'EApertures', [0.0205714285714286 0.0121428571428571]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.0475 0.0025]);...
+        atdrift('SD34_3', 1.0, 'Action', 'BPM', 'EApertures', [0.0475 0.0025]);...
+       atmarker('SD16LBCENTER', 'EApertures', [0.0475 0.0025]);...
+        atdrift('SD34_4', 1.0, 'Action', 'BPM', 'EApertures', [0.0475 0.0025]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.0475 0.0025]);...
+        atdrift('SD34_5', 0.396170347288528, 'Action', 'BPM', 'RApertures', [-0.0288157894736842  0.0176052631578947 -0.0101630434782609  0.0101630434782609]);...
+       atmarker('NANOSCOPIUM_END', 'EApertures', [0.012 0.012]);...
+       atmarker('VANNE_START', 'EApertures', [0.012 0.012]);...
+        atdrift('SD34_6', 0.272, 'Action', 'BPM', 'RApertures', [-0.01    0.0095 -0.01    0.01  ]);...
+       atmarker('FCOR_16_4', 'UUID', 'FCOR_16_4_001');...
+       atmarker('VANNE_END', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'BPM_137');...
+       atmarker('SD16LEND', 'EApertures', [0.008 0.008]);...
+       atmarker('AN-C16START', 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q18', 0.0932053766613153, -7.2301598888015, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.08, 'EApertures', [0.008 0.008], 'UUID', 'Q18_004');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.008 0.008]);...
+    atmultipole('OH132_QCORROCT_125', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.008 0.008], 'MaxOrder', 3, 'UUID', 'OH132_QCORROCT_125_001');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.008 0.008]);...
+    atsextupole('SH13_COR', 0.075, 476.313437796132, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'SH13_COR_004');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q19', 0.118733643867383, 8.01541064610388, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.106, 'EApertures', [0.0085 0.0085], 'UUID', 'Q19_004');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH142_QCORROCT_126', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'OH142_QCORROCT_126_001');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH14_HCOR', 0.075, -335.348316276613, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'SH14_HCOR_004');...
+        atdrift('D03HT', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q20', 0.122440853589187, 8.42972886822337, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.11, 'EApertures', [0.0085 0.0085], 'UUID', 'Q20_004');...
+        atdrift('D041HT', 0.18, 'Action', 'BPM', 'EApertures', [0.0085 0.0085]);...
+      atmonitor('BPM', 'EApertures', [0.0085 0.0085], 'UUID', 'BPM_138');...
+   atquadrupole('Q21', 0.118594861317721, -8.24976089349076, 'BoDiameter', 0.023, 'BoGap', 0.01, 'BoLength', 0.106, 'EApertures', [0.0085 0.0085], 'UUID', 'Q21_004');...
+        atdrift('D05HTC', 0.06, 'EApertures', [0.0085 0.0085]);...
+        atsbend('CHIC4', 0.1, -0.0118434756989878, 0.0, 'EApertures', [0.0085 0.0085], 'EntranceAngle', -0.0029, 'ExitAngle', -0.0029, 'UUID', 'CHIC4_001');...
+        atdrift('D022HT', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH15_VCOR', 0.075, -151.263624499999, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.01, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'SH15_VCOR_004');...
+        atdrift('D022HTQ', 0.048, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0085 0.0085], 'UUID', 'QCORR_157');...
+        atdrift('D021HTQ', 0.0529998883331588, 'EApertures', [0.0085 0.0085]);...
+        atdrift('LBD1T', 0.0395472975018047, 'EApertures', [0.0085 0.0085]);...
+        atsbend('BD22', 0.0284984341976272, 0.00259580023151625, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD22_001');...
+        atsbend('BD12', 0.0959771205127194, 0.0105068130926535, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD12', 0.0959771205127194, 0.0105068130926535, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD12', 0.0959771205127194, 0.0105068130926535, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD12', 0.0959771205127194, 0.0105068130926535, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD22', 0.0284984341976272, 0.00259580023151625, -1.18160211440423, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD52', 0.09, -734.183150728341, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD52_004');...
+       atmarker('CROTCH_16_1', 'EApertures', [0.006 0.006]);...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_127_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF5_QCORROCT_127_QT_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060752, 'UUID', 'BQ4H7_037');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060752);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF52_HCOR', 0.12, 788.330339912278, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF52_HCOR_004');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BQ6H7_143');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_139');...
+    atsextupole('SXD52_VCOR', 0.09, -734.183150728341, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD52_VCOR_004');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_158');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H2', 0.0393049032024916, 0.00243989287061025, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H2_001');...
+        atsbend('BD5H2', 0.398927492296932, 0.0316448044776945, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H2', 0.398927492296932, 0.0316448044776945, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H2', 0.0393049032024916, 0.00243989287061025, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'QCORR_159');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD5', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD5_010');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_16_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BQ6H7_145');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_128_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF5_QCORROCT_128_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF5_HCOR', 0.12, 715.553794609745, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF5_HCOR_007');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BQ6H7_147');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_140');...
+    atsextupole('SXD5_VCOR', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD5_VCOR_010');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_160');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_071');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00785 0.00785]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00735 0.00735]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'QCORR_161');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD5', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD5_011');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_16_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BQ6H7_149');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_129_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF5_QCORROCT_129_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF53_HCOR', 0.12, 711.229968977946, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF53_HCOR_007');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'BQ6HC7_037');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_141');...
+    atsextupole('SXD53_VCOR', 0.09, -625.758067765939, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD53_VCOR_004');...
+        atdrift('L071C', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_162');...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00714285714285714 0.00714285714285714]);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00786363636363636], 'UUID', 'BD3HC7_019');...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00769318181818182], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00632954545454545]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008 0.005], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008   0.00425]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008               0.00457894736842105]);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00518367346938775], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00640816326530612]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00763265306122449], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00781632653061225]);...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00793939393939394 0.00793939393939394]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00739393939393939 0.00739393939393939], 'UUID', 'QCORR_163');...
+        atdrift('L071C', 0.048, 'EApertures', [0.00678787878787879 0.00678787878787879]);...
+    atsextupole('SXD53', 0.09, -625.758067765939, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.007, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD53_004');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_16_4', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'BQ6HC7_039');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF53_HCOR', 0.12, 711.229968977946, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF53_HCOR_008');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_130_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF5_QCORROCT_130_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BQ6H7_151');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_142');...
+    atsextupole('SXD5_VCOR', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD5_VCOR_011');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_164');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_073');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'QCORR_165');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD5', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD5_012');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_16_5', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BQ6H7_153');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF5_HCOR', 0.12, 715.553794609745, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF5_HCOR_008');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_131_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF5_QCORROCT_131_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BQ6H7_155');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_143');...
+    atsextupole('SXD5_VCOR', 0.09, -673.701263957563, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD5_VCOR_012');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_166');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_075');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702363, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.0024512298026507, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00784615384615385 0.00784615384615385]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00712820512820513 0.00712820512820513], 'UUID', 'QCORR_167');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD51', 0.09, -647.766469752565, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD51_004');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444587, 'UUID', 'BQ6H7_157');...
+       atmarker('CROTCH_16_6', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444587, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444587);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF51_HCOR', 0.12, 840.822202380127, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF51_HCOR_004');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060752, 'UUID', 'BQ4H7_039');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060752, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060752);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF5_QCORROCT_132_QT', 0.06, [0. 0. 0. 0.], [  0.               0.               0.             353.486738211295], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF5_QCORROCT_132_QT_001');...
+        atdrift('L05', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD51_VCOR', 0.09, -647.766469752565, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD51_VCOR_004');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_144');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227518, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD27_035');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524086, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227518, -1.18160211440423, 'EApertures', [0.00755555555555556 0.00755555555555556]);...
+        atdrift('LBD1M', 0.0395472975018047, 'EApertures', [0.00644444444444444 0.00644444444444444]);...
+        atdrift('D05HM', 0.0250000000000106, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q15', 0.0669665183225528, -13.0158117569202, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q15_007');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH12_COR', 0.06, -549.693929899786, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH12_COR_007');...
+        atdrift('D022HMQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_168');...
+        atdrift('D040HMQ', 0.108, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_16_7', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q14', 0.0669654375650683, 13.020316581933, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q14_007');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH11', 0.06, -342.377584906705, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH11_007');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH11_QCORROCT_133', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH11_QCORROCT_133_001');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'BPM_145');...
+        atdrift('D06HM', 0.13, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q13', 0.105549024737856, 14.4734284467452, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q13_007');...
+        atdrift('D032HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH10_COR', 0.06, 767.610099578133, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH10_COR_007');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH10_QCORROCT_134_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH10_QCORROCT_134_QT_001');...
+        atdrift('D031HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q12', 0.0785288819736742, -13.6759084023114, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q12_007');...
+       atmarker('GIRDEREND', 'EApertures', [0.0076 0.0076]);...
+       atmarker('AN-C16END', 'EApertures', [0.0076 0.0076]);...
+       atmarker('SD17MCSTART', 'EApertures', [0.0076 0.0076]);...
+       atmarker('VANNE_START', 'EApertures', [0.0076 0.0076]);...
+       atmarker('FCOR_17_1', 'UUID', 'FCOR_17_1_001');...
+      atmonitor('BPM', 'EApertures', [0.0076 0.0076], 'UUID', 'BPM_146');...
+        atdrift('SD1M_19', 0.322, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M_20', 0.287381847814076, 'Action', 'BPM', 'RApertures', [-0.0045  0.004  -0.0035  0.0035]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1M_21', 1.29, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('SD17MCCENTER', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1M_22', 1.29, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1M_23', 0.287381847814076, 'Action', 'BPM', 'EApertures', [0.00644117647058823 0.00579411764705882]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M_24', 0.322, 'Action', 'BPM', 'EApertures', [0.00836363636363636 0.00836363636363636]);...
+       atmarker('FCOR_17_2', 'UUID', 'FCOR_17_2_001');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_147');...
+       atmarker('VANNE_END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD17MCEND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C17START', 'EApertures', [0.006 0.006]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q12', 0.0785288819736742, -13.6759084023114, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q12_008');...
+        atdrift('D031HM', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH10_QCORROCT_135_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH10_QCORROCT_135_QT_001');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH10_COR', 0.06, 767.610099578133, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH10_COR_008');...
+        atdrift('D032HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q13', 0.105549024737856, 14.4734284467452, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q13_008');...
+        atdrift('D06HM', 0.13, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.0072 0.0072], 'UUID', 'BPM_148');...
+    atmultipole('OH11_QCORROCT_136', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH11_QCORROCT_136_001');...
+        atdrift('D022HM', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH11', 0.06, -342.377584906705, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH11_008');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q14', 0.0669654375650683, 13.020316581933, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q14_008');...
+        atdrift('D040HMQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_169');...
+        atdrift('D022HMQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH12_COR', 0.06, -549.693929899786, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH12_COR_008');...
+        atdrift('D03HM', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q15', 0.0669665183225528, -13.0158117569202, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q15_008');...
+        atdrift('D05HM', 0.0250000000000106, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1M', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD24_025');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00786666666666667 0.00786666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD42', 0.09, -652.433055715131, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD42_004');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_17_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF4_QCORROCT_137_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -183.939387091905], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF4_QCORROCT_137_QT_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'BQ4H4_025');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF42_HCOR', 0.12, 832.798385062542, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF42_HCOR_004');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_049');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_149');...
+    atsextupole('SXD42_VCOR', 0.09, -652.433055715131, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD42_VCOR_004');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_170');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0068 0.0068]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H4_025');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00774358974358974 0.00774358974358974]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00728205128205128 0.00728205128205128], 'UUID', 'QCORR_171');...
+        atdrift('L071', 0.048, 'EApertures', [0.00676923076923077 0.00676923076923077]);...
+    atsextupole('SXD4', 0.09, -748.397964225485, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD4_004');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_17_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_051');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF4_QCORROCT_138_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -183.939387091905], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF4_QCORROCT_138_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF4_HCOR', 0.12, 811.758492840009, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF4_HCOR_004');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_053');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_150');...
+    atsextupole('SXD4_VCOR', 0.09, -748.397964225485, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD4_VCOR_004');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_172');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H4_027');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00775 0.00775]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00745 0.00745]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0073 0.0073], 'UUID', 'QCORR_173');...
+        atdrift('L071', 0.048, 'EApertures', [0.0068 0.0068]);...
+    atsextupole('SXD41', 0.09, -735.729130725313, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD41_004');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_17_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_055');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF41_HCOR', 0.12, 846.26087738574, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF41_HCOR_004');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'BQ4H4_027');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF4_QCORROCT_139_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -183.939387091905], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF4_QCORROCT_139_QT_001');...
+        atdrift('L05', 0.06, 'EApertures', [0.008 0.008]);...
+    atsextupole('SXD41_VCOR', 0.09, -735.729130725313, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.00666666666666667 0.00666666666666667], 'KickAngle', [0. 0.], 'UUID', 'SXD41_VCOR_004');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_151');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD24_027');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00711111111111111 0.00711111111111111]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.00611111111111111 0.00611111111111111]);...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q11_013');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH9_COR_013');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_174');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_17_4', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'Q10_013');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH8_013');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_175');...
+      atmonitor('BPM', 'EApertures', [0.00633333333333333 0.00633333333333333], 'UUID', 'BPM_152');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q9_013');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH7_COR_013');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_140_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH7_QCORROCT_140_QT_001');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q8_013');...
+       atmarker('GIRDEREND', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+       atmarker('AN-C17END', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+       atmarker('SD18CSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+       atmarker('VANNE_START', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+       atmarker('FCOR_18_1', 'UUID', 'FCOR_18_1_001');...
+      atmonitor('BPM', 'EApertures', [0.00733333333333333 0.00733333333333333], 'UUID', 'BPM_153');...
+        atdrift('SD1C_37', 0.322, 'Action', 'BPM', 'EApertures', [0.00847619047619048 0.00847619047619048]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_38', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('ONDULEURMARK_START', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_39', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('SD18CCENTER', 'EApertures', [0.0475 0.002 ]);...
+        atdrift('SD1C_40', 1.189, 'Action', 'BPM', 'EApertures', [0.0475 0.002 ]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.042  0.0125]);...
+        atdrift('SD1C_41', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_42', 0.322, 'Action', 'BPM', 'EApertures', [0.00847619047619048 0.00847619047619048]);...
+       atmarker('FCOR_18_2', 'UUID', 'FCOR_18_2_001');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_154');...
+       atmarker('VANNE_END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD18CEND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C18START', 'EApertures', [0.006 0.006]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q8_014');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_141_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH7_QCORROCT_141_QT_001');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH7_COR_014');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q9_014');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_155');...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_176');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH8_014');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'Q10_014');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_177');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH9_COR_014');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q11_014');...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD27_037');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD32', 0.09, -729.521731325636, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD32_004');...
+       atmarker('CROTCH_18_1', 'EApertures', [0.006 0.006]);...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_142_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF3_QCORROCT_142_QT_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'BQ4H7_041');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF32_HCOR', 0.12, 782.043582880113, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF32_HCOR_004');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_159');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_156');...
+    atsextupole('SXD32_VCOR', 0.09, -729.521731325636, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD32_VCOR_004');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_178');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_077');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'QCORR_179');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD3', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD3_010');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_18_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_161');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_143_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF3_QCORROCT_143_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF3_HCOR', 0.12, 675.00095481734, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF3_HCOR_007');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_163');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_157');...
+    atsextupole('SXD3_VCOR', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD3_VCOR_010');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_180');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_079');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00784615384615385 0.00784615384615385]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00712820512820513 0.00712820512820513], 'UUID', 'QCORR_181');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD3', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD3_011');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_18_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BQ6H7_165');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_144_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF3_QCORROCT_144_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF33_HCOR', 0.12, 686.795497427942, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF33_HCOR_007');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'BQ6HC7_041');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_158');...
+    atsextupole('SXD33_VCOR', 0.09, -764.318658802759, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD33_VCOR_004');...
+        atdrift('L071C', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_182');...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00725 0.00725]);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00789655172413793], 'UUID', 'BD3HC7_021');...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00768965517241379], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00631034482758621]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008 0.005], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008   0.00425]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008  0.0046]);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00518367346938775], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00640816326530612]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00763265306122449], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00781632653061225]);...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.008 0.008]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00739393939393939 0.00739393939393939], 'UUID', 'QCORR_183');...
+        atdrift('L071C', 0.048, 'EApertures', [0.00678787878787879 0.00678787878787879]);...
+    atsextupole('SXD33', 0.09, -764.318658802759, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.007, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD33_004');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_18_4', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'BQ6HC7_043');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF33_HCOR', 0.12, 686.795497427942, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF33_HCOR_008');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_145_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF3_QCORROCT_145_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BQ6H7_167');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_159');...
+    atsextupole('SXD3_VCOR', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD3_VCOR_011');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_184');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_081');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'QCORR_185');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD3', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD3_012');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_18_5', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_169');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF3_HCOR', 0.12, 675.00095481734, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF3_HCOR_008');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_146_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF3_QCORROCT_146_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_171');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_160');...
+    atsextupole('SXD3_VCOR', 0.09, -753.118527609963, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD3_VCOR_012');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_186');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_083');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00784615384615385 0.00784615384615385]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'QCORR_187');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD31', 0.09, -681.129428046866, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD31_004');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_18_6', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_173');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF31_HCOR', 0.12, 734.143510940683, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF31_HCOR_004');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'BQ4H7_043');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF3_QCORROCT_147_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -440.259660850112], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF3_QCORROCT_147_QT_001');...
+        atdrift('L05', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD31_VCOR', 0.09, -681.129428046866, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD31_VCOR_004');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_161');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD27_039');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00747368421052632 0.00747368421052632]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.00642105263157895 0.00642105263157895]);...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q11_015');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH9_COR_015');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_188');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_18_7', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'Q10_015');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH8_015');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_189');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_162');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q9_015');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH7_COR_015');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_148_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH7_QCORROCT_148_QT_001');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q8_015');...
+       atmarker('GIRDEREND', 'EApertures', [0.0064 0.0064]);...
+       atmarker('AN-C18END', 'EApertures', [0.0064 0.0064]);...
+       atmarker('SD19CSTART', 'EApertures', [0.0064 0.0064]);...
+       atmarker('VANNE_START', 'EApertures', [0.0064 0.0064]);...
+       atmarker('FCOR_19_1', 'UUID', 'FCOR_19_1_001');...
+      atmonitor('BPM', 'EApertures', [0.0064 0.0064], 'UUID', 'BPM_163');...
+        atdrift('SD1C_43', 0.322, 'Action', 'BPM', 'EApertures', [0.00847619047619048 0.00847619047619048]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_44', 0.0835458676300582, 'Action', 'BPM', 'RApertures', [-0.00903809523809524  0.00857142857142857 -0.00903809523809524  0.00903809523809524]);...
+       atmarker('ONDULEURMARK_START', 'RApertures', [-0.00884571428571429  0.00828571428571429 -0.00884571428571429  0.00884571428571429]);...
+        atdrift('SD1C_45', 1.189, 'Action', 'BPM', 'RApertures', [-0.0045  0.004  -0.0035  0.0035]);...
+       atmarker('SD19CCENTER', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1C_46', 1.189, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.00902941176470588 0.00885294117647059]);...
+        atdrift('SD1C_47', 0.0835458676300582, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1C_48', 0.322, 'Action', 'BPM', 'EApertures', [0.00854545454545455 0.00854545454545455]);...
+       atmarker('FCOR_19_2', 'UUID', 'FCOR_19_2_001');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_164');...
+       atmarker('VANNE_END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD19CEND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C19START', 'EApertures', [0.006 0.006]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q8', 0.0786666675115942, -13.273182641893, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q8_016');...
+        atdrift('D031HC', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH7_QCORROCT_149_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH7_QCORROCT_149_QT_001');...
+        atdrift('D022HC', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH7_COR', 0.06, 832.664084881681, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH7_COR_016');...
+        atdrift('D032HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q9', 0.106409911705093, 12.8349230947647, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q9_016');...
+        atdrift('D06HCQ', 0.158, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_165');...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_190');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH8', 0.06, -366.603155097304, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH8_016');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q10', 0.0844113331477278, 13.6568508102765, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.076, 'EApertures', [0.006 0.006], 'UUID', 'Q10_016');...
+        atdrift('D041HCQ', 0.108, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_191');...
+        atdrift('D022HCQ', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH9_COR', 0.06, -668.536791100884, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH9_COR_016');...
+        atdrift('D03HC', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q11', 0.0789546761676337, -12.3862992113073, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q11_016');...
+        atdrift('D05HC', 0.00499988833315879, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1C', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00766666666666667 0.00766666666666667], 'UUID', 'BD24_029');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00786666666666667 0.00786666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD22', 0.09, -636.039531358256, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD22_004');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_19_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF2_QCORROCT_150_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -262.360558705412], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF2_QCORROCT_150_QT_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'BQ4H4_029');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF22_HCOR', 0.12, 843.464304725645, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF22_HCOR_004');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_057');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_166');...
+    atsextupole('SXD22_VCOR', 0.09, -636.039531358256, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD22_VCOR_004');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_192');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H4_029');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00775 0.00775]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0073 0.0073], 'UUID', 'QCORR_193');...
+        atdrift('L071', 0.048, 'EApertures', [0.0068 0.0068]);...
+    atsextupole('SXD2', 0.09, -617.904418360321, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD2_004');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_19_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_059');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF2_HCOR', 0.12, 741.112250869933, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF2_HCOR_004');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF2_QCORROCT_151_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -262.360558705412], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF2_QCORROCT_151_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_061');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_167');...
+    atsextupole('SXD2_VCOR', 0.09, -617.904418360321, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD2_VCOR_004');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_194');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H4_031');...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H4', 0.398927492296932, 0.0303936245742024, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H4', 0.0393049032024916, 0.00234342379845867, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00775 0.00775]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00745 0.00745]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0073 0.0073], 'UUID', 'QCORR_195');...
+        atdrift('L071', 0.048, 'EApertures', [0.0068 0.0068]);...
+    atsextupole('SXD21', 0.09, -655.116114720116, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD21_004');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_19_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144531683192883, 'UUID', 'BQ6H4_063');...
+        atsbend('BQ6H4', 0.0689196396343699, -0.00144531683192883, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144531683192883);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF21_HCOR', 0.12, 719.09699842571, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF21_HCOR_004');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000385457006104762, 'UUID', 'BQ4H4_031');...
+        atsbend('BQ4H4', 0.0577872115264688, -0.000385457006104762, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000385457006104762);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF2_QCORROCT_152_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -262.360558705412], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF2_QCORROCT_152_QT_001');...
+        atdrift('L05', 0.06, 'EApertures', [0.008 0.008]);...
+    atsextupole('SXD21_VCOR', 0.09, -655.116114720116, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.00666666666666667 0.00666666666666667], 'KickAngle', [0. 0.], 'UUID', 'SXD21_VCOR_004');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_168');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD24_031');...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD14', 0.0959771205127194, 0.00873427426315538, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD24', 0.0284984341976272, 0.00215787898333112, -1.18160211440423, 'EApertures', [0.00715789473684211 0.00715789473684211]);...
+        atdrift('LBD1M1', 0.0395472975018047, 'EApertures', [0.00621052631578947 0.00621052631578947]);...
+        atdrift('D05HM1', 0.05, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q7', 0.0672457254622836, -11.8140171585779, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q7_007');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH6_COR', 0.06, -324.475203415205, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH6_COR_007');...
+        atdrift('D022HM1Q', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_196');...
+        atdrift('D040HM1Q', 0.128, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_19_4', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q6', 0.067209291601852, 11.9784555023184, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q6_007');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH5', 0.06, -514.413524183539, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH5_007');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH5_QCORROCT_153', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.008 0.008], 'MaxOrder', 3, 'UUID', 'OH5_QCORROCT_153_001');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'BPM_169');...
+        atdrift('D06HM1', 0.13, 'Action', 'BPM', 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q5', 0.105773394525209, 14.0793630884634, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q5_007');...
+        atdrift('D032HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH4_COR', 0.06, 682.544409709839, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH4_COR_007');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH4_QCORROCT_154_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH4_QCORROCT_154_QT_001');...
+        atdrift('D031HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q4', 0.0785476107439048, -13.6216098775293, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q4_007');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+       atmarker('AN-C19END', 'EApertures', [0.006 0.006]);...
+       atmarker('SD20MLSTART', 'EApertures', [0.006 0.006]);...
+       atmarker('VANNE_START', 'EApertures', [0.006 0.006]);...
+       atmarker('FCOR_20_1', 'UUID', 'FCOR_20_1_001');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_170');...
+        atdrift('SD1M1_33', 0.322, 'Action', 'BPM', 'EApertures', [0.00881818181818182 0.00881818181818182]);...
+       atmarker('VANNE_END', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_34', 0.519986392245071, 'Action', 'BPM', 'RApertures', [-0.00895714285714286  0.00828571428571429 -0.00895714285714286  0.00895714285714286]);...
+       atmarker('ONDULEURMARK_START', 'RApertures', [-0.00895714285714286  0.00828571428571429 -0.00895714285714286  0.00895714285714286]);...
+        atdrift('SD1M1_35', 1.29, 'Action', 'BPM', 'RApertures', [-0.0045  0.004  -0.0035  0.0035]);...
+       atmarker('SD20MLCENTER', 'EApertures', [0.0045 0.0035]);...
+        atdrift('SD1M1_36', 1.29, 'Action', 'BPM', 'EApertures', [0.0045 0.0035]);...
+       atmarker('ONDULEURMARK_END', 'EApertures', [0.00902941176470588 0.00885294117647059]);...
+        atdrift('SD1M1_37', 0.519986392245071, 'Action', 'BPM', 'EApertures', [0.01 0.01]);...
+       atmarker('VANNE_START', 'EApertures', [0.01 0.01]);...
+        atdrift('SD1M1_38', 0.322, 'Action', 'BPM', 'EApertures', [0.00876190476190476 0.00876190476190476]);...
+       atmarker('FCOR_20_2', 'UUID', 'FCOR_20_2_001');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'BPM_171');...
+       atmarker('VANNE_END', 'EApertures', [0.008 0.008]);...
+       atmarker('SD20MLEND', 'EApertures', [0.008 0.008]);...
+       atmarker('AN-C20START', 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+   atquadrupole('Q4', 0.0785476107439048, -13.6216098775293, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.07, 'EApertures', [0.006 0.006], 'UUID', 'Q4_008');...
+        atdrift('D031HM1', 0.048, 'EApertures', [0.006 0.006]);...
+    atmultipole('OH4_QCORROCT_155_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'MaxOrder', 3, 'UUID', 'OH4_QCORROCT_155_QT_001');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH4_COR', 0.06, 682.544409709839, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH4_COR_008');...
+        atdrift('D032HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q5', 0.105773394525209, 14.0793630884634, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.098, 'EApertures', [0.006 0.006], 'UUID', 'Q5_008');...
+        atdrift('D06HM1', 0.13, 'Action', 'BPM', 'EApertures', [0.0064 0.0064]);...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'BPM_172');...
+    atmultipole('OH5_QCORROCT_156', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.008 0.008], 'MaxOrder', 3, 'UUID', 'OH5_QCORROCT_156_001');...
+        atdrift('D022HM1', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH5', 0.06, -514.413524183539, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'UUID', 'SH5_008');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q6', 0.067209291601852, 11.9784555023184, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q6_008');...
+        atdrift('D040HM1Q', 0.128, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_197');...
+        atdrift('D022HM1Q', 0.048, 'EApertures', [0.006 0.006]);...
+    atsextupole('SH6_COR', 0.06, -324.475203415205, 'Action', 'SxtHarm', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.06, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SH6_COR_008');...
+        atdrift('D03HM1', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('Q7', 0.0672457254622836, -11.8140171585779, 'BoDiameter', 0.016, 'BoGap', 0.00635, 'BoLength', 0.058, 'EApertures', [0.006 0.006], 'UUID', 'Q7_008');...
+        atdrift('D05HM1', 0.05, 'EApertures', [0.006 0.006]);...
+        atdrift('LBD1M1', 0.0395472975018047, 'EApertures', [0.006 0.006]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD27_041');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.00766666666666667 0.00766666666666667]);...
+        atdrift('L03', 0.176061846245862, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD12', 0.09, -749.191327132338, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0075, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD12_004');...
+        atdrift('L04', 0.111275514615956, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_20_1', 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_157_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF1_QCORROCT_157_QT_001');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'BQ4H7_045');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF12_HCOR', 0.12, 860.065976124029, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF12_HCOR_004');...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_175');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_173');...
+    atsextupole('SXD12_VCOR', 0.09, -749.191327132338, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD12_VCOR_004');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_198');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_085');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'QCORR_199');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD1', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD1_010');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_20_2', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_177');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_158_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF1_QCORROCT_158_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF1_HCOR', 0.12, 781.382308964691, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF1_HCOR_007');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_179');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_174');...
+    atsextupole('SXD1_VCOR', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD1_VCOR_010');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_200');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_087');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+       atmarker('GIRDEREND', 'EApertures', [0.00785 0.00785]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00735 0.00735]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00715 0.00715], 'UUID', 'QCORR_201');...
+        atdrift('L071', 0.048, 'EApertures', [0.00665 0.00665]);...
+    atsextupole('SXD1', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD1_011');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_20_3', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BQ6H7_181');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_159_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF1_QCORROCT_159_QT_001');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF13_HCOR', 0.12, 750.901805779491, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF13_HCOR_007');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'BQ6HC7_045');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_175');...
+    atsextupole('SXD13_VCOR', 0.09, -689.724579569546, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD13_VCOR_004');...
+        atdrift('L071C', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_202');...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.00714285714285714 0.00714285714285714]);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00789772727272727], 'UUID', 'BD3HC7_023');...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00769318181818182], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00632954545454545]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008 0.005], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD6HC7', 0.0856857672699483, 0.0117810198825822, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD5HC7', 0.0231155237960032, 0.00240516115877823, 0.0, 'EApertures', [0.008 0.005]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00518367346938775], 'EntranceAngle', 0.00982777557557598);...
+        atsbend('BD4HC7', 0.253621983633988, 0.0158951863469887, -2.57765200910186, 'EApertures', [0.008               0.00640816326530612]);...
+        atsbend('BD4HC71', 0.03, 0.00188018240208164, -2.57765200910186, 'EApertures', [0.008               0.00763265306122449], 'ExitAngle', 0.00982777557557598);...
+        atsbend('BD3HC7', 0.01, 0.000258818071001969, -1.37551837900507, 'EApertures', [0.008               0.00781632653061225]);...
+        atdrift('L073C', 0.0430773209057085, 'EApertures', [0.008 0.008]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00739393939393939 0.00739393939393939], 'UUID', 'QCORR_203');...
+        atdrift('L071C', 0.048, 'EApertures', [0.00678787878787879 0.00678787878787879]);...
+    atsextupole('SXD13', 0.09, -689.724579569546, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.007, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD13_004');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+       atmarker('CROTCH_20_4', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00144054604712974, 'UUID', 'BQ6HC7_047');...
+        atsbend('BQ6HC7', 0.0689196396343699, -0.00144054604712974, 8.95984862959226, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00144054604712974);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF13_HCOR', 0.12, 750.901805779491, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF13_HCOR_008');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_160_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF1_QCORROCT_160_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444582, 'UUID', 'BQ6H7_183');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444582, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444582);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_176');...
+    atsextupole('SXD1_VCOR', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD1_VCOR_011');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_204');...
+       atmarker('GIRDEREND', 'EApertures', [0.006 0.006]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.0076 0.0076]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_089');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702352, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008]);...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.00758974358974359 0.00758974358974359]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00717948717948718 0.00717948717948718], 'UUID', 'QCORR_205');...
+        atdrift('L071', 0.048, 'EApertures', [0.00666666666666667 0.00666666666666667]);...
+    atsextupole('SXD1', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD1_012');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_185');...
+       atmarker('CROTCH_20_5', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF1_HCOR', 0.12, 781.382308964691, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF1_HCOR_008');...
+        atdrift('L081', 0.06, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_161_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF1_QCORROCT_161_QT_001');...
+        atdrift('L083', 0.0510803604344797, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_187');...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L072', 0.137336915990035, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_177');...
+    atsextupole('SXD1_VCOR', 0.09, -688.075994596801, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD1_VCOR_012');...
+        atdrift('L071', 0.048, 'EApertures', [0.006 0.006]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.006 0.006], 'UUID', 'QCORR_206');...
+        atdrift('L073', 0.0372677805661953, 'EApertures', [0.008 0.008]);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'EApertures', [0.008 0.008], 'UUID', 'BD4H7_091');...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0342430714728858);...
+        atsbend('BD5H7', 0.398927492296932, 0.0317918416702353, -1.86297299994296, 'EApertures', [0.008 0.008], 'ExitAngle', 0.0342430714728858);...
+        atsbend('BD4H7', 0.0393049032024916, 0.00245122980265062, -1.11997137375817, 'RApertures', [-0.008   0.0045 -0.008   0.008 ]);...
+       atmarker('MIR_AILES', 'RApertures', [-0.00784615384615385  0.0045              -0.00784615384615385  0.00784615384615385]);...
+       atmarker('GIRDEREND', 'RApertures', [-0.00784615384615385  0.0045              -0.00784615384615385  0.00784615384615385]);...
+        atdrift('L073', 0.0372677805661953, 'RApertures', [-0.00758974358974359  0.0045              -0.00758974358974359  0.00758974358974359]);...
+       atmarker('GIRDERSTART', 'EApertures', [0.00733333333333333 0.00733333333333333]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.00712820512820513 0.00712820512820513], 'UUID', 'QCORR_207');...
+        atdrift('L071', 0.048, 'EApertures', [0.00661538461538461 0.00661538461538461]);...
+    atsextupole('SXD11', 0.09, -701.568414672357, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'UUID', 'SXD11_004');...
+        atdrift('L072', 0.137336915990035, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.00151180665444583, 'UUID', 'BQ6H7_189');...
+       atmarker('CROTCH_20_6', 'EApertures', [0.006 0.006]);...
+        atsbend('BQ6H7', 0.0689196396343699, -0.00151180665444583, 8.79568061387988, 'Action', 'FocTune', 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.006 0.006], 'ExitAngle', -0.00151180665444583);...
+        atdrift('L082', 0.0471064301693061, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXF11_HCOR', 0.12, 831.660252988522, 'Action', 'FocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.12, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXF11_HCOR_004');...
+        atdrift('L084', 0.048820499745398, 'EApertures', [0.006 0.006]);...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'EntranceAngle', -0.000403189428060739, 'UUID', 'BQ4H7_047');...
+        atsbend('BQ4H7', 0.0577872115264688, -0.000403189428060739, 11.4815964714767, 'Action', 'FocTune', 'BoDiameter', 0.018, 'BoGap', 0.00648, 'BoLength', 0.106, 'EApertures', [0.006 0.006], 'ExitAngle', -0.000403189428060739);...
+        atdrift('L085', 0.100096014361354, 'EApertures', [0.006 0.006]);...
+    atmultipole('OCTF1_QCORROCT_162_QT', 0.06, [0. 0. 0. 0.], [   0.                0.                0.             -800.842486671932], 'Action', 'OctChrom', 'BoDiameter', 0.019, 'BoGap', 0.0064, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.006 0.006], 'UUID', 'OCTF1_QCORROCT_162_QT_001');...
+        atdrift('L05', 0.06, 'EApertures', [0.006 0.006]);...
+    atsextupole('SXD11_VCOR', 0.09, -701.568414672357, 'Action', 'DeFocChrom', 'BoDiameter', 0.016, 'BoGap', 0.0062, 'BoLength', 0.09, 'EApertures', [0.006 0.006], 'KickAngle', [0. 0.], 'UUID', 'SXD11_VCOR_004');...
+      atmonitor('BPM', 'EApertures', [0.006 0.006], 'UUID', 'BPM_178');...
+        atdrift('L03', 0.176061846245862, 'Action', 'BPM', 'EApertures', [0.008 0.008]);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.008 0.008], 'UUID', 'BD27_043');...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'EntranceAngle', 0.0205293144427562);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008]);...
+        atsbend('BD17', 0.0959771205127194, 0.00913608259524057, -1.96905863509927, 'Action', 'DeFocTune', 'EApertures', [0.008 0.008], 'ExitAngle', 0.0205293144427562);...
+        atsbend('BD27', 0.0284984341976272, 0.00225714925227511, -1.18160211440423, 'EApertures', [0.0085 0.0085]);...
+        atdrift('LBD1I', 0.0395472975018047, 'EApertures', [0.0085 0.0085]);...
+        atdrift('D05HI', 0.00499988833315879, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q3', 0.19168495937003, 8.41314022851464, 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.18, 'EApertures', [0.0085 0.0085], 'UUID', 'Q3_004');...
+        atdrift('D03HIQ', 0.1, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('QCORR', 0.024, 0.0, 'BoDiameter', 0.019, 'BoGap', 0.007, 'BoLength', 0.024, 'EApertures', [0.0085 0.0085], 'UUID', 'QCORR_208');...
+        atdrift('D022HIQ', 0.048, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH3_VCOR', 0.075, -319.26546309512, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.0062, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'SH3_VCOR_004');...
+      atmonitor('BPM', 'EApertures', [0.0085 0.0085], 'UUID', 'BPM_179');...
+        atdrift('D041HI', 0.118040964330437, 'Action', 'BPM', 'EApertures', [0.0085 0.0085]);...
+       atmarker('CROTCH_20_7', 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q2', 0.190595998125992, -9.58185915782871, 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.18, 'EApertures', [0.0085 0.0085], 'UUID', 'Q2_004');...
+        atdrift('D03HI', 0.052, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH2_QCORROCT_163', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.00718, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'OH2_QCORROCT_163_001');...
+        atdrift('D022HI', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH2_HCOR', 0.075, -0.0179339928448087, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.0062, 'BoLength', 0.075, 'EApertures', [0.0085 0.0085], 'KickAngle', [0. 0.], 'UUID', 'SH2_HCOR_004');...
+        atdrift('D03HI', 0.052, 'EApertures', [0.0085 0.0085]);...
+   atquadrupole('Q1', 0.137671036897098, 9.06658187296726, 'BoDiameter', 0.021, 'BoGap', 0.00648, 'BoLength', 0.126, 'EApertures', [0.0085 0.0085], 'UUID', 'Q1_004');...
+        atdrift('D031HI', 0.052, 'EApertures', [0.0085 0.0085]);...
+    atmultipole('OH1_QCORROCT_164_QT', 0.06, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Action', 'OctHarm', 'BoDiameter', 0.021, 'BoGap', 0.00718, 'BoLength', 0.06, 'Class', 'Octupole', 'EApertures', [0.0085 0.0085], 'MaxOrder', 3, 'UUID', 'OH1_QCORROCT_164_QT_001');...
+        atdrift('D022HI', 0.06, 'EApertures', [0.0085 0.0085]);...
+    atsextupole('SH1_COR', 0.075, 180.531158381771, 'Action', 'SxtHarm', 'BoDiameter', 0.021, 'BoGap', 0.0062, 'BoLength', 0.075, 'EApertures', [0.008 0.008], 'KickAngle', [0. 0.], 'UUID', 'SH1_COR_004');...
+       atmarker('GIRDEREND', 'EApertures', [0.008 0.008]);...
+       atmarker('AN-C20END', 'EApertures', [0.008 0.008]);...
+       atmarker('SD01ISTART', 'EApertures', [0.008 0.008]);...
+       atmarker('VANNE_START', 'EApertures', [0.008 0.008]);...
+       atmarker('FCOR_1_1', 'UUID', 'FCOR_1_1_001');...
+      atmonitor('BPM', 'EApertures', [0.008 0.008], 'UUID', 'BPM_180');...
+        atdrift('SD1I_22', 0.322, 'Action', 'BPM', 'EApertures', [0.012 0.012]);...
+       atmarker('VANNE_END', 'EApertures', [0.012 0.012]);...
+        atdrift('SD1I_23', 0.166164763423493, 'Action', 'BPM', 'EApertures', [0.0137777777777778  0.00933333333333333]);...
+    atmultipole('SD01IKICKER1', 0.3, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Class', 'Octupole', 'EApertures', [0.015  0.0075]);...
+        atdrift('SD1I_24', 0.3433, 'Action', 'BPM', 'RApertures', [-0.0146797153024911  0.008              -0.0075              0.0075            ]);...
+       atmarker('THICKSEPTUMSTART', 'RApertures', [-0.014653024911032  0.015             -0.0075             0.0075           ]);...
+    atmultipole('THICKSEPTUM', 0.8973, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Class', 'Octupole', 'RApertures', [-0.0112900355871886  0.015              -0.0075              0.0075            ]);...
+       atmarker('THICKSEPTUMEND', 'RApertures', [-0.00790035587188612  0.015               -0.0075               0.0075             ]);...
+        atdrift('SD1I_25', 0.236459999999998, 'Action', 'BPM', 'RApertures', [-0.005               0.0153654822335025 -0.0075              0.0075            ]);...
+       atmarker('THINSEPTUMSTART', 'RApertures', [-0.005               0.0160355329949239 -0.0075              0.0075            ]);...
+    atmultipole('THINSEPTUM', 0.4, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Class', 'Octupole', 'RApertures', [-0.005               0.0160355329949239 -0.0075              0.0075            ]);...
+       atmarker('THINSEPTUMEND', 'RApertures', [-0.005               0.0183299492385787 -0.0075              0.0075            ]);...
+        atdrift('SD1I_26', 0.225, 'Action', 'BPM', 'RApertures', [-0.005                0.00990909090909091 -0.0075               0.0075             ]);...
+    atmultipole('SD01IKICKER2', 0.3, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Class', 'Octupole', 'EApertures', [0.015  0.0075]);...
+        atdrift('SD1I_27', 0.1, 'Action', 'BPM', 'EApertures', [0.015  0.0075]);...
+    atmultipole('SD01IKICKER3', 0.3, [0. 0. 0. 0.], [0. 0. 0. 0.], 'Class', 'Octupole', 'EApertures', [0.015  0.0075]);...
+        atdrift('SD1I_28', 0.43100440243653, 'Action', 'BPM', 'EApertures', [0.015  0.0075]);...
+};
+    function v=False()
+        v=false;
+    end
+    function v=True()
+        v=true;
+    end
+end
diff --git a/examples/SOLEIL_examples/p.yaml b/examples/SOLEIL_examples/p.yaml
new file mode 100644
index 0000000..5ec7993
--- /dev/null
+++ b/examples/SOLEIL_examples/p.yaml
@@ -0,0 +1,17710 @@
+type: pyaml.accelerator
+facility: Synchrotron SOLEIL
+machine: sr
+data_folder: /data/store
+energy: 2750000000.0
+simulators:
+- type: pyaml.lattice.simulator
+  lattice: SOLEIL_II_V3631_sym1_V001_database_rf.m
+  name: design
+  linker:
+    type: pyaml.lattice.attribute_linker
+    attribute_name: UUID
+controls:
+- type: tango.pyaml.controlsystem
+  name: live
+  tango_host: localhost:11000
+arrays:
+- type: pyaml.arrays.bpm
+  name: BPM
+  elements:
+  - BPM_001
+  - BPM_002
+  - BPM_003
+  - BPM_004
+  - BPM_005
+  - BPM_006
+  - BPM_007
+  - BPM_008
+  - BPM_009
+  - BPM_010
+  - BPM_011
+  - BPM_012
+  - BPM_013
+  - BPM_014
+  - BPM_015
+  - BPM_016
+  - BPM_017
+  - BPM_018
+  - BPM_019
+  - BPM_020
+  - BPM_021
+  - BPM_022
+  - BPM_023
+  - BPM_024
+  - BPM_025
+  - BPM_026
+  - BPM_027
+  - BPM_028
+  - BPM_029
+  - BPM_030
+  - BPM_031
+  - BPM_032
+  - BPM_033
+  - BPM_034
+  - BPM_035
+  - BPM_036
+  - BPM_037
+  - BPM_038
+  - BPM_039
+  - BPM_040
+  - BPM_041
+  - BPM_042
+  - BPM_043
+  - BPM_044
+  - BPM_045
+  - BPM_046
+  - BPM_047
+  - BPM_048
+  - BPM_049
+  - BPM_050
+  - BPM_051
+  - BPM_052
+  - BPM_053
+  - BPM_054
+  - BPM_055
+  - BPM_056
+  - BPM_057
+  - BPM_058
+  - BPM_059
+  - BPM_060
+  - BPM_061
+  - BPM_062
+  - BPM_063
+  - BPM_064
+  - BPM_065
+  - BPM_066
+  - BPM_067
+  - BPM_068
+  - BPM_069
+  - BPM_070
+  - BPM_071
+  - BPM_072
+  - BPM_073
+  - BPM_074
+  - BPM_075
+  - BPM_076
+  - BPM_077
+  - BPM_078
+  - BPM_079
+  - BPM_080
+  - BPM_081
+  - BPM_082
+  - BPM_083
+  - BPM_084
+  - BPM_085
+  - BPM_086
+  - BPM_087
+  - BPM_088
+  - BPM_089
+  - BPM_090
+  - BPM_091
+  - BPM_092
+  - BPM_093
+  - BPM_094
+  - BPM_095
+  - BPM_096
+  - BPM_097
+  - BPM_098
+  - BPM_099
+  - BPM_100
+  - BPM_101
+  - BPM_102
+  - BPM_103
+  - BPM_104
+  - BPM_105
+  - BPM_106
+  - BPM_107
+  - BPM_108
+  - BPM_109
+  - BPM_110
+  - BPM_111
+  - BPM_112
+  - BPM_113
+  - BPM_114
+  - BPM_115
+  - BPM_116
+  - BPM_117
+  - BPM_118
+  - BPM_119
+  - BPM_120
+  - BPM_121
+  - BPM_122
+  - BPM_123
+  - BPM_124
+  - BPM_125
+  - BPM_126
+  - BPM_127
+  - BPM_128
+  - BPM_129
+  - BPM_130
+  - BPM_131
+  - BPM_132
+  - BPM_133
+  - BPM_134
+  - BPM_135
+  - BPM_136
+  - BPM_137
+  - BPM_138
+  - BPM_139
+  - BPM_140
+  - BPM_141
+  - BPM_142
+  - BPM_143
+  - BPM_144
+  - BPM_145
+  - BPM_146
+  - BPM_147
+  - BPM_148
+  - BPM_149
+  - BPM_150
+  - BPM_151
+  - BPM_152
+  - BPM_153
+  - BPM_154
+  - BPM_155
+  - BPM_156
+  - BPM_157
+  - BPM_158
+  - BPM_159
+  - BPM_160
+  - BPM_161
+  - BPM_162
+  - BPM_163
+  - BPM_164
+  - BPM_165
+  - BPM_166
+  - BPM_167
+  - BPM_168
+  - BPM_169
+  - BPM_170
+  - BPM_171
+  - BPM_172
+  - BPM_173
+  - BPM_174
+  - BPM_175
+  - BPM_176
+  - BPM_177
+  - BPM_178
+  - BPM_179
+  - BPM_180
+- type: pyaml.arrays.element
+  name: Cell1
+  elements:
+  - BPM_001
+  - SH1_COR_001
+  - SH1_COR_001.sextupole
+  - SH1_COR_001.hcorrector
+  - SH1_COR_001.vcorrector
+  - OH1_QCORROCT_1_QT_001
+  - OH1_QCORROCT_1_QT_001.octupole
+  - OH1_QCORROCT_1_QT_001.quadrupole
+  - OH1_QCORROCT_1_QT_001.skewquad
+  - SH2_HCOR_001
+  - SH2_HCOR_001.sextupole
+  - SH2_HCOR_001.hcorrector
+  - OH2_QCORROCT_2_001
+  - OH2_QCORROCT_2_001.octupole
+  - OH2_QCORROCT_2_001.quadrupole
+  - BPM_002
+  - SH3_VCOR_001
+  - SH3_VCOR_001.sextupole
+  - SH3_VCOR_001.vcorrector
+  - QCORR_001
+  - SXD11_001
+  - OCTF1_QCORROCT_3_QT_001
+  - OCTF1_QCORROCT_3_QT_001.octupole
+  - OCTF1_QCORROCT_3_QT_001.quadrupole
+  - OCTF1_QCORROCT_3_QT_001.skewquad
+  - SXF11_HCOR_001
+  - SXF11_HCOR_001.sextupole
+  - SXF11_HCOR_001.hcorrector
+  - BPM_003
+  - SXD11_VCOR_001
+  - SXD11_VCOR_001.sextupole
+  - SXD11_VCOR_001.vcorrector
+  - QCORR_002
+  - QCORR_003
+  - SXD1_001
+  - OCTF1_QCORROCT_4_QT_001
+  - OCTF1_QCORROCT_4_QT_001.octupole
+  - OCTF1_QCORROCT_4_QT_001.quadrupole
+  - OCTF1_QCORROCT_4_QT_001.skewquad
+  - SXF1_HCOR_001
+  - SXF1_HCOR_001.sextupole
+  - SXF1_HCOR_001.hcorrector
+  - BPM_004
+  - SXD1_VCOR_001
+  - SXD1_VCOR_001.sextupole
+  - SXD1_VCOR_001.vcorrector
+  - QCORR_004
+  - QCORR_005
+  - SXD1_002
+  - OCTF1_QCORROCT_5_QT_001
+  - OCTF1_QCORROCT_5_QT_001.octupole
+  - OCTF1_QCORROCT_5_QT_001.quadrupole
+  - OCTF1_QCORROCT_5_QT_001.skewquad
+  - SXF13_HCOR_001
+  - SXF13_HCOR_001.sextupole
+  - SXF13_HCOR_001.hcorrector
+  - BPM_005
+  - SXD13_VCOR_001
+  - SXD13_VCOR_001.sextupole
+  - SXD13_VCOR_001.vcorrector
+  - QCORR_006
+  - QCORR_007
+  - SXD13_001
+  - SXF13_HCOR_002
+  - SXF13_HCOR_002.sextupole
+  - SXF13_HCOR_002.hcorrector
+  - OCTF1_QCORROCT_6_QT_001
+  - OCTF1_QCORROCT_6_QT_001.octupole
+  - OCTF1_QCORROCT_6_QT_001.quadrupole
+  - OCTF1_QCORROCT_6_QT_001.skewquad
+  - BPM_006
+  - SXD1_VCOR_002
+  - SXD1_VCOR_002.sextupole
+  - SXD1_VCOR_002.vcorrector
+  - QCORR_008
+  - QCORR_009
+  - SXD1_003
+  - SXF1_HCOR_002
+  - SXF1_HCOR_002.sextupole
+  - SXF1_HCOR_002.hcorrector
+  - OCTF1_QCORROCT_7_QT_001
+  - OCTF1_QCORROCT_7_QT_001.octupole
+  - OCTF1_QCORROCT_7_QT_001.quadrupole
+  - OCTF1_QCORROCT_7_QT_001.skewquad
+  - BPM_007
+  - SXD1_VCOR_003
+  - SXD1_VCOR_003.sextupole
+  - SXD1_VCOR_003.vcorrector
+  - QCORR_010
+  - QCORR_011
+  - SXD12_001
+  - SXF12_HCOR_001
+  - SXF12_HCOR_001.sextupole
+  - SXF12_HCOR_001.hcorrector
+  - OCTF1_QCORROCT_8_QT_001
+  - OCTF1_QCORROCT_8_QT_001.octupole
+  - OCTF1_QCORROCT_8_QT_001.quadrupole
+  - OCTF1_QCORROCT_8_QT_001.skewquad
+  - SXD12_VCOR_001
+  - SXD12_VCOR_001.sextupole
+  - SXD12_VCOR_001.vcorrector
+  - BPM_008
+  - SH6_COR_001
+  - SH6_COR_001.sextupole
+  - SH6_COR_001.hcorrector
+  - SH6_COR_001.vcorrector
+  - QCORR_012
+  - SH5_001
+  - OH5_QCORROCT_9_001
+  - OH5_QCORROCT_9_001.octupole
+  - OH5_QCORROCT_9_001.quadrupole
+  - BPM_009
+  - SH4_COR_001
+  - SH4_COR_001.sextupole
+  - SH4_COR_001.hcorrector
+  - SH4_COR_001.vcorrector
+  - OH4_QCORROCT_10_QT_001
+  - OH4_QCORROCT_10_QT_001.octupole
+  - OH4_QCORROCT_10_QT_001.quadrupole
+  - OH4_QCORROCT_10_QT_001.skewquad
+  - BPM_180
+- type: pyaml.arrays.magnet
+  name: SH1_COR
+  elements:
+  - SH1_COR_001.sextupole
+  - SH1_COR_001.hcorrector
+  - SH1_COR_001.vcorrector
+  - SH1_COR_002.sextupole
+  - SH1_COR_002.hcorrector
+  - SH1_COR_002.vcorrector
+  - SH1_COR_003.sextupole
+  - SH1_COR_003.hcorrector
+  - SH1_COR_003.vcorrector
+  - SH1_COR_004.sextupole
+  - SH1_COR_004.hcorrector
+  - SH1_COR_004.vcorrector
+- type: pyaml.arrays.magnet
+  name: OH1_QCORROCT_1_QT
+  elements:
+  - OH1_QCORROCT_1_QT_001.octupole
+  - OH1_QCORROCT_1_QT_001.quadrupole
+  - OH1_QCORROCT_1_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: SH2_HCOR
+  elements:
+  - SH2_HCOR_001.sextupole
+  - SH2_HCOR_001.hcorrector
+  - SH2_HCOR_002.sextupole
+  - SH2_HCOR_002.hcorrector
+  - SH2_HCOR_003.sextupole
+  - SH2_HCOR_003.hcorrector
+  - SH2_HCOR_004.sextupole
+  - SH2_HCOR_004.hcorrector
+- type: pyaml.arrays.magnet
+  name: OH2_QCORROCT_2
+  elements:
+  - OH2_QCORROCT_2_001.octupole
+  - OH2_QCORROCT_2_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: SH3_VCOR
+  elements:
+  - SH3_VCOR_001.sextupole
+  - SH3_VCOR_001.vcorrector
+  - SH3_VCOR_002.sextupole
+  - SH3_VCOR_002.vcorrector
+  - SH3_VCOR_003.sextupole
+  - SH3_VCOR_003.vcorrector
+  - SH3_VCOR_004.sextupole
+  - SH3_VCOR_004.vcorrector
+- type: pyaml.arrays.magnet
+  name: QCORR
+  elements:
+  - QCORR_001
+  - QCORR_002
+  - QCORR_003
+  - QCORR_004
+  - QCORR_005
+  - QCORR_006
+  - QCORR_007
+  - QCORR_008
+  - QCORR_009
+  - QCORR_010
+  - QCORR_011
+  - QCORR_012
+  - QCORR_013
+  - QCORR_014
+  - QCORR_015
+  - QCORR_016
+  - QCORR_017
+  - QCORR_018
+  - QCORR_019
+  - QCORR_020
+  - QCORR_021
+  - QCORR_022
+  - QCORR_023
+  - QCORR_024
+  - QCORR_025
+  - QCORR_026
+  - QCORR_027
+  - QCORR_028
+  - QCORR_029
+  - QCORR_030
+  - QCORR_031
+  - QCORR_032
+  - QCORR_033
+  - QCORR_034
+  - QCORR_035
+  - QCORR_036
+  - QCORR_037
+  - QCORR_038
+  - QCORR_039
+  - QCORR_040
+  - QCORR_041
+  - QCORR_042
+  - QCORR_043
+  - QCORR_044
+  - QCORR_045
+  - QCORR_046
+  - QCORR_047
+  - QCORR_048
+  - QCORR_049
+  - QCORR_050
+  - QCORR_051
+  - QCORR_052
+  - QCORR_053
+  - QCORR_054
+  - QCORR_055
+  - QCORR_056
+  - QCORR_057
+  - QCORR_058
+  - QCORR_059
+  - QCORR_060
+  - QCORR_061
+  - QCORR_062
+  - QCORR_063
+  - QCORR_064
+  - QCORR_065
+  - QCORR_066
+  - QCORR_067
+  - QCORR_068
+  - QCORR_069
+  - QCORR_070
+  - QCORR_071
+  - QCORR_072
+  - QCORR_073
+  - QCORR_074
+  - QCORR_075
+  - QCORR_076
+  - QCORR_077
+  - QCORR_078
+  - QCORR_079
+  - QCORR_080
+  - QCORR_081
+  - QCORR_082
+  - QCORR_083
+  - QCORR_084
+  - QCORR_085
+  - QCORR_086
+  - QCORR_087
+  - QCORR_088
+  - QCORR_089
+  - QCORR_090
+  - QCORR_091
+  - QCORR_092
+  - QCORR_093
+  - QCORR_094
+  - QCORR_095
+  - QCORR_096
+  - QCORR_097
+  - QCORR_098
+  - QCORR_099
+  - QCORR_100
+  - QCORR_101
+  - QCORR_102
+  - QCORR_103
+  - QCORR_104
+  - QCORR_105
+  - QCORR_106
+  - QCORR_107
+  - QCORR_108
+  - QCORR_109
+  - QCORR_110
+  - QCORR_111
+  - QCORR_112
+  - QCORR_113
+  - QCORR_114
+  - QCORR_115
+  - QCORR_116
+  - QCORR_117
+  - QCORR_118
+  - QCORR_119
+  - QCORR_120
+  - QCORR_121
+  - QCORR_122
+  - QCORR_123
+  - QCORR_124
+  - QCORR_125
+  - QCORR_126
+  - QCORR_127
+  - QCORR_128
+  - QCORR_129
+  - QCORR_130
+  - QCORR_131
+  - QCORR_132
+  - QCORR_133
+  - QCORR_134
+  - QCORR_135
+  - QCORR_136
+  - QCORR_137
+  - QCORR_138
+  - QCORR_139
+  - QCORR_140
+  - QCORR_141
+  - QCORR_142
+  - QCORR_143
+  - QCORR_144
+  - QCORR_145
+  - QCORR_146
+  - QCORR_147
+  - QCORR_148
+  - QCORR_149
+  - QCORR_150
+  - QCORR_151
+  - QCORR_152
+  - QCORR_153
+  - QCORR_154
+  - QCORR_155
+  - QCORR_156
+  - QCORR_157
+  - QCORR_158
+  - QCORR_159
+  - QCORR_160
+  - QCORR_161
+  - QCORR_162
+  - QCORR_163
+  - QCORR_164
+  - QCORR_165
+  - QCORR_166
+  - QCORR_167
+  - QCORR_168
+  - QCORR_169
+  - QCORR_170
+  - QCORR_171
+  - QCORR_172
+  - QCORR_173
+  - QCORR_174
+  - QCORR_175
+  - QCORR_176
+  - QCORR_177
+  - QCORR_178
+  - QCORR_179
+  - QCORR_180
+  - QCORR_181
+  - QCORR_182
+  - QCORR_183
+  - QCORR_184
+  - QCORR_185
+  - QCORR_186
+  - QCORR_187
+  - QCORR_188
+  - QCORR_189
+  - QCORR_190
+  - QCORR_191
+  - QCORR_192
+  - QCORR_193
+  - QCORR_194
+  - QCORR_195
+  - QCORR_196
+  - QCORR_197
+  - QCORR_198
+  - QCORR_199
+  - QCORR_200
+  - QCORR_201
+  - QCORR_202
+  - QCORR_203
+  - QCORR_204
+  - QCORR_205
+  - QCORR_206
+  - QCORR_207
+  - QCORR_208
+- type: pyaml.arrays.magnet
+  name: SXD11
+  elements:
+  - SXD11_001
+  - SXD11_002
+  - SXD11_003
+  - SXD11_004
+- type: pyaml.arrays.magnet
+  name: OCTF1_QCORROCT_3_QT
+  elements:
+  - OCTF1_QCORROCT_3_QT_001.octupole
+  - OCTF1_QCORROCT_3_QT_001.quadrupole
+  - OCTF1_QCORROCT_3_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: SXF11_HCOR
+  elements:
+  - SXF11_HCOR_001.sextupole
+  - SXF11_HCOR_001.hcorrector
+  - SXF11_HCOR_002.sextupole
+  - SXF11_HCOR_002.hcorrector
+  - SXF11_HCOR_003.sextupole
+  - SXF11_HCOR_003.hcorrector
+  - SXF11_HCOR_004.sextupole
+  - SXF11_HCOR_004.hcorrector
+- type: pyaml.arrays.magnet
+  name: SXD11_VCOR
+  elements:
+  - SXD11_VCOR_001.sextupole
+  - SXD11_VCOR_001.vcorrector
+  - SXD11_VCOR_002.sextupole
+  - SXD11_VCOR_002.vcorrector
+  - SXD11_VCOR_003.sextupole
+  - SXD11_VCOR_003.vcorrector
+  - SXD11_VCOR_004.sextupole
+  - SXD11_VCOR_004.vcorrector
+- type: pyaml.arrays.magnet
+  name: SXD1
+  elements:
+  - SXD1_001
+  - SXD1_002
+  - SXD1_003
+  - SXD1_004
+  - SXD1_005
+  - SXD1_006
+  - SXD1_007
+  - SXD1_008
+  - SXD1_009
+  - SXD1_010
+  - SXD1_011
+  - SXD1_012
+- type: pyaml.arrays.magnet
+  name: OCTF1_QCORROCT_4_QT
+  elements:
+  - OCTF1_QCORROCT_4_QT_001.octupole
+  - OCTF1_QCORROCT_4_QT_001.quadrupole
+  - OCTF1_QCORROCT_4_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: SXF1_HCOR
+  elements:
+  - SXF1_HCOR_001.sextupole
+  - SXF1_HCOR_001.hcorrector
+  - SXF1_HCOR_002.sextupole
+  - SXF1_HCOR_002.hcorrector
+  - SXF1_HCOR_003.sextupole
+  - SXF1_HCOR_003.hcorrector
+  - SXF1_HCOR_004.sextupole
+  - SXF1_HCOR_004.hcorrector
+  - SXF1_HCOR_005.sextupole
+  - SXF1_HCOR_005.hcorrector
+  - SXF1_HCOR_006.sextupole
+  - SXF1_HCOR_006.hcorrector
+  - SXF1_HCOR_007.sextupole
+  - SXF1_HCOR_007.hcorrector
+  - SXF1_HCOR_008.sextupole
+  - SXF1_HCOR_008.hcorrector
+- type: pyaml.arrays.magnet
+  name: SXD1_VCOR
+  elements:
+  - SXD1_VCOR_001.sextupole
+  - SXD1_VCOR_001.vcorrector
+  - SXD1_VCOR_002.sextupole
+  - SXD1_VCOR_002.vcorrector
+  - SXD1_VCOR_003.sextupole
+  - SXD1_VCOR_003.vcorrector
+  - SXD1_VCOR_004.sextupole
+  - SXD1_VCOR_004.vcorrector
+  - SXD1_VCOR_005.sextupole
+  - SXD1_VCOR_005.vcorrector
+  - SXD1_VCOR_006.sextupole
+  - SXD1_VCOR_006.vcorrector
+  - SXD1_VCOR_007.sextupole
+  - SXD1_VCOR_007.vcorrector
+  - SXD1_VCOR_008.sextupole
+  - SXD1_VCOR_008.vcorrector
+  - SXD1_VCOR_009.sextupole
+  - SXD1_VCOR_009.vcorrector
+  - SXD1_VCOR_010.sextupole
+  - SXD1_VCOR_010.vcorrector
+  - SXD1_VCOR_011.sextupole
+  - SXD1_VCOR_011.vcorrector
+  - SXD1_VCOR_012.sextupole
+  - SXD1_VCOR_012.vcorrector
+- type: pyaml.arrays.magnet
+  name: OCTF1_QCORROCT_5_QT
+  elements:
+  - OCTF1_QCORROCT_5_QT_001.octupole
+  - OCTF1_QCORROCT_5_QT_001.quadrupole
+  - OCTF1_QCORROCT_5_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: SXF13_HCOR
+  elements:
+  - SXF13_HCOR_001.sextupole
+  - SXF13_HCOR_001.hcorrector
+  - SXF13_HCOR_002.sextupole
+  - SXF13_HCOR_002.hcorrector
+  - SXF13_HCOR_003.sextupole
+  - SXF13_HCOR_003.hcorrector
+  - SXF13_HCOR_004.sextupole
+  - SXF13_HCOR_004.hcorrector
+  - SXF13_HCOR_005.sextupole
+  - SXF13_HCOR_005.hcorrector
+  - SXF13_HCOR_006.sextupole
+  - SXF13_HCOR_006.hcorrector
+  - SXF13_HCOR_007.sextupole
+  - SXF13_HCOR_007.hcorrector
+  - SXF13_HCOR_008.sextupole
+  - SXF13_HCOR_008.hcorrector
+- type: pyaml.arrays.magnet
+  name: SXD13_VCOR
+  elements:
+  - SXD13_VCOR_001.sextupole
+  - SXD13_VCOR_001.vcorrector
+  - SXD13_VCOR_002.sextupole
+  - SXD13_VCOR_002.vcorrector
+  - SXD13_VCOR_003.sextupole
+  - SXD13_VCOR_003.vcorrector
+  - SXD13_VCOR_004.sextupole
+  - SXD13_VCOR_004.vcorrector
+- type: pyaml.arrays.magnet
+  name: SXD13
+  elements:
+  - SXD13_001
+  - SXD13_002
+  - SXD13_003
+  - SXD13_004
+- type: pyaml.arrays.magnet
+  name: OCTF1_QCORROCT_6_QT
+  elements:
+  - OCTF1_QCORROCT_6_QT_001.octupole
+  - OCTF1_QCORROCT_6_QT_001.quadrupole
+  - OCTF1_QCORROCT_6_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF1_QCORROCT_7_QT
+  elements:
+  - OCTF1_QCORROCT_7_QT_001.octupole
+  - OCTF1_QCORROCT_7_QT_001.quadrupole
+  - OCTF1_QCORROCT_7_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: SXD12
+  elements:
+  - SXD12_001
+  - SXD12_002
+  - SXD12_003
+  - SXD12_004
+- type: pyaml.arrays.magnet
+  name: SXF12_HCOR
+  elements:
+  - SXF12_HCOR_001.sextupole
+  - SXF12_HCOR_001.hcorrector
+  - SXF12_HCOR_002.sextupole
+  - SXF12_HCOR_002.hcorrector
+  - SXF12_HCOR_003.sextupole
+  - SXF12_HCOR_003.hcorrector
+  - SXF12_HCOR_004.sextupole
+  - SXF12_HCOR_004.hcorrector
+- type: pyaml.arrays.magnet
+  name: OCTF1_QCORROCT_8_QT
+  elements:
+  - OCTF1_QCORROCT_8_QT_001.octupole
+  - OCTF1_QCORROCT_8_QT_001.quadrupole
+  - OCTF1_QCORROCT_8_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: SXD12_VCOR
+  elements:
+  - SXD12_VCOR_001.sextupole
+  - SXD12_VCOR_001.vcorrector
+  - SXD12_VCOR_002.sextupole
+  - SXD12_VCOR_002.vcorrector
+  - SXD12_VCOR_003.sextupole
+  - SXD12_VCOR_003.vcorrector
+  - SXD12_VCOR_004.sextupole
+  - SXD12_VCOR_004.vcorrector
+- type: pyaml.arrays.magnet
+  name: SH6_COR
+  elements:
+  - SH6_COR_001.sextupole
+  - SH6_COR_001.hcorrector
+  - SH6_COR_001.vcorrector
+  - SH6_COR_002.sextupole
+  - SH6_COR_002.hcorrector
+  - SH6_COR_002.vcorrector
+  - SH6_COR_003.sextupole
+  - SH6_COR_003.hcorrector
+  - SH6_COR_003.vcorrector
+  - SH6_COR_004.sextupole
+  - SH6_COR_004.hcorrector
+  - SH6_COR_004.vcorrector
+  - SH6_COR_005.sextupole
+  - SH6_COR_005.hcorrector
+  - SH6_COR_005.vcorrector
+  - SH6_COR_006.sextupole
+  - SH6_COR_006.hcorrector
+  - SH6_COR_006.vcorrector
+  - SH6_COR_007.sextupole
+  - SH6_COR_007.hcorrector
+  - SH6_COR_007.vcorrector
+  - SH6_COR_008.sextupole
+  - SH6_COR_008.hcorrector
+  - SH6_COR_008.vcorrector
+- type: pyaml.arrays.magnet
+  name: SH5
+  elements:
+  - SH5_001
+  - SH5_002
+  - SH5_003
+  - SH5_004
+  - SH5_005
+  - SH5_006
+  - SH5_007
+  - SH5_008
+- type: pyaml.arrays.magnet
+  name: OH5_QCORROCT_9
+  elements:
+  - OH5_QCORROCT_9_001.octupole
+  - OH5_QCORROCT_9_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: SH4_COR
+  elements:
+  - SH4_COR_001.sextupole
+  - SH4_COR_001.hcorrector
+  - SH4_COR_001.vcorrector
+  - SH4_COR_002.sextupole
+  - SH4_COR_002.hcorrector
+  - SH4_COR_002.vcorrector
+  - SH4_COR_003.sextupole
+  - SH4_COR_003.hcorrector
+  - SH4_COR_003.vcorrector
+  - SH4_COR_004.sextupole
+  - SH4_COR_004.hcorrector
+  - SH4_COR_004.vcorrector
+  - SH4_COR_005.sextupole
+  - SH4_COR_005.hcorrector
+  - SH4_COR_005.vcorrector
+  - SH4_COR_006.sextupole
+  - SH4_COR_006.hcorrector
+  - SH4_COR_006.vcorrector
+  - SH4_COR_007.sextupole
+  - SH4_COR_007.hcorrector
+  - SH4_COR_007.vcorrector
+  - SH4_COR_008.sextupole
+  - SH4_COR_008.hcorrector
+  - SH4_COR_008.vcorrector
+- type: pyaml.arrays.magnet
+  name: OH4_QCORROCT_10_QT
+  elements:
+  - OH4_QCORROCT_10_QT_001.octupole
+  - OH4_QCORROCT_10_QT_001.quadrupole
+  - OH4_QCORROCT_10_QT_001.skewquad
+- type: pyaml.arrays.element
+  name: Cell2
+  elements:
+  - BPM_010
+  - BPM_011
+  - OH4_QCORROCT_11_QT_001
+  - OH4_QCORROCT_11_QT_001.octupole
+  - OH4_QCORROCT_11_QT_001.quadrupole
+  - OH4_QCORROCT_11_QT_001.skewquad
+  - SH4_COR_002
+  - SH4_COR_002.sextupole
+  - SH4_COR_002.hcorrector
+  - SH4_COR_002.vcorrector
+  - BPM_012
+  - OH5_QCORROCT_12_001
+  - OH5_QCORROCT_12_001.octupole
+  - OH5_QCORROCT_12_001.quadrupole
+  - SH5_002
+  - QCORR_013
+  - SH6_COR_002
+  - SH6_COR_002.sextupole
+  - SH6_COR_002.hcorrector
+  - SH6_COR_002.vcorrector
+  - SXD21_001
+  - OCTF2_QCORROCT_13_QT_001
+  - OCTF2_QCORROCT_13_QT_001.octupole
+  - OCTF2_QCORROCT_13_QT_001.quadrupole
+  - OCTF2_QCORROCT_13_QT_001.skewquad
+  - SXF21_HCOR_001
+  - SXF21_HCOR_001.sextupole
+  - SXF21_HCOR_001.hcorrector
+  - BPM_013
+  - SXD21_VCOR_001
+  - SXD21_VCOR_001.sextupole
+  - SXD21_VCOR_001.vcorrector
+  - QCORR_014
+  - QCORR_015
+  - SXD2_001
+  - OCTF2_QCORROCT_14_QT_001
+  - OCTF2_QCORROCT_14_QT_001.octupole
+  - OCTF2_QCORROCT_14_QT_001.quadrupole
+  - OCTF2_QCORROCT_14_QT_001.skewquad
+  - SXF2_HCOR_001
+  - SXF2_HCOR_001.sextupole
+  - SXF2_HCOR_001.hcorrector
+  - BPM_014
+  - SXD2_VCOR_001
+  - SXD2_VCOR_001.sextupole
+  - SXD2_VCOR_001.vcorrector
+  - QCORR_016
+  - QCORR_017
+  - SXD22_001
+  - SXF22_HCOR_001
+  - SXF22_HCOR_001.sextupole
+  - SXF22_HCOR_001.hcorrector
+  - OCTF2_QCORROCT_15_QT_001
+  - OCTF2_QCORROCT_15_QT_001.octupole
+  - OCTF2_QCORROCT_15_QT_001.quadrupole
+  - OCTF2_QCORROCT_15_QT_001.skewquad
+  - SXD22_VCOR_001
+  - SXD22_VCOR_001.sextupole
+  - SXD22_VCOR_001.vcorrector
+  - BPM_015
+  - SH9_COR_001
+  - SH9_COR_001.sextupole
+  - SH9_COR_001.hcorrector
+  - SH9_COR_001.vcorrector
+  - QCORR_018
+  - SH8_001
+  - QCORR_019
+  - BPM_016
+  - SH7_COR_001
+  - SH7_COR_001.sextupole
+  - SH7_COR_001.hcorrector
+  - SH7_COR_001.vcorrector
+  - OH7_QCORROCT_16_QT_001
+  - OH7_QCORROCT_16_QT_001.octupole
+  - OH7_QCORROCT_16_QT_001.quadrupole
+  - OH7_QCORROCT_16_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH4_QCORROCT_11_QT
+  elements:
+  - OH4_QCORROCT_11_QT_001.octupole
+  - OH4_QCORROCT_11_QT_001.quadrupole
+  - OH4_QCORROCT_11_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH5_QCORROCT_12
+  elements:
+  - OH5_QCORROCT_12_001.octupole
+  - OH5_QCORROCT_12_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: SXD21
+  elements:
+  - SXD21_001
+  - SXD21_002
+  - SXD21_003
+  - SXD21_004
+- type: pyaml.arrays.magnet
+  name: OCTF2_QCORROCT_13_QT
+  elements:
+  - OCTF2_QCORROCT_13_QT_001.octupole
+  - OCTF2_QCORROCT_13_QT_001.quadrupole
+  - OCTF2_QCORROCT_13_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: SXF21_HCOR
+  elements:
+  - SXF21_HCOR_001.sextupole
+  - SXF21_HCOR_001.hcorrector
+  - SXF21_HCOR_002.sextupole
+  - SXF21_HCOR_002.hcorrector
+  - SXF21_HCOR_003.sextupole
+  - SXF21_HCOR_003.hcorrector
+  - SXF21_HCOR_004.sextupole
+  - SXF21_HCOR_004.hcorrector
+- type: pyaml.arrays.magnet
+  name: SXD21_VCOR
+  elements:
+  - SXD21_VCOR_001.sextupole
+  - SXD21_VCOR_001.vcorrector
+  - SXD21_VCOR_002.sextupole
+  - SXD21_VCOR_002.vcorrector
+  - SXD21_VCOR_003.sextupole
+  - SXD21_VCOR_003.vcorrector
+  - SXD21_VCOR_004.sextupole
+  - SXD21_VCOR_004.vcorrector
+- type: pyaml.arrays.magnet
+  name: SXD2
+  elements:
+  - SXD2_001
+  - SXD2_002
+  - SXD2_003
+  - SXD2_004
+- type: pyaml.arrays.magnet
+  name: OCTF2_QCORROCT_14_QT
+  elements:
+  - OCTF2_QCORROCT_14_QT_001.octupole
+  - OCTF2_QCORROCT_14_QT_001.quadrupole
+  - OCTF2_QCORROCT_14_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: SXF2_HCOR
+  elements:
+  - SXF2_HCOR_001.sextupole
+  - SXF2_HCOR_001.hcorrector
+  - SXF2_HCOR_002.sextupole
+  - SXF2_HCOR_002.hcorrector
+  - SXF2_HCOR_003.sextupole
+  - SXF2_HCOR_003.hcorrector
+  - SXF2_HCOR_004.sextupole
+  - SXF2_HCOR_004.hcorrector
+- type: pyaml.arrays.magnet
+  name: SXD2_VCOR
+  elements:
+  - SXD2_VCOR_001.sextupole
+  - SXD2_VCOR_001.vcorrector
+  - SXD2_VCOR_002.sextupole
+  - SXD2_VCOR_002.vcorrector
+  - SXD2_VCOR_003.sextupole
+  - SXD2_VCOR_003.vcorrector
+  - SXD2_VCOR_004.sextupole
+  - SXD2_VCOR_004.vcorrector
+- type: pyaml.arrays.magnet
+  name: SXD22
+  elements:
+  - SXD22_001
+  - SXD22_002
+  - SXD22_003
+  - SXD22_004
+- type: pyaml.arrays.magnet
+  name: SXF22_HCOR
+  elements:
+  - SXF22_HCOR_001.sextupole
+  - SXF22_HCOR_001.hcorrector
+  - SXF22_HCOR_002.sextupole
+  - SXF22_HCOR_002.hcorrector
+  - SXF22_HCOR_003.sextupole
+  - SXF22_HCOR_003.hcorrector
+  - SXF22_HCOR_004.sextupole
+  - SXF22_HCOR_004.hcorrector
+- type: pyaml.arrays.magnet
+  name: OCTF2_QCORROCT_15_QT
+  elements:
+  - OCTF2_QCORROCT_15_QT_001.octupole
+  - OCTF2_QCORROCT_15_QT_001.quadrupole
+  - OCTF2_QCORROCT_15_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: SXD22_VCOR
+  elements:
+  - SXD22_VCOR_001.sextupole
+  - SXD22_VCOR_001.vcorrector
+  - SXD22_VCOR_002.sextupole
+  - SXD22_VCOR_002.vcorrector
+  - SXD22_VCOR_003.sextupole
+  - SXD22_VCOR_003.vcorrector
+  - SXD22_VCOR_004.sextupole
+  - SXD22_VCOR_004.vcorrector
+- type: pyaml.arrays.magnet
+  name: SH9_COR
+  elements:
+  - SH9_COR_001.sextupole
+  - SH9_COR_001.hcorrector
+  - SH9_COR_001.vcorrector
+  - SH9_COR_002.sextupole
+  - SH9_COR_002.hcorrector
+  - SH9_COR_002.vcorrector
+  - SH9_COR_003.sextupole
+  - SH9_COR_003.hcorrector
+  - SH9_COR_003.vcorrector
+  - SH9_COR_004.sextupole
+  - SH9_COR_004.hcorrector
+  - SH9_COR_004.vcorrector
+  - SH9_COR_005.sextupole
+  - SH9_COR_005.hcorrector
+  - SH9_COR_005.vcorrector
+  - SH9_COR_006.sextupole
+  - SH9_COR_006.hcorrector
+  - SH9_COR_006.vcorrector
+  - SH9_COR_007.sextupole
+  - SH9_COR_007.hcorrector
+  - SH9_COR_007.vcorrector
+  - SH9_COR_008.sextupole
+  - SH9_COR_008.hcorrector
+  - SH9_COR_008.vcorrector
+  - SH9_COR_009.sextupole
+  - SH9_COR_009.hcorrector
+  - SH9_COR_009.vcorrector
+  - SH9_COR_010.sextupole
+  - SH9_COR_010.hcorrector
+  - SH9_COR_010.vcorrector
+  - SH9_COR_011.sextupole
+  - SH9_COR_011.hcorrector
+  - SH9_COR_011.vcorrector
+  - SH9_COR_012.sextupole
+  - SH9_COR_012.hcorrector
+  - SH9_COR_012.vcorrector
+  - SH9_COR_013.sextupole
+  - SH9_COR_013.hcorrector
+  - SH9_COR_013.vcorrector
+  - SH9_COR_014.sextupole
+  - SH9_COR_014.hcorrector
+  - SH9_COR_014.vcorrector
+  - SH9_COR_015.sextupole
+  - SH9_COR_015.hcorrector
+  - SH9_COR_015.vcorrector
+  - SH9_COR_016.sextupole
+  - SH9_COR_016.hcorrector
+  - SH9_COR_016.vcorrector
+- type: pyaml.arrays.magnet
+  name: SH8
+  elements:
+  - SH8_001
+  - SH8_002
+  - SH8_003
+  - SH8_004
+  - SH8_005
+  - SH8_006
+  - SH8_007
+  - SH8_008
+  - SH8_009
+  - SH8_010
+  - SH8_011
+  - SH8_012
+  - SH8_013
+  - SH8_014
+  - SH8_015
+  - SH8_016
+- type: pyaml.arrays.magnet
+  name: SH7_COR
+  elements:
+  - SH7_COR_001.sextupole
+  - SH7_COR_001.hcorrector
+  - SH7_COR_001.vcorrector
+  - SH7_COR_002.sextupole
+  - SH7_COR_002.hcorrector
+  - SH7_COR_002.vcorrector
+  - SH7_COR_003.sextupole
+  - SH7_COR_003.hcorrector
+  - SH7_COR_003.vcorrector
+  - SH7_COR_004.sextupole
+  - SH7_COR_004.hcorrector
+  - SH7_COR_004.vcorrector
+  - SH7_COR_005.sextupole
+  - SH7_COR_005.hcorrector
+  - SH7_COR_005.vcorrector
+  - SH7_COR_006.sextupole
+  - SH7_COR_006.hcorrector
+  - SH7_COR_006.vcorrector
+  - SH7_COR_007.sextupole
+  - SH7_COR_007.hcorrector
+  - SH7_COR_007.vcorrector
+  - SH7_COR_008.sextupole
+  - SH7_COR_008.hcorrector
+  - SH7_COR_008.vcorrector
+  - SH7_COR_009.sextupole
+  - SH7_COR_009.hcorrector
+  - SH7_COR_009.vcorrector
+  - SH7_COR_010.sextupole
+  - SH7_COR_010.hcorrector
+  - SH7_COR_010.vcorrector
+  - SH7_COR_011.sextupole
+  - SH7_COR_011.hcorrector
+  - SH7_COR_011.vcorrector
+  - SH7_COR_012.sextupole
+  - SH7_COR_012.hcorrector
+  - SH7_COR_012.vcorrector
+  - SH7_COR_013.sextupole
+  - SH7_COR_013.hcorrector
+  - SH7_COR_013.vcorrector
+  - SH7_COR_014.sextupole
+  - SH7_COR_014.hcorrector
+  - SH7_COR_014.vcorrector
+  - SH7_COR_015.sextupole
+  - SH7_COR_015.hcorrector
+  - SH7_COR_015.vcorrector
+  - SH7_COR_016.sextupole
+  - SH7_COR_016.hcorrector
+  - SH7_COR_016.vcorrector
+- type: pyaml.arrays.magnet
+  name: OH7_QCORROCT_16_QT
+  elements:
+  - OH7_QCORROCT_16_QT_001.octupole
+  - OH7_QCORROCT_16_QT_001.quadrupole
+  - OH7_QCORROCT_16_QT_001.skewquad
+- type: pyaml.arrays.element
+  name: Cell3
+  elements:
+  - BPM_017
+  - BPM_018
+  - OH7_QCORROCT_17_QT_001
+  - OH7_QCORROCT_17_QT_001.octupole
+  - OH7_QCORROCT_17_QT_001.quadrupole
+  - OH7_QCORROCT_17_QT_001.skewquad
+  - SH7_COR_002
+  - SH7_COR_002.sextupole
+  - SH7_COR_002.hcorrector
+  - SH7_COR_002.vcorrector
+  - BPM_019
+  - QCORR_020
+  - SH8_002
+  - QCORR_021
+  - SH9_COR_002
+  - SH9_COR_002.sextupole
+  - SH9_COR_002.hcorrector
+  - SH9_COR_002.vcorrector
+  - SXD31_001
+  - OCTF3_QCORROCT_18_QT_001
+  - OCTF3_QCORROCT_18_QT_001.octupole
+  - OCTF3_QCORROCT_18_QT_001.quadrupole
+  - OCTF3_QCORROCT_18_QT_001.skewquad
+  - SXF31_HCOR_001
+  - SXF31_HCOR_001.sextupole
+  - SXF31_HCOR_001.hcorrector
+  - BPM_020
+  - SXD31_VCOR_001
+  - SXD31_VCOR_001.sextupole
+  - SXD31_VCOR_001.vcorrector
+  - QCORR_022
+  - QCORR_023
+  - SXD3_001
+  - OCTF3_QCORROCT_19_QT_001
+  - OCTF3_QCORROCT_19_QT_001.octupole
+  - OCTF3_QCORROCT_19_QT_001.quadrupole
+  - OCTF3_QCORROCT_19_QT_001.skewquad
+  - SXF3_HCOR_001
+  - SXF3_HCOR_001.sextupole
+  - SXF3_HCOR_001.hcorrector
+  - BPM_021
+  - SXD3_VCOR_001
+  - SXD3_VCOR_001.sextupole
+  - SXD3_VCOR_001.vcorrector
+  - QCORR_024
+  - QCORR_025
+  - SXD3_002
+  - OCTF3_QCORROCT_20_QT_001
+  - OCTF3_QCORROCT_20_QT_001.octupole
+  - OCTF3_QCORROCT_20_QT_001.quadrupole
+  - OCTF3_QCORROCT_20_QT_001.skewquad
+  - SXF33_HCOR_001
+  - SXF33_HCOR_001.sextupole
+  - SXF33_HCOR_001.hcorrector
+  - BPM_022
+  - SXD33_VCOR_001
+  - SXD33_VCOR_001.sextupole
+  - SXD33_VCOR_001.vcorrector
+  - QCORR_026
+  - QCORR_027
+  - SXD33_001
+  - SXF33_HCOR_002
+  - SXF33_HCOR_002.sextupole
+  - SXF33_HCOR_002.hcorrector
+  - OCTF3_QCORROCT_21_QT_001
+  - OCTF3_QCORROCT_21_QT_001.octupole
+  - OCTF3_QCORROCT_21_QT_001.quadrupole
+  - OCTF3_QCORROCT_21_QT_001.skewquad
+  - BPM_023
+  - SXD3_VCOR_002
+  - SXD3_VCOR_002.sextupole
+  - SXD3_VCOR_002.vcorrector
+  - QCORR_028
+  - QCORR_029
+  - SXD3_003
+  - SXF3_HCOR_002
+  - SXF3_HCOR_002.sextupole
+  - SXF3_HCOR_002.hcorrector
+  - OCTF3_QCORROCT_22_QT_001
+  - OCTF3_QCORROCT_22_QT_001.octupole
+  - OCTF3_QCORROCT_22_QT_001.quadrupole
+  - OCTF3_QCORROCT_22_QT_001.skewquad
+  - BPM_024
+  - SXD3_VCOR_003
+  - SXD3_VCOR_003.sextupole
+  - SXD3_VCOR_003.vcorrector
+  - QCORR_030
+  - QCORR_031
+  - SXD32_001
+  - SXF32_HCOR_001
+  - SXF32_HCOR_001.sextupole
+  - SXF32_HCOR_001.hcorrector
+  - OCTF3_QCORROCT_23_QT_001
+  - OCTF3_QCORROCT_23_QT_001.octupole
+  - OCTF3_QCORROCT_23_QT_001.quadrupole
+  - OCTF3_QCORROCT_23_QT_001.skewquad
+  - SXD32_VCOR_001
+  - SXD32_VCOR_001.sextupole
+  - SXD32_VCOR_001.vcorrector
+  - BPM_025
+  - SH9_COR_003
+  - SH9_COR_003.sextupole
+  - SH9_COR_003.hcorrector
+  - SH9_COR_003.vcorrector
+  - QCORR_032
+  - SH8_003
+  - QCORR_033
+  - BPM_026
+  - SH7_COR_003
+  - SH7_COR_003.sextupole
+  - SH7_COR_003.hcorrector
+  - SH7_COR_003.vcorrector
+  - OH7_QCORROCT_24_QT_001
+  - OH7_QCORROCT_24_QT_001.octupole
+  - OH7_QCORROCT_24_QT_001.quadrupole
+  - OH7_QCORROCT_24_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH7_QCORROCT_17_QT
+  elements:
+  - OH7_QCORROCT_17_QT_001.octupole
+  - OH7_QCORROCT_17_QT_001.quadrupole
+  - OH7_QCORROCT_17_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: SXD31
+  elements:
+  - SXD31_001
+  - SXD31_002
+  - SXD31_003
+  - SXD31_004
+- type: pyaml.arrays.magnet
+  name: OCTF3_QCORROCT_18_QT
+  elements:
+  - OCTF3_QCORROCT_18_QT_001.octupole
+  - OCTF3_QCORROCT_18_QT_001.quadrupole
+  - OCTF3_QCORROCT_18_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: SXF31_HCOR
+  elements:
+  - SXF31_HCOR_001.sextupole
+  - SXF31_HCOR_001.hcorrector
+  - SXF31_HCOR_002.sextupole
+  - SXF31_HCOR_002.hcorrector
+  - SXF31_HCOR_003.sextupole
+  - SXF31_HCOR_003.hcorrector
+  - SXF31_HCOR_004.sextupole
+  - SXF31_HCOR_004.hcorrector
+- type: pyaml.arrays.magnet
+  name: SXD31_VCOR
+  elements:
+  - SXD31_VCOR_001.sextupole
+  - SXD31_VCOR_001.vcorrector
+  - SXD31_VCOR_002.sextupole
+  - SXD31_VCOR_002.vcorrector
+  - SXD31_VCOR_003.sextupole
+  - SXD31_VCOR_003.vcorrector
+  - SXD31_VCOR_004.sextupole
+  - SXD31_VCOR_004.vcorrector
+- type: pyaml.arrays.magnet
+  name: SXD3
+  elements:
+  - SXD3_001
+  - SXD3_002
+  - SXD3_003
+  - SXD3_004
+  - SXD3_005
+  - SXD3_006
+  - SXD3_007
+  - SXD3_008
+  - SXD3_009
+  - SXD3_010
+  - SXD3_011
+  - SXD3_012
+- type: pyaml.arrays.magnet
+  name: OCTF3_QCORROCT_19_QT
+  elements:
+  - OCTF3_QCORROCT_19_QT_001.octupole
+  - OCTF3_QCORROCT_19_QT_001.quadrupole
+  - OCTF3_QCORROCT_19_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: SXF3_HCOR
+  elements:
+  - SXF3_HCOR_001.sextupole
+  - SXF3_HCOR_001.hcorrector
+  - SXF3_HCOR_002.sextupole
+  - SXF3_HCOR_002.hcorrector
+  - SXF3_HCOR_003.sextupole
+  - SXF3_HCOR_003.hcorrector
+  - SXF3_HCOR_004.sextupole
+  - SXF3_HCOR_004.hcorrector
+  - SXF3_HCOR_005.sextupole
+  - SXF3_HCOR_005.hcorrector
+  - SXF3_HCOR_006.sextupole
+  - SXF3_HCOR_006.hcorrector
+  - SXF3_HCOR_007.sextupole
+  - SXF3_HCOR_007.hcorrector
+  - SXF3_HCOR_008.sextupole
+  - SXF3_HCOR_008.hcorrector
+- type: pyaml.arrays.magnet
+  name: SXD3_VCOR
+  elements:
+  - SXD3_VCOR_001.sextupole
+  - SXD3_VCOR_001.vcorrector
+  - SXD3_VCOR_002.sextupole
+  - SXD3_VCOR_002.vcorrector
+  - SXD3_VCOR_003.sextupole
+  - SXD3_VCOR_003.vcorrector
+  - SXD3_VCOR_004.sextupole
+  - SXD3_VCOR_004.vcorrector
+  - SXD3_VCOR_005.sextupole
+  - SXD3_VCOR_005.vcorrector
+  - SXD3_VCOR_006.sextupole
+  - SXD3_VCOR_006.vcorrector
+  - SXD3_VCOR_007.sextupole
+  - SXD3_VCOR_007.vcorrector
+  - SXD3_VCOR_008.sextupole
+  - SXD3_VCOR_008.vcorrector
+  - SXD3_VCOR_009.sextupole
+  - SXD3_VCOR_009.vcorrector
+  - SXD3_VCOR_010.sextupole
+  - SXD3_VCOR_010.vcorrector
+  - SXD3_VCOR_011.sextupole
+  - SXD3_VCOR_011.vcorrector
+  - SXD3_VCOR_012.sextupole
+  - SXD3_VCOR_012.vcorrector
+- type: pyaml.arrays.magnet
+  name: OCTF3_QCORROCT_20_QT
+  elements:
+  - OCTF3_QCORROCT_20_QT_001.octupole
+  - OCTF3_QCORROCT_20_QT_001.quadrupole
+  - OCTF3_QCORROCT_20_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: SXF33_HCOR
+  elements:
+  - SXF33_HCOR_001.sextupole
+  - SXF33_HCOR_001.hcorrector
+  - SXF33_HCOR_002.sextupole
+  - SXF33_HCOR_002.hcorrector
+  - SXF33_HCOR_003.sextupole
+  - SXF33_HCOR_003.hcorrector
+  - SXF33_HCOR_004.sextupole
+  - SXF33_HCOR_004.hcorrector
+  - SXF33_HCOR_005.sextupole
+  - SXF33_HCOR_005.hcorrector
+  - SXF33_HCOR_006.sextupole
+  - SXF33_HCOR_006.hcorrector
+  - SXF33_HCOR_007.sextupole
+  - SXF33_HCOR_007.hcorrector
+  - SXF33_HCOR_008.sextupole
+  - SXF33_HCOR_008.hcorrector
+- type: pyaml.arrays.magnet
+  name: SXD33_VCOR
+  elements:
+  - SXD33_VCOR_001.sextupole
+  - SXD33_VCOR_001.vcorrector
+  - SXD33_VCOR_002.sextupole
+  - SXD33_VCOR_002.vcorrector
+  - SXD33_VCOR_003.sextupole
+  - SXD33_VCOR_003.vcorrector
+  - SXD33_VCOR_004.sextupole
+  - SXD33_VCOR_004.vcorrector
+- type: pyaml.arrays.magnet
+  name: SXD33
+  elements:
+  - SXD33_001
+  - SXD33_002
+  - SXD33_003
+  - SXD33_004
+- type: pyaml.arrays.magnet
+  name: OCTF3_QCORROCT_21_QT
+  elements:
+  - OCTF3_QCORROCT_21_QT_001.octupole
+  - OCTF3_QCORROCT_21_QT_001.quadrupole
+  - OCTF3_QCORROCT_21_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF3_QCORROCT_22_QT
+  elements:
+  - OCTF3_QCORROCT_22_QT_001.octupole
+  - OCTF3_QCORROCT_22_QT_001.quadrupole
+  - OCTF3_QCORROCT_22_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: SXD32
+  elements:
+  - SXD32_001
+  - SXD32_002
+  - SXD32_003
+  - SXD32_004
+- type: pyaml.arrays.magnet
+  name: SXF32_HCOR
+  elements:
+  - SXF32_HCOR_001.sextupole
+  - SXF32_HCOR_001.hcorrector
+  - SXF32_HCOR_002.sextupole
+  - SXF32_HCOR_002.hcorrector
+  - SXF32_HCOR_003.sextupole
+  - SXF32_HCOR_003.hcorrector
+  - SXF32_HCOR_004.sextupole
+  - SXF32_HCOR_004.hcorrector
+- type: pyaml.arrays.magnet
+  name: OCTF3_QCORROCT_23_QT
+  elements:
+  - OCTF3_QCORROCT_23_QT_001.octupole
+  - OCTF3_QCORROCT_23_QT_001.quadrupole
+  - OCTF3_QCORROCT_23_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: SXD32_VCOR
+  elements:
+  - SXD32_VCOR_001.sextupole
+  - SXD32_VCOR_001.vcorrector
+  - SXD32_VCOR_002.sextupole
+  - SXD32_VCOR_002.vcorrector
+  - SXD32_VCOR_003.sextupole
+  - SXD32_VCOR_003.vcorrector
+  - SXD32_VCOR_004.sextupole
+  - SXD32_VCOR_004.vcorrector
+- type: pyaml.arrays.magnet
+  name: OH7_QCORROCT_24_QT
+  elements:
+  - OH7_QCORROCT_24_QT_001.octupole
+  - OH7_QCORROCT_24_QT_001.quadrupole
+  - OH7_QCORROCT_24_QT_001.skewquad
+- type: pyaml.arrays.element
+  name: Cell4
+  elements:
+  - BPM_027
+  - BPM_028
+  - OH7_QCORROCT_25_QT_001
+  - OH7_QCORROCT_25_QT_001.octupole
+  - OH7_QCORROCT_25_QT_001.quadrupole
+  - OH7_QCORROCT_25_QT_001.skewquad
+  - SH7_COR_004
+  - SH7_COR_004.sextupole
+  - SH7_COR_004.hcorrector
+  - SH7_COR_004.vcorrector
+  - BPM_029
+  - QCORR_034
+  - SH8_004
+  - QCORR_035
+  - SH9_COR_004
+  - SH9_COR_004.sextupole
+  - SH9_COR_004.hcorrector
+  - SH9_COR_004.vcorrector
+  - SXD41_001
+  - OCTF4_QCORROCT_26_QT_001
+  - OCTF4_QCORROCT_26_QT_001.octupole
+  - OCTF4_QCORROCT_26_QT_001.quadrupole
+  - OCTF4_QCORROCT_26_QT_001.skewquad
+  - SXF41_HCOR_001
+  - SXF41_HCOR_001.sextupole
+  - SXF41_HCOR_001.hcorrector
+  - BPM_030
+  - SXD41_VCOR_001
+  - SXD41_VCOR_001.sextupole
+  - SXD41_VCOR_001.vcorrector
+  - QCORR_036
+  - QCORR_037
+  - SXD4_001
+  - SXF4_HCOR_001
+  - SXF4_HCOR_001.sextupole
+  - SXF4_HCOR_001.hcorrector
+  - OCTF4_QCORROCT_27_QT_001
+  - OCTF4_QCORROCT_27_QT_001.octupole
+  - OCTF4_QCORROCT_27_QT_001.quadrupole
+  - OCTF4_QCORROCT_27_QT_001.skewquad
+  - BPM_031
+  - SXD4_VCOR_001
+  - SXD4_VCOR_001.sextupole
+  - SXD4_VCOR_001.vcorrector
+  - QCORR_038
+  - QCORR_039
+  - SXD42_001
+  - SXF42_HCOR_001
+  - SXF42_HCOR_001.sextupole
+  - SXF42_HCOR_001.hcorrector
+  - OCTF4_QCORROCT_28_QT_001
+  - OCTF4_QCORROCT_28_QT_001.octupole
+  - OCTF4_QCORROCT_28_QT_001.quadrupole
+  - OCTF4_QCORROCT_28_QT_001.skewquad
+  - SXD42_VCOR_001
+  - SXD42_VCOR_001.sextupole
+  - SXD42_VCOR_001.vcorrector
+  - BPM_032
+  - SH12_COR_001
+  - SH12_COR_001.sextupole
+  - SH12_COR_001.hcorrector
+  - SH12_COR_001.vcorrector
+  - QCORR_040
+  - SH11_001
+  - OH11_QCORROCT_29_001
+  - OH11_QCORROCT_29_001.octupole
+  - OH11_QCORROCT_29_001.quadrupole
+  - BPM_033
+  - SH10_COR_001
+  - SH10_COR_001.sextupole
+  - SH10_COR_001.hcorrector
+  - SH10_COR_001.vcorrector
+  - OH10_QCORROCT_30_QT_001
+  - OH10_QCORROCT_30_QT_001.octupole
+  - OH10_QCORROCT_30_QT_001.quadrupole
+  - OH10_QCORROCT_30_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH7_QCORROCT_25_QT
+  elements:
+  - OH7_QCORROCT_25_QT_001.octupole
+  - OH7_QCORROCT_25_QT_001.quadrupole
+  - OH7_QCORROCT_25_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: SXD41
+  elements:
+  - SXD41_001
+  - SXD41_002
+  - SXD41_003
+  - SXD41_004
+- type: pyaml.arrays.magnet
+  name: OCTF4_QCORROCT_26_QT
+  elements:
+  - OCTF4_QCORROCT_26_QT_001.octupole
+  - OCTF4_QCORROCT_26_QT_001.quadrupole
+  - OCTF4_QCORROCT_26_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: SXF41_HCOR
+  elements:
+  - SXF41_HCOR_001.sextupole
+  - SXF41_HCOR_001.hcorrector
+  - SXF41_HCOR_002.sextupole
+  - SXF41_HCOR_002.hcorrector
+  - SXF41_HCOR_003.sextupole
+  - SXF41_HCOR_003.hcorrector
+  - SXF41_HCOR_004.sextupole
+  - SXF41_HCOR_004.hcorrector
+- type: pyaml.arrays.magnet
+  name: SXD41_VCOR
+  elements:
+  - SXD41_VCOR_001.sextupole
+  - SXD41_VCOR_001.vcorrector
+  - SXD41_VCOR_002.sextupole
+  - SXD41_VCOR_002.vcorrector
+  - SXD41_VCOR_003.sextupole
+  - SXD41_VCOR_003.vcorrector
+  - SXD41_VCOR_004.sextupole
+  - SXD41_VCOR_004.vcorrector
+- type: pyaml.arrays.magnet
+  name: SXD4
+  elements:
+  - SXD4_001
+  - SXD4_002
+  - SXD4_003
+  - SXD4_004
+- type: pyaml.arrays.magnet
+  name: SXF4_HCOR
+  elements:
+  - SXF4_HCOR_001.sextupole
+  - SXF4_HCOR_001.hcorrector
+  - SXF4_HCOR_002.sextupole
+  - SXF4_HCOR_002.hcorrector
+  - SXF4_HCOR_003.sextupole
+  - SXF4_HCOR_003.hcorrector
+  - SXF4_HCOR_004.sextupole
+  - SXF4_HCOR_004.hcorrector
+- type: pyaml.arrays.magnet
+  name: OCTF4_QCORROCT_27_QT
+  elements:
+  - OCTF4_QCORROCT_27_QT_001.octupole
+  - OCTF4_QCORROCT_27_QT_001.quadrupole
+  - OCTF4_QCORROCT_27_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: SXD4_VCOR
+  elements:
+  - SXD4_VCOR_001.sextupole
+  - SXD4_VCOR_001.vcorrector
+  - SXD4_VCOR_002.sextupole
+  - SXD4_VCOR_002.vcorrector
+  - SXD4_VCOR_003.sextupole
+  - SXD4_VCOR_003.vcorrector
+  - SXD4_VCOR_004.sextupole
+  - SXD4_VCOR_004.vcorrector
+- type: pyaml.arrays.magnet
+  name: SXD42
+  elements:
+  - SXD42_001
+  - SXD42_002
+  - SXD42_003
+  - SXD42_004
+- type: pyaml.arrays.magnet
+  name: SXF42_HCOR
+  elements:
+  - SXF42_HCOR_001.sextupole
+  - SXF42_HCOR_001.hcorrector
+  - SXF42_HCOR_002.sextupole
+  - SXF42_HCOR_002.hcorrector
+  - SXF42_HCOR_003.sextupole
+  - SXF42_HCOR_003.hcorrector
+  - SXF42_HCOR_004.sextupole
+  - SXF42_HCOR_004.hcorrector
+- type: pyaml.arrays.magnet
+  name: OCTF4_QCORROCT_28_QT
+  elements:
+  - OCTF4_QCORROCT_28_QT_001.octupole
+  - OCTF4_QCORROCT_28_QT_001.quadrupole
+  - OCTF4_QCORROCT_28_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: SXD42_VCOR
+  elements:
+  - SXD42_VCOR_001.sextupole
+  - SXD42_VCOR_001.vcorrector
+  - SXD42_VCOR_002.sextupole
+  - SXD42_VCOR_002.vcorrector
+  - SXD42_VCOR_003.sextupole
+  - SXD42_VCOR_003.vcorrector
+  - SXD42_VCOR_004.sextupole
+  - SXD42_VCOR_004.vcorrector
+- type: pyaml.arrays.magnet
+  name: SH12_COR
+  elements:
+  - SH12_COR_001.sextupole
+  - SH12_COR_001.hcorrector
+  - SH12_COR_001.vcorrector
+  - SH12_COR_002.sextupole
+  - SH12_COR_002.hcorrector
+  - SH12_COR_002.vcorrector
+  - SH12_COR_003.sextupole
+  - SH12_COR_003.hcorrector
+  - SH12_COR_003.vcorrector
+  - SH12_COR_004.sextupole
+  - SH12_COR_004.hcorrector
+  - SH12_COR_004.vcorrector
+  - SH12_COR_005.sextupole
+  - SH12_COR_005.hcorrector
+  - SH12_COR_005.vcorrector
+  - SH12_COR_006.sextupole
+  - SH12_COR_006.hcorrector
+  - SH12_COR_006.vcorrector
+  - SH12_COR_007.sextupole
+  - SH12_COR_007.hcorrector
+  - SH12_COR_007.vcorrector
+  - SH12_COR_008.sextupole
+  - SH12_COR_008.hcorrector
+  - SH12_COR_008.vcorrector
+- type: pyaml.arrays.magnet
+  name: SH11
+  elements:
+  - SH11_001
+  - SH11_002
+  - SH11_003
+  - SH11_004
+  - SH11_005
+  - SH11_006
+  - SH11_007
+  - SH11_008
+- type: pyaml.arrays.magnet
+  name: OH11_QCORROCT_29
+  elements:
+  - OH11_QCORROCT_29_001.octupole
+  - OH11_QCORROCT_29_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: SH10_COR
+  elements:
+  - SH10_COR_001.sextupole
+  - SH10_COR_001.hcorrector
+  - SH10_COR_001.vcorrector
+  - SH10_COR_002.sextupole
+  - SH10_COR_002.hcorrector
+  - SH10_COR_002.vcorrector
+  - SH10_COR_003.sextupole
+  - SH10_COR_003.hcorrector
+  - SH10_COR_003.vcorrector
+  - SH10_COR_004.sextupole
+  - SH10_COR_004.hcorrector
+  - SH10_COR_004.vcorrector
+  - SH10_COR_005.sextupole
+  - SH10_COR_005.hcorrector
+  - SH10_COR_005.vcorrector
+  - SH10_COR_006.sextupole
+  - SH10_COR_006.hcorrector
+  - SH10_COR_006.vcorrector
+  - SH10_COR_007.sextupole
+  - SH10_COR_007.hcorrector
+  - SH10_COR_007.vcorrector
+  - SH10_COR_008.sextupole
+  - SH10_COR_008.hcorrector
+  - SH10_COR_008.vcorrector
+- type: pyaml.arrays.magnet
+  name: OH10_QCORROCT_30_QT
+  elements:
+  - OH10_QCORROCT_30_QT_001.octupole
+  - OH10_QCORROCT_30_QT_001.quadrupole
+  - OH10_QCORROCT_30_QT_001.skewquad
+- type: pyaml.arrays.element
+  name: Cell5
+  elements:
+  - BPM_034
+  - BPM_035
+  - OH10_QCORROCT_31_QT_001
+  - OH10_QCORROCT_31_QT_001.octupole
+  - OH10_QCORROCT_31_QT_001.quadrupole
+  - OH10_QCORROCT_31_QT_001.skewquad
+  - SH10_COR_002
+  - SH10_COR_002.sextupole
+  - SH10_COR_002.hcorrector
+  - SH10_COR_002.vcorrector
+  - BPM_036
+  - OH11_QCORROCT_32_001
+  - OH11_QCORROCT_32_001.octupole
+  - OH11_QCORROCT_32_001.quadrupole
+  - SH11_002
+  - QCORR_041
+  - SH12_COR_002
+  - SH12_COR_002.sextupole
+  - SH12_COR_002.hcorrector
+  - SH12_COR_002.vcorrector
+  - SXD51_001
+  - OCTF5_QCORROCT_33_QT_001
+  - OCTF5_QCORROCT_33_QT_001.octupole
+  - OCTF5_QCORROCT_33_QT_001.quadrupole
+  - OCTF5_QCORROCT_33_QT_001.skewquad
+  - SXF51_HCOR_001
+  - SXF51_HCOR_001.sextupole
+  - SXF51_HCOR_001.hcorrector
+  - BPM_037
+  - SXD51_VCOR_001
+  - SXD51_VCOR_001.sextupole
+  - SXD51_VCOR_001.vcorrector
+  - QCORR_042
+  - QCORR_043
+  - SXD5_001
+  - OCTF5_QCORROCT_34_QT_001
+  - OCTF5_QCORROCT_34_QT_001.octupole
+  - OCTF5_QCORROCT_34_QT_001.quadrupole
+  - OCTF5_QCORROCT_34_QT_001.skewquad
+  - SXF5_HCOR_001
+  - SXF5_HCOR_001.sextupole
+  - SXF5_HCOR_001.hcorrector
+  - BPM_038
+  - SXD5_VCOR_001
+  - SXD5_VCOR_001.sextupole
+  - SXD5_VCOR_001.vcorrector
+  - QCORR_044
+  - QCORR_045
+  - SXD5_002
+  - OCTF5_QCORROCT_35_QT_001
+  - OCTF5_QCORROCT_35_QT_001.octupole
+  - OCTF5_QCORROCT_35_QT_001.quadrupole
+  - OCTF5_QCORROCT_35_QT_001.skewquad
+  - SXF53_HCOR_001
+  - SXF53_HCOR_001.sextupole
+  - SXF53_HCOR_001.hcorrector
+  - BPM_039
+  - SXD53_VCOR_001
+  - SXD53_VCOR_001.sextupole
+  - SXD53_VCOR_001.vcorrector
+  - QCORR_046
+  - QCORR_047
+  - SXD53_001
+  - SXF53_HCOR_002
+  - SXF53_HCOR_002.sextupole
+  - SXF53_HCOR_002.hcorrector
+  - OCTF5_QCORROCT_36_QT_001
+  - OCTF5_QCORROCT_36_QT_001.octupole
+  - OCTF5_QCORROCT_36_QT_001.quadrupole
+  - OCTF5_QCORROCT_36_QT_001.skewquad
+  - BPM_040
+  - SXD5_VCOR_002
+  - SXD5_VCOR_002.sextupole
+  - SXD5_VCOR_002.vcorrector
+  - QCORR_048
+  - QCORR_049
+  - SXD5_003
+  - SXF5_HCOR_002
+  - SXF5_HCOR_002.sextupole
+  - SXF5_HCOR_002.hcorrector
+  - OCTF5_QCORROCT_37_QT_001
+  - OCTF5_QCORROCT_37_QT_001.octupole
+  - OCTF5_QCORROCT_37_QT_001.quadrupole
+  - OCTF5_QCORROCT_37_QT_001.skewquad
+  - BPM_041
+  - SXD5_VCOR_003
+  - SXD5_VCOR_003.sextupole
+  - SXD5_VCOR_003.vcorrector
+  - QCORR_050
+  - QCORR_051
+  - SXD52_001
+  - SXF52_HCOR_001
+  - SXF52_HCOR_001.sextupole
+  - SXF52_HCOR_001.hcorrector
+  - OCTF5_QCORROCT_38_QT_001
+  - OCTF5_QCORROCT_38_QT_001.octupole
+  - OCTF5_QCORROCT_38_QT_001.quadrupole
+  - OCTF5_QCORROCT_38_QT_001.skewquad
+  - SXD52_VCOR_001
+  - SXD52_VCOR_001.sextupole
+  - SXD52_VCOR_001.vcorrector
+  - BPM_042
+  - QCORR_052
+  - SH15_VCOR_001
+  - SH15_VCOR_001.sextupole
+  - SH15_VCOR_001.vcorrector
+  - BPM_043
+  - SH14_HCOR_001
+  - SH14_HCOR_001.sextupole
+  - SH14_HCOR_001.hcorrector
+  - OH14_QCORROCT_39_001
+  - OH14_QCORROCT_39_001.octupole
+  - OH14_QCORROCT_39_001.quadrupole
+  - SH13_COR_001
+  - SH13_COR_001.sextupole
+  - SH13_COR_001.hcorrector
+  - SH13_COR_001.vcorrector
+  - OH13_QCORROCT_40_QT_001
+  - OH13_QCORROCT_40_QT_001.octupole
+  - OH13_QCORROCT_40_QT_001.quadrupole
+  - OH13_QCORROCT_40_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH10_QCORROCT_31_QT
+  elements:
+  - OH10_QCORROCT_31_QT_001.octupole
+  - OH10_QCORROCT_31_QT_001.quadrupole
+  - OH10_QCORROCT_31_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH11_QCORROCT_32
+  elements:
+  - OH11_QCORROCT_32_001.octupole
+  - OH11_QCORROCT_32_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: SXD51
+  elements:
+  - SXD51_001
+  - SXD51_002
+  - SXD51_003
+  - SXD51_004
+- type: pyaml.arrays.magnet
+  name: OCTF5_QCORROCT_33_QT
+  elements:
+  - OCTF5_QCORROCT_33_QT_001.octupole
+  - OCTF5_QCORROCT_33_QT_001.quadrupole
+  - OCTF5_QCORROCT_33_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: SXF51_HCOR
+  elements:
+  - SXF51_HCOR_001.sextupole
+  - SXF51_HCOR_001.hcorrector
+  - SXF51_HCOR_002.sextupole
+  - SXF51_HCOR_002.hcorrector
+  - SXF51_HCOR_003.sextupole
+  - SXF51_HCOR_003.hcorrector
+  - SXF51_HCOR_004.sextupole
+  - SXF51_HCOR_004.hcorrector
+- type: pyaml.arrays.magnet
+  name: SXD51_VCOR
+  elements:
+  - SXD51_VCOR_001.sextupole
+  - SXD51_VCOR_001.vcorrector
+  - SXD51_VCOR_002.sextupole
+  - SXD51_VCOR_002.vcorrector
+  - SXD51_VCOR_003.sextupole
+  - SXD51_VCOR_003.vcorrector
+  - SXD51_VCOR_004.sextupole
+  - SXD51_VCOR_004.vcorrector
+- type: pyaml.arrays.magnet
+  name: SXD5
+  elements:
+  - SXD5_001
+  - SXD5_002
+  - SXD5_003
+  - SXD5_004
+  - SXD5_005
+  - SXD5_006
+  - SXD5_007
+  - SXD5_008
+  - SXD5_009
+  - SXD5_010
+  - SXD5_011
+  - SXD5_012
+- type: pyaml.arrays.magnet
+  name: OCTF5_QCORROCT_34_QT
+  elements:
+  - OCTF5_QCORROCT_34_QT_001.octupole
+  - OCTF5_QCORROCT_34_QT_001.quadrupole
+  - OCTF5_QCORROCT_34_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: SXF5_HCOR
+  elements:
+  - SXF5_HCOR_001.sextupole
+  - SXF5_HCOR_001.hcorrector
+  - SXF5_HCOR_002.sextupole
+  - SXF5_HCOR_002.hcorrector
+  - SXF5_HCOR_003.sextupole
+  - SXF5_HCOR_003.hcorrector
+  - SXF5_HCOR_004.sextupole
+  - SXF5_HCOR_004.hcorrector
+  - SXF5_HCOR_005.sextupole
+  - SXF5_HCOR_005.hcorrector
+  - SXF5_HCOR_006.sextupole
+  - SXF5_HCOR_006.hcorrector
+  - SXF5_HCOR_007.sextupole
+  - SXF5_HCOR_007.hcorrector
+  - SXF5_HCOR_008.sextupole
+  - SXF5_HCOR_008.hcorrector
+- type: pyaml.arrays.magnet
+  name: SXD5_VCOR
+  elements:
+  - SXD5_VCOR_001.sextupole
+  - SXD5_VCOR_001.vcorrector
+  - SXD5_VCOR_002.sextupole
+  - SXD5_VCOR_002.vcorrector
+  - SXD5_VCOR_003.sextupole
+  - SXD5_VCOR_003.vcorrector
+  - SXD5_VCOR_004.sextupole
+  - SXD5_VCOR_004.vcorrector
+  - SXD5_VCOR_005.sextupole
+  - SXD5_VCOR_005.vcorrector
+  - SXD5_VCOR_006.sextupole
+  - SXD5_VCOR_006.vcorrector
+  - SXD5_VCOR_007.sextupole
+  - SXD5_VCOR_007.vcorrector
+  - SXD5_VCOR_008.sextupole
+  - SXD5_VCOR_008.vcorrector
+  - SXD5_VCOR_009.sextupole
+  - SXD5_VCOR_009.vcorrector
+  - SXD5_VCOR_010.sextupole
+  - SXD5_VCOR_010.vcorrector
+  - SXD5_VCOR_011.sextupole
+  - SXD5_VCOR_011.vcorrector
+  - SXD5_VCOR_012.sextupole
+  - SXD5_VCOR_012.vcorrector
+- type: pyaml.arrays.magnet
+  name: OCTF5_QCORROCT_35_QT
+  elements:
+  - OCTF5_QCORROCT_35_QT_001.octupole
+  - OCTF5_QCORROCT_35_QT_001.quadrupole
+  - OCTF5_QCORROCT_35_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: SXF53_HCOR
+  elements:
+  - SXF53_HCOR_001.sextupole
+  - SXF53_HCOR_001.hcorrector
+  - SXF53_HCOR_002.sextupole
+  - SXF53_HCOR_002.hcorrector
+  - SXF53_HCOR_003.sextupole
+  - SXF53_HCOR_003.hcorrector
+  - SXF53_HCOR_004.sextupole
+  - SXF53_HCOR_004.hcorrector
+  - SXF53_HCOR_005.sextupole
+  - SXF53_HCOR_005.hcorrector
+  - SXF53_HCOR_006.sextupole
+  - SXF53_HCOR_006.hcorrector
+  - SXF53_HCOR_007.sextupole
+  - SXF53_HCOR_007.hcorrector
+  - SXF53_HCOR_008.sextupole
+  - SXF53_HCOR_008.hcorrector
+- type: pyaml.arrays.magnet
+  name: SXD53_VCOR
+  elements:
+  - SXD53_VCOR_001.sextupole
+  - SXD53_VCOR_001.vcorrector
+  - SXD53_VCOR_002.sextupole
+  - SXD53_VCOR_002.vcorrector
+  - SXD53_VCOR_003.sextupole
+  - SXD53_VCOR_003.vcorrector
+  - SXD53_VCOR_004.sextupole
+  - SXD53_VCOR_004.vcorrector
+- type: pyaml.arrays.magnet
+  name: SXD53
+  elements:
+  - SXD53_001
+  - SXD53_002
+  - SXD53_003
+  - SXD53_004
+- type: pyaml.arrays.magnet
+  name: OCTF5_QCORROCT_36_QT
+  elements:
+  - OCTF5_QCORROCT_36_QT_001.octupole
+  - OCTF5_QCORROCT_36_QT_001.quadrupole
+  - OCTF5_QCORROCT_36_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF5_QCORROCT_37_QT
+  elements:
+  - OCTF5_QCORROCT_37_QT_001.octupole
+  - OCTF5_QCORROCT_37_QT_001.quadrupole
+  - OCTF5_QCORROCT_37_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: SXD52
+  elements:
+  - SXD52_001
+  - SXD52_002
+  - SXD52_003
+  - SXD52_004
+- type: pyaml.arrays.magnet
+  name: SXF52_HCOR
+  elements:
+  - SXF52_HCOR_001.sextupole
+  - SXF52_HCOR_001.hcorrector
+  - SXF52_HCOR_002.sextupole
+  - SXF52_HCOR_002.hcorrector
+  - SXF52_HCOR_003.sextupole
+  - SXF52_HCOR_003.hcorrector
+  - SXF52_HCOR_004.sextupole
+  - SXF52_HCOR_004.hcorrector
+- type: pyaml.arrays.magnet
+  name: OCTF5_QCORROCT_38_QT
+  elements:
+  - OCTF5_QCORROCT_38_QT_001.octupole
+  - OCTF5_QCORROCT_38_QT_001.quadrupole
+  - OCTF5_QCORROCT_38_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: SXD52_VCOR
+  elements:
+  - SXD52_VCOR_001.sextupole
+  - SXD52_VCOR_001.vcorrector
+  - SXD52_VCOR_002.sextupole
+  - SXD52_VCOR_002.vcorrector
+  - SXD52_VCOR_003.sextupole
+  - SXD52_VCOR_003.vcorrector
+  - SXD52_VCOR_004.sextupole
+  - SXD52_VCOR_004.vcorrector
+- type: pyaml.arrays.magnet
+  name: SH15_VCOR
+  elements:
+  - SH15_VCOR_001.sextupole
+  - SH15_VCOR_001.vcorrector
+  - SH15_VCOR_002.sextupole
+  - SH15_VCOR_002.vcorrector
+  - SH15_VCOR_003.sextupole
+  - SH15_VCOR_003.vcorrector
+  - SH15_VCOR_004.sextupole
+  - SH15_VCOR_004.vcorrector
+- type: pyaml.arrays.magnet
+  name: SH14_HCOR
+  elements:
+  - SH14_HCOR_001.sextupole
+  - SH14_HCOR_001.hcorrector
+  - SH14_HCOR_002.sextupole
+  - SH14_HCOR_002.hcorrector
+  - SH14_HCOR_003.sextupole
+  - SH14_HCOR_003.hcorrector
+  - SH14_HCOR_004.sextupole
+  - SH14_HCOR_004.hcorrector
+- type: pyaml.arrays.magnet
+  name: OH14_QCORROCT_39
+  elements:
+  - OH14_QCORROCT_39_001.octupole
+  - OH14_QCORROCT_39_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: SH13_COR
+  elements:
+  - SH13_COR_001.sextupole
+  - SH13_COR_001.hcorrector
+  - SH13_COR_001.vcorrector
+  - SH13_COR_002.sextupole
+  - SH13_COR_002.hcorrector
+  - SH13_COR_002.vcorrector
+  - SH13_COR_003.sextupole
+  - SH13_COR_003.hcorrector
+  - SH13_COR_003.vcorrector
+  - SH13_COR_004.sextupole
+  - SH13_COR_004.hcorrector
+  - SH13_COR_004.vcorrector
+- type: pyaml.arrays.magnet
+  name: OH13_QCORROCT_40_QT
+  elements:
+  - OH13_QCORROCT_40_QT_001.octupole
+  - OH13_QCORROCT_40_QT_001.quadrupole
+  - OH13_QCORROCT_40_QT_001.skewquad
+- type: pyaml.arrays.element
+  name: Cell6
+  elements:
+  - BPM_044
+  - BPM_045
+  - OH16_QCORROCT_41_001
+  - OH16_QCORROCT_41_001.octupole
+  - OH16_QCORROCT_41_001.quadrupole
+  - SH16_COR_001
+  - SH16_COR_001.sextupole
+  - SH16_COR_001.hcorrector
+  - SH16_COR_001.vcorrector
+  - SH16_COR_002
+  - SH16_COR_002.sextupole
+  - SH16_COR_002.hcorrector
+  - SH16_COR_002.vcorrector
+  - OH16_QCORROCT_42_001
+  - OH16_QCORROCT_42_001.octupole
+  - OH16_QCORROCT_42_001.quadrupole
+  - BPM_046
+  - BPM_047
+  - OH13_QCORROCT_43_QT_001
+  - OH13_QCORROCT_43_QT_001.octupole
+  - OH13_QCORROCT_43_QT_001.quadrupole
+  - OH13_QCORROCT_43_QT_001.skewquad
+  - SH13_COR_002
+  - SH13_COR_002.sextupole
+  - SH13_COR_002.hcorrector
+  - SH13_COR_002.vcorrector
+  - OH14_QCORROCT_44_001
+  - OH14_QCORROCT_44_001.octupole
+  - OH14_QCORROCT_44_001.quadrupole
+  - SH14_HCOR_002
+  - SH14_HCOR_002.sextupole
+  - SH14_HCOR_002.hcorrector
+  - BPM_048
+  - SH15_VCOR_002
+  - SH15_VCOR_002.sextupole
+  - SH15_VCOR_002.vcorrector
+  - QCORR_053
+  - SXD52_002
+  - OCTF5_QCORROCT_45_QT_001
+  - OCTF5_QCORROCT_45_QT_001.octupole
+  - OCTF5_QCORROCT_45_QT_001.quadrupole
+  - OCTF5_QCORROCT_45_QT_001.skewquad
+  - SXF52_HCOR_002
+  - SXF52_HCOR_002.sextupole
+  - SXF52_HCOR_002.hcorrector
+  - BPM_049
+  - SXD52_VCOR_002
+  - SXD52_VCOR_002.sextupole
+  - SXD52_VCOR_002.vcorrector
+  - QCORR_054
+  - QCORR_055
+  - SXD5_004
+  - OCTF5_QCORROCT_46_QT_001
+  - OCTF5_QCORROCT_46_QT_001.octupole
+  - OCTF5_QCORROCT_46_QT_001.quadrupole
+  - OCTF5_QCORROCT_46_QT_001.skewquad
+  - SXF5_HCOR_003
+  - SXF5_HCOR_003.sextupole
+  - SXF5_HCOR_003.hcorrector
+  - BPM_050
+  - SXD5_VCOR_004
+  - SXD5_VCOR_004.sextupole
+  - SXD5_VCOR_004.vcorrector
+  - QCORR_056
+  - QCORR_057
+  - SXD5_005
+  - OCTF5_QCORROCT_47_QT_001
+  - OCTF5_QCORROCT_47_QT_001.octupole
+  - OCTF5_QCORROCT_47_QT_001.quadrupole
+  - OCTF5_QCORROCT_47_QT_001.skewquad
+  - SXF53_HCOR_003
+  - SXF53_HCOR_003.sextupole
+  - SXF53_HCOR_003.hcorrector
+  - BPM_051
+  - SXD53_VCOR_002
+  - SXD53_VCOR_002.sextupole
+  - SXD53_VCOR_002.vcorrector
+  - QCORR_058
+  - QCORR_059
+  - SXD53_002
+  - SXF53_HCOR_004
+  - SXF53_HCOR_004.sextupole
+  - SXF53_HCOR_004.hcorrector
+  - OCTF5_QCORROCT_48_QT_001
+  - OCTF5_QCORROCT_48_QT_001.octupole
+  - OCTF5_QCORROCT_48_QT_001.quadrupole
+  - OCTF5_QCORROCT_48_QT_001.skewquad
+  - BPM_052
+  - SXD5_VCOR_005
+  - SXD5_VCOR_005.sextupole
+  - SXD5_VCOR_005.vcorrector
+  - QCORR_060
+  - QCORR_061
+  - SXD5_006
+  - SXF5_HCOR_004
+  - SXF5_HCOR_004.sextupole
+  - SXF5_HCOR_004.hcorrector
+  - OCTF5_QCORROCT_49_QT_001
+  - OCTF5_QCORROCT_49_QT_001.octupole
+  - OCTF5_QCORROCT_49_QT_001.quadrupole
+  - OCTF5_QCORROCT_49_QT_001.skewquad
+  - BPM_053
+  - SXD5_VCOR_006
+  - SXD5_VCOR_006.sextupole
+  - SXD5_VCOR_006.vcorrector
+  - QCORR_062
+  - QCORR_063
+  - SXD51_002
+  - SXF51_HCOR_002
+  - SXF51_HCOR_002.sextupole
+  - SXF51_HCOR_002.hcorrector
+  - OCTF5_QCORROCT_50_QT_001
+  - OCTF5_QCORROCT_50_QT_001.octupole
+  - OCTF5_QCORROCT_50_QT_001.quadrupole
+  - OCTF5_QCORROCT_50_QT_001.skewquad
+  - SXD51_VCOR_002
+  - SXD51_VCOR_002.sextupole
+  - SXD51_VCOR_002.vcorrector
+  - BPM_054
+  - SH12_COR_003
+  - SH12_COR_003.sextupole
+  - SH12_COR_003.hcorrector
+  - SH12_COR_003.vcorrector
+  - QCORR_064
+  - SH11_003
+  - OH11_QCORROCT_51_001
+  - OH11_QCORROCT_51_001.octupole
+  - OH11_QCORROCT_51_001.quadrupole
+  - BPM_055
+  - SH10_COR_003
+  - SH10_COR_003.sextupole
+  - SH10_COR_003.hcorrector
+  - SH10_COR_003.vcorrector
+  - OH10_QCORROCT_52_QT_001
+  - OH10_QCORROCT_52_QT_001.octupole
+  - OH10_QCORROCT_52_QT_001.quadrupole
+  - OH10_QCORROCT_52_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH16_QCORROCT_41
+  elements:
+  - OH16_QCORROCT_41_001.octupole
+  - OH16_QCORROCT_41_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: SH16_COR
+  elements:
+  - SH16_COR_001.sextupole
+  - SH16_COR_001.hcorrector
+  - SH16_COR_001.vcorrector
+  - SH16_COR_002.sextupole
+  - SH16_COR_002.hcorrector
+  - SH16_COR_002.vcorrector
+  - SH16_COR_003.sextupole
+  - SH16_COR_003.hcorrector
+  - SH16_COR_003.vcorrector
+  - SH16_COR_004.sextupole
+  - SH16_COR_004.hcorrector
+  - SH16_COR_004.vcorrector
+- type: pyaml.arrays.magnet
+  name: OH16_QCORROCT_42
+  elements:
+  - OH16_QCORROCT_42_001.octupole
+  - OH16_QCORROCT_42_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: OH13_QCORROCT_43_QT
+  elements:
+  - OH13_QCORROCT_43_QT_001.octupole
+  - OH13_QCORROCT_43_QT_001.quadrupole
+  - OH13_QCORROCT_43_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH14_QCORROCT_44
+  elements:
+  - OH14_QCORROCT_44_001.octupole
+  - OH14_QCORROCT_44_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: OCTF5_QCORROCT_45_QT
+  elements:
+  - OCTF5_QCORROCT_45_QT_001.octupole
+  - OCTF5_QCORROCT_45_QT_001.quadrupole
+  - OCTF5_QCORROCT_45_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF5_QCORROCT_46_QT
+  elements:
+  - OCTF5_QCORROCT_46_QT_001.octupole
+  - OCTF5_QCORROCT_46_QT_001.quadrupole
+  - OCTF5_QCORROCT_46_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF5_QCORROCT_47_QT
+  elements:
+  - OCTF5_QCORROCT_47_QT_001.octupole
+  - OCTF5_QCORROCT_47_QT_001.quadrupole
+  - OCTF5_QCORROCT_47_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF5_QCORROCT_48_QT
+  elements:
+  - OCTF5_QCORROCT_48_QT_001.octupole
+  - OCTF5_QCORROCT_48_QT_001.quadrupole
+  - OCTF5_QCORROCT_48_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF5_QCORROCT_49_QT
+  elements:
+  - OCTF5_QCORROCT_49_QT_001.octupole
+  - OCTF5_QCORROCT_49_QT_001.quadrupole
+  - OCTF5_QCORROCT_49_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF5_QCORROCT_50_QT
+  elements:
+  - OCTF5_QCORROCT_50_QT_001.octupole
+  - OCTF5_QCORROCT_50_QT_001.quadrupole
+  - OCTF5_QCORROCT_50_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH11_QCORROCT_51
+  elements:
+  - OH11_QCORROCT_51_001.octupole
+  - OH11_QCORROCT_51_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: OH10_QCORROCT_52_QT
+  elements:
+  - OH10_QCORROCT_52_QT_001.octupole
+  - OH10_QCORROCT_52_QT_001.quadrupole
+  - OH10_QCORROCT_52_QT_001.skewquad
+- type: pyaml.arrays.element
+  name: Cell7
+  elements:
+  - BPM_056
+  - BPM_057
+  - OH10_QCORROCT_53_QT_001
+  - OH10_QCORROCT_53_QT_001.octupole
+  - OH10_QCORROCT_53_QT_001.quadrupole
+  - OH10_QCORROCT_53_QT_001.skewquad
+  - SH10_COR_004
+  - SH10_COR_004.sextupole
+  - SH10_COR_004.hcorrector
+  - SH10_COR_004.vcorrector
+  - BPM_058
+  - OH11_QCORROCT_54_001
+  - OH11_QCORROCT_54_001.octupole
+  - OH11_QCORROCT_54_001.quadrupole
+  - SH11_004
+  - QCORR_065
+  - SH12_COR_004
+  - SH12_COR_004.sextupole
+  - SH12_COR_004.hcorrector
+  - SH12_COR_004.vcorrector
+  - SXD42_002
+  - OCTF4_QCORROCT_55_QT_001
+  - OCTF4_QCORROCT_55_QT_001.octupole
+  - OCTF4_QCORROCT_55_QT_001.quadrupole
+  - OCTF4_QCORROCT_55_QT_001.skewquad
+  - SXF42_HCOR_002
+  - SXF42_HCOR_002.sextupole
+  - SXF42_HCOR_002.hcorrector
+  - BPM_059
+  - SXD42_VCOR_002
+  - SXD42_VCOR_002.sextupole
+  - SXD42_VCOR_002.vcorrector
+  - QCORR_066
+  - QCORR_067
+  - SXD4_002
+  - OCTF4_QCORROCT_56_QT_001
+  - OCTF4_QCORROCT_56_QT_001.octupole
+  - OCTF4_QCORROCT_56_QT_001.quadrupole
+  - OCTF4_QCORROCT_56_QT_001.skewquad
+  - SXF4_HCOR_002
+  - SXF4_HCOR_002.sextupole
+  - SXF4_HCOR_002.hcorrector
+  - BPM_060
+  - SXD4_VCOR_002
+  - SXD4_VCOR_002.sextupole
+  - SXD4_VCOR_002.vcorrector
+  - QCORR_068
+  - QCORR_069
+  - SXD41_002
+  - SXF41_HCOR_002
+  - SXF41_HCOR_002.sextupole
+  - SXF41_HCOR_002.hcorrector
+  - OCTF4_QCORROCT_57_QT_001
+  - OCTF4_QCORROCT_57_QT_001.octupole
+  - OCTF4_QCORROCT_57_QT_001.quadrupole
+  - OCTF4_QCORROCT_57_QT_001.skewquad
+  - SXD41_VCOR_002
+  - SXD41_VCOR_002.sextupole
+  - SXD41_VCOR_002.vcorrector
+  - BPM_061
+  - SH9_COR_005
+  - SH9_COR_005.sextupole
+  - SH9_COR_005.hcorrector
+  - SH9_COR_005.vcorrector
+  - QCORR_070
+  - SH8_005
+  - QCORR_071
+  - BPM_062
+  - SH7_COR_005
+  - SH7_COR_005.sextupole
+  - SH7_COR_005.hcorrector
+  - SH7_COR_005.vcorrector
+  - OH7_QCORROCT_58_QT_001
+  - OH7_QCORROCT_58_QT_001.octupole
+  - OH7_QCORROCT_58_QT_001.quadrupole
+  - OH7_QCORROCT_58_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH10_QCORROCT_53_QT
+  elements:
+  - OH10_QCORROCT_53_QT_001.octupole
+  - OH10_QCORROCT_53_QT_001.quadrupole
+  - OH10_QCORROCT_53_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH11_QCORROCT_54
+  elements:
+  - OH11_QCORROCT_54_001.octupole
+  - OH11_QCORROCT_54_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: OCTF4_QCORROCT_55_QT
+  elements:
+  - OCTF4_QCORROCT_55_QT_001.octupole
+  - OCTF4_QCORROCT_55_QT_001.quadrupole
+  - OCTF4_QCORROCT_55_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF4_QCORROCT_56_QT
+  elements:
+  - OCTF4_QCORROCT_56_QT_001.octupole
+  - OCTF4_QCORROCT_56_QT_001.quadrupole
+  - OCTF4_QCORROCT_56_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF4_QCORROCT_57_QT
+  elements:
+  - OCTF4_QCORROCT_57_QT_001.octupole
+  - OCTF4_QCORROCT_57_QT_001.quadrupole
+  - OCTF4_QCORROCT_57_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH7_QCORROCT_58_QT
+  elements:
+  - OH7_QCORROCT_58_QT_001.octupole
+  - OH7_QCORROCT_58_QT_001.quadrupole
+  - OH7_QCORROCT_58_QT_001.skewquad
+- type: pyaml.arrays.element
+  name: Cell8
+  elements:
+  - BPM_063
+  - BPM_064
+  - OH7_QCORROCT_59_QT_001
+  - OH7_QCORROCT_59_QT_001.octupole
+  - OH7_QCORROCT_59_QT_001.quadrupole
+  - OH7_QCORROCT_59_QT_001.skewquad
+  - SH7_COR_006
+  - SH7_COR_006.sextupole
+  - SH7_COR_006.hcorrector
+  - SH7_COR_006.vcorrector
+  - BPM_065
+  - QCORR_072
+  - SH8_006
+  - QCORR_073
+  - SH9_COR_006
+  - SH9_COR_006.sextupole
+  - SH9_COR_006.hcorrector
+  - SH9_COR_006.vcorrector
+  - SXD32_002
+  - OCTF3_QCORROCT_60_QT_001
+  - OCTF3_QCORROCT_60_QT_001.octupole
+  - OCTF3_QCORROCT_60_QT_001.quadrupole
+  - OCTF3_QCORROCT_60_QT_001.skewquad
+  - SXF32_HCOR_002
+  - SXF32_HCOR_002.sextupole
+  - SXF32_HCOR_002.hcorrector
+  - BPM_066
+  - SXD32_VCOR_002
+  - SXD32_VCOR_002.sextupole
+  - SXD32_VCOR_002.vcorrector
+  - QCORR_074
+  - QCORR_075
+  - SXD3_004
+  - OCTF3_QCORROCT_61_QT_001
+  - OCTF3_QCORROCT_61_QT_001.octupole
+  - OCTF3_QCORROCT_61_QT_001.quadrupole
+  - OCTF3_QCORROCT_61_QT_001.skewquad
+  - SXF3_HCOR_003
+  - SXF3_HCOR_003.sextupole
+  - SXF3_HCOR_003.hcorrector
+  - BPM_067
+  - SXD3_VCOR_004
+  - SXD3_VCOR_004.sextupole
+  - SXD3_VCOR_004.vcorrector
+  - QCORR_076
+  - QCORR_077
+  - SXD3_005
+  - OCTF3_QCORROCT_62_QT_001
+  - OCTF3_QCORROCT_62_QT_001.octupole
+  - OCTF3_QCORROCT_62_QT_001.quadrupole
+  - OCTF3_QCORROCT_62_QT_001.skewquad
+  - SXF33_HCOR_003
+  - SXF33_HCOR_003.sextupole
+  - SXF33_HCOR_003.hcorrector
+  - BPM_068
+  - SXD33_VCOR_002
+  - SXD33_VCOR_002.sextupole
+  - SXD33_VCOR_002.vcorrector
+  - QCORR_078
+  - QCORR_079
+  - SXD33_002
+  - SXF33_HCOR_004
+  - SXF33_HCOR_004.sextupole
+  - SXF33_HCOR_004.hcorrector
+  - OCTF3_QCORROCT_63_QT_001
+  - OCTF3_QCORROCT_63_QT_001.octupole
+  - OCTF3_QCORROCT_63_QT_001.quadrupole
+  - OCTF3_QCORROCT_63_QT_001.skewquad
+  - BPM_069
+  - SXD3_VCOR_005
+  - SXD3_VCOR_005.sextupole
+  - SXD3_VCOR_005.vcorrector
+  - QCORR_080
+  - QCORR_081
+  - SXD3_006
+  - SXF3_HCOR_004
+  - SXF3_HCOR_004.sextupole
+  - SXF3_HCOR_004.hcorrector
+  - OCTF3_QCORROCT_64_QT_001
+  - OCTF3_QCORROCT_64_QT_001.octupole
+  - OCTF3_QCORROCT_64_QT_001.quadrupole
+  - OCTF3_QCORROCT_64_QT_001.skewquad
+  - BPM_070
+  - SXD3_VCOR_006
+  - SXD3_VCOR_006.sextupole
+  - SXD3_VCOR_006.vcorrector
+  - QCORR_082
+  - QCORR_083
+  - SXD31_002
+  - SXF31_HCOR_002
+  - SXF31_HCOR_002.sextupole
+  - SXF31_HCOR_002.hcorrector
+  - OCTF3_QCORROCT_65_QT_001
+  - OCTF3_QCORROCT_65_QT_001.octupole
+  - OCTF3_QCORROCT_65_QT_001.quadrupole
+  - OCTF3_QCORROCT_65_QT_001.skewquad
+  - SXD31_VCOR_002
+  - SXD31_VCOR_002.sextupole
+  - SXD31_VCOR_002.vcorrector
+  - BPM_071
+  - SH9_COR_007
+  - SH9_COR_007.sextupole
+  - SH9_COR_007.hcorrector
+  - SH9_COR_007.vcorrector
+  - QCORR_084
+  - SH8_007
+  - QCORR_085
+  - BPM_072
+  - SH7_COR_007
+  - SH7_COR_007.sextupole
+  - SH7_COR_007.hcorrector
+  - SH7_COR_007.vcorrector
+  - OH7_QCORROCT_66_QT_001
+  - OH7_QCORROCT_66_QT_001.octupole
+  - OH7_QCORROCT_66_QT_001.quadrupole
+  - OH7_QCORROCT_66_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH7_QCORROCT_59_QT
+  elements:
+  - OH7_QCORROCT_59_QT_001.octupole
+  - OH7_QCORROCT_59_QT_001.quadrupole
+  - OH7_QCORROCT_59_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF3_QCORROCT_60_QT
+  elements:
+  - OCTF3_QCORROCT_60_QT_001.octupole
+  - OCTF3_QCORROCT_60_QT_001.quadrupole
+  - OCTF3_QCORROCT_60_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF3_QCORROCT_61_QT
+  elements:
+  - OCTF3_QCORROCT_61_QT_001.octupole
+  - OCTF3_QCORROCT_61_QT_001.quadrupole
+  - OCTF3_QCORROCT_61_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF3_QCORROCT_62_QT
+  elements:
+  - OCTF3_QCORROCT_62_QT_001.octupole
+  - OCTF3_QCORROCT_62_QT_001.quadrupole
+  - OCTF3_QCORROCT_62_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF3_QCORROCT_63_QT
+  elements:
+  - OCTF3_QCORROCT_63_QT_001.octupole
+  - OCTF3_QCORROCT_63_QT_001.quadrupole
+  - OCTF3_QCORROCT_63_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF3_QCORROCT_64_QT
+  elements:
+  - OCTF3_QCORROCT_64_QT_001.octupole
+  - OCTF3_QCORROCT_64_QT_001.quadrupole
+  - OCTF3_QCORROCT_64_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF3_QCORROCT_65_QT
+  elements:
+  - OCTF3_QCORROCT_65_QT_001.octupole
+  - OCTF3_QCORROCT_65_QT_001.quadrupole
+  - OCTF3_QCORROCT_65_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH7_QCORROCT_66_QT
+  elements:
+  - OH7_QCORROCT_66_QT_001.octupole
+  - OH7_QCORROCT_66_QT_001.quadrupole
+  - OH7_QCORROCT_66_QT_001.skewquad
+- type: pyaml.arrays.element
+  name: Cell9
+  elements:
+  - BPM_073
+  - BPM_074
+  - OH7_QCORROCT_67_QT_001
+  - OH7_QCORROCT_67_QT_001.octupole
+  - OH7_QCORROCT_67_QT_001.quadrupole
+  - OH7_QCORROCT_67_QT_001.skewquad
+  - SH7_COR_008
+  - SH7_COR_008.sextupole
+  - SH7_COR_008.hcorrector
+  - SH7_COR_008.vcorrector
+  - BPM_075
+  - QCORR_086
+  - SH8_008
+  - QCORR_087
+  - SH9_COR_008
+  - SH9_COR_008.sextupole
+  - SH9_COR_008.hcorrector
+  - SH9_COR_008.vcorrector
+  - SXD22_002
+  - OCTF2_QCORROCT_68_QT_001
+  - OCTF2_QCORROCT_68_QT_001.octupole
+  - OCTF2_QCORROCT_68_QT_001.quadrupole
+  - OCTF2_QCORROCT_68_QT_001.skewquad
+  - SXF22_HCOR_002
+  - SXF22_HCOR_002.sextupole
+  - SXF22_HCOR_002.hcorrector
+  - BPM_076
+  - SXD22_VCOR_002
+  - SXD22_VCOR_002.sextupole
+  - SXD22_VCOR_002.vcorrector
+  - QCORR_088
+  - QCORR_089
+  - SXD2_002
+  - SXF2_HCOR_002
+  - SXF2_HCOR_002.sextupole
+  - SXF2_HCOR_002.hcorrector
+  - OCTF2_QCORROCT_69_QT_001
+  - OCTF2_QCORROCT_69_QT_001.octupole
+  - OCTF2_QCORROCT_69_QT_001.quadrupole
+  - OCTF2_QCORROCT_69_QT_001.skewquad
+  - BPM_077
+  - SXD2_VCOR_002
+  - SXD2_VCOR_002.sextupole
+  - SXD2_VCOR_002.vcorrector
+  - QCORR_090
+  - QCORR_091
+  - SXD21_002
+  - SXF21_HCOR_002
+  - SXF21_HCOR_002.sextupole
+  - SXF21_HCOR_002.hcorrector
+  - OCTF2_QCORROCT_70_QT_001
+  - OCTF2_QCORROCT_70_QT_001.octupole
+  - OCTF2_QCORROCT_70_QT_001.quadrupole
+  - OCTF2_QCORROCT_70_QT_001.skewquad
+  - SXD21_VCOR_002
+  - SXD21_VCOR_002.sextupole
+  - SXD21_VCOR_002.vcorrector
+  - BPM_078
+  - SH6_COR_003
+  - SH6_COR_003.sextupole
+  - SH6_COR_003.hcorrector
+  - SH6_COR_003.vcorrector
+  - QCORR_092
+  - SH5_003
+  - OH5_QCORROCT_71_001
+  - OH5_QCORROCT_71_001.octupole
+  - OH5_QCORROCT_71_001.quadrupole
+  - BPM_079
+  - SH4_COR_003
+  - SH4_COR_003.sextupole
+  - SH4_COR_003.hcorrector
+  - SH4_COR_003.vcorrector
+  - OH4_QCORROCT_72_QT_001
+  - OH4_QCORROCT_72_QT_001.octupole
+  - OH4_QCORROCT_72_QT_001.quadrupole
+  - OH4_QCORROCT_72_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH7_QCORROCT_67_QT
+  elements:
+  - OH7_QCORROCT_67_QT_001.octupole
+  - OH7_QCORROCT_67_QT_001.quadrupole
+  - OH7_QCORROCT_67_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF2_QCORROCT_68_QT
+  elements:
+  - OCTF2_QCORROCT_68_QT_001.octupole
+  - OCTF2_QCORROCT_68_QT_001.quadrupole
+  - OCTF2_QCORROCT_68_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF2_QCORROCT_69_QT
+  elements:
+  - OCTF2_QCORROCT_69_QT_001.octupole
+  - OCTF2_QCORROCT_69_QT_001.quadrupole
+  - OCTF2_QCORROCT_69_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF2_QCORROCT_70_QT
+  elements:
+  - OCTF2_QCORROCT_70_QT_001.octupole
+  - OCTF2_QCORROCT_70_QT_001.quadrupole
+  - OCTF2_QCORROCT_70_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH5_QCORROCT_71
+  elements:
+  - OH5_QCORROCT_71_001.octupole
+  - OH5_QCORROCT_71_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: OH4_QCORROCT_72_QT
+  elements:
+  - OH4_QCORROCT_72_QT_001.octupole
+  - OH4_QCORROCT_72_QT_001.quadrupole
+  - OH4_QCORROCT_72_QT_001.skewquad
+- type: pyaml.arrays.element
+  name: Cell10
+  elements:
+  - BPM_080
+  - BPM_081
+  - OH4_QCORROCT_73_QT_001
+  - OH4_QCORROCT_73_QT_001.octupole
+  - OH4_QCORROCT_73_QT_001.quadrupole
+  - OH4_QCORROCT_73_QT_001.skewquad
+  - SH4_COR_004
+  - SH4_COR_004.sextupole
+  - SH4_COR_004.hcorrector
+  - SH4_COR_004.vcorrector
+  - BPM_082
+  - OH5_QCORROCT_74_001
+  - OH5_QCORROCT_74_001.octupole
+  - OH5_QCORROCT_74_001.quadrupole
+  - SH5_004
+  - QCORR_093
+  - SH6_COR_004
+  - SH6_COR_004.sextupole
+  - SH6_COR_004.hcorrector
+  - SH6_COR_004.vcorrector
+  - SXD12_002
+  - OCTF1_QCORROCT_75_QT_001
+  - OCTF1_QCORROCT_75_QT_001.octupole
+  - OCTF1_QCORROCT_75_QT_001.quadrupole
+  - OCTF1_QCORROCT_75_QT_001.skewquad
+  - SXF12_HCOR_002
+  - SXF12_HCOR_002.sextupole
+  - SXF12_HCOR_002.hcorrector
+  - BPM_083
+  - SXD12_VCOR_002
+  - SXD12_VCOR_002.sextupole
+  - SXD12_VCOR_002.vcorrector
+  - QCORR_094
+  - QCORR_095
+  - SXD1_004
+  - OCTF1_QCORROCT_76_QT_001
+  - OCTF1_QCORROCT_76_QT_001.octupole
+  - OCTF1_QCORROCT_76_QT_001.quadrupole
+  - OCTF1_QCORROCT_76_QT_001.skewquad
+  - SXF1_HCOR_003
+  - SXF1_HCOR_003.sextupole
+  - SXF1_HCOR_003.hcorrector
+  - BPM_084
+  - SXD1_VCOR_004
+  - SXD1_VCOR_004.sextupole
+  - SXD1_VCOR_004.vcorrector
+  - QCORR_096
+  - QCORR_097
+  - SXD1_005
+  - OCTF1_QCORROCT_77_QT_001
+  - OCTF1_QCORROCT_77_QT_001.octupole
+  - OCTF1_QCORROCT_77_QT_001.quadrupole
+  - OCTF1_QCORROCT_77_QT_001.skewquad
+  - SXF13_HCOR_003
+  - SXF13_HCOR_003.sextupole
+  - SXF13_HCOR_003.hcorrector
+  - BPM_085
+  - SXD13_VCOR_002
+  - SXD13_VCOR_002.sextupole
+  - SXD13_VCOR_002.vcorrector
+  - QCORR_098
+  - QCORR_099
+  - SXD13_002
+  - SXF13_HCOR_004
+  - SXF13_HCOR_004.sextupole
+  - SXF13_HCOR_004.hcorrector
+  - OCTF1_QCORROCT_78_QT_001
+  - OCTF1_QCORROCT_78_QT_001.octupole
+  - OCTF1_QCORROCT_78_QT_001.quadrupole
+  - OCTF1_QCORROCT_78_QT_001.skewquad
+  - BPM_086
+  - SXD1_VCOR_005
+  - SXD1_VCOR_005.sextupole
+  - SXD1_VCOR_005.vcorrector
+  - QCORR_100
+  - QCORR_101
+  - SXD1_006
+  - SXF1_HCOR_004
+  - SXF1_HCOR_004.sextupole
+  - SXF1_HCOR_004.hcorrector
+  - OCTF1_QCORROCT_79_QT_001
+  - OCTF1_QCORROCT_79_QT_001.octupole
+  - OCTF1_QCORROCT_79_QT_001.quadrupole
+  - OCTF1_QCORROCT_79_QT_001.skewquad
+  - BPM_087
+  - SXD1_VCOR_006
+  - SXD1_VCOR_006.sextupole
+  - SXD1_VCOR_006.vcorrector
+  - QCORR_102
+  - QCORR_103
+  - SXD11_002
+  - SXF11_HCOR_002
+  - SXF11_HCOR_002.sextupole
+  - SXF11_HCOR_002.hcorrector
+  - OCTF1_QCORROCT_80_QT_001
+  - OCTF1_QCORROCT_80_QT_001.octupole
+  - OCTF1_QCORROCT_80_QT_001.quadrupole
+  - OCTF1_QCORROCT_80_QT_001.skewquad
+  - SXD11_VCOR_002
+  - SXD11_VCOR_002.sextupole
+  - SXD11_VCOR_002.vcorrector
+  - BPM_088
+  - QCORR_104
+  - SH3_VCOR_002
+  - SH3_VCOR_002.sextupole
+  - SH3_VCOR_002.vcorrector
+  - BPM_089
+  - OH2_QCORROCT_81_001
+  - OH2_QCORROCT_81_001.octupole
+  - OH2_QCORROCT_81_001.quadrupole
+  - SH2_HCOR_002
+  - SH2_HCOR_002.sextupole
+  - SH2_HCOR_002.hcorrector
+  - OH1_QCORROCT_82_QT_001
+  - OH1_QCORROCT_82_QT_001.octupole
+  - OH1_QCORROCT_82_QT_001.quadrupole
+  - OH1_QCORROCT_82_QT_001.skewquad
+  - SH1_COR_002
+  - SH1_COR_002.sextupole
+  - SH1_COR_002.hcorrector
+  - SH1_COR_002.vcorrector
+- type: pyaml.arrays.magnet
+  name: OH4_QCORROCT_73_QT
+  elements:
+  - OH4_QCORROCT_73_QT_001.octupole
+  - OH4_QCORROCT_73_QT_001.quadrupole
+  - OH4_QCORROCT_73_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH5_QCORROCT_74
+  elements:
+  - OH5_QCORROCT_74_001.octupole
+  - OH5_QCORROCT_74_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: OCTF1_QCORROCT_75_QT
+  elements:
+  - OCTF1_QCORROCT_75_QT_001.octupole
+  - OCTF1_QCORROCT_75_QT_001.quadrupole
+  - OCTF1_QCORROCT_75_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF1_QCORROCT_76_QT
+  elements:
+  - OCTF1_QCORROCT_76_QT_001.octupole
+  - OCTF1_QCORROCT_76_QT_001.quadrupole
+  - OCTF1_QCORROCT_76_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF1_QCORROCT_77_QT
+  elements:
+  - OCTF1_QCORROCT_77_QT_001.octupole
+  - OCTF1_QCORROCT_77_QT_001.quadrupole
+  - OCTF1_QCORROCT_77_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF1_QCORROCT_78_QT
+  elements:
+  - OCTF1_QCORROCT_78_QT_001.octupole
+  - OCTF1_QCORROCT_78_QT_001.quadrupole
+  - OCTF1_QCORROCT_78_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF1_QCORROCT_79_QT
+  elements:
+  - OCTF1_QCORROCT_79_QT_001.octupole
+  - OCTF1_QCORROCT_79_QT_001.quadrupole
+  - OCTF1_QCORROCT_79_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF1_QCORROCT_80_QT
+  elements:
+  - OCTF1_QCORROCT_80_QT_001.octupole
+  - OCTF1_QCORROCT_80_QT_001.quadrupole
+  - OCTF1_QCORROCT_80_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH2_QCORROCT_81
+  elements:
+  - OH2_QCORROCT_81_001.octupole
+  - OH2_QCORROCT_81_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: OH1_QCORROCT_82_QT
+  elements:
+  - OH1_QCORROCT_82_QT_001.octupole
+  - OH1_QCORROCT_82_QT_001.quadrupole
+  - OH1_QCORROCT_82_QT_001.skewquad
+- type: pyaml.arrays.element
+  name: Cell11
+  elements:
+  - BPM_090
+  - BPM_091
+  - SH1_COR_003
+  - SH1_COR_003.sextupole
+  - SH1_COR_003.hcorrector
+  - SH1_COR_003.vcorrector
+  - OH1_QCORROCT_83_QT_001
+  - OH1_QCORROCT_83_QT_001.octupole
+  - OH1_QCORROCT_83_QT_001.quadrupole
+  - OH1_QCORROCT_83_QT_001.skewquad
+  - SH2_HCOR_003
+  - SH2_HCOR_003.sextupole
+  - SH2_HCOR_003.hcorrector
+  - OH2_QCORROCT_84_001
+  - OH2_QCORROCT_84_001.octupole
+  - OH2_QCORROCT_84_001.quadrupole
+  - BPM_092
+  - SH3_VCOR_003
+  - SH3_VCOR_003.sextupole
+  - SH3_VCOR_003.vcorrector
+  - QCORR_105
+  - SXD11_003
+  - OCTF1_QCORROCT_85_QT_001
+  - OCTF1_QCORROCT_85_QT_001.octupole
+  - OCTF1_QCORROCT_85_QT_001.quadrupole
+  - OCTF1_QCORROCT_85_QT_001.skewquad
+  - SXF11_HCOR_003
+  - SXF11_HCOR_003.sextupole
+  - SXF11_HCOR_003.hcorrector
+  - BPM_093
+  - SXD11_VCOR_003
+  - SXD11_VCOR_003.sextupole
+  - SXD11_VCOR_003.vcorrector
+  - QCORR_106
+  - QCORR_107
+  - SXD1_007
+  - OCTF1_QCORROCT_86_QT_001
+  - OCTF1_QCORROCT_86_QT_001.octupole
+  - OCTF1_QCORROCT_86_QT_001.quadrupole
+  - OCTF1_QCORROCT_86_QT_001.skewquad
+  - SXF1_HCOR_005
+  - SXF1_HCOR_005.sextupole
+  - SXF1_HCOR_005.hcorrector
+  - BPM_094
+  - SXD1_VCOR_007
+  - SXD1_VCOR_007.sextupole
+  - SXD1_VCOR_007.vcorrector
+  - QCORR_108
+  - QCORR_109
+  - SXD1_008
+  - OCTF1_QCORROCT_87_QT_001
+  - OCTF1_QCORROCT_87_QT_001.octupole
+  - OCTF1_QCORROCT_87_QT_001.quadrupole
+  - OCTF1_QCORROCT_87_QT_001.skewquad
+  - SXF13_HCOR_005
+  - SXF13_HCOR_005.sextupole
+  - SXF13_HCOR_005.hcorrector
+  - BPM_095
+  - SXD13_VCOR_003
+  - SXD13_VCOR_003.sextupole
+  - SXD13_VCOR_003.vcorrector
+  - QCORR_110
+  - QCORR_111
+  - SXD13_003
+  - SXF13_HCOR_006
+  - SXF13_HCOR_006.sextupole
+  - SXF13_HCOR_006.hcorrector
+  - OCTF1_QCORROCT_88_QT_001
+  - OCTF1_QCORROCT_88_QT_001.octupole
+  - OCTF1_QCORROCT_88_QT_001.quadrupole
+  - OCTF1_QCORROCT_88_QT_001.skewquad
+  - BPM_096
+  - SXD1_VCOR_008
+  - SXD1_VCOR_008.sextupole
+  - SXD1_VCOR_008.vcorrector
+  - QCORR_112
+  - QCORR_113
+  - SXD1_009
+  - SXF1_HCOR_006
+  - SXF1_HCOR_006.sextupole
+  - SXF1_HCOR_006.hcorrector
+  - OCTF1_QCORROCT_89_QT_001
+  - OCTF1_QCORROCT_89_QT_001.octupole
+  - OCTF1_QCORROCT_89_QT_001.quadrupole
+  - OCTF1_QCORROCT_89_QT_001.skewquad
+  - BPM_097
+  - SXD1_VCOR_009
+  - SXD1_VCOR_009.sextupole
+  - SXD1_VCOR_009.vcorrector
+  - QCORR_114
+  - QCORR_115
+  - SXD12_003
+  - SXF12_HCOR_003
+  - SXF12_HCOR_003.sextupole
+  - SXF12_HCOR_003.hcorrector
+  - OCTF1_QCORROCT_90_QT_001
+  - OCTF1_QCORROCT_90_QT_001.octupole
+  - OCTF1_QCORROCT_90_QT_001.quadrupole
+  - OCTF1_QCORROCT_90_QT_001.skewquad
+  - SXD12_VCOR_003
+  - SXD12_VCOR_003.sextupole
+  - SXD12_VCOR_003.vcorrector
+  - BPM_098
+  - SH6_COR_005
+  - SH6_COR_005.sextupole
+  - SH6_COR_005.hcorrector
+  - SH6_COR_005.vcorrector
+  - QCORR_116
+  - SH5_005
+  - OH5_QCORROCT_91_001
+  - OH5_QCORROCT_91_001.octupole
+  - OH5_QCORROCT_91_001.quadrupole
+  - BPM_099
+  - SH4_COR_005
+  - SH4_COR_005.sextupole
+  - SH4_COR_005.hcorrector
+  - SH4_COR_005.vcorrector
+  - OH4_QCORROCT_92_QT_001
+  - OH4_QCORROCT_92_QT_001.octupole
+  - OH4_QCORROCT_92_QT_001.quadrupole
+  - OH4_QCORROCT_92_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH1_QCORROCT_83_QT
+  elements:
+  - OH1_QCORROCT_83_QT_001.octupole
+  - OH1_QCORROCT_83_QT_001.quadrupole
+  - OH1_QCORROCT_83_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH2_QCORROCT_84
+  elements:
+  - OH2_QCORROCT_84_001.octupole
+  - OH2_QCORROCT_84_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: OCTF1_QCORROCT_85_QT
+  elements:
+  - OCTF1_QCORROCT_85_QT_001.octupole
+  - OCTF1_QCORROCT_85_QT_001.quadrupole
+  - OCTF1_QCORROCT_85_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF1_QCORROCT_86_QT
+  elements:
+  - OCTF1_QCORROCT_86_QT_001.octupole
+  - OCTF1_QCORROCT_86_QT_001.quadrupole
+  - OCTF1_QCORROCT_86_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF1_QCORROCT_87_QT
+  elements:
+  - OCTF1_QCORROCT_87_QT_001.octupole
+  - OCTF1_QCORROCT_87_QT_001.quadrupole
+  - OCTF1_QCORROCT_87_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF1_QCORROCT_88_QT
+  elements:
+  - OCTF1_QCORROCT_88_QT_001.octupole
+  - OCTF1_QCORROCT_88_QT_001.quadrupole
+  - OCTF1_QCORROCT_88_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF1_QCORROCT_89_QT
+  elements:
+  - OCTF1_QCORROCT_89_QT_001.octupole
+  - OCTF1_QCORROCT_89_QT_001.quadrupole
+  - OCTF1_QCORROCT_89_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF1_QCORROCT_90_QT
+  elements:
+  - OCTF1_QCORROCT_90_QT_001.octupole
+  - OCTF1_QCORROCT_90_QT_001.quadrupole
+  - OCTF1_QCORROCT_90_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH5_QCORROCT_91
+  elements:
+  - OH5_QCORROCT_91_001.octupole
+  - OH5_QCORROCT_91_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: OH4_QCORROCT_92_QT
+  elements:
+  - OH4_QCORROCT_92_QT_001.octupole
+  - OH4_QCORROCT_92_QT_001.quadrupole
+  - OH4_QCORROCT_92_QT_001.skewquad
+- type: pyaml.arrays.element
+  name: Cell12
+  elements:
+  - BPM_100
+  - BPM_101
+  - OH4_QCORROCT_93_QT_001
+  - OH4_QCORROCT_93_QT_001.octupole
+  - OH4_QCORROCT_93_QT_001.quadrupole
+  - OH4_QCORROCT_93_QT_001.skewquad
+  - SH4_COR_006
+  - SH4_COR_006.sextupole
+  - SH4_COR_006.hcorrector
+  - SH4_COR_006.vcorrector
+  - BPM_102
+  - OH5_QCORROCT_94_001
+  - OH5_QCORROCT_94_001.octupole
+  - OH5_QCORROCT_94_001.quadrupole
+  - SH5_006
+  - QCORR_117
+  - SH6_COR_006
+  - SH6_COR_006.sextupole
+  - SH6_COR_006.hcorrector
+  - SH6_COR_006.vcorrector
+  - SXD21_003
+  - OCTF2_QCORROCT_95_QT_001
+  - OCTF2_QCORROCT_95_QT_001.octupole
+  - OCTF2_QCORROCT_95_QT_001.quadrupole
+  - OCTF2_QCORROCT_95_QT_001.skewquad
+  - SXF21_HCOR_003
+  - SXF21_HCOR_003.sextupole
+  - SXF21_HCOR_003.hcorrector
+  - BPM_103
+  - SXD21_VCOR_003
+  - SXD21_VCOR_003.sextupole
+  - SXD21_VCOR_003.vcorrector
+  - QCORR_118
+  - QCORR_119
+  - SXD2_003
+  - OCTF2_QCORROCT_96_QT_001
+  - OCTF2_QCORROCT_96_QT_001.octupole
+  - OCTF2_QCORROCT_96_QT_001.quadrupole
+  - OCTF2_QCORROCT_96_QT_001.skewquad
+  - SXF2_HCOR_003
+  - SXF2_HCOR_003.sextupole
+  - SXF2_HCOR_003.hcorrector
+  - BPM_104
+  - SXD2_VCOR_003
+  - SXD2_VCOR_003.sextupole
+  - SXD2_VCOR_003.vcorrector
+  - QCORR_120
+  - QCORR_121
+  - SXD22_003
+  - SXF22_HCOR_003
+  - SXF22_HCOR_003.sextupole
+  - SXF22_HCOR_003.hcorrector
+  - OCTF2_QCORROCT_97_QT_001
+  - OCTF2_QCORROCT_97_QT_001.octupole
+  - OCTF2_QCORROCT_97_QT_001.quadrupole
+  - OCTF2_QCORROCT_97_QT_001.skewquad
+  - SXD22_VCOR_003
+  - SXD22_VCOR_003.sextupole
+  - SXD22_VCOR_003.vcorrector
+  - BPM_105
+  - SH9_COR_009
+  - SH9_COR_009.sextupole
+  - SH9_COR_009.hcorrector
+  - SH9_COR_009.vcorrector
+  - QCORR_122
+  - SH8_009
+  - QCORR_123
+  - BPM_106
+  - SH7_COR_009
+  - SH7_COR_009.sextupole
+  - SH7_COR_009.hcorrector
+  - SH7_COR_009.vcorrector
+  - OH7_QCORROCT_98_QT_001
+  - OH7_QCORROCT_98_QT_001.octupole
+  - OH7_QCORROCT_98_QT_001.quadrupole
+  - OH7_QCORROCT_98_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH4_QCORROCT_93_QT
+  elements:
+  - OH4_QCORROCT_93_QT_001.octupole
+  - OH4_QCORROCT_93_QT_001.quadrupole
+  - OH4_QCORROCT_93_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH5_QCORROCT_94
+  elements:
+  - OH5_QCORROCT_94_001.octupole
+  - OH5_QCORROCT_94_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: OCTF2_QCORROCT_95_QT
+  elements:
+  - OCTF2_QCORROCT_95_QT_001.octupole
+  - OCTF2_QCORROCT_95_QT_001.quadrupole
+  - OCTF2_QCORROCT_95_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF2_QCORROCT_96_QT
+  elements:
+  - OCTF2_QCORROCT_96_QT_001.octupole
+  - OCTF2_QCORROCT_96_QT_001.quadrupole
+  - OCTF2_QCORROCT_96_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF2_QCORROCT_97_QT
+  elements:
+  - OCTF2_QCORROCT_97_QT_001.octupole
+  - OCTF2_QCORROCT_97_QT_001.quadrupole
+  - OCTF2_QCORROCT_97_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH7_QCORROCT_98_QT
+  elements:
+  - OH7_QCORROCT_98_QT_001.octupole
+  - OH7_QCORROCT_98_QT_001.quadrupole
+  - OH7_QCORROCT_98_QT_001.skewquad
+- type: pyaml.arrays.element
+  name: Cell13
+  elements:
+  - BPM_107
+  - BPM_108
+  - OH7_QCORROCT_99_QT_001
+  - OH7_QCORROCT_99_QT_001.octupole
+  - OH7_QCORROCT_99_QT_001.quadrupole
+  - OH7_QCORROCT_99_QT_001.skewquad
+  - SH7_COR_010
+  - SH7_COR_010.sextupole
+  - SH7_COR_010.hcorrector
+  - SH7_COR_010.vcorrector
+  - BPM_109
+  - QCORR_124
+  - SH8_010
+  - QCORR_125
+  - SH9_COR_010
+  - SH9_COR_010.sextupole
+  - SH9_COR_010.hcorrector
+  - SH9_COR_010.vcorrector
+  - SXD31_003
+  - OCTF3_QCORROCT_100_QT_001
+  - OCTF3_QCORROCT_100_QT_001.octupole
+  - OCTF3_QCORROCT_100_QT_001.quadrupole
+  - OCTF3_QCORROCT_100_QT_001.skewquad
+  - SXF31_HCOR_003
+  - SXF31_HCOR_003.sextupole
+  - SXF31_HCOR_003.hcorrector
+  - BPM_110
+  - SXD31_VCOR_003
+  - SXD31_VCOR_003.sextupole
+  - SXD31_VCOR_003.vcorrector
+  - QCORR_126
+  - QCORR_127
+  - SXD3_007
+  - OCTF3_QCORROCT_101_QT_001
+  - OCTF3_QCORROCT_101_QT_001.octupole
+  - OCTF3_QCORROCT_101_QT_001.quadrupole
+  - OCTF3_QCORROCT_101_QT_001.skewquad
+  - SXF3_HCOR_005
+  - SXF3_HCOR_005.sextupole
+  - SXF3_HCOR_005.hcorrector
+  - BPM_111
+  - SXD3_VCOR_007
+  - SXD3_VCOR_007.sextupole
+  - SXD3_VCOR_007.vcorrector
+  - QCORR_128
+  - QCORR_129
+  - SXD3_008
+  - OCTF3_QCORROCT_102_QT_001
+  - OCTF3_QCORROCT_102_QT_001.octupole
+  - OCTF3_QCORROCT_102_QT_001.quadrupole
+  - OCTF3_QCORROCT_102_QT_001.skewquad
+  - SXF33_HCOR_005
+  - SXF33_HCOR_005.sextupole
+  - SXF33_HCOR_005.hcorrector
+  - BPM_112
+  - SXD33_VCOR_003
+  - SXD33_VCOR_003.sextupole
+  - SXD33_VCOR_003.vcorrector
+  - QCORR_130
+  - QCORR_131
+  - SXD33_003
+  - SXF33_HCOR_006
+  - SXF33_HCOR_006.sextupole
+  - SXF33_HCOR_006.hcorrector
+  - OCTF3_QCORROCT_103_QT_001
+  - OCTF3_QCORROCT_103_QT_001.octupole
+  - OCTF3_QCORROCT_103_QT_001.quadrupole
+  - OCTF3_QCORROCT_103_QT_001.skewquad
+  - BPM_113
+  - SXD3_VCOR_008
+  - SXD3_VCOR_008.sextupole
+  - SXD3_VCOR_008.vcorrector
+  - QCORR_132
+  - QCORR_133
+  - SXD3_009
+  - SXF3_HCOR_006
+  - SXF3_HCOR_006.sextupole
+  - SXF3_HCOR_006.hcorrector
+  - OCTF3_QCORROCT_104_QT_001
+  - OCTF3_QCORROCT_104_QT_001.octupole
+  - OCTF3_QCORROCT_104_QT_001.quadrupole
+  - OCTF3_QCORROCT_104_QT_001.skewquad
+  - BPM_114
+  - SXD3_VCOR_009
+  - SXD3_VCOR_009.sextupole
+  - SXD3_VCOR_009.vcorrector
+  - QCORR_134
+  - QCORR_135
+  - SXD32_003
+  - SXF32_HCOR_003
+  - SXF32_HCOR_003.sextupole
+  - SXF32_HCOR_003.hcorrector
+  - OCTF3_QCORROCT_105_QT_001
+  - OCTF3_QCORROCT_105_QT_001.octupole
+  - OCTF3_QCORROCT_105_QT_001.quadrupole
+  - OCTF3_QCORROCT_105_QT_001.skewquad
+  - SXD32_VCOR_003
+  - SXD32_VCOR_003.sextupole
+  - SXD32_VCOR_003.vcorrector
+  - BPM_115
+  - SH9_COR_011
+  - SH9_COR_011.sextupole
+  - SH9_COR_011.hcorrector
+  - SH9_COR_011.vcorrector
+  - QCORR_136
+  - SH8_011
+  - QCORR_137
+  - BPM_116
+  - SH7_COR_011
+  - SH7_COR_011.sextupole
+  - SH7_COR_011.hcorrector
+  - SH7_COR_011.vcorrector
+  - OH7_QCORROCT_106_QT_001
+  - OH7_QCORROCT_106_QT_001.octupole
+  - OH7_QCORROCT_106_QT_001.quadrupole
+  - OH7_QCORROCT_106_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH7_QCORROCT_99_QT
+  elements:
+  - OH7_QCORROCT_99_QT_001.octupole
+  - OH7_QCORROCT_99_QT_001.quadrupole
+  - OH7_QCORROCT_99_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF3_QCORROCT_100_QT
+  elements:
+  - OCTF3_QCORROCT_100_QT_001.octupole
+  - OCTF3_QCORROCT_100_QT_001.quadrupole
+  - OCTF3_QCORROCT_100_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF3_QCORROCT_101_QT
+  elements:
+  - OCTF3_QCORROCT_101_QT_001.octupole
+  - OCTF3_QCORROCT_101_QT_001.quadrupole
+  - OCTF3_QCORROCT_101_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF3_QCORROCT_102_QT
+  elements:
+  - OCTF3_QCORROCT_102_QT_001.octupole
+  - OCTF3_QCORROCT_102_QT_001.quadrupole
+  - OCTF3_QCORROCT_102_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF3_QCORROCT_103_QT
+  elements:
+  - OCTF3_QCORROCT_103_QT_001.octupole
+  - OCTF3_QCORROCT_103_QT_001.quadrupole
+  - OCTF3_QCORROCT_103_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF3_QCORROCT_104_QT
+  elements:
+  - OCTF3_QCORROCT_104_QT_001.octupole
+  - OCTF3_QCORROCT_104_QT_001.quadrupole
+  - OCTF3_QCORROCT_104_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF3_QCORROCT_105_QT
+  elements:
+  - OCTF3_QCORROCT_105_QT_001.octupole
+  - OCTF3_QCORROCT_105_QT_001.quadrupole
+  - OCTF3_QCORROCT_105_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH7_QCORROCT_106_QT
+  elements:
+  - OH7_QCORROCT_106_QT_001.octupole
+  - OH7_QCORROCT_106_QT_001.quadrupole
+  - OH7_QCORROCT_106_QT_001.skewquad
+- type: pyaml.arrays.element
+  name: Cell14
+  elements:
+  - BPM_117
+  - BPM_118
+  - OH7_QCORROCT_107_QT_001
+  - OH7_QCORROCT_107_QT_001.octupole
+  - OH7_QCORROCT_107_QT_001.quadrupole
+  - OH7_QCORROCT_107_QT_001.skewquad
+  - SH7_COR_012
+  - SH7_COR_012.sextupole
+  - SH7_COR_012.hcorrector
+  - SH7_COR_012.vcorrector
+  - BPM_119
+  - QCORR_138
+  - SH8_012
+  - QCORR_139
+  - SH9_COR_012
+  - SH9_COR_012.sextupole
+  - SH9_COR_012.hcorrector
+  - SH9_COR_012.vcorrector
+  - SXD41_003
+  - OCTF4_QCORROCT_108_QT_001
+  - OCTF4_QCORROCT_108_QT_001.octupole
+  - OCTF4_QCORROCT_108_QT_001.quadrupole
+  - OCTF4_QCORROCT_108_QT_001.skewquad
+  - SXF41_HCOR_003
+  - SXF41_HCOR_003.sextupole
+  - SXF41_HCOR_003.hcorrector
+  - BPM_120
+  - SXD41_VCOR_003
+  - SXD41_VCOR_003.sextupole
+  - SXD41_VCOR_003.vcorrector
+  - QCORR_140
+  - QCORR_141
+  - SXD4_003
+  - SXF4_HCOR_003
+  - SXF4_HCOR_003.sextupole
+  - SXF4_HCOR_003.hcorrector
+  - OCTF4_QCORROCT_109_QT_001
+  - OCTF4_QCORROCT_109_QT_001.octupole
+  - OCTF4_QCORROCT_109_QT_001.quadrupole
+  - OCTF4_QCORROCT_109_QT_001.skewquad
+  - BPM_121
+  - SXD4_VCOR_003
+  - SXD4_VCOR_003.sextupole
+  - SXD4_VCOR_003.vcorrector
+  - QCORR_142
+  - QCORR_143
+  - SXD42_003
+  - SXF42_HCOR_003
+  - SXF42_HCOR_003.sextupole
+  - SXF42_HCOR_003.hcorrector
+  - OCTF4_QCORROCT_110_QT_001
+  - OCTF4_QCORROCT_110_QT_001.octupole
+  - OCTF4_QCORROCT_110_QT_001.quadrupole
+  - OCTF4_QCORROCT_110_QT_001.skewquad
+  - SXD42_VCOR_003
+  - SXD42_VCOR_003.sextupole
+  - SXD42_VCOR_003.vcorrector
+  - BPM_122
+  - SH12_COR_005
+  - SH12_COR_005.sextupole
+  - SH12_COR_005.hcorrector
+  - SH12_COR_005.vcorrector
+  - QCORR_144
+  - SH11_005
+  - OH11_QCORROCT_111_001
+  - OH11_QCORROCT_111_001.octupole
+  - OH11_QCORROCT_111_001.quadrupole
+  - BPM_123
+  - SH10_COR_005
+  - SH10_COR_005.sextupole
+  - SH10_COR_005.hcorrector
+  - SH10_COR_005.vcorrector
+  - OH10_QCORROCT_112_QT_001
+  - OH10_QCORROCT_112_QT_001.octupole
+  - OH10_QCORROCT_112_QT_001.quadrupole
+  - OH10_QCORROCT_112_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH7_QCORROCT_107_QT
+  elements:
+  - OH7_QCORROCT_107_QT_001.octupole
+  - OH7_QCORROCT_107_QT_001.quadrupole
+  - OH7_QCORROCT_107_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF4_QCORROCT_108_QT
+  elements:
+  - OCTF4_QCORROCT_108_QT_001.octupole
+  - OCTF4_QCORROCT_108_QT_001.quadrupole
+  - OCTF4_QCORROCT_108_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF4_QCORROCT_109_QT
+  elements:
+  - OCTF4_QCORROCT_109_QT_001.octupole
+  - OCTF4_QCORROCT_109_QT_001.quadrupole
+  - OCTF4_QCORROCT_109_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF4_QCORROCT_110_QT
+  elements:
+  - OCTF4_QCORROCT_110_QT_001.octupole
+  - OCTF4_QCORROCT_110_QT_001.quadrupole
+  - OCTF4_QCORROCT_110_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH11_QCORROCT_111
+  elements:
+  - OH11_QCORROCT_111_001.octupole
+  - OH11_QCORROCT_111_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: OH10_QCORROCT_112_QT
+  elements:
+  - OH10_QCORROCT_112_QT_001.octupole
+  - OH10_QCORROCT_112_QT_001.quadrupole
+  - OH10_QCORROCT_112_QT_001.skewquad
+- type: pyaml.arrays.element
+  name: Cell15
+  elements:
+  - BPM_124
+  - BPM_125
+  - OH10_QCORROCT_113_QT_001
+  - OH10_QCORROCT_113_QT_001.octupole
+  - OH10_QCORROCT_113_QT_001.quadrupole
+  - OH10_QCORROCT_113_QT_001.skewquad
+  - SH10_COR_006
+  - SH10_COR_006.sextupole
+  - SH10_COR_006.hcorrector
+  - SH10_COR_006.vcorrector
+  - BPM_126
+  - OH11_QCORROCT_114_001
+  - OH11_QCORROCT_114_001.octupole
+  - OH11_QCORROCT_114_001.quadrupole
+  - SH11_006
+  - QCORR_145
+  - SH12_COR_006
+  - SH12_COR_006.sextupole
+  - SH12_COR_006.hcorrector
+  - SH12_COR_006.vcorrector
+  - SXD51_003
+  - OCTF5_QCORROCT_115_QT_001
+  - OCTF5_QCORROCT_115_QT_001.octupole
+  - OCTF5_QCORROCT_115_QT_001.quadrupole
+  - OCTF5_QCORROCT_115_QT_001.skewquad
+  - SXF51_HCOR_003
+  - SXF51_HCOR_003.sextupole
+  - SXF51_HCOR_003.hcorrector
+  - BPM_127
+  - SXD51_VCOR_003
+  - SXD51_VCOR_003.sextupole
+  - SXD51_VCOR_003.vcorrector
+  - QCORR_146
+  - QCORR_147
+  - SXD5_007
+  - OCTF5_QCORROCT_116_QT_001
+  - OCTF5_QCORROCT_116_QT_001.octupole
+  - OCTF5_QCORROCT_116_QT_001.quadrupole
+  - OCTF5_QCORROCT_116_QT_001.skewquad
+  - SXF5_HCOR_005
+  - SXF5_HCOR_005.sextupole
+  - SXF5_HCOR_005.hcorrector
+  - BPM_128
+  - SXD5_VCOR_007
+  - SXD5_VCOR_007.sextupole
+  - SXD5_VCOR_007.vcorrector
+  - QCORR_148
+  - QCORR_149
+  - SXD5_008
+  - OCTF5_QCORROCT_117_QT_001
+  - OCTF5_QCORROCT_117_QT_001.octupole
+  - OCTF5_QCORROCT_117_QT_001.quadrupole
+  - OCTF5_QCORROCT_117_QT_001.skewquad
+  - SXF53_HCOR_005
+  - SXF53_HCOR_005.sextupole
+  - SXF53_HCOR_005.hcorrector
+  - BPM_129
+  - SXD53_VCOR_003
+  - SXD53_VCOR_003.sextupole
+  - SXD53_VCOR_003.vcorrector
+  - QCORR_150
+  - QCORR_151
+  - SXD53_003
+  - SXF53_HCOR_006
+  - SXF53_HCOR_006.sextupole
+  - SXF53_HCOR_006.hcorrector
+  - OCTF5_QCORROCT_118_QT_001
+  - OCTF5_QCORROCT_118_QT_001.octupole
+  - OCTF5_QCORROCT_118_QT_001.quadrupole
+  - OCTF5_QCORROCT_118_QT_001.skewquad
+  - BPM_130
+  - SXD5_VCOR_008
+  - SXD5_VCOR_008.sextupole
+  - SXD5_VCOR_008.vcorrector
+  - QCORR_152
+  - QCORR_153
+  - SXD5_009
+  - SXF5_HCOR_006
+  - SXF5_HCOR_006.sextupole
+  - SXF5_HCOR_006.hcorrector
+  - OCTF5_QCORROCT_119_QT_001
+  - OCTF5_QCORROCT_119_QT_001.octupole
+  - OCTF5_QCORROCT_119_QT_001.quadrupole
+  - OCTF5_QCORROCT_119_QT_001.skewquad
+  - BPM_131
+  - SXD5_VCOR_009
+  - SXD5_VCOR_009.sextupole
+  - SXD5_VCOR_009.vcorrector
+  - QCORR_154
+  - QCORR_155
+  - SXD52_003
+  - SXF52_HCOR_003
+  - SXF52_HCOR_003.sextupole
+  - SXF52_HCOR_003.hcorrector
+  - OCTF5_QCORROCT_120_QT_001
+  - OCTF5_QCORROCT_120_QT_001.octupole
+  - OCTF5_QCORROCT_120_QT_001.quadrupole
+  - OCTF5_QCORROCT_120_QT_001.skewquad
+  - SXD52_VCOR_003
+  - SXD52_VCOR_003.sextupole
+  - SXD52_VCOR_003.vcorrector
+  - BPM_132
+  - QCORR_156
+  - SH15_VCOR_003
+  - SH15_VCOR_003.sextupole
+  - SH15_VCOR_003.vcorrector
+  - BPM_133
+  - SH14_HCOR_003
+  - SH14_HCOR_003.sextupole
+  - SH14_HCOR_003.hcorrector
+  - OH141_QCORROCT_121_001
+  - OH141_QCORROCT_121_001.octupole
+  - OH141_QCORROCT_121_001.quadrupole
+  - SH13_COR_003
+  - SH13_COR_003.sextupole
+  - SH13_COR_003.hcorrector
+  - SH13_COR_003.vcorrector
+  - OH131_QCORROCT_122_001
+  - OH131_QCORROCT_122_001.octupole
+  - OH131_QCORROCT_122_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: OH10_QCORROCT_113_QT
+  elements:
+  - OH10_QCORROCT_113_QT_001.octupole
+  - OH10_QCORROCT_113_QT_001.quadrupole
+  - OH10_QCORROCT_113_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH11_QCORROCT_114
+  elements:
+  - OH11_QCORROCT_114_001.octupole
+  - OH11_QCORROCT_114_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: OCTF5_QCORROCT_115_QT
+  elements:
+  - OCTF5_QCORROCT_115_QT_001.octupole
+  - OCTF5_QCORROCT_115_QT_001.quadrupole
+  - OCTF5_QCORROCT_115_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF5_QCORROCT_116_QT
+  elements:
+  - OCTF5_QCORROCT_116_QT_001.octupole
+  - OCTF5_QCORROCT_116_QT_001.quadrupole
+  - OCTF5_QCORROCT_116_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF5_QCORROCT_117_QT
+  elements:
+  - OCTF5_QCORROCT_117_QT_001.octupole
+  - OCTF5_QCORROCT_117_QT_001.quadrupole
+  - OCTF5_QCORROCT_117_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF5_QCORROCT_118_QT
+  elements:
+  - OCTF5_QCORROCT_118_QT_001.octupole
+  - OCTF5_QCORROCT_118_QT_001.quadrupole
+  - OCTF5_QCORROCT_118_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF5_QCORROCT_119_QT
+  elements:
+  - OCTF5_QCORROCT_119_QT_001.octupole
+  - OCTF5_QCORROCT_119_QT_001.quadrupole
+  - OCTF5_QCORROCT_119_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF5_QCORROCT_120_QT
+  elements:
+  - OCTF5_QCORROCT_120_QT_001.octupole
+  - OCTF5_QCORROCT_120_QT_001.quadrupole
+  - OCTF5_QCORROCT_120_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH141_QCORROCT_121
+  elements:
+  - OH141_QCORROCT_121_001.octupole
+  - OH141_QCORROCT_121_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: OH131_QCORROCT_122
+  elements:
+  - OH131_QCORROCT_122_001.octupole
+  - OH131_QCORROCT_122_001.quadrupole
+- type: pyaml.arrays.element
+  name: Cell16
+  elements:
+  - BPM_134
+  - BPM_135
+  - OH16_QCORROCT_123_001
+  - OH16_QCORROCT_123_001.octupole
+  - OH16_QCORROCT_123_001.quadrupole
+  - SH16_COR_003
+  - SH16_COR_003.sextupole
+  - SH16_COR_003.hcorrector
+  - SH16_COR_003.vcorrector
+  - SH16_COR_004
+  - SH16_COR_004.sextupole
+  - SH16_COR_004.hcorrector
+  - SH16_COR_004.vcorrector
+  - OH16_QCORROCT_124_001
+  - OH16_QCORROCT_124_001.octupole
+  - OH16_QCORROCT_124_001.quadrupole
+  - BPM_136
+  - BPM_137
+  - OH132_QCORROCT_125_001
+  - OH132_QCORROCT_125_001.octupole
+  - OH132_QCORROCT_125_001.quadrupole
+  - SH13_COR_004
+  - SH13_COR_004.sextupole
+  - SH13_COR_004.hcorrector
+  - SH13_COR_004.vcorrector
+  - OH142_QCORROCT_126_001
+  - OH142_QCORROCT_126_001.octupole
+  - OH142_QCORROCT_126_001.quadrupole
+  - SH14_HCOR_004
+  - SH14_HCOR_004.sextupole
+  - SH14_HCOR_004.hcorrector
+  - BPM_138
+  - SH15_VCOR_004
+  - SH15_VCOR_004.sextupole
+  - SH15_VCOR_004.vcorrector
+  - QCORR_157
+  - SXD52_004
+  - OCTF5_QCORROCT_127_QT_001
+  - OCTF5_QCORROCT_127_QT_001.octupole
+  - OCTF5_QCORROCT_127_QT_001.quadrupole
+  - OCTF5_QCORROCT_127_QT_001.skewquad
+  - SXF52_HCOR_004
+  - SXF52_HCOR_004.sextupole
+  - SXF52_HCOR_004.hcorrector
+  - BPM_139
+  - SXD52_VCOR_004
+  - SXD52_VCOR_004.sextupole
+  - SXD52_VCOR_004.vcorrector
+  - QCORR_158
+  - QCORR_159
+  - SXD5_010
+  - OCTF5_QCORROCT_128_QT_001
+  - OCTF5_QCORROCT_128_QT_001.octupole
+  - OCTF5_QCORROCT_128_QT_001.quadrupole
+  - OCTF5_QCORROCT_128_QT_001.skewquad
+  - SXF5_HCOR_007
+  - SXF5_HCOR_007.sextupole
+  - SXF5_HCOR_007.hcorrector
+  - BPM_140
+  - SXD5_VCOR_010
+  - SXD5_VCOR_010.sextupole
+  - SXD5_VCOR_010.vcorrector
+  - QCORR_160
+  - QCORR_161
+  - SXD5_011
+  - OCTF5_QCORROCT_129_QT_001
+  - OCTF5_QCORROCT_129_QT_001.octupole
+  - OCTF5_QCORROCT_129_QT_001.quadrupole
+  - OCTF5_QCORROCT_129_QT_001.skewquad
+  - SXF53_HCOR_007
+  - SXF53_HCOR_007.sextupole
+  - SXF53_HCOR_007.hcorrector
+  - BPM_141
+  - SXD53_VCOR_004
+  - SXD53_VCOR_004.sextupole
+  - SXD53_VCOR_004.vcorrector
+  - QCORR_162
+  - QCORR_163
+  - SXD53_004
+  - SXF53_HCOR_008
+  - SXF53_HCOR_008.sextupole
+  - SXF53_HCOR_008.hcorrector
+  - OCTF5_QCORROCT_130_QT_001
+  - OCTF5_QCORROCT_130_QT_001.octupole
+  - OCTF5_QCORROCT_130_QT_001.quadrupole
+  - OCTF5_QCORROCT_130_QT_001.skewquad
+  - BPM_142
+  - SXD5_VCOR_011
+  - SXD5_VCOR_011.sextupole
+  - SXD5_VCOR_011.vcorrector
+  - QCORR_164
+  - QCORR_165
+  - SXD5_012
+  - SXF5_HCOR_008
+  - SXF5_HCOR_008.sextupole
+  - SXF5_HCOR_008.hcorrector
+  - OCTF5_QCORROCT_131_QT_001
+  - OCTF5_QCORROCT_131_QT_001.octupole
+  - OCTF5_QCORROCT_131_QT_001.quadrupole
+  - OCTF5_QCORROCT_131_QT_001.skewquad
+  - BPM_143
+  - SXD5_VCOR_012
+  - SXD5_VCOR_012.sextupole
+  - SXD5_VCOR_012.vcorrector
+  - QCORR_166
+  - QCORR_167
+  - SXD51_004
+  - SXF51_HCOR_004
+  - SXF51_HCOR_004.sextupole
+  - SXF51_HCOR_004.hcorrector
+  - OCTF5_QCORROCT_132_QT_001
+  - OCTF5_QCORROCT_132_QT_001.octupole
+  - OCTF5_QCORROCT_132_QT_001.quadrupole
+  - OCTF5_QCORROCT_132_QT_001.skewquad
+  - SXD51_VCOR_004
+  - SXD51_VCOR_004.sextupole
+  - SXD51_VCOR_004.vcorrector
+  - BPM_144
+  - SH12_COR_007
+  - SH12_COR_007.sextupole
+  - SH12_COR_007.hcorrector
+  - SH12_COR_007.vcorrector
+  - QCORR_168
+  - SH11_007
+  - OH11_QCORROCT_133_001
+  - OH11_QCORROCT_133_001.octupole
+  - OH11_QCORROCT_133_001.quadrupole
+  - BPM_145
+  - SH10_COR_007
+  - SH10_COR_007.sextupole
+  - SH10_COR_007.hcorrector
+  - SH10_COR_007.vcorrector
+  - OH10_QCORROCT_134_QT_001
+  - OH10_QCORROCT_134_QT_001.octupole
+  - OH10_QCORROCT_134_QT_001.quadrupole
+  - OH10_QCORROCT_134_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH16_QCORROCT_123
+  elements:
+  - OH16_QCORROCT_123_001.octupole
+  - OH16_QCORROCT_123_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: OH16_QCORROCT_124
+  elements:
+  - OH16_QCORROCT_124_001.octupole
+  - OH16_QCORROCT_124_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: OH132_QCORROCT_125
+  elements:
+  - OH132_QCORROCT_125_001.octupole
+  - OH132_QCORROCT_125_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: OH142_QCORROCT_126
+  elements:
+  - OH142_QCORROCT_126_001.octupole
+  - OH142_QCORROCT_126_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: OCTF5_QCORROCT_127_QT
+  elements:
+  - OCTF5_QCORROCT_127_QT_001.octupole
+  - OCTF5_QCORROCT_127_QT_001.quadrupole
+  - OCTF5_QCORROCT_127_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF5_QCORROCT_128_QT
+  elements:
+  - OCTF5_QCORROCT_128_QT_001.octupole
+  - OCTF5_QCORROCT_128_QT_001.quadrupole
+  - OCTF5_QCORROCT_128_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF5_QCORROCT_129_QT
+  elements:
+  - OCTF5_QCORROCT_129_QT_001.octupole
+  - OCTF5_QCORROCT_129_QT_001.quadrupole
+  - OCTF5_QCORROCT_129_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF5_QCORROCT_130_QT
+  elements:
+  - OCTF5_QCORROCT_130_QT_001.octupole
+  - OCTF5_QCORROCT_130_QT_001.quadrupole
+  - OCTF5_QCORROCT_130_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF5_QCORROCT_131_QT
+  elements:
+  - OCTF5_QCORROCT_131_QT_001.octupole
+  - OCTF5_QCORROCT_131_QT_001.quadrupole
+  - OCTF5_QCORROCT_131_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF5_QCORROCT_132_QT
+  elements:
+  - OCTF5_QCORROCT_132_QT_001.octupole
+  - OCTF5_QCORROCT_132_QT_001.quadrupole
+  - OCTF5_QCORROCT_132_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH11_QCORROCT_133
+  elements:
+  - OH11_QCORROCT_133_001.octupole
+  - OH11_QCORROCT_133_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: OH10_QCORROCT_134_QT
+  elements:
+  - OH10_QCORROCT_134_QT_001.octupole
+  - OH10_QCORROCT_134_QT_001.quadrupole
+  - OH10_QCORROCT_134_QT_001.skewquad
+- type: pyaml.arrays.element
+  name: Cell17
+  elements:
+  - BPM_146
+  - BPM_147
+  - OH10_QCORROCT_135_QT_001
+  - OH10_QCORROCT_135_QT_001.octupole
+  - OH10_QCORROCT_135_QT_001.quadrupole
+  - OH10_QCORROCT_135_QT_001.skewquad
+  - SH10_COR_008
+  - SH10_COR_008.sextupole
+  - SH10_COR_008.hcorrector
+  - SH10_COR_008.vcorrector
+  - BPM_148
+  - OH11_QCORROCT_136_001
+  - OH11_QCORROCT_136_001.octupole
+  - OH11_QCORROCT_136_001.quadrupole
+  - SH11_008
+  - QCORR_169
+  - SH12_COR_008
+  - SH12_COR_008.sextupole
+  - SH12_COR_008.hcorrector
+  - SH12_COR_008.vcorrector
+  - SXD42_004
+  - OCTF4_QCORROCT_137_QT_001
+  - OCTF4_QCORROCT_137_QT_001.octupole
+  - OCTF4_QCORROCT_137_QT_001.quadrupole
+  - OCTF4_QCORROCT_137_QT_001.skewquad
+  - SXF42_HCOR_004
+  - SXF42_HCOR_004.sextupole
+  - SXF42_HCOR_004.hcorrector
+  - BPM_149
+  - SXD42_VCOR_004
+  - SXD42_VCOR_004.sextupole
+  - SXD42_VCOR_004.vcorrector
+  - QCORR_170
+  - QCORR_171
+  - SXD4_004
+  - OCTF4_QCORROCT_138_QT_001
+  - OCTF4_QCORROCT_138_QT_001.octupole
+  - OCTF4_QCORROCT_138_QT_001.quadrupole
+  - OCTF4_QCORROCT_138_QT_001.skewquad
+  - SXF4_HCOR_004
+  - SXF4_HCOR_004.sextupole
+  - SXF4_HCOR_004.hcorrector
+  - BPM_150
+  - SXD4_VCOR_004
+  - SXD4_VCOR_004.sextupole
+  - SXD4_VCOR_004.vcorrector
+  - QCORR_172
+  - QCORR_173
+  - SXD41_004
+  - SXF41_HCOR_004
+  - SXF41_HCOR_004.sextupole
+  - SXF41_HCOR_004.hcorrector
+  - OCTF4_QCORROCT_139_QT_001
+  - OCTF4_QCORROCT_139_QT_001.octupole
+  - OCTF4_QCORROCT_139_QT_001.quadrupole
+  - OCTF4_QCORROCT_139_QT_001.skewquad
+  - SXD41_VCOR_004
+  - SXD41_VCOR_004.sextupole
+  - SXD41_VCOR_004.vcorrector
+  - BPM_151
+  - SH9_COR_013
+  - SH9_COR_013.sextupole
+  - SH9_COR_013.hcorrector
+  - SH9_COR_013.vcorrector
+  - QCORR_174
+  - SH8_013
+  - QCORR_175
+  - BPM_152
+  - SH7_COR_013
+  - SH7_COR_013.sextupole
+  - SH7_COR_013.hcorrector
+  - SH7_COR_013.vcorrector
+  - OH7_QCORROCT_140_QT_001
+  - OH7_QCORROCT_140_QT_001.octupole
+  - OH7_QCORROCT_140_QT_001.quadrupole
+  - OH7_QCORROCT_140_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH10_QCORROCT_135_QT
+  elements:
+  - OH10_QCORROCT_135_QT_001.octupole
+  - OH10_QCORROCT_135_QT_001.quadrupole
+  - OH10_QCORROCT_135_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH11_QCORROCT_136
+  elements:
+  - OH11_QCORROCT_136_001.octupole
+  - OH11_QCORROCT_136_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: OCTF4_QCORROCT_137_QT
+  elements:
+  - OCTF4_QCORROCT_137_QT_001.octupole
+  - OCTF4_QCORROCT_137_QT_001.quadrupole
+  - OCTF4_QCORROCT_137_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF4_QCORROCT_138_QT
+  elements:
+  - OCTF4_QCORROCT_138_QT_001.octupole
+  - OCTF4_QCORROCT_138_QT_001.quadrupole
+  - OCTF4_QCORROCT_138_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF4_QCORROCT_139_QT
+  elements:
+  - OCTF4_QCORROCT_139_QT_001.octupole
+  - OCTF4_QCORROCT_139_QT_001.quadrupole
+  - OCTF4_QCORROCT_139_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH7_QCORROCT_140_QT
+  elements:
+  - OH7_QCORROCT_140_QT_001.octupole
+  - OH7_QCORROCT_140_QT_001.quadrupole
+  - OH7_QCORROCT_140_QT_001.skewquad
+- type: pyaml.arrays.element
+  name: Cell18
+  elements:
+  - BPM_153
+  - BPM_154
+  - OH7_QCORROCT_141_QT_001
+  - OH7_QCORROCT_141_QT_001.octupole
+  - OH7_QCORROCT_141_QT_001.quadrupole
+  - OH7_QCORROCT_141_QT_001.skewquad
+  - SH7_COR_014
+  - SH7_COR_014.sextupole
+  - SH7_COR_014.hcorrector
+  - SH7_COR_014.vcorrector
+  - BPM_155
+  - QCORR_176
+  - SH8_014
+  - QCORR_177
+  - SH9_COR_014
+  - SH9_COR_014.sextupole
+  - SH9_COR_014.hcorrector
+  - SH9_COR_014.vcorrector
+  - SXD32_004
+  - OCTF3_QCORROCT_142_QT_001
+  - OCTF3_QCORROCT_142_QT_001.octupole
+  - OCTF3_QCORROCT_142_QT_001.quadrupole
+  - OCTF3_QCORROCT_142_QT_001.skewquad
+  - SXF32_HCOR_004
+  - SXF32_HCOR_004.sextupole
+  - SXF32_HCOR_004.hcorrector
+  - BPM_156
+  - SXD32_VCOR_004
+  - SXD32_VCOR_004.sextupole
+  - SXD32_VCOR_004.vcorrector
+  - QCORR_178
+  - QCORR_179
+  - SXD3_010
+  - OCTF3_QCORROCT_143_QT_001
+  - OCTF3_QCORROCT_143_QT_001.octupole
+  - OCTF3_QCORROCT_143_QT_001.quadrupole
+  - OCTF3_QCORROCT_143_QT_001.skewquad
+  - SXF3_HCOR_007
+  - SXF3_HCOR_007.sextupole
+  - SXF3_HCOR_007.hcorrector
+  - BPM_157
+  - SXD3_VCOR_010
+  - SXD3_VCOR_010.sextupole
+  - SXD3_VCOR_010.vcorrector
+  - QCORR_180
+  - QCORR_181
+  - SXD3_011
+  - OCTF3_QCORROCT_144_QT_001
+  - OCTF3_QCORROCT_144_QT_001.octupole
+  - OCTF3_QCORROCT_144_QT_001.quadrupole
+  - OCTF3_QCORROCT_144_QT_001.skewquad
+  - SXF33_HCOR_007
+  - SXF33_HCOR_007.sextupole
+  - SXF33_HCOR_007.hcorrector
+  - BPM_158
+  - SXD33_VCOR_004
+  - SXD33_VCOR_004.sextupole
+  - SXD33_VCOR_004.vcorrector
+  - QCORR_182
+  - QCORR_183
+  - SXD33_004
+  - SXF33_HCOR_008
+  - SXF33_HCOR_008.sextupole
+  - SXF33_HCOR_008.hcorrector
+  - OCTF3_QCORROCT_145_QT_001
+  - OCTF3_QCORROCT_145_QT_001.octupole
+  - OCTF3_QCORROCT_145_QT_001.quadrupole
+  - OCTF3_QCORROCT_145_QT_001.skewquad
+  - BPM_159
+  - SXD3_VCOR_011
+  - SXD3_VCOR_011.sextupole
+  - SXD3_VCOR_011.vcorrector
+  - QCORR_184
+  - QCORR_185
+  - SXD3_012
+  - SXF3_HCOR_008
+  - SXF3_HCOR_008.sextupole
+  - SXF3_HCOR_008.hcorrector
+  - OCTF3_QCORROCT_146_QT_001
+  - OCTF3_QCORROCT_146_QT_001.octupole
+  - OCTF3_QCORROCT_146_QT_001.quadrupole
+  - OCTF3_QCORROCT_146_QT_001.skewquad
+  - BPM_160
+  - SXD3_VCOR_012
+  - SXD3_VCOR_012.sextupole
+  - SXD3_VCOR_012.vcorrector
+  - QCORR_186
+  - QCORR_187
+  - SXD31_004
+  - SXF31_HCOR_004
+  - SXF31_HCOR_004.sextupole
+  - SXF31_HCOR_004.hcorrector
+  - OCTF3_QCORROCT_147_QT_001
+  - OCTF3_QCORROCT_147_QT_001.octupole
+  - OCTF3_QCORROCT_147_QT_001.quadrupole
+  - OCTF3_QCORROCT_147_QT_001.skewquad
+  - SXD31_VCOR_004
+  - SXD31_VCOR_004.sextupole
+  - SXD31_VCOR_004.vcorrector
+  - BPM_161
+  - SH9_COR_015
+  - SH9_COR_015.sextupole
+  - SH9_COR_015.hcorrector
+  - SH9_COR_015.vcorrector
+  - QCORR_188
+  - SH8_015
+  - QCORR_189
+  - BPM_162
+  - SH7_COR_015
+  - SH7_COR_015.sextupole
+  - SH7_COR_015.hcorrector
+  - SH7_COR_015.vcorrector
+  - OH7_QCORROCT_148_QT_001
+  - OH7_QCORROCT_148_QT_001.octupole
+  - OH7_QCORROCT_148_QT_001.quadrupole
+  - OH7_QCORROCT_148_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH7_QCORROCT_141_QT
+  elements:
+  - OH7_QCORROCT_141_QT_001.octupole
+  - OH7_QCORROCT_141_QT_001.quadrupole
+  - OH7_QCORROCT_141_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF3_QCORROCT_142_QT
+  elements:
+  - OCTF3_QCORROCT_142_QT_001.octupole
+  - OCTF3_QCORROCT_142_QT_001.quadrupole
+  - OCTF3_QCORROCT_142_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF3_QCORROCT_143_QT
+  elements:
+  - OCTF3_QCORROCT_143_QT_001.octupole
+  - OCTF3_QCORROCT_143_QT_001.quadrupole
+  - OCTF3_QCORROCT_143_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF3_QCORROCT_144_QT
+  elements:
+  - OCTF3_QCORROCT_144_QT_001.octupole
+  - OCTF3_QCORROCT_144_QT_001.quadrupole
+  - OCTF3_QCORROCT_144_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF3_QCORROCT_145_QT
+  elements:
+  - OCTF3_QCORROCT_145_QT_001.octupole
+  - OCTF3_QCORROCT_145_QT_001.quadrupole
+  - OCTF3_QCORROCT_145_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF3_QCORROCT_146_QT
+  elements:
+  - OCTF3_QCORROCT_146_QT_001.octupole
+  - OCTF3_QCORROCT_146_QT_001.quadrupole
+  - OCTF3_QCORROCT_146_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF3_QCORROCT_147_QT
+  elements:
+  - OCTF3_QCORROCT_147_QT_001.octupole
+  - OCTF3_QCORROCT_147_QT_001.quadrupole
+  - OCTF3_QCORROCT_147_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH7_QCORROCT_148_QT
+  elements:
+  - OH7_QCORROCT_148_QT_001.octupole
+  - OH7_QCORROCT_148_QT_001.quadrupole
+  - OH7_QCORROCT_148_QT_001.skewquad
+- type: pyaml.arrays.element
+  name: Cell19
+  elements:
+  - BPM_163
+  - BPM_164
+  - OH7_QCORROCT_149_QT_001
+  - OH7_QCORROCT_149_QT_001.octupole
+  - OH7_QCORROCT_149_QT_001.quadrupole
+  - OH7_QCORROCT_149_QT_001.skewquad
+  - SH7_COR_016
+  - SH7_COR_016.sextupole
+  - SH7_COR_016.hcorrector
+  - SH7_COR_016.vcorrector
+  - BPM_165
+  - QCORR_190
+  - SH8_016
+  - QCORR_191
+  - SH9_COR_016
+  - SH9_COR_016.sextupole
+  - SH9_COR_016.hcorrector
+  - SH9_COR_016.vcorrector
+  - SXD22_004
+  - OCTF2_QCORROCT_150_QT_001
+  - OCTF2_QCORROCT_150_QT_001.octupole
+  - OCTF2_QCORROCT_150_QT_001.quadrupole
+  - OCTF2_QCORROCT_150_QT_001.skewquad
+  - SXF22_HCOR_004
+  - SXF22_HCOR_004.sextupole
+  - SXF22_HCOR_004.hcorrector
+  - BPM_166
+  - SXD22_VCOR_004
+  - SXD22_VCOR_004.sextupole
+  - SXD22_VCOR_004.vcorrector
+  - QCORR_192
+  - QCORR_193
+  - SXD2_004
+  - SXF2_HCOR_004
+  - SXF2_HCOR_004.sextupole
+  - SXF2_HCOR_004.hcorrector
+  - OCTF2_QCORROCT_151_QT_001
+  - OCTF2_QCORROCT_151_QT_001.octupole
+  - OCTF2_QCORROCT_151_QT_001.quadrupole
+  - OCTF2_QCORROCT_151_QT_001.skewquad
+  - BPM_167
+  - SXD2_VCOR_004
+  - SXD2_VCOR_004.sextupole
+  - SXD2_VCOR_004.vcorrector
+  - QCORR_194
+  - QCORR_195
+  - SXD21_004
+  - SXF21_HCOR_004
+  - SXF21_HCOR_004.sextupole
+  - SXF21_HCOR_004.hcorrector
+  - OCTF2_QCORROCT_152_QT_001
+  - OCTF2_QCORROCT_152_QT_001.octupole
+  - OCTF2_QCORROCT_152_QT_001.quadrupole
+  - OCTF2_QCORROCT_152_QT_001.skewquad
+  - SXD21_VCOR_004
+  - SXD21_VCOR_004.sextupole
+  - SXD21_VCOR_004.vcorrector
+  - BPM_168
+  - SH6_COR_007
+  - SH6_COR_007.sextupole
+  - SH6_COR_007.hcorrector
+  - SH6_COR_007.vcorrector
+  - QCORR_196
+  - SH5_007
+  - OH5_QCORROCT_153_001
+  - OH5_QCORROCT_153_001.octupole
+  - OH5_QCORROCT_153_001.quadrupole
+  - BPM_169
+  - SH4_COR_007
+  - SH4_COR_007.sextupole
+  - SH4_COR_007.hcorrector
+  - SH4_COR_007.vcorrector
+  - OH4_QCORROCT_154_QT_001
+  - OH4_QCORROCT_154_QT_001.octupole
+  - OH4_QCORROCT_154_QT_001.quadrupole
+  - OH4_QCORROCT_154_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH7_QCORROCT_149_QT
+  elements:
+  - OH7_QCORROCT_149_QT_001.octupole
+  - OH7_QCORROCT_149_QT_001.quadrupole
+  - OH7_QCORROCT_149_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF2_QCORROCT_150_QT
+  elements:
+  - OCTF2_QCORROCT_150_QT_001.octupole
+  - OCTF2_QCORROCT_150_QT_001.quadrupole
+  - OCTF2_QCORROCT_150_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF2_QCORROCT_151_QT
+  elements:
+  - OCTF2_QCORROCT_151_QT_001.octupole
+  - OCTF2_QCORROCT_151_QT_001.quadrupole
+  - OCTF2_QCORROCT_151_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF2_QCORROCT_152_QT
+  elements:
+  - OCTF2_QCORROCT_152_QT_001.octupole
+  - OCTF2_QCORROCT_152_QT_001.quadrupole
+  - OCTF2_QCORROCT_152_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH5_QCORROCT_153
+  elements:
+  - OH5_QCORROCT_153_001.octupole
+  - OH5_QCORROCT_153_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: OH4_QCORROCT_154_QT
+  elements:
+  - OH4_QCORROCT_154_QT_001.octupole
+  - OH4_QCORROCT_154_QT_001.quadrupole
+  - OH4_QCORROCT_154_QT_001.skewquad
+- type: pyaml.arrays.element
+  name: Cell20
+  elements:
+  - BPM_170
+  - BPM_171
+  - OH4_QCORROCT_155_QT_001
+  - OH4_QCORROCT_155_QT_001.octupole
+  - OH4_QCORROCT_155_QT_001.quadrupole
+  - OH4_QCORROCT_155_QT_001.skewquad
+  - SH4_COR_008
+  - SH4_COR_008.sextupole
+  - SH4_COR_008.hcorrector
+  - SH4_COR_008.vcorrector
+  - BPM_172
+  - OH5_QCORROCT_156_001
+  - OH5_QCORROCT_156_001.octupole
+  - OH5_QCORROCT_156_001.quadrupole
+  - SH5_008
+  - QCORR_197
+  - SH6_COR_008
+  - SH6_COR_008.sextupole
+  - SH6_COR_008.hcorrector
+  - SH6_COR_008.vcorrector
+  - SXD12_004
+  - OCTF1_QCORROCT_157_QT_001
+  - OCTF1_QCORROCT_157_QT_001.octupole
+  - OCTF1_QCORROCT_157_QT_001.quadrupole
+  - OCTF1_QCORROCT_157_QT_001.skewquad
+  - SXF12_HCOR_004
+  - SXF12_HCOR_004.sextupole
+  - SXF12_HCOR_004.hcorrector
+  - BPM_173
+  - SXD12_VCOR_004
+  - SXD12_VCOR_004.sextupole
+  - SXD12_VCOR_004.vcorrector
+  - QCORR_198
+  - QCORR_199
+  - SXD1_010
+  - OCTF1_QCORROCT_158_QT_001
+  - OCTF1_QCORROCT_158_QT_001.octupole
+  - OCTF1_QCORROCT_158_QT_001.quadrupole
+  - OCTF1_QCORROCT_158_QT_001.skewquad
+  - SXF1_HCOR_007
+  - SXF1_HCOR_007.sextupole
+  - SXF1_HCOR_007.hcorrector
+  - BPM_174
+  - SXD1_VCOR_010
+  - SXD1_VCOR_010.sextupole
+  - SXD1_VCOR_010.vcorrector
+  - QCORR_200
+  - QCORR_201
+  - SXD1_011
+  - OCTF1_QCORROCT_159_QT_001
+  - OCTF1_QCORROCT_159_QT_001.octupole
+  - OCTF1_QCORROCT_159_QT_001.quadrupole
+  - OCTF1_QCORROCT_159_QT_001.skewquad
+  - SXF13_HCOR_007
+  - SXF13_HCOR_007.sextupole
+  - SXF13_HCOR_007.hcorrector
+  - BPM_175
+  - SXD13_VCOR_004
+  - SXD13_VCOR_004.sextupole
+  - SXD13_VCOR_004.vcorrector
+  - QCORR_202
+  - QCORR_203
+  - SXD13_004
+  - SXF13_HCOR_008
+  - SXF13_HCOR_008.sextupole
+  - SXF13_HCOR_008.hcorrector
+  - OCTF1_QCORROCT_160_QT_001
+  - OCTF1_QCORROCT_160_QT_001.octupole
+  - OCTF1_QCORROCT_160_QT_001.quadrupole
+  - OCTF1_QCORROCT_160_QT_001.skewquad
+  - BPM_176
+  - SXD1_VCOR_011
+  - SXD1_VCOR_011.sextupole
+  - SXD1_VCOR_011.vcorrector
+  - QCORR_204
+  - QCORR_205
+  - SXD1_012
+  - SXF1_HCOR_008
+  - SXF1_HCOR_008.sextupole
+  - SXF1_HCOR_008.hcorrector
+  - OCTF1_QCORROCT_161_QT_001
+  - OCTF1_QCORROCT_161_QT_001.octupole
+  - OCTF1_QCORROCT_161_QT_001.quadrupole
+  - OCTF1_QCORROCT_161_QT_001.skewquad
+  - BPM_177
+  - SXD1_VCOR_012
+  - SXD1_VCOR_012.sextupole
+  - SXD1_VCOR_012.vcorrector
+  - QCORR_206
+  - QCORR_207
+  - SXD11_004
+  - SXF11_HCOR_004
+  - SXF11_HCOR_004.sextupole
+  - SXF11_HCOR_004.hcorrector
+  - OCTF1_QCORROCT_162_QT_001
+  - OCTF1_QCORROCT_162_QT_001.octupole
+  - OCTF1_QCORROCT_162_QT_001.quadrupole
+  - OCTF1_QCORROCT_162_QT_001.skewquad
+  - SXD11_VCOR_004
+  - SXD11_VCOR_004.sextupole
+  - SXD11_VCOR_004.vcorrector
+  - BPM_178
+  - QCORR_208
+  - SH3_VCOR_004
+  - SH3_VCOR_004.sextupole
+  - SH3_VCOR_004.vcorrector
+  - BPM_179
+  - OH2_QCORROCT_163_001
+  - OH2_QCORROCT_163_001.octupole
+  - OH2_QCORROCT_163_001.quadrupole
+  - SH2_HCOR_004
+  - SH2_HCOR_004.sextupole
+  - SH2_HCOR_004.hcorrector
+  - OH1_QCORROCT_164_QT_001
+  - OH1_QCORROCT_164_QT_001.octupole
+  - OH1_QCORROCT_164_QT_001.quadrupole
+  - OH1_QCORROCT_164_QT_001.skewquad
+  - SH1_COR_004
+  - SH1_COR_004.sextupole
+  - SH1_COR_004.hcorrector
+  - SH1_COR_004.vcorrector
+- type: pyaml.arrays.magnet
+  name: OH4_QCORROCT_155_QT
+  elements:
+  - OH4_QCORROCT_155_QT_001.octupole
+  - OH4_QCORROCT_155_QT_001.quadrupole
+  - OH4_QCORROCT_155_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH5_QCORROCT_156
+  elements:
+  - OH5_QCORROCT_156_001.octupole
+  - OH5_QCORROCT_156_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: OCTF1_QCORROCT_157_QT
+  elements:
+  - OCTF1_QCORROCT_157_QT_001.octupole
+  - OCTF1_QCORROCT_157_QT_001.quadrupole
+  - OCTF1_QCORROCT_157_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF1_QCORROCT_158_QT
+  elements:
+  - OCTF1_QCORROCT_158_QT_001.octupole
+  - OCTF1_QCORROCT_158_QT_001.quadrupole
+  - OCTF1_QCORROCT_158_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF1_QCORROCT_159_QT
+  elements:
+  - OCTF1_QCORROCT_159_QT_001.octupole
+  - OCTF1_QCORROCT_159_QT_001.quadrupole
+  - OCTF1_QCORROCT_159_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF1_QCORROCT_160_QT
+  elements:
+  - OCTF1_QCORROCT_160_QT_001.octupole
+  - OCTF1_QCORROCT_160_QT_001.quadrupole
+  - OCTF1_QCORROCT_160_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF1_QCORROCT_161_QT
+  elements:
+  - OCTF1_QCORROCT_161_QT_001.octupole
+  - OCTF1_QCORROCT_161_QT_001.quadrupole
+  - OCTF1_QCORROCT_161_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OCTF1_QCORROCT_162_QT
+  elements:
+  - OCTF1_QCORROCT_162_QT_001.octupole
+  - OCTF1_QCORROCT_162_QT_001.quadrupole
+  - OCTF1_QCORROCT_162_QT_001.skewquad
+- type: pyaml.arrays.magnet
+  name: OH2_QCORROCT_163
+  elements:
+  - OH2_QCORROCT_163_001.octupole
+  - OH2_QCORROCT_163_001.quadrupole
+- type: pyaml.arrays.magnet
+  name: OH1_QCORROCT_164_QT
+  elements:
+  - OH1_QCORROCT_164_QT_001.octupole
+  - OH1_QCORROCT_164_QT_001.quadrupole
+  - OH1_QCORROCT_164_QT_001.skewquad
+devices:
+- type: pyaml.bpm.bpm
+  name: BPM_001
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN01-SD/DG-EPOS/BPM.02/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN01-SD/DG-EPOS/BPM.02/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH1_COR_001
+  mapping:
+  - [B2, SH1_COR_001.sextupole]
+  - [B0, SH1_COR_001.hcorrector]
+  - [A0, SH1_COR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-SX/SHF.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/SHF.01-CDLH.01/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/SHF.01-CDLV.01/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH1_QCORROCT_1_QT_001
+  mapping:
+  - [B3, OH1_QCORROCT_1_QT_001.octupole]
+  - [B1, OH1_QCORROCT_1_QT_001.quadrupole]
+  - [A1, OH1_QCORROCT_1_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-OCT/OH.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/OH.01-CQLN.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/OH.01-CQLT.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH2_HCOR_001
+  mapping:
+  - [B2, SH2_HCOR_001.sextupole]
+  - [B0, SH2_HCOR_001.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-SX/SHD.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/SHD.02-CDLH.02/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH2_QCORROCT_2_001
+  mapping:
+  - [B3, OH2_QCORROCT_2_001.octupole]
+  - [B1, OH2_QCORROCT_2_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-OCT/OH.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/OH.02-CQLN.02/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_002
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN01-AR/DG-EPOS/BPM.03/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN01-AR/DG-EPOS/BPM.03/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH3_VCOR_001
+  mapping:
+  - [B2, SH3_VCOR_001.sextupole]
+  - [A0, SH3_VCOR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-SX/SHD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/SHD.03-CDLV.02/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_001
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/CQLN.03/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD11_001
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-SX/SCD.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF1_QCORROCT_3_QT_001
+  mapping:
+  - [B3, OCTF1_QCORROCT_3_QT_001.octupole]
+  - [B1, OCTF1_QCORROCT_3_QT_001.quadrupole]
+  - [A1, OCTF1_QCORROCT_3_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-OCT/OC.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/OC.01-CQLN.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/OC.01-CQLT.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF11_HCOR_001
+  mapping:
+  - [B2, SXF11_HCOR_001.sextupole]
+  - [B0, SXF11_HCOR_001.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-SX/SCF.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/SCF.02-CDLH.03/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_003
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN01-AR/DG-EPOS/BPM.04/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN01-AR/DG-EPOS/BPM.04/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD11_VCOR_001
+  mapping:
+  - [B2, SXD11_VCOR_001.sextupole]
+  - [A0, SXD11_VCOR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-SX/SCD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/SCD.03-CDLV.03/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_002
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/CQLN.05/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_003
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/CQLN.06/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD1_001
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-SX/SCD.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF1_QCORROCT_4_QT_001
+  mapping:
+  - [B3, OCTF1_QCORROCT_4_QT_001.octupole]
+  - [B1, OCTF1_QCORROCT_4_QT_001.quadrupole]
+  - [A1, OCTF1_QCORROCT_4_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-OCT/OC.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/OC.02-CQLN.07/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/OC.02-CQLT.03/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF1_HCOR_001
+  mapping:
+  - [B2, SXF1_HCOR_001.sextupole]
+  - [B0, SXF1_HCOR_001.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-SX/SCF.05/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/SCF.05-CDLH.04/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_004
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN01-AR/DG-EPOS/BPM.05/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN01-AR/DG-EPOS/BPM.05/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD1_VCOR_001
+  mapping:
+  - [B2, SXD1_VCOR_001.sextupole]
+  - [A0, SXD1_VCOR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-SX/SCD.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/SCD.06-CDLV.04/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_004
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/CQLN.08/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_005
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/CQLN.09/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD1_002
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-SX/SCD.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF1_QCORROCT_5_QT_001
+  mapping:
+  - [B3, OCTF1_QCORROCT_5_QT_001.octupole]
+  - [B1, OCTF1_QCORROCT_5_QT_001.quadrupole]
+  - [A1, OCTF1_QCORROCT_5_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-OCT/OC.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/OC.03-CQLN.10/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/OC.03-CQLT.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF13_HCOR_001
+  mapping:
+  - [B2, SXF13_HCOR_001.sextupole]
+  - [B0, SXF13_HCOR_001.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-SX/SCF.08/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/SCF.08-CDLH.05/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_005
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN01-AR/DG-EPOS/BPM.06/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN01-AR/DG-EPOS/BPM.06/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD13_VCOR_001
+  mapping:
+  - [B2, SXD13_VCOR_001.sextupole]
+  - [A0, SXD13_VCOR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-SX/SCD.09/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/SCD.09-CDLV.05/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_006
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/CQLN.11/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_007
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/CQLN.12/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD13_001
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-SX/SCD.10/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF13_HCOR_002
+  mapping:
+  - [B2, SXF13_HCOR_002.sextupole]
+  - [B0, SXF13_HCOR_002.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-SX/SCF.11/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/SCF.11-CDLH.06/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF1_QCORROCT_6_QT_001
+  mapping:
+  - [B3, OCTF1_QCORROCT_6_QT_001.octupole]
+  - [B1, OCTF1_QCORROCT_6_QT_001.quadrupole]
+  - [A1, OCTF1_QCORROCT_6_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-OCT/OC.04/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/OC.04-CQLN.13/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/OC.04-CQLT.05/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_006
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN01-AR/DG-EPOS/BPM.07/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN01-AR/DG-EPOS/BPM.07/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD1_VCOR_002
+  mapping:
+  - [B2, SXD1_VCOR_002.sextupole]
+  - [A0, SXD1_VCOR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-SX/SCD.12/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/SCD.12-CDLV.06/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_008
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/CQLN.14/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_009
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/CQLN.15/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD1_003
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-SX/SCD.13/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF1_HCOR_002
+  mapping:
+  - [B2, SXF1_HCOR_002.sextupole]
+  - [B0, SXF1_HCOR_002.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-SX/SCF.14/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/SCF.14-CDLH.07/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF1_QCORROCT_7_QT_001
+  mapping:
+  - [B3, OCTF1_QCORROCT_7_QT_001.octupole]
+  - [B1, OCTF1_QCORROCT_7_QT_001.quadrupole]
+  - [A1, OCTF1_QCORROCT_7_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-OCT/OC.05/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/OC.05-CQLN.16/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/OC.05-CQLT.06/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_007
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN01-AR/DG-EPOS/BPM.08/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN01-AR/DG-EPOS/BPM.08/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD1_VCOR_003
+  mapping:
+  - [B2, SXD1_VCOR_003.sextupole]
+  - [A0, SXD1_VCOR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-SX/SCD.15/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/SCD.15-CDLV.07/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_010
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/CQLN.17/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_011
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/CQLN.18/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD12_001
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-SX/SCD.16/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF12_HCOR_001
+  mapping:
+  - [B2, SXF12_HCOR_001.sextupole]
+  - [B0, SXF12_HCOR_001.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-SX/SCF.17/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/SCF.17-CDLH.08/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF1_QCORROCT_8_QT_001
+  mapping:
+  - [B3, OCTF1_QCORROCT_8_QT_001.octupole]
+  - [B1, OCTF1_QCORROCT_8_QT_001.quadrupole]
+  - [A1, OCTF1_QCORROCT_8_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-OCT/OC.06/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/OC.06-CQLN.19/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/OC.06-CQLT.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXD12_VCOR_001
+  mapping:
+  - [B2, SXD12_VCOR_001.sextupole]
+  - [A0, SXD12_VCOR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-SX/SCD.18/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/SCD.18-CDLV.08/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_008
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN01-AR/DG-EPOS/BPM.09/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN01-AR/DG-EPOS/BPM.09/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH6_COR_001
+  mapping:
+  - [B2, SH6_COR_001.sextupole]
+  - [B0, SH6_COR_001.hcorrector]
+  - [A0, SH6_COR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-SX/SHD.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/SHD.04-CDLH.09/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/SHD.04-CDLV.09/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_012
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/CQLN.20/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SH5_001
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-SX/SHD.05/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OH5_QCORROCT_9_001
+  mapping:
+  - [B3, OH5_QCORROCT_9_001.octupole]
+  - [B1, OH5_QCORROCT_9_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-OCT/OH.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/OH.03-CQLN.21/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_009
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN01-AR/DG-EPOS/BPM.10/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN01-AR/DG-EPOS/BPM.10/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH4_COR_001
+  mapping:
+  - [B2, SH4_COR_001.sextupole]
+  - [B0, SH4_COR_001.hcorrector]
+  - [A0, SH4_COR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-SX/SHF.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/SHF.06-CDLH.10/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/SHF.06-CDLV.10/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH4_QCORROCT_10_QT_001
+  mapping:
+  - [B3, OH4_QCORROCT_10_QT_001.octupole]
+  - [B1, OH4_QCORROCT_10_QT_001.quadrupole]
+  - [A1, OH4_QCORROCT_10_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-OCT/OH.04/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/OH.04-CQLN.22/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN01-AR/EM-COR/OH.04-CQLT.08/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_010
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN02-SD/DG-EPOS/BPM.01/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN02-SD/DG-EPOS/BPM.01/y_pos
+      unit: mm
+- type: pyaml.bpm.bpm
+  name: BPM_011
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN02-SD/DG-EPOS/BPM.02/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN02-SD/DG-EPOS/BPM.02/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH4_QCORROCT_11_QT_001
+  mapping:
+  - [B3, OH4_QCORROCT_11_QT_001.octupole]
+  - [B1, OH4_QCORROCT_11_QT_001.quadrupole]
+  - [A1, OH4_QCORROCT_11_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-OCT/OH.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/OH.01-CQLN.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/OH.01-CQLT.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH4_COR_002
+  mapping:
+  - [B2, SH4_COR_002.sextupole]
+  - [B0, SH4_COR_002.hcorrector]
+  - [A0, SH4_COR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-SX/SHF.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/SHF.01-CDLH.01/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/SHF.01-CDLV.01/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_012
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN02-AR/DG-EPOS/BPM.03/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN02-AR/DG-EPOS/BPM.03/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH5_QCORROCT_12_001
+  mapping:
+  - [B3, OH5_QCORROCT_12_001.octupole]
+  - [B1, OH5_QCORROCT_12_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-OCT/OH.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/OH.02-CQLN.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.sextupole
+  name: SH5_002
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-SX/SHD.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.quadrupole
+  name: QCORR_013
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/CQLN.03/strength
+      unit: 1/m
+- type: pyaml.magnet.cfm_magnet
+  name: SH6_COR_002
+  mapping:
+  - [B2, SH6_COR_002.sextupole]
+  - [B0, SH6_COR_002.hcorrector]
+  - [A0, SH6_COR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-SX/SHD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/SHD.03-CDLH.02/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/SHD.03-CDLV.02/strength
+      unit: '1'
+- type: pyaml.magnet.sextupole
+  name: SXD21_001
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-SX/SCD.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF2_QCORROCT_13_QT_001
+  mapping:
+  - [B3, OCTF2_QCORROCT_13_QT_001.octupole]
+  - [B1, OCTF2_QCORROCT_13_QT_001.quadrupole]
+  - [A1, OCTF2_QCORROCT_13_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-OCT/OC.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/OC.01-CQLN.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/OC.01-CQLT.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF21_HCOR_001
+  mapping:
+  - [B2, SXF21_HCOR_001.sextupole]
+  - [B0, SXF21_HCOR_001.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-SX/SCF.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/SCF.02-CDLH.03/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_013
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN02-AR/DG-EPOS/BPM.04/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN02-AR/DG-EPOS/BPM.04/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD21_VCOR_001
+  mapping:
+  - [B2, SXD21_VCOR_001.sextupole]
+  - [A0, SXD21_VCOR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-SX/SCD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/SCD.03-CDLV.03/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_014
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/CQLN.05/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_015
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/CQLN.06/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD2_001
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-SX/SCD.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF2_QCORROCT_14_QT_001
+  mapping:
+  - [B3, OCTF2_QCORROCT_14_QT_001.octupole]
+  - [B1, OCTF2_QCORROCT_14_QT_001.quadrupole]
+  - [A1, OCTF2_QCORROCT_14_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-OCT/OC.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/OC.02-CQLN.07/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/OC.02-CQLT.03/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF2_HCOR_001
+  mapping:
+  - [B2, SXF2_HCOR_001.sextupole]
+  - [B0, SXF2_HCOR_001.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-SX/SCF.05/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/SCF.05-CDLH.04/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_014
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN02-AR/DG-EPOS/BPM.05/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN02-AR/DG-EPOS/BPM.05/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD2_VCOR_001
+  mapping:
+  - [B2, SXD2_VCOR_001.sextupole]
+  - [A0, SXD2_VCOR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-SX/SCD.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/SCD.06-CDLV.04/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_016
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/CQLN.08/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_017
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/CQLN.09/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD22_001
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-SX/SCD.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF22_HCOR_001
+  mapping:
+  - [B2, SXF22_HCOR_001.sextupole]
+  - [B0, SXF22_HCOR_001.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-SX/SCF.08/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/SCF.08-CDLH.05/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF2_QCORROCT_15_QT_001
+  mapping:
+  - [B3, OCTF2_QCORROCT_15_QT_001.octupole]
+  - [B1, OCTF2_QCORROCT_15_QT_001.quadrupole]
+  - [A1, OCTF2_QCORROCT_15_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-OCT/OC.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/OC.03-CQLN.10/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/OC.03-CQLT.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXD22_VCOR_001
+  mapping:
+  - [B2, SXD22_VCOR_001.sextupole]
+  - [A0, SXD22_VCOR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-SX/SCD.09/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/SCD.09-CDLV.05/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_015
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN02-AR/DG-EPOS/BPM.06/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN02-AR/DG-EPOS/BPM.06/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH9_COR_001
+  mapping:
+  - [B2, SH9_COR_001.sextupole]
+  - [B0, SH9_COR_001.hcorrector]
+  - [A0, SH9_COR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-SX/SHD.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/SHD.04-CDLH.06/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/SHD.04-CDLV.06/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_018
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/CQLN.11/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SH8_001
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-SX/SHD.05/strength
+      unit: 1/m**2
+- type: pyaml.magnet.quadrupole
+  name: QCORR_019
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/CQLN.12/strength
+      unit: 1/m
+- type: pyaml.bpm.bpm
+  name: BPM_016
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN02-AR/DG-EPOS/BPM.07/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN02-AR/DG-EPOS/BPM.07/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH7_COR_001
+  mapping:
+  - [B2, SH7_COR_001.sextupole]
+  - [B0, SH7_COR_001.hcorrector]
+  - [A0, SH7_COR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-SX/SHF.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/SHF.06-CDLH.07/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/SHF.06-CDLV.07/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH7_QCORROCT_16_QT_001
+  mapping:
+  - [B3, OH7_QCORROCT_16_QT_001.octupole]
+  - [B1, OH7_QCORROCT_16_QT_001.quadrupole]
+  - [A1, OH7_QCORROCT_16_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-OCT/OH.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/OH.03-CQLN.13/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN02-AR/EM-COR/OH.03-CQLT.05/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_017
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN03-SD/DG-EPOS/BPM.01/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN03-SD/DG-EPOS/BPM.01/y_pos
+      unit: mm
+- type: pyaml.bpm.bpm
+  name: BPM_018
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN03-SD/DG-EPOS/BPM.02/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN03-SD/DG-EPOS/BPM.02/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH7_QCORROCT_17_QT_001
+  mapping:
+  - [B3, OH7_QCORROCT_17_QT_001.octupole]
+  - [B1, OH7_QCORROCT_17_QT_001.quadrupole]
+  - [A1, OH7_QCORROCT_17_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-OCT/OH.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/OH.01-CQLN.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/OH.01-CQLT.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH7_COR_002
+  mapping:
+  - [B2, SH7_COR_002.sextupole]
+  - [B0, SH7_COR_002.hcorrector]
+  - [A0, SH7_COR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-SX/SHF.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/SHF.01-CDLH.01/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/SHF.01-CDLV.01/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_019
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN03-AR/DG-EPOS/BPM.03/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN03-AR/DG-EPOS/BPM.03/y_pos
+      unit: mm
+- type: pyaml.magnet.quadrupole
+  name: QCORR_020
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/CQLN.02/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SH8_002
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-SX/SHD.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.quadrupole
+  name: QCORR_021
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/CQLN.03/strength
+      unit: 1/m
+- type: pyaml.magnet.cfm_magnet
+  name: SH9_COR_002
+  mapping:
+  - [B2, SH9_COR_002.sextupole]
+  - [B0, SH9_COR_002.hcorrector]
+  - [A0, SH9_COR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-SX/SHD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/SHD.03-CDLH.02/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/SHD.03-CDLV.02/strength
+      unit: '1'
+- type: pyaml.magnet.sextupole
+  name: SXD31_001
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-SX/SCD.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF3_QCORROCT_18_QT_001
+  mapping:
+  - [B3, OCTF3_QCORROCT_18_QT_001.octupole]
+  - [B1, OCTF3_QCORROCT_18_QT_001.quadrupole]
+  - [A1, OCTF3_QCORROCT_18_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-OCT/OC.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/OC.01-CQLN.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/OC.01-CQLT.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF31_HCOR_001
+  mapping:
+  - [B2, SXF31_HCOR_001.sextupole]
+  - [B0, SXF31_HCOR_001.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-SX/SCF.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/SCF.02-CDLH.03/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_020
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN03-AR/DG-EPOS/BPM.04/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN03-AR/DG-EPOS/BPM.04/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD31_VCOR_001
+  mapping:
+  - [B2, SXD31_VCOR_001.sextupole]
+  - [A0, SXD31_VCOR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-SX/SCD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/SCD.03-CDLV.03/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_022
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/CQLN.05/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_023
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/CQLN.06/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD3_001
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-SX/SCD.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF3_QCORROCT_19_QT_001
+  mapping:
+  - [B3, OCTF3_QCORROCT_19_QT_001.octupole]
+  - [B1, OCTF3_QCORROCT_19_QT_001.quadrupole]
+  - [A1, OCTF3_QCORROCT_19_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-OCT/OC.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/OC.02-CQLN.07/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/OC.02-CQLT.03/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF3_HCOR_001
+  mapping:
+  - [B2, SXF3_HCOR_001.sextupole]
+  - [B0, SXF3_HCOR_001.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-SX/SCF.05/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/SCF.05-CDLH.04/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_021
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN03-AR/DG-EPOS/BPM.05/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN03-AR/DG-EPOS/BPM.05/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD3_VCOR_001
+  mapping:
+  - [B2, SXD3_VCOR_001.sextupole]
+  - [A0, SXD3_VCOR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-SX/SCD.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/SCD.06-CDLV.04/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_024
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/CQLN.08/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_025
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/CQLN.09/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD3_002
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-SX/SCD.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF3_QCORROCT_20_QT_001
+  mapping:
+  - [B3, OCTF3_QCORROCT_20_QT_001.octupole]
+  - [B1, OCTF3_QCORROCT_20_QT_001.quadrupole]
+  - [A1, OCTF3_QCORROCT_20_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-OCT/OC.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/OC.03-CQLN.10/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/OC.03-CQLT.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF33_HCOR_001
+  mapping:
+  - [B2, SXF33_HCOR_001.sextupole]
+  - [B0, SXF33_HCOR_001.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-SX/SCF.08/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/SCF.08-CDLH.05/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_022
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN03-AR/DG-EPOS/BPM.06/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN03-AR/DG-EPOS/BPM.06/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD33_VCOR_001
+  mapping:
+  - [B2, SXD33_VCOR_001.sextupole]
+  - [A0, SXD33_VCOR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-SX/SCD.09/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/SCD.09-CDLV.05/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_026
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/CQLN.11/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_027
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/CQLN.12/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD33_001
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-SX/SCD.10/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF33_HCOR_002
+  mapping:
+  - [B2, SXF33_HCOR_002.sextupole]
+  - [B0, SXF33_HCOR_002.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-SX/SCF.11/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/SCF.11-CDLH.06/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF3_QCORROCT_21_QT_001
+  mapping:
+  - [B3, OCTF3_QCORROCT_21_QT_001.octupole]
+  - [B1, OCTF3_QCORROCT_21_QT_001.quadrupole]
+  - [A1, OCTF3_QCORROCT_21_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-OCT/OC.04/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/OC.04-CQLN.13/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/OC.04-CQLT.05/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_023
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN03-AR/DG-EPOS/BPM.07/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN03-AR/DG-EPOS/BPM.07/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD3_VCOR_002
+  mapping:
+  - [B2, SXD3_VCOR_002.sextupole]
+  - [A0, SXD3_VCOR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-SX/SCD.12/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/SCD.12-CDLV.06/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_028
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/CQLN.14/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_029
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/CQLN.15/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD3_003
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-SX/SCD.13/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF3_HCOR_002
+  mapping:
+  - [B2, SXF3_HCOR_002.sextupole]
+  - [B0, SXF3_HCOR_002.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-SX/SCF.14/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/SCF.14-CDLH.07/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF3_QCORROCT_22_QT_001
+  mapping:
+  - [B3, OCTF3_QCORROCT_22_QT_001.octupole]
+  - [B1, OCTF3_QCORROCT_22_QT_001.quadrupole]
+  - [A1, OCTF3_QCORROCT_22_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-OCT/OC.05/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/OC.05-CQLN.16/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/OC.05-CQLT.06/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_024
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN03-AR/DG-EPOS/BPM.08/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN03-AR/DG-EPOS/BPM.08/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD3_VCOR_003
+  mapping:
+  - [B2, SXD3_VCOR_003.sextupole]
+  - [A0, SXD3_VCOR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-SX/SCD.15/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/SCD.15-CDLV.07/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_030
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/CQLN.17/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_031
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/CQLN.18/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD32_001
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-SX/SCD.16/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF32_HCOR_001
+  mapping:
+  - [B2, SXF32_HCOR_001.sextupole]
+  - [B0, SXF32_HCOR_001.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-SX/SCF.17/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/SCF.17-CDLH.08/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF3_QCORROCT_23_QT_001
+  mapping:
+  - [B3, OCTF3_QCORROCT_23_QT_001.octupole]
+  - [B1, OCTF3_QCORROCT_23_QT_001.quadrupole]
+  - [A1, OCTF3_QCORROCT_23_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-OCT/OC.06/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/OC.06-CQLN.19/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/OC.06-CQLT.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXD32_VCOR_001
+  mapping:
+  - [B2, SXD32_VCOR_001.sextupole]
+  - [A0, SXD32_VCOR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-SX/SCD.18/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/SCD.18-CDLV.08/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_025
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN03-AR/DG-EPOS/BPM.09/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN03-AR/DG-EPOS/BPM.09/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH9_COR_003
+  mapping:
+  - [B2, SH9_COR_003.sextupole]
+  - [B0, SH9_COR_003.hcorrector]
+  - [A0, SH9_COR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-SX/SHD.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/SHD.04-CDLH.09/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/SHD.04-CDLV.09/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_032
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/CQLN.20/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SH8_003
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-SX/SHD.05/strength
+      unit: 1/m**2
+- type: pyaml.magnet.quadrupole
+  name: QCORR_033
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/CQLN.21/strength
+      unit: 1/m
+- type: pyaml.bpm.bpm
+  name: BPM_026
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN03-AR/DG-EPOS/BPM.10/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN03-AR/DG-EPOS/BPM.10/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH7_COR_003
+  mapping:
+  - [B2, SH7_COR_003.sextupole]
+  - [B0, SH7_COR_003.hcorrector]
+  - [A0, SH7_COR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-SX/SHF.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/SHF.06-CDLH.10/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/SHF.06-CDLV.10/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH7_QCORROCT_24_QT_001
+  mapping:
+  - [B3, OH7_QCORROCT_24_QT_001.octupole]
+  - [B1, OH7_QCORROCT_24_QT_001.quadrupole]
+  - [A1, OH7_QCORROCT_24_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-OCT/OH.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/OH.02-CQLN.22/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN03-AR/EM-COR/OH.02-CQLT.08/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_027
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN04-SD/DG-EPOS/BPM.01/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN04-SD/DG-EPOS/BPM.01/y_pos
+      unit: mm
+- type: pyaml.bpm.bpm
+  name: BPM_028
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN04-SD/DG-EPOS/BPM.02/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN04-SD/DG-EPOS/BPM.02/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH7_QCORROCT_25_QT_001
+  mapping:
+  - [B3, OH7_QCORROCT_25_QT_001.octupole]
+  - [B1, OH7_QCORROCT_25_QT_001.quadrupole]
+  - [A1, OH7_QCORROCT_25_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-OCT/OH.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/OH.01-CQLN.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/OH.01-CQLT.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH7_COR_004
+  mapping:
+  - [B2, SH7_COR_004.sextupole]
+  - [B0, SH7_COR_004.hcorrector]
+  - [A0, SH7_COR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-SX/SHF.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/SHF.01-CDLH.01/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/SHF.01-CDLV.01/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_029
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN04-AR/DG-EPOS/BPM.03/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN04-AR/DG-EPOS/BPM.03/y_pos
+      unit: mm
+- type: pyaml.magnet.quadrupole
+  name: QCORR_034
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/CQLN.02/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SH8_004
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-SX/SHD.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.quadrupole
+  name: QCORR_035
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/CQLN.03/strength
+      unit: 1/m
+- type: pyaml.magnet.cfm_magnet
+  name: SH9_COR_004
+  mapping:
+  - [B2, SH9_COR_004.sextupole]
+  - [B0, SH9_COR_004.hcorrector]
+  - [A0, SH9_COR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-SX/SHD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/SHD.03-CDLH.02/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/SHD.03-CDLV.02/strength
+      unit: '1'
+- type: pyaml.magnet.sextupole
+  name: SXD41_001
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-SX/SCD.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF4_QCORROCT_26_QT_001
+  mapping:
+  - [B3, OCTF4_QCORROCT_26_QT_001.octupole]
+  - [B1, OCTF4_QCORROCT_26_QT_001.quadrupole]
+  - [A1, OCTF4_QCORROCT_26_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-OCT/OC.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/OC.01-CQLN.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/OC.01-CQLT.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF41_HCOR_001
+  mapping:
+  - [B2, SXF41_HCOR_001.sextupole]
+  - [B0, SXF41_HCOR_001.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-SX/SCF.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/SCF.02-CDLH.03/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_030
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN04-AR/DG-EPOS/BPM.04/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN04-AR/DG-EPOS/BPM.04/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD41_VCOR_001
+  mapping:
+  - [B2, SXD41_VCOR_001.sextupole]
+  - [A0, SXD41_VCOR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-SX/SCD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/SCD.03-CDLV.03/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_036
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/CQLN.05/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_037
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/CQLN.06/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD4_001
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-SX/SCD.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF4_HCOR_001
+  mapping:
+  - [B2, SXF4_HCOR_001.sextupole]
+  - [B0, SXF4_HCOR_001.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-SX/SCF.05/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/SCF.05-CDLH.04/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF4_QCORROCT_27_QT_001
+  mapping:
+  - [B3, OCTF4_QCORROCT_27_QT_001.octupole]
+  - [B1, OCTF4_QCORROCT_27_QT_001.quadrupole]
+  - [A1, OCTF4_QCORROCT_27_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-OCT/OC.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/OC.02-CQLN.07/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/OC.02-CQLT.03/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_031
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN04-AR/DG-EPOS/BPM.05/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN04-AR/DG-EPOS/BPM.05/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD4_VCOR_001
+  mapping:
+  - [B2, SXD4_VCOR_001.sextupole]
+  - [A0, SXD4_VCOR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-SX/SCD.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/SCD.06-CDLV.04/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_038
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/CQLN.08/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_039
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/CQLN.09/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD42_001
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-SX/SCD.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF42_HCOR_001
+  mapping:
+  - [B2, SXF42_HCOR_001.sextupole]
+  - [B0, SXF42_HCOR_001.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-SX/SCF.08/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/SCF.08-CDLH.05/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF4_QCORROCT_28_QT_001
+  mapping:
+  - [B3, OCTF4_QCORROCT_28_QT_001.octupole]
+  - [B1, OCTF4_QCORROCT_28_QT_001.quadrupole]
+  - [A1, OCTF4_QCORROCT_28_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-OCT/OC.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/OC.03-CQLN.10/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/OC.03-CQLT.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXD42_VCOR_001
+  mapping:
+  - [B2, SXD42_VCOR_001.sextupole]
+  - [A0, SXD42_VCOR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-SX/SCD.09/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/SCD.09-CDLV.05/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_032
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN04-AR/DG-EPOS/BPM.06/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN04-AR/DG-EPOS/BPM.06/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH12_COR_001
+  mapping:
+  - [B2, SH12_COR_001.sextupole]
+  - [B0, SH12_COR_001.hcorrector]
+  - [A0, SH12_COR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-SX/SHD.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/SHD.04-CDLH.06/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/SHD.04-CDLV.06/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_040
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/CQLN.11/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SH11_001
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-SX/SHD.05/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OH11_QCORROCT_29_001
+  mapping:
+  - [B3, OH11_QCORROCT_29_001.octupole]
+  - [B1, OH11_QCORROCT_29_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-OCT/OH.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/OH.02-CQLN.12/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_033
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN04-AR/DG-EPOS/BPM.07/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN04-AR/DG-EPOS/BPM.07/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH10_COR_001
+  mapping:
+  - [B2, SH10_COR_001.sextupole]
+  - [B0, SH10_COR_001.hcorrector]
+  - [A0, SH10_COR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-SX/SHF.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/SHF.06-CDLH.07/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/SHF.06-CDLV.07/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH10_QCORROCT_30_QT_001
+  mapping:
+  - [B3, OH10_QCORROCT_30_QT_001.octupole]
+  - [B1, OH10_QCORROCT_30_QT_001.quadrupole]
+  - [A1, OH10_QCORROCT_30_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-OCT/OH.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/OH.03-CQLN.13/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN04-AR/EM-COR/OH.03-CQLT.05/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_034
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN05-SD/DG-EPOS/BPM.01/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN05-SD/DG-EPOS/BPM.01/y_pos
+      unit: mm
+- type: pyaml.bpm.bpm
+  name: BPM_035
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN05-SD/DG-EPOS/BPM.02/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN05-SD/DG-EPOS/BPM.02/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH10_QCORROCT_31_QT_001
+  mapping:
+  - [B3, OH10_QCORROCT_31_QT_001.octupole]
+  - [B1, OH10_QCORROCT_31_QT_001.quadrupole]
+  - [A1, OH10_QCORROCT_31_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-OCT/OH.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/OH.01-CQLN.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/OH.01-CQLT.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH10_COR_002
+  mapping:
+  - [B2, SH10_COR_002.sextupole]
+  - [B0, SH10_COR_002.hcorrector]
+  - [A0, SH10_COR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-SX/SHF.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/SHF.01-CDLH.01/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/SHF.01-CDLV.01/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_036
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN05-AR/DG-EPOS/BPM.03/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN05-AR/DG-EPOS/BPM.03/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH11_QCORROCT_32_001
+  mapping:
+  - [B3, OH11_QCORROCT_32_001.octupole]
+  - [B1, OH11_QCORROCT_32_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-OCT/OH.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/OH.02-CQLN.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.sextupole
+  name: SH11_002
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-SX/SHD.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.quadrupole
+  name: QCORR_041
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/CQLN.03/strength
+      unit: 1/m
+- type: pyaml.magnet.cfm_magnet
+  name: SH12_COR_002
+  mapping:
+  - [B2, SH12_COR_002.sextupole]
+  - [B0, SH12_COR_002.hcorrector]
+  - [A0, SH12_COR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-SX/SHD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/SHD.03-CDLH.02/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/SHD.03-CDLV.02/strength
+      unit: '1'
+- type: pyaml.magnet.sextupole
+  name: SXD51_001
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-SX/SCD.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF5_QCORROCT_33_QT_001
+  mapping:
+  - [B3, OCTF5_QCORROCT_33_QT_001.octupole]
+  - [B1, OCTF5_QCORROCT_33_QT_001.quadrupole]
+  - [A1, OCTF5_QCORROCT_33_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-OCT/OC.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/OC.01-CQLN.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/OC.01-CQLT.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF51_HCOR_001
+  mapping:
+  - [B2, SXF51_HCOR_001.sextupole]
+  - [B0, SXF51_HCOR_001.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-SX/SCF.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/SCF.02-CDLH.03/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_037
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN05-AR/DG-EPOS/BPM.04/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN05-AR/DG-EPOS/BPM.04/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD51_VCOR_001
+  mapping:
+  - [B2, SXD51_VCOR_001.sextupole]
+  - [A0, SXD51_VCOR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-SX/SCD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/SCD.03-CDLV.03/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_042
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/CQLN.05/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_043
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/CQLN.06/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD5_001
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-SX/SCD.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF5_QCORROCT_34_QT_001
+  mapping:
+  - [B3, OCTF5_QCORROCT_34_QT_001.octupole]
+  - [B1, OCTF5_QCORROCT_34_QT_001.quadrupole]
+  - [A1, OCTF5_QCORROCT_34_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-OCT/OC.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/OC.02-CQLN.07/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/OC.02-CQLT.03/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF5_HCOR_001
+  mapping:
+  - [B2, SXF5_HCOR_001.sextupole]
+  - [B0, SXF5_HCOR_001.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-SX/SCF.05/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/SCF.05-CDLH.04/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_038
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN05-AR/DG-EPOS/BPM.05/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN05-AR/DG-EPOS/BPM.05/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD5_VCOR_001
+  mapping:
+  - [B2, SXD5_VCOR_001.sextupole]
+  - [A0, SXD5_VCOR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-SX/SCD.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/SCD.06-CDLV.04/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_044
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/CQLN.08/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_045
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/CQLN.09/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD5_002
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-SX/SCD.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF5_QCORROCT_35_QT_001
+  mapping:
+  - [B3, OCTF5_QCORROCT_35_QT_001.octupole]
+  - [B1, OCTF5_QCORROCT_35_QT_001.quadrupole]
+  - [A1, OCTF5_QCORROCT_35_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-OCT/OC.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/OC.03-CQLN.10/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/OC.03-CQLT.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF53_HCOR_001
+  mapping:
+  - [B2, SXF53_HCOR_001.sextupole]
+  - [B0, SXF53_HCOR_001.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-SX/SCF.08/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/SCF.08-CDLH.05/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_039
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN05-AR/DG-EPOS/BPM.06/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN05-AR/DG-EPOS/BPM.06/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD53_VCOR_001
+  mapping:
+  - [B2, SXD53_VCOR_001.sextupole]
+  - [A0, SXD53_VCOR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-SX/SCD.09/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/SCD.09-CDLV.05/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_046
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/CQLN.11/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_047
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/CQLN.12/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD53_001
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-SX/SCD.10/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF53_HCOR_002
+  mapping:
+  - [B2, SXF53_HCOR_002.sextupole]
+  - [B0, SXF53_HCOR_002.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-SX/SCF.11/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/SCF.11-CDLH.06/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF5_QCORROCT_36_QT_001
+  mapping:
+  - [B3, OCTF5_QCORROCT_36_QT_001.octupole]
+  - [B1, OCTF5_QCORROCT_36_QT_001.quadrupole]
+  - [A1, OCTF5_QCORROCT_36_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-OCT/OC.04/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/OC.04-CQLN.13/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/OC.04-CQLT.05/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_040
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN05-AR/DG-EPOS/BPM.07/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN05-AR/DG-EPOS/BPM.07/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD5_VCOR_002
+  mapping:
+  - [B2, SXD5_VCOR_002.sextupole]
+  - [A0, SXD5_VCOR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-SX/SCD.12/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/SCD.12-CDLV.06/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_048
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/CQLN.14/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_049
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/CQLN.15/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD5_003
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-SX/SCD.13/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF5_HCOR_002
+  mapping:
+  - [B2, SXF5_HCOR_002.sextupole]
+  - [B0, SXF5_HCOR_002.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-SX/SCF.14/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/SCF.14-CDLH.07/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF5_QCORROCT_37_QT_001
+  mapping:
+  - [B3, OCTF5_QCORROCT_37_QT_001.octupole]
+  - [B1, OCTF5_QCORROCT_37_QT_001.quadrupole]
+  - [A1, OCTF5_QCORROCT_37_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-OCT/OC.05/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/OC.05-CQLN.16/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/OC.05-CQLT.06/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_041
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN05-AR/DG-EPOS/BPM.08/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN05-AR/DG-EPOS/BPM.08/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD5_VCOR_003
+  mapping:
+  - [B2, SXD5_VCOR_003.sextupole]
+  - [A0, SXD5_VCOR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-SX/SCD.15/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/SCD.15-CDLV.07/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_050
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/CQLN.17/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_051
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/CQLN.18/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD52_001
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-SX/SCD.16/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF52_HCOR_001
+  mapping:
+  - [B2, SXF52_HCOR_001.sextupole]
+  - [B0, SXF52_HCOR_001.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-SX/SCF.17/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/SCF.17-CDLH.08/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF5_QCORROCT_38_QT_001
+  mapping:
+  - [B3, OCTF5_QCORROCT_38_QT_001.octupole]
+  - [B1, OCTF5_QCORROCT_38_QT_001.quadrupole]
+  - [A1, OCTF5_QCORROCT_38_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-OCT/OC.06/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/OC.06-CQLN.19/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/OC.06-CQLT.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXD52_VCOR_001
+  mapping:
+  - [B2, SXD52_VCOR_001.sextupole]
+  - [A0, SXD52_VCOR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-SX/SCD.18/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/SCD.18-CDLV.08/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_042
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN05-AR/DG-EPOS/BPM.09/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN05-AR/DG-EPOS/BPM.09/y_pos
+      unit: mm
+- type: pyaml.magnet.quadrupole
+  name: QCORR_052
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/CQLN.20/strength
+      unit: 1/m
+- type: pyaml.magnet.cfm_magnet
+  name: SH15_VCOR_001
+  mapping:
+  - [B2, SH15_VCOR_001.sextupole]
+  - [A0, SH15_VCOR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-SX/SHD.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/SHD.04-CDLV.09/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_043
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN05-AR/DG-EPOS/BPM.10/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN05-AR/DG-EPOS/BPM.10/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH14_HCOR_001
+  mapping:
+  - [B2, SH14_HCOR_001.sextupole]
+  - [B0, SH14_HCOR_001.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-SX/SHD.05/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/SHD.05-CDLH.09/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH14_QCORROCT_39_001
+  mapping:
+  - [B3, OH14_QCORROCT_39_001.octupole]
+  - [B1, OH14_QCORROCT_39_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-OCT/OH.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/OH.03-CQLN.21/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH13_COR_001
+  mapping:
+  - [B2, SH13_COR_001.sextupole]
+  - [B0, SH13_COR_001.hcorrector]
+  - [A0, SH13_COR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-SX/SHF.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/SHF.06-CDLH.10/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/SHF.06-CDLV.10/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH13_QCORROCT_40_QT_001
+  mapping:
+  - [B3, OH13_QCORROCT_40_QT_001.octupole]
+  - [B1, OH13_QCORROCT_40_QT_001.quadrupole]
+  - [A1, OH13_QCORROCT_40_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-OCT/OH.04/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/OH.04-CQLN.22/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN05-AR/EM-COR/OH.04-CQLT.08/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_044
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN06-SD/DG-EPOS/BPM.01/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN06-SD/DG-EPOS/BPM.01/y_pos
+      unit: mm
+- type: pyaml.bpm.bpm
+  name: BPM_045
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN06-SD/DG-EPOS/BPM.02/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN06-SD/DG-EPOS/BPM.02/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH16_QCORROCT_41_001
+  mapping:
+  - [B3, OH16_QCORROCT_41_001.octupole]
+  - [B1, OH16_QCORROCT_41_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-SD/EM-OCT/OH.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN06-SD/EM-COR/OH.01-CQLN.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH16_COR_001
+  mapping:
+  - [B2, SH16_COR_001.sextupole]
+  - [B0, SH16_COR_001.hcorrector]
+  - [A0, SH16_COR_001.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-SD/EM-SX/SHD.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-SD/EM-COR/SHD.01-CDLH.01/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN06-SD/EM-COR/SHD.01-CDLV.01/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: SH16_COR_002
+  mapping:
+  - [B2, SH16_COR_002.sextupole]
+  - [B0, SH16_COR_002.hcorrector]
+  - [A0, SH16_COR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-SD/EM-SX/SHD.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-SD/EM-COR/SHD.02-CDLH.02/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN06-SD/EM-COR/SHD.02-CDLV.02/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH16_QCORROCT_42_001
+  mapping:
+  - [B3, OH16_QCORROCT_42_001.octupole]
+  - [B1, OH16_QCORROCT_42_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-SD/EM-OCT/OH.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN06-SD/EM-COR/OH.02-CQLN.02/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_046
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN06-SD/DG-EPOS/BPM.03/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN06-SD/DG-EPOS/BPM.03/y_pos
+      unit: mm
+- type: pyaml.bpm.bpm
+  name: BPM_047
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN06-SD/DG-EPOS/BPM.04/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN06-SD/DG-EPOS/BPM.04/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH13_QCORROCT_43_QT_001
+  mapping:
+  - [B3, OH13_QCORROCT_43_QT_001.octupole]
+  - [B1, OH13_QCORROCT_43_QT_001.quadrupole]
+  - [A1, OH13_QCORROCT_43_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-OCT/OH.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/OH.01-CQLN.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/OH.01-CQLT.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH13_COR_002
+  mapping:
+  - [B2, SH13_COR_002.sextupole]
+  - [B0, SH13_COR_002.hcorrector]
+  - [A0, SH13_COR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-SX/SHF.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/SHF.01-CDLH.03/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/SHF.01-CDLV.03/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH14_QCORROCT_44_001
+  mapping:
+  - [B3, OH14_QCORROCT_44_001.octupole]
+  - [B1, OH14_QCORROCT_44_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-OCT/OH.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/OH.02-CQLN.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH14_HCOR_002
+  mapping:
+  - [B2, SH14_HCOR_002.sextupole]
+  - [B0, SH14_HCOR_002.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-SX/SHD.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/SHD.02-CDLH.04/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_048
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN06-AR/DG-EPOS/BPM.05/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN06-AR/DG-EPOS/BPM.05/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH15_VCOR_002
+  mapping:
+  - [B2, SH15_VCOR_002.sextupole]
+  - [A0, SH15_VCOR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-SX/SHD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/SHD.03-CDLV.04/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_053
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/CQLN.03/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD52_002
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-SX/SCD.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF5_QCORROCT_45_QT_001
+  mapping:
+  - [B3, OCTF5_QCORROCT_45_QT_001.octupole]
+  - [B1, OCTF5_QCORROCT_45_QT_001.quadrupole]
+  - [A1, OCTF5_QCORROCT_45_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-OCT/OC.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/OC.01-CQLN.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/OC.01-CQLT.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF52_HCOR_002
+  mapping:
+  - [B2, SXF52_HCOR_002.sextupole]
+  - [B0, SXF52_HCOR_002.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-SX/SCF.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/SCF.02-CDLH.05/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_049
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN06-AR/DG-EPOS/BPM.06/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN06-AR/DG-EPOS/BPM.06/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD52_VCOR_002
+  mapping:
+  - [B2, SXD52_VCOR_002.sextupole]
+  - [A0, SXD52_VCOR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-SX/SCD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/SCD.03-CDLV.05/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_054
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/CQLN.05/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_055
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/CQLN.06/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD5_004
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-SX/SCD.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF5_QCORROCT_46_QT_001
+  mapping:
+  - [B3, OCTF5_QCORROCT_46_QT_001.octupole]
+  - [B1, OCTF5_QCORROCT_46_QT_001.quadrupole]
+  - [A1, OCTF5_QCORROCT_46_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-OCT/OC.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/OC.02-CQLN.07/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/OC.02-CQLT.03/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF5_HCOR_003
+  mapping:
+  - [B2, SXF5_HCOR_003.sextupole]
+  - [B0, SXF5_HCOR_003.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-SX/SCF.05/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/SCF.05-CDLH.06/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_050
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN06-AR/DG-EPOS/BPM.07/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN06-AR/DG-EPOS/BPM.07/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD5_VCOR_004
+  mapping:
+  - [B2, SXD5_VCOR_004.sextupole]
+  - [A0, SXD5_VCOR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-SX/SCD.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/SCD.06-CDLV.06/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_056
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/CQLN.08/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_057
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/CQLN.09/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD5_005
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-SX/SCD.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF5_QCORROCT_47_QT_001
+  mapping:
+  - [B3, OCTF5_QCORROCT_47_QT_001.octupole]
+  - [B1, OCTF5_QCORROCT_47_QT_001.quadrupole]
+  - [A1, OCTF5_QCORROCT_47_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-OCT/OC.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/OC.03-CQLN.10/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/OC.03-CQLT.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF53_HCOR_003
+  mapping:
+  - [B2, SXF53_HCOR_003.sextupole]
+  - [B0, SXF53_HCOR_003.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-SX/SCF.08/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/SCF.08-CDLH.07/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_051
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN06-AR/DG-EPOS/BPM.08/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN06-AR/DG-EPOS/BPM.08/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD53_VCOR_002
+  mapping:
+  - [B2, SXD53_VCOR_002.sextupole]
+  - [A0, SXD53_VCOR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-SX/SCD.09/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/SCD.09-CDLV.07/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_058
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/CQLN.11/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_059
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/CQLN.12/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD53_002
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-SX/SCD.10/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF53_HCOR_004
+  mapping:
+  - [B2, SXF53_HCOR_004.sextupole]
+  - [B0, SXF53_HCOR_004.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-SX/SCF.11/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/SCF.11-CDLH.08/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF5_QCORROCT_48_QT_001
+  mapping:
+  - [B3, OCTF5_QCORROCT_48_QT_001.octupole]
+  - [B1, OCTF5_QCORROCT_48_QT_001.quadrupole]
+  - [A1, OCTF5_QCORROCT_48_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-OCT/OC.04/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/OC.04-CQLN.13/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/OC.04-CQLT.05/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_052
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN06-AR/DG-EPOS/BPM.09/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN06-AR/DG-EPOS/BPM.09/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD5_VCOR_005
+  mapping:
+  - [B2, SXD5_VCOR_005.sextupole]
+  - [A0, SXD5_VCOR_005.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-SX/SCD.12/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/SCD.12-CDLV.08/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_060
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/CQLN.14/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_061
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/CQLN.15/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD5_006
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-SX/SCD.13/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF5_HCOR_004
+  mapping:
+  - [B2, SXF5_HCOR_004.sextupole]
+  - [B0, SXF5_HCOR_004.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-SX/SCF.14/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/SCF.14-CDLH.09/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF5_QCORROCT_49_QT_001
+  mapping:
+  - [B3, OCTF5_QCORROCT_49_QT_001.octupole]
+  - [B1, OCTF5_QCORROCT_49_QT_001.quadrupole]
+  - [A1, OCTF5_QCORROCT_49_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-OCT/OC.05/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/OC.05-CQLN.16/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/OC.05-CQLT.06/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_053
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN06-AR/DG-EPOS/BPM.10/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN06-AR/DG-EPOS/BPM.10/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD5_VCOR_006
+  mapping:
+  - [B2, SXD5_VCOR_006.sextupole]
+  - [A0, SXD5_VCOR_006.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-SX/SCD.15/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/SCD.15-CDLV.09/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_062
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/CQLN.17/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_063
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/CQLN.18/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD51_002
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-SX/SCD.16/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF51_HCOR_002
+  mapping:
+  - [B2, SXF51_HCOR_002.sextupole]
+  - [B0, SXF51_HCOR_002.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-SX/SCF.17/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/SCF.17-CDLH.10/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF5_QCORROCT_50_QT_001
+  mapping:
+  - [B3, OCTF5_QCORROCT_50_QT_001.octupole]
+  - [B1, OCTF5_QCORROCT_50_QT_001.quadrupole]
+  - [A1, OCTF5_QCORROCT_50_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-OCT/OC.06/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/OC.06-CQLN.19/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/OC.06-CQLT.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXD51_VCOR_002
+  mapping:
+  - [B2, SXD51_VCOR_002.sextupole]
+  - [A0, SXD51_VCOR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-SX/SCD.18/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/SCD.18-CDLV.10/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_054
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN06-AR/DG-EPOS/BPM.11/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN06-AR/DG-EPOS/BPM.11/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH12_COR_003
+  mapping:
+  - [B2, SH12_COR_003.sextupole]
+  - [B0, SH12_COR_003.hcorrector]
+  - [A0, SH12_COR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-SX/SHD.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/SHD.04-CDLH.11/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/SHD.04-CDLV.11/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_064
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/CQLN.20/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SH11_003
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-SX/SHD.05/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OH11_QCORROCT_51_001
+  mapping:
+  - [B3, OH11_QCORROCT_51_001.octupole]
+  - [B1, OH11_QCORROCT_51_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-OCT/OH.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/OH.03-CQLN.21/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_055
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN06-AR/DG-EPOS/BPM.12/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN06-AR/DG-EPOS/BPM.12/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH10_COR_003
+  mapping:
+  - [B2, SH10_COR_003.sextupole]
+  - [B0, SH10_COR_003.hcorrector]
+  - [A0, SH10_COR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-SX/SHF.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/SHF.06-CDLH.12/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/SHF.06-CDLV.12/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH10_QCORROCT_52_QT_001
+  mapping:
+  - [B3, OH10_QCORROCT_52_QT_001.octupole]
+  - [B1, OH10_QCORROCT_52_QT_001.quadrupole]
+  - [A1, OH10_QCORROCT_52_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-OCT/OH.04/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/OH.04-CQLN.22/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN06-AR/EM-COR/OH.04-CQLT.08/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_056
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN07-SD/DG-EPOS/BPM.01/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN07-SD/DG-EPOS/BPM.01/y_pos
+      unit: mm
+- type: pyaml.bpm.bpm
+  name: BPM_057
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN07-SD/DG-EPOS/BPM.02/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN07-SD/DG-EPOS/BPM.02/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH10_QCORROCT_53_QT_001
+  mapping:
+  - [B3, OH10_QCORROCT_53_QT_001.octupole]
+  - [B1, OH10_QCORROCT_53_QT_001.quadrupole]
+  - [A1, OH10_QCORROCT_53_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-OCT/OH.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/OH.01-CQLN.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/OH.01-CQLT.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH10_COR_004
+  mapping:
+  - [B2, SH10_COR_004.sextupole]
+  - [B0, SH10_COR_004.hcorrector]
+  - [A0, SH10_COR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-SX/SHF.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/SHF.01-CDLH.01/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/SHF.01-CDLV.01/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_058
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN07-AR/DG-EPOS/BPM.03/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN07-AR/DG-EPOS/BPM.03/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH11_QCORROCT_54_001
+  mapping:
+  - [B3, OH11_QCORROCT_54_001.octupole]
+  - [B1, OH11_QCORROCT_54_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-OCT/OH.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/OH.02-CQLN.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.sextupole
+  name: SH11_004
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-SX/SHD.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.quadrupole
+  name: QCORR_065
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/CQLN.03/strength
+      unit: 1/m
+- type: pyaml.magnet.cfm_magnet
+  name: SH12_COR_004
+  mapping:
+  - [B2, SH12_COR_004.sextupole]
+  - [B0, SH12_COR_004.hcorrector]
+  - [A0, SH12_COR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-SX/SHD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/SHD.03-CDLH.02/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/SHD.03-CDLV.02/strength
+      unit: '1'
+- type: pyaml.magnet.sextupole
+  name: SXD42_002
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-SX/SCD.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF4_QCORROCT_55_QT_001
+  mapping:
+  - [B3, OCTF4_QCORROCT_55_QT_001.octupole]
+  - [B1, OCTF4_QCORROCT_55_QT_001.quadrupole]
+  - [A1, OCTF4_QCORROCT_55_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-OCT/OC.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/OC.01-CQLN.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/OC.01-CQLT.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF42_HCOR_002
+  mapping:
+  - [B2, SXF42_HCOR_002.sextupole]
+  - [B0, SXF42_HCOR_002.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-SX/SCF.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/SCF.02-CDLH.03/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_059
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN07-AR/DG-EPOS/BPM.04/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN07-AR/DG-EPOS/BPM.04/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD42_VCOR_002
+  mapping:
+  - [B2, SXD42_VCOR_002.sextupole]
+  - [A0, SXD42_VCOR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-SX/SCD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/SCD.03-CDLV.03/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_066
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/CQLN.05/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_067
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/CQLN.06/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD4_002
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-SX/SCD.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF4_QCORROCT_56_QT_001
+  mapping:
+  - [B3, OCTF4_QCORROCT_56_QT_001.octupole]
+  - [B1, OCTF4_QCORROCT_56_QT_001.quadrupole]
+  - [A1, OCTF4_QCORROCT_56_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-OCT/OC.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/OC.02-CQLN.07/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/OC.02-CQLT.03/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF4_HCOR_002
+  mapping:
+  - [B2, SXF4_HCOR_002.sextupole]
+  - [B0, SXF4_HCOR_002.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-SX/SCF.05/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/SCF.05-CDLH.04/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_060
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN07-AR/DG-EPOS/BPM.05/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN07-AR/DG-EPOS/BPM.05/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD4_VCOR_002
+  mapping:
+  - [B2, SXD4_VCOR_002.sextupole]
+  - [A0, SXD4_VCOR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-SX/SCD.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/SCD.06-CDLV.04/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_068
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/CQLN.08/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_069
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/CQLN.09/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD41_002
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-SX/SCD.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF41_HCOR_002
+  mapping:
+  - [B2, SXF41_HCOR_002.sextupole]
+  - [B0, SXF41_HCOR_002.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-SX/SCF.08/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/SCF.08-CDLH.05/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF4_QCORROCT_57_QT_001
+  mapping:
+  - [B3, OCTF4_QCORROCT_57_QT_001.octupole]
+  - [B1, OCTF4_QCORROCT_57_QT_001.quadrupole]
+  - [A1, OCTF4_QCORROCT_57_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-OCT/OC.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/OC.03-CQLN.10/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/OC.03-CQLT.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXD41_VCOR_002
+  mapping:
+  - [B2, SXD41_VCOR_002.sextupole]
+  - [A0, SXD41_VCOR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-SX/SCD.09/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/SCD.09-CDLV.05/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_061
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN07-AR/DG-EPOS/BPM.06/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN07-AR/DG-EPOS/BPM.06/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH9_COR_005
+  mapping:
+  - [B2, SH9_COR_005.sextupole]
+  - [B0, SH9_COR_005.hcorrector]
+  - [A0, SH9_COR_005.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-SX/SHD.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/SHD.04-CDLH.06/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/SHD.04-CDLV.06/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_070
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/CQLN.11/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SH8_005
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-SX/SHD.05/strength
+      unit: 1/m**2
+- type: pyaml.magnet.quadrupole
+  name: QCORR_071
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/CQLN.12/strength
+      unit: 1/m
+- type: pyaml.bpm.bpm
+  name: BPM_062
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN07-AR/DG-EPOS/BPM.07/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN07-AR/DG-EPOS/BPM.07/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH7_COR_005
+  mapping:
+  - [B2, SH7_COR_005.sextupole]
+  - [B0, SH7_COR_005.hcorrector]
+  - [A0, SH7_COR_005.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-SX/SHF.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/SHF.06-CDLH.07/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/SHF.06-CDLV.07/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH7_QCORROCT_58_QT_001
+  mapping:
+  - [B3, OH7_QCORROCT_58_QT_001.octupole]
+  - [B1, OH7_QCORROCT_58_QT_001.quadrupole]
+  - [A1, OH7_QCORROCT_58_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-OCT/OH.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/OH.03-CQLN.13/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN07-AR/EM-COR/OH.03-CQLT.05/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_063
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN08-SD/DG-EPOS/BPM.01/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN08-SD/DG-EPOS/BPM.01/y_pos
+      unit: mm
+- type: pyaml.bpm.bpm
+  name: BPM_064
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN08-SD/DG-EPOS/BPM.02/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN08-SD/DG-EPOS/BPM.02/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH7_QCORROCT_59_QT_001
+  mapping:
+  - [B3, OH7_QCORROCT_59_QT_001.octupole]
+  - [B1, OH7_QCORROCT_59_QT_001.quadrupole]
+  - [A1, OH7_QCORROCT_59_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-OCT/OH.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/OH.01-CQLN.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/OH.01-CQLT.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH7_COR_006
+  mapping:
+  - [B2, SH7_COR_006.sextupole]
+  - [B0, SH7_COR_006.hcorrector]
+  - [A0, SH7_COR_006.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-SX/SHF.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/SHF.01-CDLH.01/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/SHF.01-CDLV.01/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_065
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN08-AR/DG-EPOS/BPM.03/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN08-AR/DG-EPOS/BPM.03/y_pos
+      unit: mm
+- type: pyaml.magnet.quadrupole
+  name: QCORR_072
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/CQLN.02/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SH8_006
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-SX/SHD.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.quadrupole
+  name: QCORR_073
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/CQLN.03/strength
+      unit: 1/m
+- type: pyaml.magnet.cfm_magnet
+  name: SH9_COR_006
+  mapping:
+  - [B2, SH9_COR_006.sextupole]
+  - [B0, SH9_COR_006.hcorrector]
+  - [A0, SH9_COR_006.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-SX/SHD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/SHD.03-CDLH.02/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/SHD.03-CDLV.02/strength
+      unit: '1'
+- type: pyaml.magnet.sextupole
+  name: SXD32_002
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-SX/SCD.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF3_QCORROCT_60_QT_001
+  mapping:
+  - [B3, OCTF3_QCORROCT_60_QT_001.octupole]
+  - [B1, OCTF3_QCORROCT_60_QT_001.quadrupole]
+  - [A1, OCTF3_QCORROCT_60_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-OCT/OC.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/OC.01-CQLN.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/OC.01-CQLT.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF32_HCOR_002
+  mapping:
+  - [B2, SXF32_HCOR_002.sextupole]
+  - [B0, SXF32_HCOR_002.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-SX/SCF.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/SCF.02-CDLH.03/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_066
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN08-AR/DG-EPOS/BPM.04/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN08-AR/DG-EPOS/BPM.04/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD32_VCOR_002
+  mapping:
+  - [B2, SXD32_VCOR_002.sextupole]
+  - [A0, SXD32_VCOR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-SX/SCD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/SCD.03-CDLV.03/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_074
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/CQLN.05/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_075
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/CQLN.06/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD3_004
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-SX/SCD.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF3_QCORROCT_61_QT_001
+  mapping:
+  - [B3, OCTF3_QCORROCT_61_QT_001.octupole]
+  - [B1, OCTF3_QCORROCT_61_QT_001.quadrupole]
+  - [A1, OCTF3_QCORROCT_61_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-OCT/OC.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/OC.02-CQLN.07/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/OC.02-CQLT.03/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF3_HCOR_003
+  mapping:
+  - [B2, SXF3_HCOR_003.sextupole]
+  - [B0, SXF3_HCOR_003.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-SX/SCF.05/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/SCF.05-CDLH.04/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_067
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN08-AR/DG-EPOS/BPM.05/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN08-AR/DG-EPOS/BPM.05/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD3_VCOR_004
+  mapping:
+  - [B2, SXD3_VCOR_004.sextupole]
+  - [A0, SXD3_VCOR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-SX/SCD.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/SCD.06-CDLV.04/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_076
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/CQLN.08/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_077
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/CQLN.09/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD3_005
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-SX/SCD.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF3_QCORROCT_62_QT_001
+  mapping:
+  - [B3, OCTF3_QCORROCT_62_QT_001.octupole]
+  - [B1, OCTF3_QCORROCT_62_QT_001.quadrupole]
+  - [A1, OCTF3_QCORROCT_62_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-OCT/OC.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/OC.03-CQLN.10/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/OC.03-CQLT.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF33_HCOR_003
+  mapping:
+  - [B2, SXF33_HCOR_003.sextupole]
+  - [B0, SXF33_HCOR_003.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-SX/SCF.08/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/SCF.08-CDLH.05/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_068
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN08-AR/DG-EPOS/BPM.06/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN08-AR/DG-EPOS/BPM.06/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD33_VCOR_002
+  mapping:
+  - [B2, SXD33_VCOR_002.sextupole]
+  - [A0, SXD33_VCOR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-SX/SCD.09/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/SCD.09-CDLV.05/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_078
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/CQLN.11/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_079
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/CQLN.12/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD33_002
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-SX/SCD.10/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF33_HCOR_004
+  mapping:
+  - [B2, SXF33_HCOR_004.sextupole]
+  - [B0, SXF33_HCOR_004.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-SX/SCF.11/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/SCF.11-CDLH.06/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF3_QCORROCT_63_QT_001
+  mapping:
+  - [B3, OCTF3_QCORROCT_63_QT_001.octupole]
+  - [B1, OCTF3_QCORROCT_63_QT_001.quadrupole]
+  - [A1, OCTF3_QCORROCT_63_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-OCT/OC.04/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/OC.04-CQLN.13/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/OC.04-CQLT.05/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_069
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN08-AR/DG-EPOS/BPM.07/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN08-AR/DG-EPOS/BPM.07/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD3_VCOR_005
+  mapping:
+  - [B2, SXD3_VCOR_005.sextupole]
+  - [A0, SXD3_VCOR_005.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-SX/SCD.12/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/SCD.12-CDLV.06/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_080
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/CQLN.14/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_081
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/CQLN.15/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD3_006
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-SX/SCD.13/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF3_HCOR_004
+  mapping:
+  - [B2, SXF3_HCOR_004.sextupole]
+  - [B0, SXF3_HCOR_004.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-SX/SCF.14/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/SCF.14-CDLH.07/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF3_QCORROCT_64_QT_001
+  mapping:
+  - [B3, OCTF3_QCORROCT_64_QT_001.octupole]
+  - [B1, OCTF3_QCORROCT_64_QT_001.quadrupole]
+  - [A1, OCTF3_QCORROCT_64_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-OCT/OC.05/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/OC.05-CQLN.16/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/OC.05-CQLT.06/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_070
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN08-AR/DG-EPOS/BPM.08/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN08-AR/DG-EPOS/BPM.08/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD3_VCOR_006
+  mapping:
+  - [B2, SXD3_VCOR_006.sextupole]
+  - [A0, SXD3_VCOR_006.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-SX/SCD.15/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/SCD.15-CDLV.07/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_082
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/CQLN.17/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_083
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/CQLN.18/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD31_002
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-SX/SCD.16/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF31_HCOR_002
+  mapping:
+  - [B2, SXF31_HCOR_002.sextupole]
+  - [B0, SXF31_HCOR_002.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-SX/SCF.17/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/SCF.17-CDLH.08/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF3_QCORROCT_65_QT_001
+  mapping:
+  - [B3, OCTF3_QCORROCT_65_QT_001.octupole]
+  - [B1, OCTF3_QCORROCT_65_QT_001.quadrupole]
+  - [A1, OCTF3_QCORROCT_65_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-OCT/OC.06/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/OC.06-CQLN.19/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/OC.06-CQLT.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXD31_VCOR_002
+  mapping:
+  - [B2, SXD31_VCOR_002.sextupole]
+  - [A0, SXD31_VCOR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-SX/SCD.18/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/SCD.18-CDLV.08/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_071
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN08-AR/DG-EPOS/BPM.09/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN08-AR/DG-EPOS/BPM.09/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH9_COR_007
+  mapping:
+  - [B2, SH9_COR_007.sextupole]
+  - [B0, SH9_COR_007.hcorrector]
+  - [A0, SH9_COR_007.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-SX/SHD.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/SHD.04-CDLH.09/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/SHD.04-CDLV.09/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_084
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/CQLN.20/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SH8_007
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-SX/SHD.05/strength
+      unit: 1/m**2
+- type: pyaml.magnet.quadrupole
+  name: QCORR_085
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/CQLN.21/strength
+      unit: 1/m
+- type: pyaml.bpm.bpm
+  name: BPM_072
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN08-AR/DG-EPOS/BPM.10/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN08-AR/DG-EPOS/BPM.10/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH7_COR_007
+  mapping:
+  - [B2, SH7_COR_007.sextupole]
+  - [B0, SH7_COR_007.hcorrector]
+  - [A0, SH7_COR_007.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-SX/SHF.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/SHF.06-CDLH.10/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/SHF.06-CDLV.10/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH7_QCORROCT_66_QT_001
+  mapping:
+  - [B3, OH7_QCORROCT_66_QT_001.octupole]
+  - [B1, OH7_QCORROCT_66_QT_001.quadrupole]
+  - [A1, OH7_QCORROCT_66_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-OCT/OH.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/OH.02-CQLN.22/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN08-AR/EM-COR/OH.02-CQLT.08/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_073
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN09-SD/DG-EPOS/BPM.01/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN09-SD/DG-EPOS/BPM.01/y_pos
+      unit: mm
+- type: pyaml.bpm.bpm
+  name: BPM_074
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN09-SD/DG-EPOS/BPM.02/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN09-SD/DG-EPOS/BPM.02/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH7_QCORROCT_67_QT_001
+  mapping:
+  - [B3, OH7_QCORROCT_67_QT_001.octupole]
+  - [B1, OH7_QCORROCT_67_QT_001.quadrupole]
+  - [A1, OH7_QCORROCT_67_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-OCT/OH.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/OH.01-CQLN.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/OH.01-CQLT.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH7_COR_008
+  mapping:
+  - [B2, SH7_COR_008.sextupole]
+  - [B0, SH7_COR_008.hcorrector]
+  - [A0, SH7_COR_008.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-SX/SHF.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/SHF.01-CDLH.01/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/SHF.01-CDLV.01/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_075
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN09-AR/DG-EPOS/BPM.03/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN09-AR/DG-EPOS/BPM.03/y_pos
+      unit: mm
+- type: pyaml.magnet.quadrupole
+  name: QCORR_086
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/CQLN.02/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SH8_008
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-SX/SHD.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.quadrupole
+  name: QCORR_087
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/CQLN.03/strength
+      unit: 1/m
+- type: pyaml.magnet.cfm_magnet
+  name: SH9_COR_008
+  mapping:
+  - [B2, SH9_COR_008.sextupole]
+  - [B0, SH9_COR_008.hcorrector]
+  - [A0, SH9_COR_008.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-SX/SHD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/SHD.03-CDLH.02/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/SHD.03-CDLV.02/strength
+      unit: '1'
+- type: pyaml.magnet.sextupole
+  name: SXD22_002
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-SX/SCD.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF2_QCORROCT_68_QT_001
+  mapping:
+  - [B3, OCTF2_QCORROCT_68_QT_001.octupole]
+  - [B1, OCTF2_QCORROCT_68_QT_001.quadrupole]
+  - [A1, OCTF2_QCORROCT_68_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-OCT/OC.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/OC.01-CQLN.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/OC.01-CQLT.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF22_HCOR_002
+  mapping:
+  - [B2, SXF22_HCOR_002.sextupole]
+  - [B0, SXF22_HCOR_002.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-SX/SCF.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/SCF.02-CDLH.03/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_076
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN09-AR/DG-EPOS/BPM.04/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN09-AR/DG-EPOS/BPM.04/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD22_VCOR_002
+  mapping:
+  - [B2, SXD22_VCOR_002.sextupole]
+  - [A0, SXD22_VCOR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-SX/SCD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/SCD.03-CDLV.03/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_088
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/CQLN.05/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_089
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/CQLN.06/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD2_002
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-SX/SCD.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF2_HCOR_002
+  mapping:
+  - [B2, SXF2_HCOR_002.sextupole]
+  - [B0, SXF2_HCOR_002.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-SX/SCF.05/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/SCF.05-CDLH.04/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF2_QCORROCT_69_QT_001
+  mapping:
+  - [B3, OCTF2_QCORROCT_69_QT_001.octupole]
+  - [B1, OCTF2_QCORROCT_69_QT_001.quadrupole]
+  - [A1, OCTF2_QCORROCT_69_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-OCT/OC.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/OC.02-CQLN.07/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/OC.02-CQLT.03/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_077
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN09-AR/DG-EPOS/BPM.05/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN09-AR/DG-EPOS/BPM.05/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD2_VCOR_002
+  mapping:
+  - [B2, SXD2_VCOR_002.sextupole]
+  - [A0, SXD2_VCOR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-SX/SCD.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/SCD.06-CDLV.04/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_090
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/CQLN.08/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_091
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/CQLN.09/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD21_002
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-SX/SCD.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF21_HCOR_002
+  mapping:
+  - [B2, SXF21_HCOR_002.sextupole]
+  - [B0, SXF21_HCOR_002.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-SX/SCF.08/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/SCF.08-CDLH.05/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF2_QCORROCT_70_QT_001
+  mapping:
+  - [B3, OCTF2_QCORROCT_70_QT_001.octupole]
+  - [B1, OCTF2_QCORROCT_70_QT_001.quadrupole]
+  - [A1, OCTF2_QCORROCT_70_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-OCT/OC.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/OC.03-CQLN.10/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/OC.03-CQLT.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXD21_VCOR_002
+  mapping:
+  - [B2, SXD21_VCOR_002.sextupole]
+  - [A0, SXD21_VCOR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-SX/SCD.09/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/SCD.09-CDLV.05/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_078
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN09-AR/DG-EPOS/BPM.06/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN09-AR/DG-EPOS/BPM.06/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH6_COR_003
+  mapping:
+  - [B2, SH6_COR_003.sextupole]
+  - [B0, SH6_COR_003.hcorrector]
+  - [A0, SH6_COR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-SX/SHD.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/SHD.04-CDLH.06/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/SHD.04-CDLV.06/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_092
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/CQLN.11/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SH5_003
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-SX/SHD.05/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OH5_QCORROCT_71_001
+  mapping:
+  - [B3, OH5_QCORROCT_71_001.octupole]
+  - [B1, OH5_QCORROCT_71_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-OCT/OH.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/OH.02-CQLN.12/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_079
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN09-AR/DG-EPOS/BPM.07/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN09-AR/DG-EPOS/BPM.07/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH4_COR_003
+  mapping:
+  - [B2, SH4_COR_003.sextupole]
+  - [B0, SH4_COR_003.hcorrector]
+  - [A0, SH4_COR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-SX/SHF.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/SHF.06-CDLH.07/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/SHF.06-CDLV.07/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH4_QCORROCT_72_QT_001
+  mapping:
+  - [B3, OH4_QCORROCT_72_QT_001.octupole]
+  - [B1, OH4_QCORROCT_72_QT_001.quadrupole]
+  - [A1, OH4_QCORROCT_72_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-OCT/OH.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/OH.03-CQLN.13/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN09-AR/EM-COR/OH.03-CQLT.05/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_080
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN10-SD/DG-EPOS/BPM.01/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN10-SD/DG-EPOS/BPM.01/y_pos
+      unit: mm
+- type: pyaml.bpm.bpm
+  name: BPM_081
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN10-SD/DG-EPOS/BPM.02/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN10-SD/DG-EPOS/BPM.02/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH4_QCORROCT_73_QT_001
+  mapping:
+  - [B3, OH4_QCORROCT_73_QT_001.octupole]
+  - [B1, OH4_QCORROCT_73_QT_001.quadrupole]
+  - [A1, OH4_QCORROCT_73_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-OCT/OH.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/OH.01-CQLN.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/OH.01-CQLT.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH4_COR_004
+  mapping:
+  - [B2, SH4_COR_004.sextupole]
+  - [B0, SH4_COR_004.hcorrector]
+  - [A0, SH4_COR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-SX/SHF.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/SHF.01-CDLH.01/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/SHF.01-CDLV.01/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_082
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN10-AR/DG-EPOS/BPM.03/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN10-AR/DG-EPOS/BPM.03/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH5_QCORROCT_74_001
+  mapping:
+  - [B3, OH5_QCORROCT_74_001.octupole]
+  - [B1, OH5_QCORROCT_74_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-OCT/OH.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/OH.02-CQLN.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.sextupole
+  name: SH5_004
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-SX/SHD.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.quadrupole
+  name: QCORR_093
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/CQLN.03/strength
+      unit: 1/m
+- type: pyaml.magnet.cfm_magnet
+  name: SH6_COR_004
+  mapping:
+  - [B2, SH6_COR_004.sextupole]
+  - [B0, SH6_COR_004.hcorrector]
+  - [A0, SH6_COR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-SX/SHD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/SHD.03-CDLH.02/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/SHD.03-CDLV.02/strength
+      unit: '1'
+- type: pyaml.magnet.sextupole
+  name: SXD12_002
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-SX/SCD.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF1_QCORROCT_75_QT_001
+  mapping:
+  - [B3, OCTF1_QCORROCT_75_QT_001.octupole]
+  - [B1, OCTF1_QCORROCT_75_QT_001.quadrupole]
+  - [A1, OCTF1_QCORROCT_75_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-OCT/OC.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/OC.01-CQLN.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/OC.01-CQLT.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF12_HCOR_002
+  mapping:
+  - [B2, SXF12_HCOR_002.sextupole]
+  - [B0, SXF12_HCOR_002.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-SX/SCF.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/SCF.02-CDLH.03/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_083
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN10-AR/DG-EPOS/BPM.04/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN10-AR/DG-EPOS/BPM.04/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD12_VCOR_002
+  mapping:
+  - [B2, SXD12_VCOR_002.sextupole]
+  - [A0, SXD12_VCOR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-SX/SCD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/SCD.03-CDLV.03/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_094
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/CQLN.05/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_095
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/CQLN.06/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD1_004
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-SX/SCD.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF1_QCORROCT_76_QT_001
+  mapping:
+  - [B3, OCTF1_QCORROCT_76_QT_001.octupole]
+  - [B1, OCTF1_QCORROCT_76_QT_001.quadrupole]
+  - [A1, OCTF1_QCORROCT_76_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-OCT/OC.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/OC.02-CQLN.07/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/OC.02-CQLT.03/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF1_HCOR_003
+  mapping:
+  - [B2, SXF1_HCOR_003.sextupole]
+  - [B0, SXF1_HCOR_003.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-SX/SCF.05/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/SCF.05-CDLH.04/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_084
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN10-AR/DG-EPOS/BPM.05/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN10-AR/DG-EPOS/BPM.05/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD1_VCOR_004
+  mapping:
+  - [B2, SXD1_VCOR_004.sextupole]
+  - [A0, SXD1_VCOR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-SX/SCD.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/SCD.06-CDLV.04/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_096
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/CQLN.08/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_097
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/CQLN.09/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD1_005
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-SX/SCD.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF1_QCORROCT_77_QT_001
+  mapping:
+  - [B3, OCTF1_QCORROCT_77_QT_001.octupole]
+  - [B1, OCTF1_QCORROCT_77_QT_001.quadrupole]
+  - [A1, OCTF1_QCORROCT_77_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-OCT/OC.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/OC.03-CQLN.10/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/OC.03-CQLT.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF13_HCOR_003
+  mapping:
+  - [B2, SXF13_HCOR_003.sextupole]
+  - [B0, SXF13_HCOR_003.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-SX/SCF.08/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/SCF.08-CDLH.05/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_085
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN10-AR/DG-EPOS/BPM.06/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN10-AR/DG-EPOS/BPM.06/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD13_VCOR_002
+  mapping:
+  - [B2, SXD13_VCOR_002.sextupole]
+  - [A0, SXD13_VCOR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-SX/SCD.09/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/SCD.09-CDLV.05/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_098
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/CQLN.11/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_099
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/CQLN.12/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD13_002
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-SX/SCD.10/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF13_HCOR_004
+  mapping:
+  - [B2, SXF13_HCOR_004.sextupole]
+  - [B0, SXF13_HCOR_004.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-SX/SCF.11/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/SCF.11-CDLH.06/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF1_QCORROCT_78_QT_001
+  mapping:
+  - [B3, OCTF1_QCORROCT_78_QT_001.octupole]
+  - [B1, OCTF1_QCORROCT_78_QT_001.quadrupole]
+  - [A1, OCTF1_QCORROCT_78_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-OCT/OC.04/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/OC.04-CQLN.13/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/OC.04-CQLT.05/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_086
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN10-AR/DG-EPOS/BPM.07/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN10-AR/DG-EPOS/BPM.07/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD1_VCOR_005
+  mapping:
+  - [B2, SXD1_VCOR_005.sextupole]
+  - [A0, SXD1_VCOR_005.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-SX/SCD.12/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/SCD.12-CDLV.06/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_100
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/CQLN.14/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_101
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/CQLN.15/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD1_006
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-SX/SCD.13/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF1_HCOR_004
+  mapping:
+  - [B2, SXF1_HCOR_004.sextupole]
+  - [B0, SXF1_HCOR_004.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-SX/SCF.14/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/SCF.14-CDLH.07/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF1_QCORROCT_79_QT_001
+  mapping:
+  - [B3, OCTF1_QCORROCT_79_QT_001.octupole]
+  - [B1, OCTF1_QCORROCT_79_QT_001.quadrupole]
+  - [A1, OCTF1_QCORROCT_79_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-OCT/OC.05/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/OC.05-CQLN.16/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/OC.05-CQLT.06/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_087
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN10-AR/DG-EPOS/BPM.08/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN10-AR/DG-EPOS/BPM.08/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD1_VCOR_006
+  mapping:
+  - [B2, SXD1_VCOR_006.sextupole]
+  - [A0, SXD1_VCOR_006.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-SX/SCD.15/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/SCD.15-CDLV.07/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_102
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/CQLN.17/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_103
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/CQLN.18/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD11_002
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-SX/SCD.16/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF11_HCOR_002
+  mapping:
+  - [B2, SXF11_HCOR_002.sextupole]
+  - [B0, SXF11_HCOR_002.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-SX/SCF.17/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/SCF.17-CDLH.08/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF1_QCORROCT_80_QT_001
+  mapping:
+  - [B3, OCTF1_QCORROCT_80_QT_001.octupole]
+  - [B1, OCTF1_QCORROCT_80_QT_001.quadrupole]
+  - [A1, OCTF1_QCORROCT_80_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-OCT/OC.06/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/OC.06-CQLN.19/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/OC.06-CQLT.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXD11_VCOR_002
+  mapping:
+  - [B2, SXD11_VCOR_002.sextupole]
+  - [A0, SXD11_VCOR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-SX/SCD.18/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/SCD.18-CDLV.08/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_088
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN10-AR/DG-EPOS/BPM.09/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN10-AR/DG-EPOS/BPM.09/y_pos
+      unit: mm
+- type: pyaml.magnet.quadrupole
+  name: QCORR_104
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/CQLN.20/strength
+      unit: 1/m
+- type: pyaml.magnet.cfm_magnet
+  name: SH3_VCOR_002
+  mapping:
+  - [B2, SH3_VCOR_002.sextupole]
+  - [A0, SH3_VCOR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-SX/SHD.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/SHD.04-CDLV.09/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_089
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN10-AR/DG-EPOS/BPM.10/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN10-AR/DG-EPOS/BPM.10/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH2_QCORROCT_81_001
+  mapping:
+  - [B3, OH2_QCORROCT_81_001.octupole]
+  - [B1, OH2_QCORROCT_81_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-OCT/OH.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/OH.03-CQLN.21/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH2_HCOR_002
+  mapping:
+  - [B2, SH2_HCOR_002.sextupole]
+  - [B0, SH2_HCOR_002.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-SX/SHD.05/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/SHD.05-CDLH.09/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH1_QCORROCT_82_QT_001
+  mapping:
+  - [B3, OH1_QCORROCT_82_QT_001.octupole]
+  - [B1, OH1_QCORROCT_82_QT_001.quadrupole]
+  - [A1, OH1_QCORROCT_82_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-OCT/OH.04/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/OH.04-CQLN.22/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/OH.04-CQLT.08/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH1_COR_002
+  mapping:
+  - [B2, SH1_COR_002.sextupole]
+  - [B0, SH1_COR_002.hcorrector]
+  - [A0, SH1_COR_002.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-SX/SHF.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/SHF.06-CDLH.10/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN10-AR/EM-COR/SHF.06-CDLV.10/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_090
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN11-SD/DG-EPOS/BPM.01/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN11-SD/DG-EPOS/BPM.01/y_pos
+      unit: mm
+- type: pyaml.bpm.bpm
+  name: BPM_091
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN11-SD/DG-EPOS/BPM.02/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN11-SD/DG-EPOS/BPM.02/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH1_COR_003
+  mapping:
+  - [B2, SH1_COR_003.sextupole]
+  - [B0, SH1_COR_003.hcorrector]
+  - [A0, SH1_COR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-SX/SHF.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/SHF.01-CDLH.01/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/SHF.01-CDLV.01/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH1_QCORROCT_83_QT_001
+  mapping:
+  - [B3, OH1_QCORROCT_83_QT_001.octupole]
+  - [B1, OH1_QCORROCT_83_QT_001.quadrupole]
+  - [A1, OH1_QCORROCT_83_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-OCT/OH.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/OH.01-CQLN.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/OH.01-CQLT.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH2_HCOR_003
+  mapping:
+  - [B2, SH2_HCOR_003.sextupole]
+  - [B0, SH2_HCOR_003.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-SX/SHD.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/SHD.02-CDLH.02/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH2_QCORROCT_84_001
+  mapping:
+  - [B3, OH2_QCORROCT_84_001.octupole]
+  - [B1, OH2_QCORROCT_84_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-OCT/OH.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/OH.02-CQLN.02/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_092
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN11-AR/DG-EPOS/BPM.03/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN11-AR/DG-EPOS/BPM.03/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH3_VCOR_003
+  mapping:
+  - [B2, SH3_VCOR_003.sextupole]
+  - [A0, SH3_VCOR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-SX/SHD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/SHD.03-CDLV.02/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_105
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/CQLN.03/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD11_003
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-SX/SCD.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF1_QCORROCT_85_QT_001
+  mapping:
+  - [B3, OCTF1_QCORROCT_85_QT_001.octupole]
+  - [B1, OCTF1_QCORROCT_85_QT_001.quadrupole]
+  - [A1, OCTF1_QCORROCT_85_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-OCT/OC.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/OC.01-CQLN.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/OC.01-CQLT.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF11_HCOR_003
+  mapping:
+  - [B2, SXF11_HCOR_003.sextupole]
+  - [B0, SXF11_HCOR_003.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-SX/SCF.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/SCF.02-CDLH.03/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_093
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN11-AR/DG-EPOS/BPM.04/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN11-AR/DG-EPOS/BPM.04/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD11_VCOR_003
+  mapping:
+  - [B2, SXD11_VCOR_003.sextupole]
+  - [A0, SXD11_VCOR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-SX/SCD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/SCD.03-CDLV.03/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_106
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/CQLN.05/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_107
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/CQLN.06/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD1_007
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-SX/SCD.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF1_QCORROCT_86_QT_001
+  mapping:
+  - [B3, OCTF1_QCORROCT_86_QT_001.octupole]
+  - [B1, OCTF1_QCORROCT_86_QT_001.quadrupole]
+  - [A1, OCTF1_QCORROCT_86_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-OCT/OC.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/OC.02-CQLN.07/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/OC.02-CQLT.03/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF1_HCOR_005
+  mapping:
+  - [B2, SXF1_HCOR_005.sextupole]
+  - [B0, SXF1_HCOR_005.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-SX/SCF.05/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/SCF.05-CDLH.04/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_094
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN11-AR/DG-EPOS/BPM.05/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN11-AR/DG-EPOS/BPM.05/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD1_VCOR_007
+  mapping:
+  - [B2, SXD1_VCOR_007.sextupole]
+  - [A0, SXD1_VCOR_007.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-SX/SCD.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/SCD.06-CDLV.04/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_108
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/CQLN.08/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_109
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/CQLN.09/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD1_008
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-SX/SCD.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF1_QCORROCT_87_QT_001
+  mapping:
+  - [B3, OCTF1_QCORROCT_87_QT_001.octupole]
+  - [B1, OCTF1_QCORROCT_87_QT_001.quadrupole]
+  - [A1, OCTF1_QCORROCT_87_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-OCT/OC.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/OC.03-CQLN.10/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/OC.03-CQLT.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF13_HCOR_005
+  mapping:
+  - [B2, SXF13_HCOR_005.sextupole]
+  - [B0, SXF13_HCOR_005.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-SX/SCF.08/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/SCF.08-CDLH.05/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_095
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN11-AR/DG-EPOS/BPM.06/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN11-AR/DG-EPOS/BPM.06/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD13_VCOR_003
+  mapping:
+  - [B2, SXD13_VCOR_003.sextupole]
+  - [A0, SXD13_VCOR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-SX/SCD.09/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/SCD.09-CDLV.05/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_110
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/CQLN.11/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_111
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/CQLN.12/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD13_003
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-SX/SCD.10/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF13_HCOR_006
+  mapping:
+  - [B2, SXF13_HCOR_006.sextupole]
+  - [B0, SXF13_HCOR_006.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-SX/SCF.11/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/SCF.11-CDLH.06/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF1_QCORROCT_88_QT_001
+  mapping:
+  - [B3, OCTF1_QCORROCT_88_QT_001.octupole]
+  - [B1, OCTF1_QCORROCT_88_QT_001.quadrupole]
+  - [A1, OCTF1_QCORROCT_88_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-OCT/OC.04/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/OC.04-CQLN.13/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/OC.04-CQLT.05/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_096
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN11-AR/DG-EPOS/BPM.07/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN11-AR/DG-EPOS/BPM.07/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD1_VCOR_008
+  mapping:
+  - [B2, SXD1_VCOR_008.sextupole]
+  - [A0, SXD1_VCOR_008.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-SX/SCD.12/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/SCD.12-CDLV.06/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_112
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/CQLN.14/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_113
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/CQLN.15/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD1_009
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-SX/SCD.13/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF1_HCOR_006
+  mapping:
+  - [B2, SXF1_HCOR_006.sextupole]
+  - [B0, SXF1_HCOR_006.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-SX/SCF.14/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/SCF.14-CDLH.07/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF1_QCORROCT_89_QT_001
+  mapping:
+  - [B3, OCTF1_QCORROCT_89_QT_001.octupole]
+  - [B1, OCTF1_QCORROCT_89_QT_001.quadrupole]
+  - [A1, OCTF1_QCORROCT_89_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-OCT/OC.05/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/OC.05-CQLN.16/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/OC.05-CQLT.06/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_097
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN11-AR/DG-EPOS/BPM.08/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN11-AR/DG-EPOS/BPM.08/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD1_VCOR_009
+  mapping:
+  - [B2, SXD1_VCOR_009.sextupole]
+  - [A0, SXD1_VCOR_009.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-SX/SCD.15/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/SCD.15-CDLV.07/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_114
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/CQLN.17/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_115
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/CQLN.18/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD12_003
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-SX/SCD.16/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF12_HCOR_003
+  mapping:
+  - [B2, SXF12_HCOR_003.sextupole]
+  - [B0, SXF12_HCOR_003.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-SX/SCF.17/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/SCF.17-CDLH.08/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF1_QCORROCT_90_QT_001
+  mapping:
+  - [B3, OCTF1_QCORROCT_90_QT_001.octupole]
+  - [B1, OCTF1_QCORROCT_90_QT_001.quadrupole]
+  - [A1, OCTF1_QCORROCT_90_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-OCT/OC.06/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/OC.06-CQLN.19/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/OC.06-CQLT.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXD12_VCOR_003
+  mapping:
+  - [B2, SXD12_VCOR_003.sextupole]
+  - [A0, SXD12_VCOR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-SX/SCD.18/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/SCD.18-CDLV.08/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_098
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN11-AR/DG-EPOS/BPM.09/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN11-AR/DG-EPOS/BPM.09/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH6_COR_005
+  mapping:
+  - [B2, SH6_COR_005.sextupole]
+  - [B0, SH6_COR_005.hcorrector]
+  - [A0, SH6_COR_005.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-SX/SHD.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/SHD.04-CDLH.09/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/SHD.04-CDLV.09/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_116
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/CQLN.20/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SH5_005
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-SX/SHD.05/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OH5_QCORROCT_91_001
+  mapping:
+  - [B3, OH5_QCORROCT_91_001.octupole]
+  - [B1, OH5_QCORROCT_91_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-OCT/OH.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/OH.03-CQLN.21/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_099
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN11-AR/DG-EPOS/BPM.10/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN11-AR/DG-EPOS/BPM.10/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH4_COR_005
+  mapping:
+  - [B2, SH4_COR_005.sextupole]
+  - [B0, SH4_COR_005.hcorrector]
+  - [A0, SH4_COR_005.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-SX/SHF.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/SHF.06-CDLH.10/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/SHF.06-CDLV.10/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH4_QCORROCT_92_QT_001
+  mapping:
+  - [B3, OH4_QCORROCT_92_QT_001.octupole]
+  - [B1, OH4_QCORROCT_92_QT_001.quadrupole]
+  - [A1, OH4_QCORROCT_92_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-OCT/OH.04/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/OH.04-CQLN.22/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN11-AR/EM-COR/OH.04-CQLT.08/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_100
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN12-SD/DG-EPOS/BPM.01/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN12-SD/DG-EPOS/BPM.01/y_pos
+      unit: mm
+- type: pyaml.bpm.bpm
+  name: BPM_101
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN12-SD/DG-EPOS/BPM.02/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN12-SD/DG-EPOS/BPM.02/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH4_QCORROCT_93_QT_001
+  mapping:
+  - [B3, OH4_QCORROCT_93_QT_001.octupole]
+  - [B1, OH4_QCORROCT_93_QT_001.quadrupole]
+  - [A1, OH4_QCORROCT_93_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-OCT/OH.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/OH.01-CQLN.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/OH.01-CQLT.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH4_COR_006
+  mapping:
+  - [B2, SH4_COR_006.sextupole]
+  - [B0, SH4_COR_006.hcorrector]
+  - [A0, SH4_COR_006.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-SX/SHF.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/SHF.01-CDLH.01/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/SHF.01-CDLV.01/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_102
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN12-AR/DG-EPOS/BPM.03/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN12-AR/DG-EPOS/BPM.03/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH5_QCORROCT_94_001
+  mapping:
+  - [B3, OH5_QCORROCT_94_001.octupole]
+  - [B1, OH5_QCORROCT_94_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-OCT/OH.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/OH.02-CQLN.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.sextupole
+  name: SH5_006
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-SX/SHD.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.quadrupole
+  name: QCORR_117
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/CQLN.03/strength
+      unit: 1/m
+- type: pyaml.magnet.cfm_magnet
+  name: SH6_COR_006
+  mapping:
+  - [B2, SH6_COR_006.sextupole]
+  - [B0, SH6_COR_006.hcorrector]
+  - [A0, SH6_COR_006.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-SX/SHD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/SHD.03-CDLH.02/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/SHD.03-CDLV.02/strength
+      unit: '1'
+- type: pyaml.magnet.sextupole
+  name: SXD21_003
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-SX/SCD.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF2_QCORROCT_95_QT_001
+  mapping:
+  - [B3, OCTF2_QCORROCT_95_QT_001.octupole]
+  - [B1, OCTF2_QCORROCT_95_QT_001.quadrupole]
+  - [A1, OCTF2_QCORROCT_95_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-OCT/OC.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/OC.01-CQLN.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/OC.01-CQLT.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF21_HCOR_003
+  mapping:
+  - [B2, SXF21_HCOR_003.sextupole]
+  - [B0, SXF21_HCOR_003.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-SX/SCF.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/SCF.02-CDLH.03/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_103
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN12-AR/DG-EPOS/BPM.04/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN12-AR/DG-EPOS/BPM.04/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD21_VCOR_003
+  mapping:
+  - [B2, SXD21_VCOR_003.sextupole]
+  - [A0, SXD21_VCOR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-SX/SCD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/SCD.03-CDLV.03/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_118
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/CQLN.05/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_119
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/CQLN.06/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD2_003
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-SX/SCD.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF2_QCORROCT_96_QT_001
+  mapping:
+  - [B3, OCTF2_QCORROCT_96_QT_001.octupole]
+  - [B1, OCTF2_QCORROCT_96_QT_001.quadrupole]
+  - [A1, OCTF2_QCORROCT_96_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-OCT/OC.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/OC.02-CQLN.07/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/OC.02-CQLT.03/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF2_HCOR_003
+  mapping:
+  - [B2, SXF2_HCOR_003.sextupole]
+  - [B0, SXF2_HCOR_003.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-SX/SCF.05/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/SCF.05-CDLH.04/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_104
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN12-AR/DG-EPOS/BPM.05/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN12-AR/DG-EPOS/BPM.05/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD2_VCOR_003
+  mapping:
+  - [B2, SXD2_VCOR_003.sextupole]
+  - [A0, SXD2_VCOR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-SX/SCD.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/SCD.06-CDLV.04/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_120
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/CQLN.08/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_121
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/CQLN.09/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD22_003
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-SX/SCD.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF22_HCOR_003
+  mapping:
+  - [B2, SXF22_HCOR_003.sextupole]
+  - [B0, SXF22_HCOR_003.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-SX/SCF.08/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/SCF.08-CDLH.05/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF2_QCORROCT_97_QT_001
+  mapping:
+  - [B3, OCTF2_QCORROCT_97_QT_001.octupole]
+  - [B1, OCTF2_QCORROCT_97_QT_001.quadrupole]
+  - [A1, OCTF2_QCORROCT_97_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-OCT/OC.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/OC.03-CQLN.10/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/OC.03-CQLT.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXD22_VCOR_003
+  mapping:
+  - [B2, SXD22_VCOR_003.sextupole]
+  - [A0, SXD22_VCOR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-SX/SCD.09/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/SCD.09-CDLV.05/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_105
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN12-AR/DG-EPOS/BPM.06/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN12-AR/DG-EPOS/BPM.06/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH9_COR_009
+  mapping:
+  - [B2, SH9_COR_009.sextupole]
+  - [B0, SH9_COR_009.hcorrector]
+  - [A0, SH9_COR_009.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-SX/SHD.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/SHD.04-CDLH.06/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/SHD.04-CDLV.06/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_122
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/CQLN.11/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SH8_009
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-SX/SHD.05/strength
+      unit: 1/m**2
+- type: pyaml.magnet.quadrupole
+  name: QCORR_123
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/CQLN.12/strength
+      unit: 1/m
+- type: pyaml.bpm.bpm
+  name: BPM_106
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN12-AR/DG-EPOS/BPM.07/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN12-AR/DG-EPOS/BPM.07/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH7_COR_009
+  mapping:
+  - [B2, SH7_COR_009.sextupole]
+  - [B0, SH7_COR_009.hcorrector]
+  - [A0, SH7_COR_009.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-SX/SHF.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/SHF.06-CDLH.07/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/SHF.06-CDLV.07/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH7_QCORROCT_98_QT_001
+  mapping:
+  - [B3, OH7_QCORROCT_98_QT_001.octupole]
+  - [B1, OH7_QCORROCT_98_QT_001.quadrupole]
+  - [A1, OH7_QCORROCT_98_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-OCT/OH.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/OH.03-CQLN.13/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN12-AR/EM-COR/OH.03-CQLT.05/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_107
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN13-SD/DG-EPOS/BPM.01/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN13-SD/DG-EPOS/BPM.01/y_pos
+      unit: mm
+- type: pyaml.bpm.bpm
+  name: BPM_108
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN13-SD/DG-EPOS/BPM.02/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN13-SD/DG-EPOS/BPM.02/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH7_QCORROCT_99_QT_001
+  mapping:
+  - [B3, OH7_QCORROCT_99_QT_001.octupole]
+  - [B1, OH7_QCORROCT_99_QT_001.quadrupole]
+  - [A1, OH7_QCORROCT_99_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-OCT/OH.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/OH.01-CQLN.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/OH.01-CQLT.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH7_COR_010
+  mapping:
+  - [B2, SH7_COR_010.sextupole]
+  - [B0, SH7_COR_010.hcorrector]
+  - [A0, SH7_COR_010.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-SX/SHF.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/SHF.01-CDLH.01/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/SHF.01-CDLV.01/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_109
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN13-AR/DG-EPOS/BPM.03/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN13-AR/DG-EPOS/BPM.03/y_pos
+      unit: mm
+- type: pyaml.magnet.quadrupole
+  name: QCORR_124
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/CQLN.02/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SH8_010
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-SX/SHD.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.quadrupole
+  name: QCORR_125
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/CQLN.03/strength
+      unit: 1/m
+- type: pyaml.magnet.cfm_magnet
+  name: SH9_COR_010
+  mapping:
+  - [B2, SH9_COR_010.sextupole]
+  - [B0, SH9_COR_010.hcorrector]
+  - [A0, SH9_COR_010.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-SX/SHD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/SHD.03-CDLH.02/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/SHD.03-CDLV.02/strength
+      unit: '1'
+- type: pyaml.magnet.sextupole
+  name: SXD31_003
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-SX/SCD.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF3_QCORROCT_100_QT_001
+  mapping:
+  - [B3, OCTF3_QCORROCT_100_QT_001.octupole]
+  - [B1, OCTF3_QCORROCT_100_QT_001.quadrupole]
+  - [A1, OCTF3_QCORROCT_100_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-OCT/OC.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/OC.01-CQLN.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/OC.01-CQLT.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF31_HCOR_003
+  mapping:
+  - [B2, SXF31_HCOR_003.sextupole]
+  - [B0, SXF31_HCOR_003.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-SX/SCF.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/SCF.02-CDLH.03/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_110
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN13-AR/DG-EPOS/BPM.04/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN13-AR/DG-EPOS/BPM.04/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD31_VCOR_003
+  mapping:
+  - [B2, SXD31_VCOR_003.sextupole]
+  - [A0, SXD31_VCOR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-SX/SCD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/SCD.03-CDLV.03/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_126
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/CQLN.05/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_127
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/CQLN.06/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD3_007
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-SX/SCD.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF3_QCORROCT_101_QT_001
+  mapping:
+  - [B3, OCTF3_QCORROCT_101_QT_001.octupole]
+  - [B1, OCTF3_QCORROCT_101_QT_001.quadrupole]
+  - [A1, OCTF3_QCORROCT_101_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-OCT/OC.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/OC.02-CQLN.07/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/OC.02-CQLT.03/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF3_HCOR_005
+  mapping:
+  - [B2, SXF3_HCOR_005.sextupole]
+  - [B0, SXF3_HCOR_005.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-SX/SCF.05/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/SCF.05-CDLH.04/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_111
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN13-AR/DG-EPOS/BPM.05/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN13-AR/DG-EPOS/BPM.05/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD3_VCOR_007
+  mapping:
+  - [B2, SXD3_VCOR_007.sextupole]
+  - [A0, SXD3_VCOR_007.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-SX/SCD.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/SCD.06-CDLV.04/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_128
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/CQLN.08/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_129
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/CQLN.09/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD3_008
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-SX/SCD.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF3_QCORROCT_102_QT_001
+  mapping:
+  - [B3, OCTF3_QCORROCT_102_QT_001.octupole]
+  - [B1, OCTF3_QCORROCT_102_QT_001.quadrupole]
+  - [A1, OCTF3_QCORROCT_102_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-OCT/OC.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/OC.03-CQLN.10/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/OC.03-CQLT.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF33_HCOR_005
+  mapping:
+  - [B2, SXF33_HCOR_005.sextupole]
+  - [B0, SXF33_HCOR_005.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-SX/SCF.08/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/SCF.08-CDLH.05/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_112
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN13-AR/DG-EPOS/BPM.06/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN13-AR/DG-EPOS/BPM.06/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD33_VCOR_003
+  mapping:
+  - [B2, SXD33_VCOR_003.sextupole]
+  - [A0, SXD33_VCOR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-SX/SCD.09/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/SCD.09-CDLV.05/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_130
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/CQLN.11/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_131
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/CQLN.12/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD33_003
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-SX/SCD.10/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF33_HCOR_006
+  mapping:
+  - [B2, SXF33_HCOR_006.sextupole]
+  - [B0, SXF33_HCOR_006.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-SX/SCF.11/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/SCF.11-CDLH.06/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF3_QCORROCT_103_QT_001
+  mapping:
+  - [B3, OCTF3_QCORROCT_103_QT_001.octupole]
+  - [B1, OCTF3_QCORROCT_103_QT_001.quadrupole]
+  - [A1, OCTF3_QCORROCT_103_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-OCT/OC.04/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/OC.04-CQLN.13/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/OC.04-CQLT.05/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_113
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN13-AR/DG-EPOS/BPM.07/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN13-AR/DG-EPOS/BPM.07/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD3_VCOR_008
+  mapping:
+  - [B2, SXD3_VCOR_008.sextupole]
+  - [A0, SXD3_VCOR_008.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-SX/SCD.12/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/SCD.12-CDLV.06/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_132
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/CQLN.14/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_133
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/CQLN.15/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD3_009
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-SX/SCD.13/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF3_HCOR_006
+  mapping:
+  - [B2, SXF3_HCOR_006.sextupole]
+  - [B0, SXF3_HCOR_006.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-SX/SCF.14/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/SCF.14-CDLH.07/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF3_QCORROCT_104_QT_001
+  mapping:
+  - [B3, OCTF3_QCORROCT_104_QT_001.octupole]
+  - [B1, OCTF3_QCORROCT_104_QT_001.quadrupole]
+  - [A1, OCTF3_QCORROCT_104_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-OCT/OC.05/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/OC.05-CQLN.16/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/OC.05-CQLT.06/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_114
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN13-AR/DG-EPOS/BPM.08/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN13-AR/DG-EPOS/BPM.08/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD3_VCOR_009
+  mapping:
+  - [B2, SXD3_VCOR_009.sextupole]
+  - [A0, SXD3_VCOR_009.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-SX/SCD.15/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/SCD.15-CDLV.07/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_134
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/CQLN.17/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_135
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/CQLN.18/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD32_003
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-SX/SCD.16/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF32_HCOR_003
+  mapping:
+  - [B2, SXF32_HCOR_003.sextupole]
+  - [B0, SXF32_HCOR_003.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-SX/SCF.17/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/SCF.17-CDLH.08/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF3_QCORROCT_105_QT_001
+  mapping:
+  - [B3, OCTF3_QCORROCT_105_QT_001.octupole]
+  - [B1, OCTF3_QCORROCT_105_QT_001.quadrupole]
+  - [A1, OCTF3_QCORROCT_105_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-OCT/OC.06/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/OC.06-CQLN.19/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/OC.06-CQLT.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXD32_VCOR_003
+  mapping:
+  - [B2, SXD32_VCOR_003.sextupole]
+  - [A0, SXD32_VCOR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-SX/SCD.18/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/SCD.18-CDLV.08/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_115
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN13-AR/DG-EPOS/BPM.09/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN13-AR/DG-EPOS/BPM.09/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH9_COR_011
+  mapping:
+  - [B2, SH9_COR_011.sextupole]
+  - [B0, SH9_COR_011.hcorrector]
+  - [A0, SH9_COR_011.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-SX/SHD.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/SHD.04-CDLH.09/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/SHD.04-CDLV.09/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_136
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/CQLN.20/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SH8_011
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-SX/SHD.05/strength
+      unit: 1/m**2
+- type: pyaml.magnet.quadrupole
+  name: QCORR_137
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/CQLN.21/strength
+      unit: 1/m
+- type: pyaml.bpm.bpm
+  name: BPM_116
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN13-AR/DG-EPOS/BPM.10/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN13-AR/DG-EPOS/BPM.10/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH7_COR_011
+  mapping:
+  - [B2, SH7_COR_011.sextupole]
+  - [B0, SH7_COR_011.hcorrector]
+  - [A0, SH7_COR_011.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-SX/SHF.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/SHF.06-CDLH.10/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/SHF.06-CDLV.10/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH7_QCORROCT_106_QT_001
+  mapping:
+  - [B3, OH7_QCORROCT_106_QT_001.octupole]
+  - [B1, OH7_QCORROCT_106_QT_001.quadrupole]
+  - [A1, OH7_QCORROCT_106_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-OCT/OH.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/OH.02-CQLN.22/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN13-AR/EM-COR/OH.02-CQLT.08/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_117
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN14-SD/DG-EPOS/BPM.01/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN14-SD/DG-EPOS/BPM.01/y_pos
+      unit: mm
+- type: pyaml.bpm.bpm
+  name: BPM_118
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN14-SD/DG-EPOS/BPM.02/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN14-SD/DG-EPOS/BPM.02/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH7_QCORROCT_107_QT_001
+  mapping:
+  - [B3, OH7_QCORROCT_107_QT_001.octupole]
+  - [B1, OH7_QCORROCT_107_QT_001.quadrupole]
+  - [A1, OH7_QCORROCT_107_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-OCT/OH.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/OH.01-CQLN.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/OH.01-CQLT.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH7_COR_012
+  mapping:
+  - [B2, SH7_COR_012.sextupole]
+  - [B0, SH7_COR_012.hcorrector]
+  - [A0, SH7_COR_012.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-SX/SHF.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/SHF.01-CDLH.01/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/SHF.01-CDLV.01/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_119
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN14-AR/DG-EPOS/BPM.03/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN14-AR/DG-EPOS/BPM.03/y_pos
+      unit: mm
+- type: pyaml.magnet.quadrupole
+  name: QCORR_138
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/CQLN.02/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SH8_012
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-SX/SHD.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.quadrupole
+  name: QCORR_139
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/CQLN.03/strength
+      unit: 1/m
+- type: pyaml.magnet.cfm_magnet
+  name: SH9_COR_012
+  mapping:
+  - [B2, SH9_COR_012.sextupole]
+  - [B0, SH9_COR_012.hcorrector]
+  - [A0, SH9_COR_012.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-SX/SHD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/SHD.03-CDLH.02/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/SHD.03-CDLV.02/strength
+      unit: '1'
+- type: pyaml.magnet.sextupole
+  name: SXD41_003
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-SX/SCD.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF4_QCORROCT_108_QT_001
+  mapping:
+  - [B3, OCTF4_QCORROCT_108_QT_001.octupole]
+  - [B1, OCTF4_QCORROCT_108_QT_001.quadrupole]
+  - [A1, OCTF4_QCORROCT_108_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-OCT/OC.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/OC.01-CQLN.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/OC.01-CQLT.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF41_HCOR_003
+  mapping:
+  - [B2, SXF41_HCOR_003.sextupole]
+  - [B0, SXF41_HCOR_003.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-SX/SCF.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/SCF.02-CDLH.03/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_120
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN14-AR/DG-EPOS/BPM.04/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN14-AR/DG-EPOS/BPM.04/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD41_VCOR_003
+  mapping:
+  - [B2, SXD41_VCOR_003.sextupole]
+  - [A0, SXD41_VCOR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-SX/SCD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/SCD.03-CDLV.03/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_140
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/CQLN.05/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_141
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/CQLN.06/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD4_003
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-SX/SCD.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF4_HCOR_003
+  mapping:
+  - [B2, SXF4_HCOR_003.sextupole]
+  - [B0, SXF4_HCOR_003.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-SX/SCF.05/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/SCF.05-CDLH.04/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF4_QCORROCT_109_QT_001
+  mapping:
+  - [B3, OCTF4_QCORROCT_109_QT_001.octupole]
+  - [B1, OCTF4_QCORROCT_109_QT_001.quadrupole]
+  - [A1, OCTF4_QCORROCT_109_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-OCT/OC.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/OC.02-CQLN.07/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/OC.02-CQLT.03/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_121
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN14-AR/DG-EPOS/BPM.05/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN14-AR/DG-EPOS/BPM.05/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD4_VCOR_003
+  mapping:
+  - [B2, SXD4_VCOR_003.sextupole]
+  - [A0, SXD4_VCOR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-SX/SCD.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/SCD.06-CDLV.04/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_142
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/CQLN.08/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_143
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/CQLN.09/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD42_003
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-SX/SCD.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF42_HCOR_003
+  mapping:
+  - [B2, SXF42_HCOR_003.sextupole]
+  - [B0, SXF42_HCOR_003.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-SX/SCF.08/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/SCF.08-CDLH.05/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF4_QCORROCT_110_QT_001
+  mapping:
+  - [B3, OCTF4_QCORROCT_110_QT_001.octupole]
+  - [B1, OCTF4_QCORROCT_110_QT_001.quadrupole]
+  - [A1, OCTF4_QCORROCT_110_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-OCT/OC.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/OC.03-CQLN.10/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/OC.03-CQLT.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXD42_VCOR_003
+  mapping:
+  - [B2, SXD42_VCOR_003.sextupole]
+  - [A0, SXD42_VCOR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-SX/SCD.09/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/SCD.09-CDLV.05/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_122
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN14-AR/DG-EPOS/BPM.06/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN14-AR/DG-EPOS/BPM.06/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH12_COR_005
+  mapping:
+  - [B2, SH12_COR_005.sextupole]
+  - [B0, SH12_COR_005.hcorrector]
+  - [A0, SH12_COR_005.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-SX/SHD.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/SHD.04-CDLH.06/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/SHD.04-CDLV.06/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_144
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/CQLN.11/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SH11_005
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-SX/SHD.05/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OH11_QCORROCT_111_001
+  mapping:
+  - [B3, OH11_QCORROCT_111_001.octupole]
+  - [B1, OH11_QCORROCT_111_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-OCT/OH.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/OH.02-CQLN.12/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_123
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN14-AR/DG-EPOS/BPM.07/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN14-AR/DG-EPOS/BPM.07/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH10_COR_005
+  mapping:
+  - [B2, SH10_COR_005.sextupole]
+  - [B0, SH10_COR_005.hcorrector]
+  - [A0, SH10_COR_005.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-SX/SHF.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/SHF.06-CDLH.07/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/SHF.06-CDLV.07/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH10_QCORROCT_112_QT_001
+  mapping:
+  - [B3, OH10_QCORROCT_112_QT_001.octupole]
+  - [B1, OH10_QCORROCT_112_QT_001.quadrupole]
+  - [A1, OH10_QCORROCT_112_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-OCT/OH.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/OH.03-CQLN.13/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN14-AR/EM-COR/OH.03-CQLT.05/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_124
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN15-SD/DG-EPOS/BPM.01/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN15-SD/DG-EPOS/BPM.01/y_pos
+      unit: mm
+- type: pyaml.bpm.bpm
+  name: BPM_125
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN15-SD/DG-EPOS/BPM.02/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN15-SD/DG-EPOS/BPM.02/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH10_QCORROCT_113_QT_001
+  mapping:
+  - [B3, OH10_QCORROCT_113_QT_001.octupole]
+  - [B1, OH10_QCORROCT_113_QT_001.quadrupole]
+  - [A1, OH10_QCORROCT_113_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-OCT/OH.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/OH.01-CQLN.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/OH.01-CQLT.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH10_COR_006
+  mapping:
+  - [B2, SH10_COR_006.sextupole]
+  - [B0, SH10_COR_006.hcorrector]
+  - [A0, SH10_COR_006.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-SX/SHF.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/SHF.01-CDLH.01/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/SHF.01-CDLV.01/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_126
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN15-AR/DG-EPOS/BPM.03/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN15-AR/DG-EPOS/BPM.03/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH11_QCORROCT_114_001
+  mapping:
+  - [B3, OH11_QCORROCT_114_001.octupole]
+  - [B1, OH11_QCORROCT_114_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-OCT/OH.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/OH.02-CQLN.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.sextupole
+  name: SH11_006
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-SX/SHD.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.quadrupole
+  name: QCORR_145
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/CQLN.03/strength
+      unit: 1/m
+- type: pyaml.magnet.cfm_magnet
+  name: SH12_COR_006
+  mapping:
+  - [B2, SH12_COR_006.sextupole]
+  - [B0, SH12_COR_006.hcorrector]
+  - [A0, SH12_COR_006.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-SX/SHD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/SHD.03-CDLH.02/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/SHD.03-CDLV.02/strength
+      unit: '1'
+- type: pyaml.magnet.sextupole
+  name: SXD51_003
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-SX/SCD.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF5_QCORROCT_115_QT_001
+  mapping:
+  - [B3, OCTF5_QCORROCT_115_QT_001.octupole]
+  - [B1, OCTF5_QCORROCT_115_QT_001.quadrupole]
+  - [A1, OCTF5_QCORROCT_115_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-OCT/OC.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/OC.01-CQLN.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/OC.01-CQLT.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF51_HCOR_003
+  mapping:
+  - [B2, SXF51_HCOR_003.sextupole]
+  - [B0, SXF51_HCOR_003.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-SX/SCF.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/SCF.02-CDLH.03/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_127
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN15-AR/DG-EPOS/BPM.04/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN15-AR/DG-EPOS/BPM.04/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD51_VCOR_003
+  mapping:
+  - [B2, SXD51_VCOR_003.sextupole]
+  - [A0, SXD51_VCOR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-SX/SCD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/SCD.03-CDLV.03/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_146
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/CQLN.05/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_147
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/CQLN.06/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD5_007
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-SX/SCD.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF5_QCORROCT_116_QT_001
+  mapping:
+  - [B3, OCTF5_QCORROCT_116_QT_001.octupole]
+  - [B1, OCTF5_QCORROCT_116_QT_001.quadrupole]
+  - [A1, OCTF5_QCORROCT_116_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-OCT/OC.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/OC.02-CQLN.07/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/OC.02-CQLT.03/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF5_HCOR_005
+  mapping:
+  - [B2, SXF5_HCOR_005.sextupole]
+  - [B0, SXF5_HCOR_005.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-SX/SCF.05/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/SCF.05-CDLH.04/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_128
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN15-AR/DG-EPOS/BPM.05/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN15-AR/DG-EPOS/BPM.05/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD5_VCOR_007
+  mapping:
+  - [B2, SXD5_VCOR_007.sextupole]
+  - [A0, SXD5_VCOR_007.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-SX/SCD.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/SCD.06-CDLV.04/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_148
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/CQLN.08/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_149
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/CQLN.09/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD5_008
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-SX/SCD.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF5_QCORROCT_117_QT_001
+  mapping:
+  - [B3, OCTF5_QCORROCT_117_QT_001.octupole]
+  - [B1, OCTF5_QCORROCT_117_QT_001.quadrupole]
+  - [A1, OCTF5_QCORROCT_117_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-OCT/OC.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/OC.03-CQLN.10/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/OC.03-CQLT.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF53_HCOR_005
+  mapping:
+  - [B2, SXF53_HCOR_005.sextupole]
+  - [B0, SXF53_HCOR_005.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-SX/SCF.08/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/SCF.08-CDLH.05/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_129
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN15-AR/DG-EPOS/BPM.06/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN15-AR/DG-EPOS/BPM.06/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD53_VCOR_003
+  mapping:
+  - [B2, SXD53_VCOR_003.sextupole]
+  - [A0, SXD53_VCOR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-SX/SCD.09/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/SCD.09-CDLV.05/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_150
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/CQLN.11/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_151
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/CQLN.12/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD53_003
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-SX/SCD.10/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF53_HCOR_006
+  mapping:
+  - [B2, SXF53_HCOR_006.sextupole]
+  - [B0, SXF53_HCOR_006.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-SX/SCF.11/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/SCF.11-CDLH.06/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF5_QCORROCT_118_QT_001
+  mapping:
+  - [B3, OCTF5_QCORROCT_118_QT_001.octupole]
+  - [B1, OCTF5_QCORROCT_118_QT_001.quadrupole]
+  - [A1, OCTF5_QCORROCT_118_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-OCT/OC.04/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/OC.04-CQLN.13/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/OC.04-CQLT.05/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_130
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN15-AR/DG-EPOS/BPM.07/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN15-AR/DG-EPOS/BPM.07/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD5_VCOR_008
+  mapping:
+  - [B2, SXD5_VCOR_008.sextupole]
+  - [A0, SXD5_VCOR_008.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-SX/SCD.12/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/SCD.12-CDLV.06/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_152
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/CQLN.14/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_153
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/CQLN.15/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD5_009
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-SX/SCD.13/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF5_HCOR_006
+  mapping:
+  - [B2, SXF5_HCOR_006.sextupole]
+  - [B0, SXF5_HCOR_006.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-SX/SCF.14/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/SCF.14-CDLH.07/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF5_QCORROCT_119_QT_001
+  mapping:
+  - [B3, OCTF5_QCORROCT_119_QT_001.octupole]
+  - [B1, OCTF5_QCORROCT_119_QT_001.quadrupole]
+  - [A1, OCTF5_QCORROCT_119_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-OCT/OC.05/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/OC.05-CQLN.16/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/OC.05-CQLT.06/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_131
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN15-AR/DG-EPOS/BPM.08/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN15-AR/DG-EPOS/BPM.08/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD5_VCOR_009
+  mapping:
+  - [B2, SXD5_VCOR_009.sextupole]
+  - [A0, SXD5_VCOR_009.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-SX/SCD.15/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/SCD.15-CDLV.07/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_154
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/CQLN.17/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_155
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/CQLN.18/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD52_003
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-SX/SCD.16/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF52_HCOR_003
+  mapping:
+  - [B2, SXF52_HCOR_003.sextupole]
+  - [B0, SXF52_HCOR_003.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-SX/SCF.17/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/SCF.17-CDLH.08/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF5_QCORROCT_120_QT_001
+  mapping:
+  - [B3, OCTF5_QCORROCT_120_QT_001.octupole]
+  - [B1, OCTF5_QCORROCT_120_QT_001.quadrupole]
+  - [A1, OCTF5_QCORROCT_120_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-OCT/OC.06/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/OC.06-CQLN.19/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/OC.06-CQLT.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXD52_VCOR_003
+  mapping:
+  - [B2, SXD52_VCOR_003.sextupole]
+  - [A0, SXD52_VCOR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-SX/SCD.18/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/SCD.18-CDLV.08/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_132
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN15-AR/DG-EPOS/BPM.09/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN15-AR/DG-EPOS/BPM.09/y_pos
+      unit: mm
+- type: pyaml.magnet.quadrupole
+  name: QCORR_156
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/CQLN.20/strength
+      unit: 1/m
+- type: pyaml.magnet.cfm_magnet
+  name: SH15_VCOR_003
+  mapping:
+  - [B2, SH15_VCOR_003.sextupole]
+  - [A0, SH15_VCOR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-SX/SHD.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/SHD.04-CDLV.09/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_133
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN15-AR/DG-EPOS/BPM.10/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN15-AR/DG-EPOS/BPM.10/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH14_HCOR_003
+  mapping:
+  - [B2, SH14_HCOR_003.sextupole]
+  - [B0, SH14_HCOR_003.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-SX/SHD.05/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/SHD.05-CDLH.09/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH141_QCORROCT_121_001
+  mapping:
+  - [B3, OH141_QCORROCT_121_001.octupole]
+  - [B1, OH141_QCORROCT_121_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-OCT/OH.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/OH.03-CQLN.21/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH13_COR_003
+  mapping:
+  - [B2, SH13_COR_003.sextupole]
+  - [B0, SH13_COR_003.hcorrector]
+  - [A0, SH13_COR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-SX/SHF.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/SHF.06-CDLH.10/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/SHF.06-CDLV.10/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH131_QCORROCT_122_001
+  mapping:
+  - [B3, OH131_QCORROCT_122_001.octupole]
+  - [B1, OH131_QCORROCT_122_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-OCT/OH.04/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN15-AR/EM-COR/OH.04-CQLN.22/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_134
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN16-SD/DG-EPOS/BPM.01/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN16-SD/DG-EPOS/BPM.01/y_pos
+      unit: mm
+- type: pyaml.bpm.bpm
+  name: BPM_135
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN16-SD/DG-EPOS/BPM.02/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN16-SD/DG-EPOS/BPM.02/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH16_QCORROCT_123_001
+  mapping:
+  - [B3, OH16_QCORROCT_123_001.octupole]
+  - [B1, OH16_QCORROCT_123_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-SD/EM-OCT/OH.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN16-SD/EM-COR/OH.01-CQLN.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH16_COR_003
+  mapping:
+  - [B2, SH16_COR_003.sextupole]
+  - [B0, SH16_COR_003.hcorrector]
+  - [A0, SH16_COR_003.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-SD/EM-SX/SHD.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-SD/EM-COR/SHD.01-CDLH.01/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN16-SD/EM-COR/SHD.01-CDLV.01/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: SH16_COR_004
+  mapping:
+  - [B2, SH16_COR_004.sextupole]
+  - [B0, SH16_COR_004.hcorrector]
+  - [A0, SH16_COR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-SD/EM-SX/SHD.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-SD/EM-COR/SHD.02-CDLH.02/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN16-SD/EM-COR/SHD.02-CDLV.02/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH16_QCORROCT_124_001
+  mapping:
+  - [B3, OH16_QCORROCT_124_001.octupole]
+  - [B1, OH16_QCORROCT_124_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-SD/EM-OCT/OH.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN16-SD/EM-COR/OH.02-CQLN.02/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_136
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN16-SD/DG-EPOS/BPM.03/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN16-SD/DG-EPOS/BPM.03/y_pos
+      unit: mm
+- type: pyaml.bpm.bpm
+  name: BPM_137
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN16-SD/DG-EPOS/BPM.04/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN16-SD/DG-EPOS/BPM.04/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH132_QCORROCT_125_001
+  mapping:
+  - [B3, OH132_QCORROCT_125_001.octupole]
+  - [B1, OH132_QCORROCT_125_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-OCT/OH.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/OH.01-CQLN.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH13_COR_004
+  mapping:
+  - [B2, SH13_COR_004.sextupole]
+  - [B0, SH13_COR_004.hcorrector]
+  - [A0, SH13_COR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-SX/SHF.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/SHF.01-CDLH.03/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/SHF.01-CDLV.03/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH142_QCORROCT_126_001
+  mapping:
+  - [B3, OH142_QCORROCT_126_001.octupole]
+  - [B1, OH142_QCORROCT_126_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-OCT/OH.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/OH.02-CQLN.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH14_HCOR_004
+  mapping:
+  - [B2, SH14_HCOR_004.sextupole]
+  - [B0, SH14_HCOR_004.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-SX/SHD.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/SHD.02-CDLH.04/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_138
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN16-AR/DG-EPOS/BPM.05/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN16-AR/DG-EPOS/BPM.05/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH15_VCOR_004
+  mapping:
+  - [B2, SH15_VCOR_004.sextupole]
+  - [A0, SH15_VCOR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-SX/SHD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/SHD.03-CDLV.04/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_157
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/CQLN.03/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD52_004
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-SX/SCD.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF5_QCORROCT_127_QT_001
+  mapping:
+  - [B3, OCTF5_QCORROCT_127_QT_001.octupole]
+  - [B1, OCTF5_QCORROCT_127_QT_001.quadrupole]
+  - [A1, OCTF5_QCORROCT_127_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-OCT/OC.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/OC.01-CQLN.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/OC.01-CQLT.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF52_HCOR_004
+  mapping:
+  - [B2, SXF52_HCOR_004.sextupole]
+  - [B0, SXF52_HCOR_004.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-SX/SCF.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/SCF.02-CDLH.05/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_139
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN16-AR/DG-EPOS/BPM.06/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN16-AR/DG-EPOS/BPM.06/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD52_VCOR_004
+  mapping:
+  - [B2, SXD52_VCOR_004.sextupole]
+  - [A0, SXD52_VCOR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-SX/SCD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/SCD.03-CDLV.05/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_158
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/CQLN.05/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_159
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/CQLN.06/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD5_010
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-SX/SCD.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF5_QCORROCT_128_QT_001
+  mapping:
+  - [B3, OCTF5_QCORROCT_128_QT_001.octupole]
+  - [B1, OCTF5_QCORROCT_128_QT_001.quadrupole]
+  - [A1, OCTF5_QCORROCT_128_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-OCT/OC.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/OC.02-CQLN.07/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/OC.02-CQLT.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF5_HCOR_007
+  mapping:
+  - [B2, SXF5_HCOR_007.sextupole]
+  - [B0, SXF5_HCOR_007.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-SX/SCF.05/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/SCF.05-CDLH.06/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_140
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN16-AR/DG-EPOS/BPM.07/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN16-AR/DG-EPOS/BPM.07/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD5_VCOR_010
+  mapping:
+  - [B2, SXD5_VCOR_010.sextupole]
+  - [A0, SXD5_VCOR_010.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-SX/SCD.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/SCD.06-CDLV.06/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_160
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/CQLN.08/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_161
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/CQLN.09/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD5_011
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-SX/SCD.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF5_QCORROCT_129_QT_001
+  mapping:
+  - [B3, OCTF5_QCORROCT_129_QT_001.octupole]
+  - [B1, OCTF5_QCORROCT_129_QT_001.quadrupole]
+  - [A1, OCTF5_QCORROCT_129_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-OCT/OC.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/OC.03-CQLN.10/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/OC.03-CQLT.03/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF53_HCOR_007
+  mapping:
+  - [B2, SXF53_HCOR_007.sextupole]
+  - [B0, SXF53_HCOR_007.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-SX/SCF.08/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/SCF.08-CDLH.07/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_141
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN16-AR/DG-EPOS/BPM.08/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN16-AR/DG-EPOS/BPM.08/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD53_VCOR_004
+  mapping:
+  - [B2, SXD53_VCOR_004.sextupole]
+  - [A0, SXD53_VCOR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-SX/SCD.09/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/SCD.09-CDLV.07/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_162
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/CQLN.11/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_163
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/CQLN.12/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD53_004
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-SX/SCD.10/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF53_HCOR_008
+  mapping:
+  - [B2, SXF53_HCOR_008.sextupole]
+  - [B0, SXF53_HCOR_008.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-SX/SCF.11/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/SCF.11-CDLH.08/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF5_QCORROCT_130_QT_001
+  mapping:
+  - [B3, OCTF5_QCORROCT_130_QT_001.octupole]
+  - [B1, OCTF5_QCORROCT_130_QT_001.quadrupole]
+  - [A1, OCTF5_QCORROCT_130_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-OCT/OC.04/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/OC.04-CQLN.13/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/OC.04-CQLT.04/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_142
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN16-AR/DG-EPOS/BPM.09/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN16-AR/DG-EPOS/BPM.09/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD5_VCOR_011
+  mapping:
+  - [B2, SXD5_VCOR_011.sextupole]
+  - [A0, SXD5_VCOR_011.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-SX/SCD.12/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/SCD.12-CDLV.08/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_164
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/CQLN.14/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_165
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/CQLN.15/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD5_012
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-SX/SCD.13/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF5_HCOR_008
+  mapping:
+  - [B2, SXF5_HCOR_008.sextupole]
+  - [B0, SXF5_HCOR_008.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-SX/SCF.14/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/SCF.14-CDLH.09/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF5_QCORROCT_131_QT_001
+  mapping:
+  - [B3, OCTF5_QCORROCT_131_QT_001.octupole]
+  - [B1, OCTF5_QCORROCT_131_QT_001.quadrupole]
+  - [A1, OCTF5_QCORROCT_131_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-OCT/OC.05/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/OC.05-CQLN.16/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/OC.05-CQLT.05/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_143
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN16-AR/DG-EPOS/BPM.10/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN16-AR/DG-EPOS/BPM.10/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD5_VCOR_012
+  mapping:
+  - [B2, SXD5_VCOR_012.sextupole]
+  - [A0, SXD5_VCOR_012.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-SX/SCD.15/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/SCD.15-CDLV.09/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_166
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/CQLN.17/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_167
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/CQLN.18/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD51_004
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-SX/SCD.16/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF51_HCOR_004
+  mapping:
+  - [B2, SXF51_HCOR_004.sextupole]
+  - [B0, SXF51_HCOR_004.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-SX/SCF.17/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/SCF.17-CDLH.10/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF5_QCORROCT_132_QT_001
+  mapping:
+  - [B3, OCTF5_QCORROCT_132_QT_001.octupole]
+  - [B1, OCTF5_QCORROCT_132_QT_001.quadrupole]
+  - [A1, OCTF5_QCORROCT_132_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-OCT/OC.06/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/OC.06-CQLN.19/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/OC.06-CQLT.06/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXD51_VCOR_004
+  mapping:
+  - [B2, SXD51_VCOR_004.sextupole]
+  - [A0, SXD51_VCOR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-SX/SCD.18/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/SCD.18-CDLV.10/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_144
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN16-AR/DG-EPOS/BPM.11/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN16-AR/DG-EPOS/BPM.11/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH12_COR_007
+  mapping:
+  - [B2, SH12_COR_007.sextupole]
+  - [B0, SH12_COR_007.hcorrector]
+  - [A0, SH12_COR_007.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-SX/SHD.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/SHD.04-CDLH.11/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/SHD.04-CDLV.11/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_168
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/CQLN.20/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SH11_007
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-SX/SHD.05/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OH11_QCORROCT_133_001
+  mapping:
+  - [B3, OH11_QCORROCT_133_001.octupole]
+  - [B1, OH11_QCORROCT_133_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-OCT/OH.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/OH.03-CQLN.21/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_145
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN16-AR/DG-EPOS/BPM.12/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN16-AR/DG-EPOS/BPM.12/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH10_COR_007
+  mapping:
+  - [B2, SH10_COR_007.sextupole]
+  - [B0, SH10_COR_007.hcorrector]
+  - [A0, SH10_COR_007.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-SX/SHF.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/SHF.06-CDLH.12/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/SHF.06-CDLV.12/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH10_QCORROCT_134_QT_001
+  mapping:
+  - [B3, OH10_QCORROCT_134_QT_001.octupole]
+  - [B1, OH10_QCORROCT_134_QT_001.quadrupole]
+  - [A1, OH10_QCORROCT_134_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-OCT/OH.04/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/OH.04-CQLN.22/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN16-AR/EM-COR/OH.04-CQLT.07/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_146
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN17-SD/DG-EPOS/BPM.01/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN17-SD/DG-EPOS/BPM.01/y_pos
+      unit: mm
+- type: pyaml.bpm.bpm
+  name: BPM_147
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN17-SD/DG-EPOS/BPM.02/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN17-SD/DG-EPOS/BPM.02/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH10_QCORROCT_135_QT_001
+  mapping:
+  - [B3, OH10_QCORROCT_135_QT_001.octupole]
+  - [B1, OH10_QCORROCT_135_QT_001.quadrupole]
+  - [A1, OH10_QCORROCT_135_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-OCT/OH.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/OH.01-CQLN.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/OH.01-CQLT.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH10_COR_008
+  mapping:
+  - [B2, SH10_COR_008.sextupole]
+  - [B0, SH10_COR_008.hcorrector]
+  - [A0, SH10_COR_008.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-SX/SHF.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/SHF.01-CDLH.01/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/SHF.01-CDLV.01/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_148
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN17-AR/DG-EPOS/BPM.03/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN17-AR/DG-EPOS/BPM.03/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH11_QCORROCT_136_001
+  mapping:
+  - [B3, OH11_QCORROCT_136_001.octupole]
+  - [B1, OH11_QCORROCT_136_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-OCT/OH.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/OH.02-CQLN.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.sextupole
+  name: SH11_008
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-SX/SHD.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.quadrupole
+  name: QCORR_169
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/CQLN.03/strength
+      unit: 1/m
+- type: pyaml.magnet.cfm_magnet
+  name: SH12_COR_008
+  mapping:
+  - [B2, SH12_COR_008.sextupole]
+  - [B0, SH12_COR_008.hcorrector]
+  - [A0, SH12_COR_008.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-SX/SHD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/SHD.03-CDLH.02/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/SHD.03-CDLV.02/strength
+      unit: '1'
+- type: pyaml.magnet.sextupole
+  name: SXD42_004
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-SX/SCD.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF4_QCORROCT_137_QT_001
+  mapping:
+  - [B3, OCTF4_QCORROCT_137_QT_001.octupole]
+  - [B1, OCTF4_QCORROCT_137_QT_001.quadrupole]
+  - [A1, OCTF4_QCORROCT_137_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-OCT/OC.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/OC.01-CQLN.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/OC.01-CQLT.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF42_HCOR_004
+  mapping:
+  - [B2, SXF42_HCOR_004.sextupole]
+  - [B0, SXF42_HCOR_004.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-SX/SCF.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/SCF.02-CDLH.03/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_149
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN17-AR/DG-EPOS/BPM.04/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN17-AR/DG-EPOS/BPM.04/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD42_VCOR_004
+  mapping:
+  - [B2, SXD42_VCOR_004.sextupole]
+  - [A0, SXD42_VCOR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-SX/SCD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/SCD.03-CDLV.03/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_170
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/CQLN.05/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_171
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/CQLN.06/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD4_004
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-SX/SCD.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF4_QCORROCT_138_QT_001
+  mapping:
+  - [B3, OCTF4_QCORROCT_138_QT_001.octupole]
+  - [B1, OCTF4_QCORROCT_138_QT_001.quadrupole]
+  - [A1, OCTF4_QCORROCT_138_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-OCT/OC.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/OC.02-CQLN.07/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/OC.02-CQLT.03/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF4_HCOR_004
+  mapping:
+  - [B2, SXF4_HCOR_004.sextupole]
+  - [B0, SXF4_HCOR_004.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-SX/SCF.05/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/SCF.05-CDLH.04/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_150
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN17-AR/DG-EPOS/BPM.05/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN17-AR/DG-EPOS/BPM.05/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD4_VCOR_004
+  mapping:
+  - [B2, SXD4_VCOR_004.sextupole]
+  - [A0, SXD4_VCOR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-SX/SCD.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/SCD.06-CDLV.04/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_172
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/CQLN.08/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_173
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/CQLN.09/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD41_004
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-SX/SCD.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF41_HCOR_004
+  mapping:
+  - [B2, SXF41_HCOR_004.sextupole]
+  - [B0, SXF41_HCOR_004.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-SX/SCF.08/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/SCF.08-CDLH.05/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF4_QCORROCT_139_QT_001
+  mapping:
+  - [B3, OCTF4_QCORROCT_139_QT_001.octupole]
+  - [B1, OCTF4_QCORROCT_139_QT_001.quadrupole]
+  - [A1, OCTF4_QCORROCT_139_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-OCT/OC.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/OC.03-CQLN.10/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/OC.03-CQLT.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXD41_VCOR_004
+  mapping:
+  - [B2, SXD41_VCOR_004.sextupole]
+  - [A0, SXD41_VCOR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-SX/SCD.09/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/SCD.09-CDLV.05/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_151
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN17-AR/DG-EPOS/BPM.06/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN17-AR/DG-EPOS/BPM.06/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH9_COR_013
+  mapping:
+  - [B2, SH9_COR_013.sextupole]
+  - [B0, SH9_COR_013.hcorrector]
+  - [A0, SH9_COR_013.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-SX/SHD.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/SHD.04-CDLH.06/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/SHD.04-CDLV.06/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_174
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/CQLN.11/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SH8_013
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-SX/SHD.05/strength
+      unit: 1/m**2
+- type: pyaml.magnet.quadrupole
+  name: QCORR_175
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/CQLN.12/strength
+      unit: 1/m
+- type: pyaml.bpm.bpm
+  name: BPM_152
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN17-AR/DG-EPOS/BPM.07/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN17-AR/DG-EPOS/BPM.07/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH7_COR_013
+  mapping:
+  - [B2, SH7_COR_013.sextupole]
+  - [B0, SH7_COR_013.hcorrector]
+  - [A0, SH7_COR_013.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-SX/SHF.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/SHF.06-CDLH.07/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/SHF.06-CDLV.07/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH7_QCORROCT_140_QT_001
+  mapping:
+  - [B3, OH7_QCORROCT_140_QT_001.octupole]
+  - [B1, OH7_QCORROCT_140_QT_001.quadrupole]
+  - [A1, OH7_QCORROCT_140_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-OCT/OH.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/OH.03-CQLN.13/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN17-AR/EM-COR/OH.03-CQLT.05/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_153
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN18-SD/DG-EPOS/BPM.01/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN18-SD/DG-EPOS/BPM.01/y_pos
+      unit: mm
+- type: pyaml.bpm.bpm
+  name: BPM_154
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN18-SD/DG-EPOS/BPM.02/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN18-SD/DG-EPOS/BPM.02/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH7_QCORROCT_141_QT_001
+  mapping:
+  - [B3, OH7_QCORROCT_141_QT_001.octupole]
+  - [B1, OH7_QCORROCT_141_QT_001.quadrupole]
+  - [A1, OH7_QCORROCT_141_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-OCT/OH.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/OH.01-CQLN.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/OH.01-CQLT.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH7_COR_014
+  mapping:
+  - [B2, SH7_COR_014.sextupole]
+  - [B0, SH7_COR_014.hcorrector]
+  - [A0, SH7_COR_014.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-SX/SHF.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/SHF.01-CDLH.01/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/SHF.01-CDLV.01/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_155
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN18-AR/DG-EPOS/BPM.03/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN18-AR/DG-EPOS/BPM.03/y_pos
+      unit: mm
+- type: pyaml.magnet.quadrupole
+  name: QCORR_176
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/CQLN.02/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SH8_014
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-SX/SHD.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.quadrupole
+  name: QCORR_177
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/CQLN.03/strength
+      unit: 1/m
+- type: pyaml.magnet.cfm_magnet
+  name: SH9_COR_014
+  mapping:
+  - [B2, SH9_COR_014.sextupole]
+  - [B0, SH9_COR_014.hcorrector]
+  - [A0, SH9_COR_014.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-SX/SHD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/SHD.03-CDLH.02/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/SHD.03-CDLV.02/strength
+      unit: '1'
+- type: pyaml.magnet.sextupole
+  name: SXD32_004
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-SX/SCD.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF3_QCORROCT_142_QT_001
+  mapping:
+  - [B3, OCTF3_QCORROCT_142_QT_001.octupole]
+  - [B1, OCTF3_QCORROCT_142_QT_001.quadrupole]
+  - [A1, OCTF3_QCORROCT_142_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-OCT/OC.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/OC.01-CQLN.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/OC.01-CQLT.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF32_HCOR_004
+  mapping:
+  - [B2, SXF32_HCOR_004.sextupole]
+  - [B0, SXF32_HCOR_004.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-SX/SCF.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/SCF.02-CDLH.03/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_156
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN18-AR/DG-EPOS/BPM.04/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN18-AR/DG-EPOS/BPM.04/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD32_VCOR_004
+  mapping:
+  - [B2, SXD32_VCOR_004.sextupole]
+  - [A0, SXD32_VCOR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-SX/SCD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/SCD.03-CDLV.03/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_178
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/CQLN.05/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_179
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/CQLN.06/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD3_010
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-SX/SCD.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF3_QCORROCT_143_QT_001
+  mapping:
+  - [B3, OCTF3_QCORROCT_143_QT_001.octupole]
+  - [B1, OCTF3_QCORROCT_143_QT_001.quadrupole]
+  - [A1, OCTF3_QCORROCT_143_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-OCT/OC.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/OC.02-CQLN.07/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/OC.02-CQLT.03/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF3_HCOR_007
+  mapping:
+  - [B2, SXF3_HCOR_007.sextupole]
+  - [B0, SXF3_HCOR_007.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-SX/SCF.05/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/SCF.05-CDLH.04/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_157
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN18-AR/DG-EPOS/BPM.05/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN18-AR/DG-EPOS/BPM.05/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD3_VCOR_010
+  mapping:
+  - [B2, SXD3_VCOR_010.sextupole]
+  - [A0, SXD3_VCOR_010.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-SX/SCD.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/SCD.06-CDLV.04/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_180
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/CQLN.08/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_181
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/CQLN.09/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD3_011
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-SX/SCD.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF3_QCORROCT_144_QT_001
+  mapping:
+  - [B3, OCTF3_QCORROCT_144_QT_001.octupole]
+  - [B1, OCTF3_QCORROCT_144_QT_001.quadrupole]
+  - [A1, OCTF3_QCORROCT_144_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-OCT/OC.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/OC.03-CQLN.10/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/OC.03-CQLT.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF33_HCOR_007
+  mapping:
+  - [B2, SXF33_HCOR_007.sextupole]
+  - [B0, SXF33_HCOR_007.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-SX/SCF.08/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/SCF.08-CDLH.05/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_158
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN18-AR/DG-EPOS/BPM.06/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN18-AR/DG-EPOS/BPM.06/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD33_VCOR_004
+  mapping:
+  - [B2, SXD33_VCOR_004.sextupole]
+  - [A0, SXD33_VCOR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-SX/SCD.09/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/SCD.09-CDLV.05/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_182
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/CQLN.11/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_183
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/CQLN.12/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD33_004
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-SX/SCD.10/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF33_HCOR_008
+  mapping:
+  - [B2, SXF33_HCOR_008.sextupole]
+  - [B0, SXF33_HCOR_008.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-SX/SCF.11/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/SCF.11-CDLH.06/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF3_QCORROCT_145_QT_001
+  mapping:
+  - [B3, OCTF3_QCORROCT_145_QT_001.octupole]
+  - [B1, OCTF3_QCORROCT_145_QT_001.quadrupole]
+  - [A1, OCTF3_QCORROCT_145_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-OCT/OC.04/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/OC.04-CQLN.13/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/OC.04-CQLT.05/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_159
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN18-AR/DG-EPOS/BPM.07/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN18-AR/DG-EPOS/BPM.07/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD3_VCOR_011
+  mapping:
+  - [B2, SXD3_VCOR_011.sextupole]
+  - [A0, SXD3_VCOR_011.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-SX/SCD.12/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/SCD.12-CDLV.06/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_184
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/CQLN.14/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_185
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/CQLN.15/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD3_012
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-SX/SCD.13/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF3_HCOR_008
+  mapping:
+  - [B2, SXF3_HCOR_008.sextupole]
+  - [B0, SXF3_HCOR_008.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-SX/SCF.14/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/SCF.14-CDLH.07/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF3_QCORROCT_146_QT_001
+  mapping:
+  - [B3, OCTF3_QCORROCT_146_QT_001.octupole]
+  - [B1, OCTF3_QCORROCT_146_QT_001.quadrupole]
+  - [A1, OCTF3_QCORROCT_146_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-OCT/OC.05/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/OC.05-CQLN.16/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/OC.05-CQLT.06/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_160
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN18-AR/DG-EPOS/BPM.08/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN18-AR/DG-EPOS/BPM.08/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD3_VCOR_012
+  mapping:
+  - [B2, SXD3_VCOR_012.sextupole]
+  - [A0, SXD3_VCOR_012.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-SX/SCD.15/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/SCD.15-CDLV.07/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_186
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/CQLN.17/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_187
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/CQLN.18/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD31_004
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-SX/SCD.16/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF31_HCOR_004
+  mapping:
+  - [B2, SXF31_HCOR_004.sextupole]
+  - [B0, SXF31_HCOR_004.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-SX/SCF.17/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/SCF.17-CDLH.08/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF3_QCORROCT_147_QT_001
+  mapping:
+  - [B3, OCTF3_QCORROCT_147_QT_001.octupole]
+  - [B1, OCTF3_QCORROCT_147_QT_001.quadrupole]
+  - [A1, OCTF3_QCORROCT_147_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-OCT/OC.06/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/OC.06-CQLN.19/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/OC.06-CQLT.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXD31_VCOR_004
+  mapping:
+  - [B2, SXD31_VCOR_004.sextupole]
+  - [A0, SXD31_VCOR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-SX/SCD.18/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/SCD.18-CDLV.08/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_161
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN18-AR/DG-EPOS/BPM.09/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN18-AR/DG-EPOS/BPM.09/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH9_COR_015
+  mapping:
+  - [B2, SH9_COR_015.sextupole]
+  - [B0, SH9_COR_015.hcorrector]
+  - [A0, SH9_COR_015.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-SX/SHD.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/SHD.04-CDLH.09/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/SHD.04-CDLV.09/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_188
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/CQLN.20/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SH8_015
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-SX/SHD.05/strength
+      unit: 1/m**2
+- type: pyaml.magnet.quadrupole
+  name: QCORR_189
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/CQLN.21/strength
+      unit: 1/m
+- type: pyaml.bpm.bpm
+  name: BPM_162
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN18-AR/DG-EPOS/BPM.10/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN18-AR/DG-EPOS/BPM.10/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH7_COR_015
+  mapping:
+  - [B2, SH7_COR_015.sextupole]
+  - [B0, SH7_COR_015.hcorrector]
+  - [A0, SH7_COR_015.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-SX/SHF.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/SHF.06-CDLH.10/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/SHF.06-CDLV.10/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH7_QCORROCT_148_QT_001
+  mapping:
+  - [B3, OH7_QCORROCT_148_QT_001.octupole]
+  - [B1, OH7_QCORROCT_148_QT_001.quadrupole]
+  - [A1, OH7_QCORROCT_148_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-OCT/OH.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/OH.02-CQLN.22/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN18-AR/EM-COR/OH.02-CQLT.08/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_163
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN19-SD/DG-EPOS/BPM.01/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN19-SD/DG-EPOS/BPM.01/y_pos
+      unit: mm
+- type: pyaml.bpm.bpm
+  name: BPM_164
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN19-SD/DG-EPOS/BPM.02/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN19-SD/DG-EPOS/BPM.02/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH7_QCORROCT_149_QT_001
+  mapping:
+  - [B3, OH7_QCORROCT_149_QT_001.octupole]
+  - [B1, OH7_QCORROCT_149_QT_001.quadrupole]
+  - [A1, OH7_QCORROCT_149_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-OCT/OH.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/OH.01-CQLN.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/OH.01-CQLT.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH7_COR_016
+  mapping:
+  - [B2, SH7_COR_016.sextupole]
+  - [B0, SH7_COR_016.hcorrector]
+  - [A0, SH7_COR_016.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-SX/SHF.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/SHF.01-CDLH.01/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/SHF.01-CDLV.01/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_165
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN19-AR/DG-EPOS/BPM.03/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN19-AR/DG-EPOS/BPM.03/y_pos
+      unit: mm
+- type: pyaml.magnet.quadrupole
+  name: QCORR_190
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/CQLN.02/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SH8_016
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-SX/SHD.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.quadrupole
+  name: QCORR_191
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/CQLN.03/strength
+      unit: 1/m
+- type: pyaml.magnet.cfm_magnet
+  name: SH9_COR_016
+  mapping:
+  - [B2, SH9_COR_016.sextupole]
+  - [B0, SH9_COR_016.hcorrector]
+  - [A0, SH9_COR_016.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-SX/SHD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/SHD.03-CDLH.02/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/SHD.03-CDLV.02/strength
+      unit: '1'
+- type: pyaml.magnet.sextupole
+  name: SXD22_004
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-SX/SCD.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF2_QCORROCT_150_QT_001
+  mapping:
+  - [B3, OCTF2_QCORROCT_150_QT_001.octupole]
+  - [B1, OCTF2_QCORROCT_150_QT_001.quadrupole]
+  - [A1, OCTF2_QCORROCT_150_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-OCT/OC.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/OC.01-CQLN.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/OC.01-CQLT.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF22_HCOR_004
+  mapping:
+  - [B2, SXF22_HCOR_004.sextupole]
+  - [B0, SXF22_HCOR_004.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-SX/SCF.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/SCF.02-CDLH.03/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_166
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN19-AR/DG-EPOS/BPM.04/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN19-AR/DG-EPOS/BPM.04/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD22_VCOR_004
+  mapping:
+  - [B2, SXD22_VCOR_004.sextupole]
+  - [A0, SXD22_VCOR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-SX/SCD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/SCD.03-CDLV.03/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_192
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/CQLN.05/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_193
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/CQLN.06/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD2_004
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-SX/SCD.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF2_HCOR_004
+  mapping:
+  - [B2, SXF2_HCOR_004.sextupole]
+  - [B0, SXF2_HCOR_004.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-SX/SCF.05/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/SCF.05-CDLH.04/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF2_QCORROCT_151_QT_001
+  mapping:
+  - [B3, OCTF2_QCORROCT_151_QT_001.octupole]
+  - [B1, OCTF2_QCORROCT_151_QT_001.quadrupole]
+  - [A1, OCTF2_QCORROCT_151_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-OCT/OC.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/OC.02-CQLN.07/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/OC.02-CQLT.03/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_167
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN19-AR/DG-EPOS/BPM.05/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN19-AR/DG-EPOS/BPM.05/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD2_VCOR_004
+  mapping:
+  - [B2, SXD2_VCOR_004.sextupole]
+  - [A0, SXD2_VCOR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-SX/SCD.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/SCD.06-CDLV.04/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_194
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/CQLN.08/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_195
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/CQLN.09/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD21_004
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-SX/SCD.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF21_HCOR_004
+  mapping:
+  - [B2, SXF21_HCOR_004.sextupole]
+  - [B0, SXF21_HCOR_004.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-SX/SCF.08/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/SCF.08-CDLH.05/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF2_QCORROCT_152_QT_001
+  mapping:
+  - [B3, OCTF2_QCORROCT_152_QT_001.octupole]
+  - [B1, OCTF2_QCORROCT_152_QT_001.quadrupole]
+  - [A1, OCTF2_QCORROCT_152_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-OCT/OC.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/OC.03-CQLN.10/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/OC.03-CQLT.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXD21_VCOR_004
+  mapping:
+  - [B2, SXD21_VCOR_004.sextupole]
+  - [A0, SXD21_VCOR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-SX/SCD.09/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/SCD.09-CDLV.05/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_168
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN19-AR/DG-EPOS/BPM.06/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN19-AR/DG-EPOS/BPM.06/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH6_COR_007
+  mapping:
+  - [B2, SH6_COR_007.sextupole]
+  - [B0, SH6_COR_007.hcorrector]
+  - [A0, SH6_COR_007.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-SX/SHD.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/SHD.04-CDLH.06/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/SHD.04-CDLV.06/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_196
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/CQLN.11/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SH5_007
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-SX/SHD.05/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OH5_QCORROCT_153_001
+  mapping:
+  - [B3, OH5_QCORROCT_153_001.octupole]
+  - [B1, OH5_QCORROCT_153_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-OCT/OH.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/OH.02-CQLN.12/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_169
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN19-AR/DG-EPOS/BPM.07/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN19-AR/DG-EPOS/BPM.07/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SH4_COR_007
+  mapping:
+  - [B2, SH4_COR_007.sextupole]
+  - [B0, SH4_COR_007.hcorrector]
+  - [A0, SH4_COR_007.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-SX/SHF.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/SHF.06-CDLH.07/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/SHF.06-CDLV.07/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH4_QCORROCT_154_QT_001
+  mapping:
+  - [B3, OH4_QCORROCT_154_QT_001.octupole]
+  - [B1, OH4_QCORROCT_154_QT_001.quadrupole]
+  - [A1, OH4_QCORROCT_154_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-OCT/OH.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/OH.03-CQLN.13/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN19-AR/EM-COR/OH.03-CQLT.05/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_170
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN20-SD/DG-EPOS/BPM.01/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN20-SD/DG-EPOS/BPM.01/y_pos
+      unit: mm
+- type: pyaml.bpm.bpm
+  name: BPM_171
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN20-SD/DG-EPOS/BPM.02/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN20-SD/DG-EPOS/BPM.02/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH4_QCORROCT_155_QT_001
+  mapping:
+  - [B3, OH4_QCORROCT_155_QT_001.octupole]
+  - [B1, OH4_QCORROCT_155_QT_001.quadrupole]
+  - [A1, OH4_QCORROCT_155_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-OCT/OH.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/OH.01-CQLN.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/OH.01-CQLT.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH4_COR_008
+  mapping:
+  - [B2, SH4_COR_008.sextupole]
+  - [B0, SH4_COR_008.hcorrector]
+  - [A0, SH4_COR_008.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-SX/SHF.01/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/SHF.01-CDLH.01/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/SHF.01-CDLV.01/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_172
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN20-AR/DG-EPOS/BPM.03/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN20-AR/DG-EPOS/BPM.03/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH5_QCORROCT_156_001
+  mapping:
+  - [B3, OH5_QCORROCT_156_001.octupole]
+  - [B1, OH5_QCORROCT_156_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-OCT/OH.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/OH.02-CQLN.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.sextupole
+  name: SH5_008
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-SX/SHD.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.quadrupole
+  name: QCORR_197
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/CQLN.03/strength
+      unit: 1/m
+- type: pyaml.magnet.cfm_magnet
+  name: SH6_COR_008
+  mapping:
+  - [B2, SH6_COR_008.sextupole]
+  - [B0, SH6_COR_008.hcorrector]
+  - [A0, SH6_COR_008.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-SX/SHD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/SHD.03-CDLH.02/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/SHD.03-CDLV.02/strength
+      unit: '1'
+- type: pyaml.magnet.sextupole
+  name: SXD12_004
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-SX/SCD.01/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF1_QCORROCT_157_QT_001
+  mapping:
+  - [B3, OCTF1_QCORROCT_157_QT_001.octupole]
+  - [B1, OCTF1_QCORROCT_157_QT_001.quadrupole]
+  - [A1, OCTF1_QCORROCT_157_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-OCT/OC.01/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/OC.01-CQLN.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/OC.01-CQLT.02/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF12_HCOR_004
+  mapping:
+  - [B2, SXF12_HCOR_004.sextupole]
+  - [B0, SXF12_HCOR_004.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-SX/SCF.02/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/SCF.02-CDLH.03/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_173
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN20-AR/DG-EPOS/BPM.04/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN20-AR/DG-EPOS/BPM.04/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD12_VCOR_004
+  mapping:
+  - [B2, SXD12_VCOR_004.sextupole]
+  - [A0, SXD12_VCOR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-SX/SCD.03/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/SCD.03-CDLV.03/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_198
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/CQLN.05/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_199
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/CQLN.06/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD1_010
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-SX/SCD.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF1_QCORROCT_158_QT_001
+  mapping:
+  - [B3, OCTF1_QCORROCT_158_QT_001.octupole]
+  - [B1, OCTF1_QCORROCT_158_QT_001.quadrupole]
+  - [A1, OCTF1_QCORROCT_158_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-OCT/OC.02/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/OC.02-CQLN.07/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/OC.02-CQLT.03/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF1_HCOR_007
+  mapping:
+  - [B2, SXF1_HCOR_007.sextupole]
+  - [B0, SXF1_HCOR_007.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-SX/SCF.05/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/SCF.05-CDLH.04/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_174
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN20-AR/DG-EPOS/BPM.05/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN20-AR/DG-EPOS/BPM.05/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD1_VCOR_010
+  mapping:
+  - [B2, SXD1_VCOR_010.sextupole]
+  - [A0, SXD1_VCOR_010.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-SX/SCD.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/SCD.06-CDLV.04/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_200
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/CQLN.08/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_201
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/CQLN.09/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD1_011
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-SX/SCD.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF1_QCORROCT_159_QT_001
+  mapping:
+  - [B3, OCTF1_QCORROCT_159_QT_001.octupole]
+  - [B1, OCTF1_QCORROCT_159_QT_001.quadrupole]
+  - [A1, OCTF1_QCORROCT_159_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-OCT/OC.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/OC.03-CQLN.10/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/OC.03-CQLT.04/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF13_HCOR_007
+  mapping:
+  - [B2, SXF13_HCOR_007.sextupole]
+  - [B0, SXF13_HCOR_007.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-SX/SCF.08/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/SCF.08-CDLH.05/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_175
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN20-AR/DG-EPOS/BPM.06/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN20-AR/DG-EPOS/BPM.06/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD13_VCOR_004
+  mapping:
+  - [B2, SXD13_VCOR_004.sextupole]
+  - [A0, SXD13_VCOR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-SX/SCD.09/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/SCD.09-CDLV.05/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_202
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/CQLN.11/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_203
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/CQLN.12/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD13_004
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-SX/SCD.10/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF13_HCOR_008
+  mapping:
+  - [B2, SXF13_HCOR_008.sextupole]
+  - [B0, SXF13_HCOR_008.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-SX/SCF.11/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/SCF.11-CDLH.06/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF1_QCORROCT_160_QT_001
+  mapping:
+  - [B3, OCTF1_QCORROCT_160_QT_001.octupole]
+  - [B1, OCTF1_QCORROCT_160_QT_001.quadrupole]
+  - [A1, OCTF1_QCORROCT_160_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-OCT/OC.04/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/OC.04-CQLN.13/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/OC.04-CQLT.05/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_176
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN20-AR/DG-EPOS/BPM.07/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN20-AR/DG-EPOS/BPM.07/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD1_VCOR_011
+  mapping:
+  - [B2, SXD1_VCOR_011.sextupole]
+  - [A0, SXD1_VCOR_011.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-SX/SCD.12/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/SCD.12-CDLV.06/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_204
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/CQLN.14/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_205
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/CQLN.15/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD1_012
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-SX/SCD.13/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF1_HCOR_008
+  mapping:
+  - [B2, SXF1_HCOR_008.sextupole]
+  - [B0, SXF1_HCOR_008.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-SX/SCF.14/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/SCF.14-CDLH.07/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF1_QCORROCT_161_QT_001
+  mapping:
+  - [B3, OCTF1_QCORROCT_161_QT_001.octupole]
+  - [B1, OCTF1_QCORROCT_161_QT_001.quadrupole]
+  - [A1, OCTF1_QCORROCT_161_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-OCT/OC.05/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/OC.05-CQLN.16/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/OC.05-CQLT.06/strength
+      unit: 1/m**2
+- type: pyaml.bpm.bpm
+  name: BPM_177
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN20-AR/DG-EPOS/BPM.08/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN20-AR/DG-EPOS/BPM.08/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: SXD1_VCOR_012
+  mapping:
+  - [B2, SXD1_VCOR_012.sextupole]
+  - [A0, SXD1_VCOR_012.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-SX/SCD.15/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/SCD.15-CDLV.07/strength
+      unit: '1'
+- type: pyaml.magnet.quadrupole
+  name: QCORR_206
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/CQLN.17/strength
+      unit: 1/m
+- type: pyaml.magnet.quadrupole
+  name: QCORR_207
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/CQLN.18/strength
+      unit: 1/m
+- type: pyaml.magnet.sextupole
+  name: SXD11_004
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m**2
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-SX/SCD.16/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXF11_HCOR_004
+  mapping:
+  - [B2, SXF11_HCOR_004.sextupole]
+  - [B0, SXF11_HCOR_004.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-SX/SCF.17/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/SCF.17-CDLH.08/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OCTF1_QCORROCT_162_QT_001
+  mapping:
+  - [B3, OCTF1_QCORROCT_162_QT_001.octupole]
+  - [B1, OCTF1_QCORROCT_162_QT_001.quadrupole]
+  - [A1, OCTF1_QCORROCT_162_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-OCT/OC.06/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/OC.06-CQLN.19/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/OC.06-CQLT.07/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SXD11_VCOR_004
+  mapping:
+  - [B2, SXD11_VCOR_004.sextupole]
+  - [A0, SXD11_VCOR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-SX/SCD.18/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/SCD.18-CDLV.08/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_178
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN20-AR/DG-EPOS/BPM.09/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN20-AR/DG-EPOS/BPM.09/y_pos
+      unit: mm
+- type: pyaml.magnet.quadrupole
+  name: QCORR_208
+  model:
+    type: pyaml.magnet.identity_model
+    unit: 1/m
+    physics:
+      type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/CQLN.20/strength
+      unit: 1/m
+- type: pyaml.magnet.cfm_magnet
+  name: SH3_VCOR_004
+  mapping:
+  - [B2, SH3_VCOR_004.sextupole]
+  - [A0, SH3_VCOR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, A0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-SX/SHD.04/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/SHD.04-CDLV.09/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_179
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN20-AR/DG-EPOS/BPM.10/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN20-AR/DG-EPOS/BPM.10/y_pos
+      unit: mm
+- type: pyaml.magnet.cfm_magnet
+  name: OH2_QCORROCT_163_001
+  mapping:
+  - [B3, OH2_QCORROCT_163_001.octupole]
+  - [B1, OH2_QCORROCT_163_001.quadrupole]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1]
+    units: [1/m**3, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-OCT/OH.03/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/OH.03-CQLN.21/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH2_HCOR_004
+  mapping:
+  - [B2, SH2_HCOR_004.sextupole]
+  - [B0, SH2_HCOR_004.hcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0]
+    units: [1/m**2, '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-SX/SHD.05/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/SHD.05-CDLH.09/strength
+      unit: '1'
+- type: pyaml.magnet.cfm_magnet
+  name: OH1_QCORROCT_164_QT_001
+  mapping:
+  - [B3, OH1_QCORROCT_164_QT_001.octupole]
+  - [B1, OH1_QCORROCT_164_QT_001.quadrupole]
+  - [A1, OH1_QCORROCT_164_QT_001.skewquad]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B3, B1, A1]
+    units: [1/m**3, 1/m**2, 1/m**2]
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-OCT/OH.04/strength
+      unit: 1/m**3
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/OH.04-CQLN.22/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/OH.04-CQLT.08/strength
+      unit: 1/m**2
+- type: pyaml.magnet.cfm_magnet
+  name: SH1_COR_004
+  mapping:
+  - [B2, SH1_COR_004.sextupole]
+  - [B0, SH1_COR_004.hcorrector]
+  - [A0, SH1_COR_004.vcorrector]
+  model:
+    type: pyaml.magnet.identity_cfm_model
+    multipoles: [B2, B0, A0]
+    units: [1/m**2, '1', '1']
+    physics:
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-SX/SHF.06/strength
+      unit: 1/m**2
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/SHF.06-CDLH.10/strength
+      unit: '1'
+    - type: tango.pyaml.attribute
+      attribute: AN20-AR/EM-COR/SHF.06-CDLV.10/strength
+      unit: '1'
+- type: pyaml.bpm.bpm
+  name: BPM_180
+  model:
+    type: pyaml.bpm.bpm_simple_model
+    x_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN01-SD/DG-EPOS/BPM.01/x_pos
+      unit: mm
+    y_pos:
+      type: tango.pyaml.attribute_read_only
+      attribute: AN01-SD/DG-EPOS/BPM.01/y_pos
+      unit: mm
+- type: pyaml.rf.rf_plant
+  name: RF
+  masterclock:
+    type: tango.pyaml.attribute
+    attribute: simulator/ringsimulator/ringsimulator/RfFrequency
+    unit: Hz
+  transmitters:
+  - type: pyaml.rf.rf_transmitter
+    name: RFTRA
+    cavities: [RF_002, RFHARMON_002]
+    harmonic: 1
+    distribution: 1
+    voltage:
+      type: tango.pyaml.attribute
+      attribute: simulator/ringsimulator/ringsimulator/RfVoltage
+      unit: V
+- type: pyaml.diagnostics.tune_monitor
+  name: BETATRON_TUNE
+  tune_h:
+    type: tango.pyaml.attribute_read_only
+    attribute: simulator/ringsimulator/ringsimulator/Tune_h
+  tune_v:
+    type: tango.pyaml.attribute_read_only
+    attribute: simulator/ringsimulator/ringsimulator/Tune_v
+- type: pyaml.tuning_tools.tune
+  name: DEFAULT_TUNE_CORRECTION
+  quad_array: QCORR
+  betatron_tune: BETATRON_TUNE
+  delta: 1e-3
+- type: pyaml.diagnostics.chromaticity_monitor
+  name: DEFAULT_CHROMATICITY_MEASUREMENT
+  betatron_tune: BETATRON_TUNE
+  RFfreq: RF
+  fit_order: 2
+  N_tune_meas: 3
+  N_step: 15
+  Sleep_between_meas: 2
+  Sleep_between_RFvar: 2
+  E_delta: 1e-3
+  Max_E_delta: 1e-2

From 9031c2d29858fb47f20113c317c82af3d35b2ab4 Mon Sep 17 00:00:00 2001
From: gubaidulinvadim <gubaidulinvadim@gmail.com>
Date: Sun, 1 Feb 2026 16:51:43 +0100
Subject: [PATCH 2/5] Added orbit correction example

---
 .../SOLEIL_examples/03-Orbit_correction.ipynb | 992 ++++++++++++++++++
 1 file changed, 992 insertions(+)
 create mode 100644 examples/SOLEIL_examples/03-Orbit_correction.ipynb

diff --git a/examples/SOLEIL_examples/03-Orbit_correction.ipynb b/examples/SOLEIL_examples/03-Orbit_correction.ipynb
new file mode 100644
index 0000000..8128834
--- /dev/null
+++ b/examples/SOLEIL_examples/03-Orbit_correction.ipynb
@@ -0,0 +1,992 @@
+{
+ "cells": [
+  {
+   "cell_type": "code",
+   "execution_count": 74,
+   "id": "68b780c8-534e-46af-b336-6860edeefef4",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "import os\n",
+    "\n",
+    "import numpy as np\n",
+    "\n",
+    "from pyaml.accelerator import Accelerator\n",
+    "from pyaml.common.constants import ACTION_RESTORE\n",
+    "from pyaml.configuration.factory import Factory\n",
+    "from pyaml.magnet.magnet import Magnet"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 76,
+   "id": "62dc34e1-bb65-4b56-b596-e05d60a0e0a5",
+   "metadata": {},
+   "outputs": [
+    {
+     "name": "stdout",
+     "output_type": "stream",
+     "text": [
+      "01 Feb% 2026, 13:34:44 | WARNING | PyAML Tango control system binding (0.3.3) initialized with name 'live' and TANGO_HOST=localhost:11000\n"
+     ]
+    }
+   ],
+   "source": [
+    "sr = Accelerator.load(\"p.yaml\")\n",
+    "Factory.clear()"
+   ]
+  },
+  {
+   "cell_type": "markdown",
+   "id": "71e973b4-e9d8-48d7-98dc-8f43fcbacb21",
+   "metadata": {},
+   "source": [
+    "For the live control mode, you should have some control system emulation runing. It is possible to do \n",
+    "```\n",
+    "apptainer pull virtual-accelerator.sif oras://gitlab-registry.synchrotron-soleil.fr/software-control-system/containers/apptainer/virtual-accelerator:latest\n",
+    "apptainer run virtual-accelerator.sif\n",
+    "```\n",
+    "this will run SOLEIL II proof-of-concept digital twin on localhost:11000. You can play with the digital twin itself (without pyAML) via jive to check that everything is working. You can run jive in a different terminal with \n",
+    "```\n",
+    "apptainer pull jive.sif https://gitlab.synchrotron-soleil.fr/api/v4/projects/2739/packages/generic/jive/latest/jive.sif\n",
+    "apptainer run jive.sif\n",
+    "```\n",
+    "On linux you may need additionally to configure X11\n",
+    "```\n",
+    "export DISPLAY=:0\n",
+    "xhost +local:root\n",
+    "```\n",
+    "\n",
+    "NOTE: This is just a demonstration of pyAML functionality. Certain things may be done stupidly. The person who wrote this jupyter notebook only cared about showing that the code is working, not about intelligently controlling the accelerator."
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 77,
+   "id": "6727e66d-a4f8-4a88-86b9-a58022d5ea55",
+   "metadata": {},
+   "outputs": [
+    {
+     "data": {
+      "text/plain": [
+       "TangoControlSystem(name='live', tango_host='localhost:11000', debug_level=None, lazy_devices=True, scalar_aggregator='tango.pyaml.multi_attribute', vector_aggregator=None, timeout_ms=3000)"
+      ]
+     },
+     "execution_count": 77,
+     "metadata": {},
+     "output_type": "execute_result"
+    }
+   ],
+   "source": [
+    "control_mode = sr.design\n",
+    "control_mode"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 78,
+   "id": "f4918a42-a21b-4815-a747-a96c292405fe",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "bpms = control_mode.get_bpms(\"BPM\")"
+   ]
+  },
+  {
+   "cell_type": "markdown",
+   "id": "21047feb-a273-48b4-8d87-17384a873cde",
+   "metadata": {},
+   "source": [
+    "In the configuration file, the dipolar correctors magnets are not grouped in a family. We can simply look for the element names ending in 'hcorrector' or 'vcorrector' and create an array of magnets ourselves. "
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 79,
+   "id": "d05ed3cf-3bae-4ec8-8dfd-f9a860694b72",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "hcorr_names = [\n",
+    "    mag.get_name()\n",
+    "    for mag in control_mode.get_all_magnets()\n",
+    "    if mag.get_name().endswith(\"hcorrector\")\n",
+    "]\n",
+    "vcorr_names = [\n",
+    "    mag.get_name()\n",
+    "    for mag in control_mode.get_all_magnets()\n",
+    "    if mag.get_name().endswith(\"vcorrector\")\n",
+    "]\n",
+    "\n",
+    "control_mode.fill_magnet_array(\"HCORR\", hcorr_names)\n",
+    "control_mode.fill_magnet_array(\"VCORR\", vcorr_names)"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 80,
+   "id": "e1f5308b-d1b8-41fa-b2ef-6ef074ae449a",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "from pyaml.tuning_tools.orbit_response_matrix import ConfigModel as ORM_ConfigModel\n",
+    "from pyaml.tuning_tools.orbit_response_matrix import OrbitResponseMatrix\n",
+    "\n",
+    "orm = OrbitResponseMatrix(\n",
+    "    cfg=ORM_ConfigModel(\n",
+    "        name=\"DEFAULT_ORM\",\n",
+    "        bpm_array_name=\"BPM\",\n",
+    "        hcorr_array_name=\"HCORR\",\n",
+    "        vcorr_array_name=\"VCORR\",\n",
+    "        corrector_delta=1e-5,\n",
+    "    ),\n",
+    ")\n",
+    "\n",
+    "control_mode.fill_device([orm])\n",
+    "orm = control_mode.get_orm_tuning(\"DEFAULT_ORM\")"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 81,
+   "id": "19b62db1-e93f-48cc-8351-f09c518379de",
+   "metadata": {},
+   "outputs": [
+    {
+     "name": "stdout",
+     "output_type": "stream",
+     "text": [
+      "01 Feb% 2026, 13:34:58 | INFO | Measuring correctors from the default arrays: HCORR and VCORR.\n",
+      "01 Feb% 2026, 13:35:04 | INFO | Measured response of SH1_COR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:35:09 | INFO | Measured response of SH2_HCOR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:35:14 | INFO | Measured response of SXF11_HCOR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:35:18 | INFO | Measured response of SXF1_HCOR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:35:23 | INFO | Measured response of SXF13_HCOR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:35:28 | INFO | Measured response of SXF13_HCOR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:35:33 | INFO | Measured response of SXF1_HCOR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:35:37 | INFO | Measured response of SXF12_HCOR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:35:42 | INFO | Measured response of SH6_COR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:35:47 | INFO | Measured response of SH4_COR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:35:51 | INFO | Measured response of SH4_COR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:35:56 | INFO | Measured response of SH6_COR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:36:01 | INFO | Measured response of SXF21_HCOR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:36:06 | INFO | Measured response of SXF2_HCOR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:36:10 | INFO | Measured response of SXF22_HCOR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:36:15 | INFO | Measured response of SH9_COR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:36:20 | INFO | Measured response of SH7_COR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:36:24 | INFO | Measured response of SH7_COR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:36:29 | INFO | Measured response of SH9_COR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:36:34 | INFO | Measured response of SXF31_HCOR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:36:39 | INFO | Measured response of SXF3_HCOR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:36:43 | INFO | Measured response of SXF33_HCOR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:36:48 | INFO | Measured response of SXF33_HCOR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:36:53 | INFO | Measured response of SXF3_HCOR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:36:57 | INFO | Measured response of SXF32_HCOR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:37:02 | INFO | Measured response of SH9_COR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:37:07 | INFO | Measured response of SH7_COR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:37:12 | INFO | Measured response of SH7_COR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:37:16 | INFO | Measured response of SH9_COR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:37:21 | INFO | Measured response of SXF41_HCOR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:37:26 | INFO | Measured response of SXF4_HCOR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:37:30 | INFO | Measured response of SXF42_HCOR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:37:35 | INFO | Measured response of SH12_COR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:37:40 | INFO | Measured response of SH10_COR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:37:45 | INFO | Measured response of SH10_COR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:37:49 | INFO | Measured response of SH12_COR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:37:54 | INFO | Measured response of SXF51_HCOR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:37:59 | INFO | Measured response of SXF5_HCOR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:38:04 | INFO | Measured response of SXF53_HCOR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:38:08 | INFO | Measured response of SXF53_HCOR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:38:13 | INFO | Measured response of SXF5_HCOR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:38:18 | INFO | Measured response of SXF52_HCOR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:38:22 | INFO | Measured response of SH14_HCOR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:38:27 | INFO | Measured response of SH13_COR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:38:32 | INFO | Measured response of SH16_COR_001.hcorrector.\n",
+      "01 Feb% 2026, 13:38:37 | INFO | Measured response of SH16_COR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:38:41 | INFO | Measured response of SH13_COR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:38:46 | INFO | Measured response of SH14_HCOR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:38:51 | INFO | Measured response of SXF52_HCOR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:38:56 | INFO | Measured response of SXF5_HCOR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:39:00 | INFO | Measured response of SXF53_HCOR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:39:05 | INFO | Measured response of SXF53_HCOR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:39:10 | INFO | Measured response of SXF5_HCOR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:39:14 | INFO | Measured response of SXF51_HCOR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:39:19 | INFO | Measured response of SH12_COR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:39:24 | INFO | Measured response of SH10_COR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:39:28 | INFO | Measured response of SH10_COR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:39:33 | INFO | Measured response of SH12_COR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:39:38 | INFO | Measured response of SXF42_HCOR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:39:43 | INFO | Measured response of SXF4_HCOR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:39:47 | INFO | Measured response of SXF41_HCOR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:39:52 | INFO | Measured response of SH9_COR_005.hcorrector.\n",
+      "01 Feb% 2026, 13:39:57 | INFO | Measured response of SH7_COR_005.hcorrector.\n",
+      "01 Feb% 2026, 13:40:01 | INFO | Measured response of SH7_COR_006.hcorrector.\n",
+      "01 Feb% 2026, 13:40:06 | INFO | Measured response of SH9_COR_006.hcorrector.\n",
+      "01 Feb% 2026, 13:40:11 | INFO | Measured response of SXF32_HCOR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:40:16 | INFO | Measured response of SXF3_HCOR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:40:20 | INFO | Measured response of SXF33_HCOR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:40:25 | INFO | Measured response of SXF33_HCOR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:40:30 | INFO | Measured response of SXF3_HCOR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:40:34 | INFO | Measured response of SXF31_HCOR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:40:39 | INFO | Measured response of SH9_COR_007.hcorrector.\n",
+      "01 Feb% 2026, 13:40:44 | INFO | Measured response of SH7_COR_007.hcorrector.\n",
+      "01 Feb% 2026, 13:40:49 | INFO | Measured response of SH7_COR_008.hcorrector.\n",
+      "01 Feb% 2026, 13:40:53 | INFO | Measured response of SH9_COR_008.hcorrector.\n",
+      "01 Feb% 2026, 13:40:58 | INFO | Measured response of SXF22_HCOR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:41:03 | INFO | Measured response of SXF2_HCOR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:41:08 | INFO | Measured response of SXF21_HCOR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:41:12 | INFO | Measured response of SH6_COR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:41:17 | INFO | Measured response of SH4_COR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:41:22 | INFO | Measured response of SH4_COR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:41:26 | INFO | Measured response of SH6_COR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:41:31 | INFO | Measured response of SXF12_HCOR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:41:36 | INFO | Measured response of SXF1_HCOR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:41:41 | INFO | Measured response of SXF13_HCOR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:41:46 | INFO | Measured response of SXF13_HCOR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:41:51 | INFO | Measured response of SXF1_HCOR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:41:56 | INFO | Measured response of SXF11_HCOR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:42:01 | INFO | Measured response of SH2_HCOR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:42:05 | INFO | Measured response of SH1_COR_002.hcorrector.\n",
+      "01 Feb% 2026, 13:42:10 | INFO | Measured response of SH1_COR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:42:15 | INFO | Measured response of SH2_HCOR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:42:20 | INFO | Measured response of SXF11_HCOR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:42:24 | INFO | Measured response of SXF1_HCOR_005.hcorrector.\n",
+      "01 Feb% 2026, 13:42:29 | INFO | Measured response of SXF13_HCOR_005.hcorrector.\n",
+      "01 Feb% 2026, 13:42:34 | INFO | Measured response of SXF13_HCOR_006.hcorrector.\n",
+      "01 Feb% 2026, 13:42:38 | INFO | Measured response of SXF1_HCOR_006.hcorrector.\n",
+      "01 Feb% 2026, 13:42:43 | INFO | Measured response of SXF12_HCOR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:42:48 | INFO | Measured response of SH6_COR_005.hcorrector.\n",
+      "01 Feb% 2026, 13:42:53 | INFO | Measured response of SH4_COR_005.hcorrector.\n",
+      "01 Feb% 2026, 13:42:57 | INFO | Measured response of SH4_COR_006.hcorrector.\n",
+      "01 Feb% 2026, 13:43:02 | INFO | Measured response of SH6_COR_006.hcorrector.\n",
+      "01 Feb% 2026, 13:43:07 | INFO | Measured response of SXF21_HCOR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:43:11 | INFO | Measured response of SXF2_HCOR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:43:16 | INFO | Measured response of SXF22_HCOR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:43:21 | INFO | Measured response of SH9_COR_009.hcorrector.\n",
+      "01 Feb% 2026, 13:43:26 | INFO | Measured response of SH7_COR_009.hcorrector.\n",
+      "01 Feb% 2026, 13:43:30 | INFO | Measured response of SH7_COR_010.hcorrector.\n",
+      "01 Feb% 2026, 13:43:35 | INFO | Measured response of SH9_COR_010.hcorrector.\n",
+      "01 Feb% 2026, 13:43:40 | INFO | Measured response of SXF31_HCOR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:43:45 | INFO | Measured response of SXF3_HCOR_005.hcorrector.\n",
+      "01 Feb% 2026, 13:43:49 | INFO | Measured response of SXF33_HCOR_005.hcorrector.\n",
+      "01 Feb% 2026, 13:43:54 | INFO | Measured response of SXF33_HCOR_006.hcorrector.\n",
+      "01 Feb% 2026, 13:43:59 | INFO | Measured response of SXF3_HCOR_006.hcorrector.\n",
+      "01 Feb% 2026, 13:44:03 | INFO | Measured response of SXF32_HCOR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:44:08 | INFO | Measured response of SH9_COR_011.hcorrector.\n",
+      "01 Feb% 2026, 13:44:13 | INFO | Measured response of SH7_COR_011.hcorrector.\n",
+      "01 Feb% 2026, 13:44:18 | INFO | Measured response of SH7_COR_012.hcorrector.\n",
+      "01 Feb% 2026, 13:44:22 | INFO | Measured response of SH9_COR_012.hcorrector.\n",
+      "01 Feb% 2026, 13:44:27 | INFO | Measured response of SXF41_HCOR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:44:32 | INFO | Measured response of SXF4_HCOR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:44:36 | INFO | Measured response of SXF42_HCOR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:44:41 | INFO | Measured response of SH12_COR_005.hcorrector.\n",
+      "01 Feb% 2026, 13:44:46 | INFO | Measured response of SH10_COR_005.hcorrector.\n",
+      "01 Feb% 2026, 13:44:51 | INFO | Measured response of SH10_COR_006.hcorrector.\n",
+      "01 Feb% 2026, 13:44:55 | INFO | Measured response of SH12_COR_006.hcorrector.\n",
+      "01 Feb% 2026, 13:45:00 | INFO | Measured response of SXF51_HCOR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:45:05 | INFO | Measured response of SXF5_HCOR_005.hcorrector.\n",
+      "01 Feb% 2026, 13:45:09 | INFO | Measured response of SXF53_HCOR_005.hcorrector.\n",
+      "01 Feb% 2026, 13:45:14 | INFO | Measured response of SXF53_HCOR_006.hcorrector.\n",
+      "01 Feb% 2026, 13:45:19 | INFO | Measured response of SXF5_HCOR_006.hcorrector.\n",
+      "01 Feb% 2026, 13:45:24 | INFO | Measured response of SXF52_HCOR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:45:28 | INFO | Measured response of SH14_HCOR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:45:33 | INFO | Measured response of SH13_COR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:45:38 | INFO | Measured response of SH16_COR_003.hcorrector.\n",
+      "01 Feb% 2026, 13:45:42 | INFO | Measured response of SH16_COR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:45:47 | INFO | Measured response of SH13_COR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:45:52 | INFO | Measured response of SH14_HCOR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:45:57 | INFO | Measured response of SXF52_HCOR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:46:01 | INFO | Measured response of SXF5_HCOR_007.hcorrector.\n",
+      "01 Feb% 2026, 13:46:06 | INFO | Measured response of SXF53_HCOR_007.hcorrector.\n",
+      "01 Feb% 2026, 13:46:11 | INFO | Measured response of SXF53_HCOR_008.hcorrector.\n",
+      "01 Feb% 2026, 13:46:15 | INFO | Measured response of SXF5_HCOR_008.hcorrector.\n",
+      "01 Feb% 2026, 13:46:20 | INFO | Measured response of SXF51_HCOR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:46:25 | INFO | Measured response of SH12_COR_007.hcorrector.\n",
+      "01 Feb% 2026, 13:46:30 | INFO | Measured response of SH10_COR_007.hcorrector.\n",
+      "01 Feb% 2026, 13:46:34 | INFO | Measured response of SH10_COR_008.hcorrector.\n",
+      "01 Feb% 2026, 13:46:39 | INFO | Measured response of SH12_COR_008.hcorrector.\n",
+      "01 Feb% 2026, 13:46:44 | INFO | Measured response of SXF42_HCOR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:46:48 | INFO | Measured response of SXF4_HCOR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:46:53 | INFO | Measured response of SXF41_HCOR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:46:58 | INFO | Measured response of SH9_COR_013.hcorrector.\n",
+      "01 Feb% 2026, 13:47:03 | INFO | Measured response of SH7_COR_013.hcorrector.\n",
+      "01 Feb% 2026, 13:47:07 | INFO | Measured response of SH7_COR_014.hcorrector.\n",
+      "01 Feb% 2026, 13:47:12 | INFO | Measured response of SH9_COR_014.hcorrector.\n",
+      "01 Feb% 2026, 13:47:17 | INFO | Measured response of SXF32_HCOR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:47:22 | INFO | Measured response of SXF3_HCOR_007.hcorrector.\n",
+      "01 Feb% 2026, 13:47:26 | INFO | Measured response of SXF33_HCOR_007.hcorrector.\n",
+      "01 Feb% 2026, 13:47:31 | INFO | Measured response of SXF33_HCOR_008.hcorrector.\n",
+      "01 Feb% 2026, 13:47:36 | INFO | Measured response of SXF3_HCOR_008.hcorrector.\n",
+      "01 Feb% 2026, 13:47:40 | INFO | Measured response of SXF31_HCOR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:47:45 | INFO | Measured response of SH9_COR_015.hcorrector.\n",
+      "01 Feb% 2026, 13:47:50 | INFO | Measured response of SH7_COR_015.hcorrector.\n",
+      "01 Feb% 2026, 13:47:55 | INFO | Measured response of SH7_COR_016.hcorrector.\n",
+      "01 Feb% 2026, 13:47:59 | INFO | Measured response of SH9_COR_016.hcorrector.\n",
+      "01 Feb% 2026, 13:48:04 | INFO | Measured response of SXF22_HCOR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:48:09 | INFO | Measured response of SXF2_HCOR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:48:13 | INFO | Measured response of SXF21_HCOR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:48:18 | INFO | Measured response of SH6_COR_007.hcorrector.\n",
+      "01 Feb% 2026, 13:48:23 | INFO | Measured response of SH4_COR_007.hcorrector.\n",
+      "01 Feb% 2026, 13:48:28 | INFO | Measured response of SH4_COR_008.hcorrector.\n",
+      "01 Feb% 2026, 13:48:32 | INFO | Measured response of SH6_COR_008.hcorrector.\n",
+      "01 Feb% 2026, 13:48:37 | INFO | Measured response of SXF12_HCOR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:48:42 | INFO | Measured response of SXF1_HCOR_007.hcorrector.\n",
+      "01 Feb% 2026, 13:48:47 | INFO | Measured response of SXF13_HCOR_007.hcorrector.\n",
+      "01 Feb% 2026, 13:48:51 | INFO | Measured response of SXF13_HCOR_008.hcorrector.\n",
+      "01 Feb% 2026, 13:48:56 | INFO | Measured response of SXF1_HCOR_008.hcorrector.\n",
+      "01 Feb% 2026, 13:49:01 | INFO | Measured response of SXF11_HCOR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:49:05 | INFO | Measured response of SH2_HCOR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:49:10 | INFO | Measured response of SH1_COR_004.hcorrector.\n",
+      "01 Feb% 2026, 13:49:15 | INFO | Measured response of SH1_COR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:49:20 | INFO | Measured response of SH3_VCOR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:49:24 | INFO | Measured response of SXD11_VCOR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:49:29 | INFO | Measured response of SXD1_VCOR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:49:34 | INFO | Measured response of SXD13_VCOR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:49:38 | INFO | Measured response of SXD1_VCOR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:49:43 | INFO | Measured response of SXD1_VCOR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:49:48 | INFO | Measured response of SXD12_VCOR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:49:53 | INFO | Measured response of SH6_COR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:49:57 | INFO | Measured response of SH4_COR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:50:02 | INFO | Measured response of SH4_COR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:50:07 | INFO | Measured response of SH6_COR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:50:11 | INFO | Measured response of SXD21_VCOR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:50:16 | INFO | Measured response of SXD2_VCOR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:50:21 | INFO | Measured response of SXD22_VCOR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:50:26 | INFO | Measured response of SH9_COR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:50:30 | INFO | Measured response of SH7_COR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:50:35 | INFO | Measured response of SH7_COR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:50:40 | INFO | Measured response of SH9_COR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:50:44 | INFO | Measured response of SXD31_VCOR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:50:49 | INFO | Measured response of SXD3_VCOR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:50:54 | INFO | Measured response of SXD33_VCOR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:50:59 | INFO | Measured response of SXD3_VCOR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:51:03 | INFO | Measured response of SXD3_VCOR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:51:08 | INFO | Measured response of SXD32_VCOR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:51:13 | INFO | Measured response of SH9_COR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:51:17 | INFO | Measured response of SH7_COR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:51:22 | INFO | Measured response of SH7_COR_004.vcorrector.\n",
+      "01 Feb% 2026, 13:51:27 | INFO | Measured response of SH9_COR_004.vcorrector.\n",
+      "01 Feb% 2026, 13:51:32 | INFO | Measured response of SXD41_VCOR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:51:36 | INFO | Measured response of SXD4_VCOR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:51:41 | INFO | Measured response of SXD42_VCOR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:51:46 | INFO | Measured response of SH12_COR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:51:50 | INFO | Measured response of SH10_COR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:51:55 | INFO | Measured response of SH10_COR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:52:00 | INFO | Measured response of SH12_COR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:52:05 | INFO | Measured response of SXD51_VCOR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:52:09 | INFO | Measured response of SXD5_VCOR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:52:14 | INFO | Measured response of SXD53_VCOR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:52:19 | INFO | Measured response of SXD5_VCOR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:52:23 | INFO | Measured response of SXD5_VCOR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:52:28 | INFO | Measured response of SXD52_VCOR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:52:33 | INFO | Measured response of SH15_VCOR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:52:38 | INFO | Measured response of SH13_COR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:52:42 | INFO | Measured response of SH16_COR_001.vcorrector.\n",
+      "01 Feb% 2026, 13:52:47 | INFO | Measured response of SH16_COR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:52:52 | INFO | Measured response of SH13_COR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:52:56 | INFO | Measured response of SH15_VCOR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:53:01 | INFO | Measured response of SXD52_VCOR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:53:06 | INFO | Measured response of SXD5_VCOR_004.vcorrector.\n",
+      "01 Feb% 2026, 13:53:11 | INFO | Measured response of SXD53_VCOR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:53:15 | INFO | Measured response of SXD5_VCOR_005.vcorrector.\n",
+      "01 Feb% 2026, 13:53:20 | INFO | Measured response of SXD5_VCOR_006.vcorrector.\n",
+      "01 Feb% 2026, 13:53:25 | INFO | Measured response of SXD51_VCOR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:53:29 | INFO | Measured response of SH12_COR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:53:34 | INFO | Measured response of SH10_COR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:53:39 | INFO | Measured response of SH10_COR_004.vcorrector.\n",
+      "01 Feb% 2026, 13:53:44 | INFO | Measured response of SH12_COR_004.vcorrector.\n",
+      "01 Feb% 2026, 13:53:48 | INFO | Measured response of SXD42_VCOR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:53:53 | INFO | Measured response of SXD4_VCOR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:53:58 | INFO | Measured response of SXD41_VCOR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:54:02 | INFO | Measured response of SH9_COR_005.vcorrector.\n",
+      "01 Feb% 2026, 13:54:07 | INFO | Measured response of SH7_COR_005.vcorrector.\n",
+      "01 Feb% 2026, 13:54:12 | INFO | Measured response of SH7_COR_006.vcorrector.\n",
+      "01 Feb% 2026, 13:54:17 | INFO | Measured response of SH9_COR_006.vcorrector.\n",
+      "01 Feb% 2026, 13:54:21 | INFO | Measured response of SXD32_VCOR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:54:26 | INFO | Measured response of SXD3_VCOR_004.vcorrector.\n",
+      "01 Feb% 2026, 13:54:31 | INFO | Measured response of SXD33_VCOR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:54:35 | INFO | Measured response of SXD3_VCOR_005.vcorrector.\n",
+      "01 Feb% 2026, 13:54:40 | INFO | Measured response of SXD3_VCOR_006.vcorrector.\n",
+      "01 Feb% 2026, 13:54:45 | INFO | Measured response of SXD31_VCOR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:54:50 | INFO | Measured response of SH9_COR_007.vcorrector.\n",
+      "01 Feb% 2026, 13:54:54 | INFO | Measured response of SH7_COR_007.vcorrector.\n",
+      "01 Feb% 2026, 13:54:59 | INFO | Measured response of SH7_COR_008.vcorrector.\n",
+      "01 Feb% 2026, 13:55:04 | INFO | Measured response of SH9_COR_008.vcorrector.\n",
+      "01 Feb% 2026, 13:55:08 | INFO | Measured response of SXD22_VCOR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:55:13 | INFO | Measured response of SXD2_VCOR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:55:18 | INFO | Measured response of SXD21_VCOR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:55:23 | INFO | Measured response of SH6_COR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:55:27 | INFO | Measured response of SH4_COR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:55:32 | INFO | Measured response of SH4_COR_004.vcorrector.\n",
+      "01 Feb% 2026, 13:55:37 | INFO | Measured response of SH6_COR_004.vcorrector.\n",
+      "01 Feb% 2026, 13:55:41 | INFO | Measured response of SXD12_VCOR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:55:46 | INFO | Measured response of SXD1_VCOR_004.vcorrector.\n",
+      "01 Feb% 2026, 13:55:51 | INFO | Measured response of SXD13_VCOR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:55:55 | INFO | Measured response of SXD1_VCOR_005.vcorrector.\n",
+      "01 Feb% 2026, 13:56:00 | INFO | Measured response of SXD1_VCOR_006.vcorrector.\n",
+      "01 Feb% 2026, 13:56:05 | INFO | Measured response of SXD11_VCOR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:56:10 | INFO | Measured response of SH3_VCOR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:56:14 | INFO | Measured response of SH1_COR_002.vcorrector.\n",
+      "01 Feb% 2026, 13:56:19 | INFO | Measured response of SH1_COR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:56:24 | INFO | Measured response of SH3_VCOR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:56:28 | INFO | Measured response of SXD11_VCOR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:56:33 | INFO | Measured response of SXD1_VCOR_007.vcorrector.\n",
+      "01 Feb% 2026, 13:56:38 | INFO | Measured response of SXD13_VCOR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:56:43 | INFO | Measured response of SXD1_VCOR_008.vcorrector.\n",
+      "01 Feb% 2026, 13:56:47 | INFO | Measured response of SXD1_VCOR_009.vcorrector.\n",
+      "01 Feb% 2026, 13:56:52 | INFO | Measured response of SXD12_VCOR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:56:57 | INFO | Measured response of SH6_COR_005.vcorrector.\n",
+      "01 Feb% 2026, 13:57:01 | INFO | Measured response of SH4_COR_005.vcorrector.\n",
+      "01 Feb% 2026, 13:57:06 | INFO | Measured response of SH4_COR_006.vcorrector.\n",
+      "01 Feb% 2026, 13:57:11 | INFO | Measured response of SH6_COR_006.vcorrector.\n",
+      "01 Feb% 2026, 13:57:16 | INFO | Measured response of SXD21_VCOR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:57:20 | INFO | Measured response of SXD2_VCOR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:57:25 | INFO | Measured response of SXD22_VCOR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:57:30 | INFO | Measured response of SH9_COR_009.vcorrector.\n",
+      "01 Feb% 2026, 13:57:34 | INFO | Measured response of SH7_COR_009.vcorrector.\n",
+      "01 Feb% 2026, 13:57:39 | INFO | Measured response of SH7_COR_010.vcorrector.\n",
+      "01 Feb% 2026, 13:57:44 | INFO | Measured response of SH9_COR_010.vcorrector.\n",
+      "01 Feb% 2026, 13:57:49 | INFO | Measured response of SXD31_VCOR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:57:53 | INFO | Measured response of SXD3_VCOR_007.vcorrector.\n",
+      "01 Feb% 2026, 13:57:58 | INFO | Measured response of SXD33_VCOR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:58:03 | INFO | Measured response of SXD3_VCOR_008.vcorrector.\n",
+      "01 Feb% 2026, 13:58:07 | INFO | Measured response of SXD3_VCOR_009.vcorrector.\n",
+      "01 Feb% 2026, 13:58:12 | INFO | Measured response of SXD32_VCOR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:58:17 | INFO | Measured response of SH9_COR_011.vcorrector.\n",
+      "01 Feb% 2026, 13:58:22 | INFO | Measured response of SH7_COR_011.vcorrector.\n",
+      "01 Feb% 2026, 13:58:26 | INFO | Measured response of SH7_COR_012.vcorrector.\n",
+      "01 Feb% 2026, 13:58:31 | INFO | Measured response of SH9_COR_012.vcorrector.\n",
+      "01 Feb% 2026, 13:58:36 | INFO | Measured response of SXD41_VCOR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:58:40 | INFO | Measured response of SXD4_VCOR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:58:45 | INFO | Measured response of SXD42_VCOR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:58:50 | INFO | Measured response of SH12_COR_005.vcorrector.\n",
+      "01 Feb% 2026, 13:58:55 | INFO | Measured response of SH10_COR_005.vcorrector.\n",
+      "01 Feb% 2026, 13:58:59 | INFO | Measured response of SH10_COR_006.vcorrector.\n",
+      "01 Feb% 2026, 13:59:04 | INFO | Measured response of SH12_COR_006.vcorrector.\n",
+      "01 Feb% 2026, 13:59:09 | INFO | Measured response of SXD51_VCOR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:59:13 | INFO | Measured response of SXD5_VCOR_007.vcorrector.\n",
+      "01 Feb% 2026, 13:59:18 | INFO | Measured response of SXD53_VCOR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:59:23 | INFO | Measured response of SXD5_VCOR_008.vcorrector.\n",
+      "01 Feb% 2026, 13:59:28 | INFO | Measured response of SXD5_VCOR_009.vcorrector.\n",
+      "01 Feb% 2026, 13:59:32 | INFO | Measured response of SXD52_VCOR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:59:37 | INFO | Measured response of SH15_VCOR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:59:42 | INFO | Measured response of SH13_COR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:59:46 | INFO | Measured response of SH16_COR_003.vcorrector.\n",
+      "01 Feb% 2026, 13:59:51 | INFO | Measured response of SH16_COR_004.vcorrector.\n",
+      "01 Feb% 2026, 13:59:56 | INFO | Measured response of SH13_COR_004.vcorrector.\n",
+      "01 Feb% 2026, 14:00:00 | INFO | Measured response of SH15_VCOR_004.vcorrector.\n",
+      "01 Feb% 2026, 14:00:05 | INFO | Measured response of SXD52_VCOR_004.vcorrector.\n",
+      "01 Feb% 2026, 14:00:10 | INFO | Measured response of SXD5_VCOR_010.vcorrector.\n",
+      "01 Feb% 2026, 14:00:15 | INFO | Measured response of SXD53_VCOR_004.vcorrector.\n",
+      "01 Feb% 2026, 14:00:19 | INFO | Measured response of SXD5_VCOR_011.vcorrector.\n",
+      "01 Feb% 2026, 14:00:24 | INFO | Measured response of SXD5_VCOR_012.vcorrector.\n",
+      "01 Feb% 2026, 14:00:29 | INFO | Measured response of SXD51_VCOR_004.vcorrector.\n",
+      "01 Feb% 2026, 14:00:33 | INFO | Measured response of SH12_COR_007.vcorrector.\n",
+      "01 Feb% 2026, 14:00:38 | INFO | Measured response of SH10_COR_007.vcorrector.\n",
+      "01 Feb% 2026, 14:00:43 | INFO | Measured response of SH10_COR_008.vcorrector.\n",
+      "01 Feb% 2026, 14:00:48 | INFO | Measured response of SH12_COR_008.vcorrector.\n",
+      "01 Feb% 2026, 14:00:52 | INFO | Measured response of SXD42_VCOR_004.vcorrector.\n",
+      "01 Feb% 2026, 14:00:57 | INFO | Measured response of SXD4_VCOR_004.vcorrector.\n",
+      "01 Feb% 2026, 14:01:02 | INFO | Measured response of SXD41_VCOR_004.vcorrector.\n",
+      "01 Feb% 2026, 14:01:06 | INFO | Measured response of SH9_COR_013.vcorrector.\n",
+      "01 Feb% 2026, 14:01:11 | INFO | Measured response of SH7_COR_013.vcorrector.\n",
+      "01 Feb% 2026, 14:01:16 | INFO | Measured response of SH7_COR_014.vcorrector.\n",
+      "01 Feb% 2026, 14:01:21 | INFO | Measured response of SH9_COR_014.vcorrector.\n",
+      "01 Feb% 2026, 14:01:25 | INFO | Measured response of SXD32_VCOR_004.vcorrector.\n",
+      "01 Feb% 2026, 14:01:30 | INFO | Measured response of SXD3_VCOR_010.vcorrector.\n",
+      "01 Feb% 2026, 14:01:35 | INFO | Measured response of SXD33_VCOR_004.vcorrector.\n",
+      "01 Feb% 2026, 14:01:39 | INFO | Measured response of SXD3_VCOR_011.vcorrector.\n",
+      "01 Feb% 2026, 14:01:44 | INFO | Measured response of SXD3_VCOR_012.vcorrector.\n",
+      "01 Feb% 2026, 14:01:49 | INFO | Measured response of SXD31_VCOR_004.vcorrector.\n",
+      "01 Feb% 2026, 14:01:54 | INFO | Measured response of SH9_COR_015.vcorrector.\n",
+      "01 Feb% 2026, 14:01:58 | INFO | Measured response of SH7_COR_015.vcorrector.\n",
+      "01 Feb% 2026, 14:02:03 | INFO | Measured response of SH7_COR_016.vcorrector.\n",
+      "01 Feb% 2026, 14:02:08 | INFO | Measured response of SH9_COR_016.vcorrector.\n",
+      "01 Feb% 2026, 14:02:12 | INFO | Measured response of SXD22_VCOR_004.vcorrector.\n",
+      "01 Feb% 2026, 14:02:17 | INFO | Measured response of SXD2_VCOR_004.vcorrector.\n",
+      "01 Feb% 2026, 14:02:22 | INFO | Measured response of SXD21_VCOR_004.vcorrector.\n",
+      "01 Feb% 2026, 14:02:26 | INFO | Measured response of SH6_COR_007.vcorrector.\n",
+      "01 Feb% 2026, 14:02:31 | INFO | Measured response of SH4_COR_007.vcorrector.\n",
+      "01 Feb% 2026, 14:02:36 | INFO | Measured response of SH4_COR_008.vcorrector.\n",
+      "01 Feb% 2026, 14:02:41 | INFO | Measured response of SH6_COR_008.vcorrector.\n",
+      "01 Feb% 2026, 14:02:45 | INFO | Measured response of SXD12_VCOR_004.vcorrector.\n",
+      "01 Feb% 2026, 14:02:50 | INFO | Measured response of SXD1_VCOR_010.vcorrector.\n",
+      "01 Feb% 2026, 14:02:55 | INFO | Measured response of SXD13_VCOR_004.vcorrector.\n",
+      "01 Feb% 2026, 14:02:59 | INFO | Measured response of SXD1_VCOR_011.vcorrector.\n",
+      "01 Feb% 2026, 14:03:04 | INFO | Measured response of SXD1_VCOR_012.vcorrector.\n",
+      "01 Feb% 2026, 14:03:09 | INFO | Measured response of SXD11_VCOR_004.vcorrector.\n",
+      "01 Feb% 2026, 14:03:14 | INFO | Measured response of SH3_VCOR_004.vcorrector.\n",
+      "01 Feb% 2026, 14:03:18 | INFO | Measured response of SH1_COR_004.vcorrector.\n"
+     ]
+    }
+   ],
+   "source": [
+    "orm.measure(set_wait_time=1.5)"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 82,
+   "id": "2fd3fe46-6156-4b1d-a269-7c8c7b22ee92",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "ormdata = orm.get()"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 83,
+   "id": "e6e5ae9f-f83d-4535-b727-6b3758fd85d0",
+   "metadata": {},
+   "outputs": [
+    {
+     "data": {
+      "text/plain": [
+       "(180, 180)"
+      ]
+     },
+     "execution_count": 83,
+     "metadata": {},
+     "output_type": "execute_result"
+    }
+   ],
+   "source": [
+    "len(bpms), len(hcorr_names)"
+   ]
+  },
+  {
+   "cell_type": "markdown",
+   "id": "d00f9cd7-739e-4a85-a5c6-a1229d8b3155",
+   "metadata": {},
+   "source": [
+    "Let's visualise the orbit response matrix"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 84,
+   "id": "7e0ddfe2-241b-4ee1-9eb2-bee4fe06ce03",
+   "metadata": {},
+   "outputs": [
+    {
+     "data": {
+      "text/plain": [
+       "<matplotlib.image.AxesImage at 0x7755e3b809b0>"
+      ]
+     },
+     "execution_count": 84,
+     "metadata": {},
+     "output_type": "execute_result"
+    },
+    {
+     "data": {
+      "image/png": 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",
+      "text/plain": [
+       "<Figure size 640x480 with 1 Axes>"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    }
+   ],
+   "source": [
+    "import matplotlib.pyplot as plt\n",
+    "\n",
+    "plt.imshow(np.array(ormdata[\"matrix\"]))"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 85,
+   "id": "79628252-7eea-44f1-83f9-5c032dbd75d6",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "orm.save(f\"orm_{control_mode}.json\")"
+   ]
+  },
+  {
+   "cell_type": "markdown",
+   "id": "9cdc7159-bbad-465b-aed9-039e3d4ef073",
+   "metadata": {},
+   "source": [
+    "To have some orbit in the design mode we have to mangle it by introducing some noise on the H and V correctors. "
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 89,
+   "id": "a771c0f2-d09a-4ae6-ae95-f0416f6c570b",
+   "metadata": {},
+   "outputs": [
+    {
+     "name": "stdout",
+     "output_type": "stream",
+     "text": [
+      "R.m.s. orbit before correction H:  42.3 µm, V:  17.2 µm.\n"
+     ]
+    }
+   ],
+   "source": [
+    "from time import sleep\n",
+    "\n",
+    "std_kick = 1e-6\n",
+    "hcorr = control_mode.get_magnets(\"HCORR\")\n",
+    "vcorr = control_mode.get_magnets(\"VCORR\")\n",
+    "bpms = control_mode.get_bpms(\"BPM\")\n",
+    "ref_h, ref_v = control_mode.get_bpms(\"BPM\").positions.get().T\n",
+    "reference = np.concat((ref_h, ref_v))\n",
+    "# mangle orbit\n",
+    "hcorr.strengths.set(\n",
+    "    hcorr.strengths.get() + std_kick * np.random.normal(size=len(hcorr))\n",
+    ")\n",
+    "vcorr.strengths.set(\n",
+    "    vcorr.strengths.get() + std_kick * np.random.normal(size=len(vcorr))\n",
+    ")\n",
+    "\n",
+    "positions_bc = bpms.positions.get()\n",
+    "std_bc = np.std(positions_bc, axis=0)\n",
+    "sleep(2)\n",
+    "print(\n",
+    "    \"R.m.s. orbit before correction \"\n",
+    "    f\"H: {1e6 * std_bc[0]: .1f} µm, V: {1e6 * std_bc[1]: .1f} µm.\"\n",
+    ")"
+   ]
+  },
+  {
+   "cell_type": "markdown",
+   "id": "6a6a21e4-3885-4f8c-8e30-36fa74563064",
+   "metadata": {},
+   "source": [
+    "Let's visualise the mangled orbit before the correction is applied"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 90,
+   "id": "5785e582-a8ff-4464-a759-fe731f197420",
+   "metadata": {},
+   "outputs": [
+    {
+     "data": {
+      "text/plain": [
+       "Text(0, 0.5, 'Orbit')"
+      ]
+     },
+     "execution_count": 90,
+     "metadata": {},
+     "output_type": "execute_result"
+    },
+    {
+     "data": {
+      "image/png": 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",
+      "text/plain": [
+       "<Figure size 640x480 with 1 Axes>"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    }
+   ],
+   "source": [
+    "plt.plot(positions_bc[:, 0], label=\"H\")\n",
+    "plt.plot(positions_bc[:, 1], label=\"V\")\n",
+    "plt.xlabel(\"BPM number\")\n",
+    "plt.ylabel(\"Orbit\")"
+   ]
+  },
+  {
+   "cell_type": "markdown",
+   "id": "955fb761-4044-48dc-a1dc-f4a0ca5d67e3",
+   "metadata": {},
+   "source": [
+    "### Dispersion measurement\n",
+    "\n",
+    "In order to correct the orbit we would also need to know the rf response of our machine. For this we will measure dispersion."
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 96,
+   "id": "51ba7574-d658-4a00-bca9-92f412561174",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "sr.design.get_lattice().enable_6d()\n",
+    "control_mode = sr.design"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 97,
+   "id": "13d1490e-13eb-4cbb-a34b-48c3bf542886",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "from pyaml.tuning_tools.dispersion import ConfigModel as Disp_ConfigModel\n",
+    "from pyaml.tuning_tools.dispersion import Dispersion\n",
+    "\n",
+    "dispersion = Dispersion(\n",
+    "    cfg=Disp_ConfigModel(\n",
+    "        name=\"DEFAULT_DISPERSION\",\n",
+    "        bpm_array_name=\"BPM\",\n",
+    "        rf_plant_name=\"RF\",\n",
+    "        frequency_delta=500,\n",
+    "    ),\n",
+    ")\n",
+    "\n",
+    "control_mode.fill_device([dispersion])\n",
+    "dispersion = control_mode.get_dispersion_tuning(\"DEFAULT_DISPERSION\")"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 98,
+   "id": "42ad67c6-77a0-4e85-9c7b-201a5ded4f35",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "dispersion.measure(set_waiting_time=10)\n",
+    "dispersion_data = dispersion.get()"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 99,
+   "id": "dee3fc75-72f7-45c0-8590-6209e4884fe0",
+   "metadata": {},
+   "outputs": [
+    {
+     "data": {
+      "text/plain": [
+       "dict_keys(['raw_orbit_x_up', 'raw_orbit_y_up', 'raw_orbit_x_center', 'raw_orbit_y_center', 'raw_orbit_x_down', 'raw_orbit_y_down', 'raw_orbit_x_err_up', 'raw_orbit_y_err_up', 'raw_orbit_x_err_center', 'raw_orbit_y_err_center', 'raw_orbit_x_err_down', 'raw_orbit_y_err_down', 'frequency_response_x', 'frequency_response_y', 'frequency_response_x_err', 'frequency_response_y_err', 'delta', 'momentum_compaction', 'shots_per_orbit', 'bipolar', 'timestamp', 'original_save_path'])"
+      ]
+     },
+     "execution_count": 99,
+     "metadata": {},
+     "output_type": "execute_result"
+    }
+   ],
+   "source": [
+    "rf_response = (\n",
+    "    dispersion_data[\"frequency_response_x\"] + dispersion_data[\"frequency_response_y\"]\n",
+    ")\n",
+    "dispersion_data.keys()"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 100,
+   "id": "d47202ca-d547-43c1-9aea-3d72cbcdb057",
+   "metadata": {},
+   "outputs": [
+    {
+     "data": {
+      "text/plain": [
+       "[<matplotlib.lines.Line2D at 0x7755cbb98200>]"
+      ]
+     },
+     "execution_count": 100,
+     "metadata": {},
+     "output_type": "execute_result"
+    },
+    {
+     "data": {
+      "image/png": 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26Wf42aSf4Yd1P8TXx37dfrc9+YyeWfcMAOAbR38DRw06CkD+nV530nU47cDT7OsuPupiAD3rkXp2fZ7KccPJN+DowUfjttNuwwH9DgCQ9+Y+MOUB/PELf8TYwWPzfe3FUg2RG1L33nsvRo8ejfLyctTV1WH58uWB1z/22GM46qijUF5ejnHjxuGZZ55xfW6aJubMmYMRI0agoqICkydPxocfuhfUhoYGTJs2DdXV1aipqcH06dPR3FyYVO3t7bj00ksxbtw4pFIpnHfeed368eKLL8IwjG4/9fX14g8jQjg9Thap8LzDzsN9Z96Hu864C3/90l/xhUO+gLJkmdSi+O7OdzFr8Sy7PZFTQtjG64Sop6cz24lz/nIOPvfY53Da/NPwH8//BzY3bRbvK9EjlTEz6Mx1Bl5LAdUj5Wxb9MRmmiZ+8PIP8MN//tCVXUeFvRmHPCOgYPS1ZcROwvUt9fjNu79BW6YNb+14i/196tiTeaZU47uYAyiKZduW4X+X/68Qn8trfH/hkC9gxb+vwAVHXNCtrz3pFaAeLlT31UoYKEkEh6J7wzOy1uXDBh7m+n0qkcKtn70V5x56Lr53/PdwxMAjAMgbJ63pVrtNLqznevjAwwEAA8sHYv4X5uNPX/gTHpr6kG202s9V8OCvA5EaUvPnz8fs2bPx4x//GG+++SaOO+44TJkyBTt27PC8fsmSJbj44osxffp0vPXWWzjvvPNw3nnn4b333rOvufXWW3H33Xdj7ty5WLZsGaqqqjBlyhS0t7fb10ybNg2rVq3CokWL8NRTT+Hll1/GzJkFd2E2m0VFRQW+973vYfLkyYF/w9q1a7Ft2zb7Z9iwYZJPJRr4bRCnHngqPnfQ51y/t07bIhN+zpI5aM20Sp2+qMYJID6JGtobbC7Ano49eGXLK3hy3ZPMnnY/sfvB8pwBahZSL46UH2zDWPB0+deP/ooXP3kRQCERgAPrfVKSAWwPo2Bff/vub+32dBg5Mm1QjW9A/Hn8cc0fMXPRTDyy+hG8sOkF9vf9nkfxv3vDZsY1glV5MKhrgCpDKmfm0Nwp5k0LWjcqSypx86SbMePYGQUvtoRHqjPbiYufvhhnP362S9+OCq95MqBsAMYOHuuSa+gNIfAwRGpI3X777ZgxYwYuu+wyHH300Zg7dy4qKyvxwAMPeF5/1113YerUqbjmmmswduxY3HTTTTjhhBPwy1/+EkD+5HznnXfihhtuwLnnnotjjz0Wv/vd77B161YsWLAAALB69WosXLgQ999/P+rq6jBp0iTcc889ePTRR7F161YAQFVVFX71q19hxowZqK2t9eyLhWHDhqG2ttb+SSR6ZzSUEwqSmfDWRvsf4/8DgNhEpG5mgDg3w2qjLFmGrx3xNQAQCltZnqGw55pMJO3QkIoJz/FIySw0m/dtxs+X/9z+t5DhQOSRAXJhyB2tO/CXD/9i/1vKGxrSV5l+Ujd8iwMo2s4vXv8F/mfZ/yBn5gBAyCNFfXcyHKnN+zbjSwu+hNPmn4az/nwWvrvou0JeDK6Bqizxg3hQUGGcpLNpzHhuBj47/7NC2ZzUdUP2QAPkJT7W7V2HHW077CQmDnrKMI4CkVkFnZ2dWLFihcvjk0gkMHnyZCxdutTzO0uXLu3mIZoyZYp9/fr161FfX++6ZsCAAairq7OvWbp0KWpqanDiiSfa10yePBmJRALLli1j/x3jx4/HiBEj8G//9m949dVXA6/t6OhAU1OT60cXOOEymUXROvEMLBsofA/bOCEYUqJcFauNkkQJRvYbCQBCpzzqaRSQ43P5tcvhSIm8i58s+QlaM60oS5YBEOOV2KdgwjOyjE2RBfzB9x50hU2jHHtODwyX88YJdYpu+uv3rsfD7+dFNEdUjcjfQ4IYH7qZOeYh93ks37Yc6/euR0N7A7a1bMOrW1/Fql184Vrqu7PmgyqOlLW2UkN7bZk24ZqFP3/951hevxzpXBofNHzA/r419kqM4L5WlHTNQ8G1Kmfm8OB7D9r/lvHchvW1N4RMwxCZIbVr1y5ks1kMHz7c9fvhw4f78ozq6+sDr7f+G3ZNcfgtlUph0KBBLH7TiBEjMHfuXDz++ON4/PHHMWrUKJx++ul48803fb9zyy23YMCAAfbPqFH6KtyLLN4yRForg07oxC4StmK24zQsZUJfQmFIFaE9AR4Z9xm1plvtNPfLj7tc6B4AzzAWNTYb2xvtdPMTh+cPSULvkzj2rGeaM3N2ViK5DUaoUzTMbnmfRvUfhaljpgrdA+BzALNmlu1Nstamuto6HDIgn0wiYuRQ17h+Jf0ARBDaizhU+8RHT2D+2vn2v0UMY10eqZc2v2QLKIveh7rG9YaM0TD0zjhVL8CRRx6J73znO5gwYQJOOeUUPPDAAzjllFNwxx13+H7n+uuvx969e+2fzZv55GZRsLw8EnwHayOqLusypDKtdmiBClbYSjAN3blh2lk8Eh4p1nNVEdoT8Wown5GzxpxF+JTiHRG8Z/ZJmLnwrm9aj45sB2qrajH54LxHWioMGTL2nBl87LAyMRwMiG8STmNNKsOQmZUK8PtqjbOa8hoMrhgsdA9AIFFAEZ/L6n/YMypNlNrvnPv3bWnegpteuwkAbO9wSye//1ZfqaFaS9ONiwdXPej6d5SUgN7AzwtDZIbUkCFDkEwmsX27m7y6fft2X15SbW1t4PXWf8OuKSazZzIZNDQ0hPKhwnDSSSfho48+8v28rKwM1dXVrh9d0BFOyJk522hyajpxM7BYWV6C/B/nZiYzEUX4PyomPMvLI8jncWaKWe9TKLTHCSsLeqSsNipSFVKcMKrRlzAS4n1lhDpFvYnOOSRFjCeOs4SRKIRlBcPsrkNNhB4p+3l00sOyT6zcgmdXeUcsqB5GwzBQVSr2Pt/Z+Q46sh04YuAROOvgswBIPiPGQYF7qFm5YyXe2vEWShIlGF09GgB/7JmmSQ8r/ytzpEpLSzFhwgQsXrzY/l0ul8PixYsxceJEz+9MnDjRdT0ALFq0yL5+zJgxqK2tdV3T1NSEZcuW2ddMnDgRjY2NWLFihX3NCy+8gFwuh7q6Oqm/aeXKlRgxYoTUPaIC9dQEyC/e1j0ssUHR++joayqRsl39Iic8HZtiYLtRGpuOjUkmHMIJf4rKHzjfp8xz1iG9wTG+RY18l0dKwpASCbNz+6pqLnL5bVQpkn3taVw9fyWufPQt5HLdDS/W+xQM1Vrvc3D54ILOn4xhHHJQkNF0e3Vrnis8+eDJOKj6IKF7OKMYoXIWElnmuhCpsvns2bPxzW9+EyeeeCJOOukk3HnnnWhpacFll10GALjkkktwwAEH4JZbbgEAXHnllTjttNNw22234ZxzzsGjjz6KN954A7/+9a8B5C3+q666CjfffDMOP/xwjBkzBj/60Y8wcuRIWwtq7NixmDp1KmbMmIG5c+cinU5j1qxZuOiiizBy5Ei7b++//z46OzvR0NCAffv2YeXKlQDy5HIAuPPOOzFmzBh86lOfQnt7O+6//3688MILeO6556J8ZMLgkKJlNwggv5hVpirtUgxDMZR8Hx28Iy+OlNAJT8Mi6gUdHCkvT4FUuj/HI8U8BduGgyFnOHA9tzvbdgobqJyDAjfs7Pw7ZDgkXL2yXW27pAx2O7NVhhgfFrYqkiKxQmV+aO3MImcC7ekcMjkTpQnD9bnVbhjZHBAnujvnkA4NMyDf186OTvZctKQOBpcPRlftY+ExAfQNjlSkhtSFF16InTt3Ys6cOaivr8f48eOxcOFCmyy+adMml5zAKaecgnnz5uGGG27AD3/4Qxx++OFYsGABjjnmGPuaa6+9Fi0tLZg5cyYaGxsxadIkLFy4EOXl5fY1jzzyCGbNmoUzzzwTiUQC559/Pu6++25X384++2xs3LjR/vfxx+dFLC1XcGdnJ77//e9jy5YtqKysxLHHHovnn38eZ5xxhvoHpQAsXoakBwMoLODN6WbhEyorXCaxeEuR6zVINQS1q82r0RWS6Mx1suvg2dk3jI1GhdEnJL0hEjIVNPqi1ADz8khJSZFEuG549VWEr0g9XFhSJG2ZNrR0tmBQ+aCQ+5qO/8+htChQw0oekEyOcT0jgYOfzZEiHmoaOxqlMqJlOX4A3cPYm0N7kdfamzVrFmbNmuX52YsvvtjtdxdccAEuuOCC7hd3wTAM3Hjjjbjxxht9rxk0aBDmzZsX2K8NGzYEfn7ttdfi2muvDbymN0EHR8o5+F3ZcIITkbUwMTcJZxvFqexOsbcw6Mgw9IIWjpQjbFl8iq9J1tDvwzAcROUPnIWuZfS6dMwTLd5hxRwpLRm0jhBylGErIN/Xtkwb6XCRyRbCTJmA0F6UiTzOv00mzC5UWkpwLrq8Z4LJQIB+pfooEGft9RHo4H64ThFGSp6My+D/yLThTGVnc3M0lmpxQgtHynGyTCVSKE/mvbqRehhTYhwpTzkLGekNyvsUDNXq8A47PRgy5HsRDqBMqFMqDBmRgerySGW7G1LUTDhuu64+OA4KMjpYIkK+KrxnoodpgE4278x1ujKNexNiQ6qPQChcJrFhGoYhT8bVQfjtcvNbxHjhTYCjGK8way/S8FCRsWYv4Fy+joCchYwXU6ZGnRZpAg3GidPLo0IXLsrn4RzLoh4p0zQjy/Z1Gk9O75T9O5Me2pM1jJMJSa+dBikSr7Enuq4aMOy12Q9O6Y3eGt6LDak+AqFwmQRPBRB3DesMQ6aMVN7ok/QuRK0Y361dDfpVxX+bHVKQIIKHQZRs7twgZIQPdfBddITLvLIYRQxLIU+2qKabw0gQJWMDtHfXr5RujKQdxlPaI7SnZcw4M2gZfS+GkBSJ6FyU8DBy+unMMOyt4b3YkOojYMkfiKboFp20VYQlwiBtrHX11SJTC//NjKw9lRypSFOuTbcBJBuW4CzeMqE9mRp1OjlSuoxgGcOS9TwkyzU5kxpkE13CwJkTWYfxlPUI7XG5WdR2nXCWoZEJ7bEONZL6cylDXAyW4zkDej9PKjak+gi0bBBFC4oK8mkYpDf3rjak+S6alc1ZxolDm4mjMl9s0AqnbmskxksbfSI1KQWJwzrC7CkjJWVYihxqZMLjsvMQUO8dzuScHimP0J6OZ6Qg/AnokSLxMuKjXFeB3i+BEBtSfQQiIah0Ls0qD1C8oAhn1HFIo10Lb0e2gxW2KH4e1klYWN8lQqkGz3YFNmOA5+kpbkM0W4jzjISz9ooMIOENWcADo4MjxX3mxWnuvdl75koUEJyHriwvSmiPYYy4OVIeoT0GR0p0TXRGFJxjQrj8FifxI830DnsQ40WlVyhzBOj9EgixIdVHIEKKBniLYrEBpCJbLAwuoiFjcSreIGQVh3Urm3M2uPJkuRCZvniDkD1NR1m0uNgbqqOvWjhSijyl0hxAhsGuQv6gNd1KLt/i7Kd1nzCIZu2lvcjmOtTwPQQ5TZisg5Gz7IounTRVEYMw9PZ6e7Eh1UfAmeypRKpQGJMxMP2yvKKcRKJhi+KNV5TAaZ0Io8ye8wIn/ClKpu/m5REUAuS8TytTiBuG7GYYK8pUDILsJkE5KKjQkQI0ZRimxDYzL2J81syiPdvOvkfCSIRmeQHc0J6DIyVLNlcgmVGeLLffKyeDlkvIF66d6BDgldYSJHKk4tBeDC3ghCwAsQW82ylYUiyT69YV8bbYG42kmjvL25LhnbZl2wXEvAXdjE3B0J5IppAJE+0Z+kZaHMqS9WxFmYUpKgfB8tD4GZYRkn5V1B6sSFXAgMG+D+dgAXBDe05BzgCOFOUZSSa1pBIpt7QMw2jlEvJlyzUVc6RExi95D+jl9fZiQ6qPgHNqAsQW3m6nYNHNjGv0CUyibqn9gh4pEWK8iPBnMbhkTBGjVnloj7DRlKfK7Y2UFaotCkFJc4IYhoMOrxe1wK6FYpFIWUXtKDXAnOMsYSTEDnHMgwWnjXTW9Px/kbZVUQjs/jOKO4sS8mW8Sc6DEWfN4xrGMUcqhhZEudBY8COb98aMjeINU9YjRVmYnKdt2fAel0Mg8vd1I+Sn5Aj5lPeZMBJ2SIFDci1uQ4e3SMf4Li7Nw21DlWGpI9vX9iYKZIdyuFzONrjyB55kcwEdKRndO9d9BKgXAN+DzoHTOywqdiy6X4lIQuhAbEj1EXAtfGsScQZm8alJB0cKEPS2FPXV8kgJp/YTPBiGYSiL5fdE+NN6RjI1+ygQIbmqMOKdZNxIieAM48TajLjtdDMsNWi6SZc/KQohc7wt3DHGCu3liKE9pryHTKhL6Bk5a6Ey+IoygpyGYQiNPW4EJeZIxdACUY6USGivOHMqao6USAix2LCUFY6LMgypol2RhcZPRyrKzC+gQHJlhQJ8dKQ4Y89JbudsiqL6XFGOb1++ogZNt9YMLy3fT0E/So8UK2uPKH8QZajWT6NP5BmRCfmytfaKM2g5fC7B9xmH9mJEClFOjVQ4oRer2nYj44rq13A3RcUeKe77FNGRshdvSX4H+XQpYTjI6CZxQx8uxXAJLiG1Hc7f4suRYtwjZ+ZgIm84cMOQIkawTF+5awbnkBfkkTJNk+eREgzVqvC4ih6+2IXci6tGCBg5XA9jTDaPoQXCuhwioaDiCcTMUtNhnPgZfVGSkwF1JyctHKnicIIgIV90ARcK1UpkYXK1iMqSZfZ1MtmtYRDyPhRruknMEed9guDkw6jwnsnw+cJge70I8gFBZHNnJhxFzkI0VFu8torMRR0HGq92ZJKB2PIHsY5UjCjBDpcJDEy/UFDOzAlpwug0+oSNBA1cpZ5qt7g+o4rK9RSIkFyd2jWA3CkYoPXVxXkTSEOPNMyuQIrE5aGjcgAlDHaZsJXoQbEz12mPc9/+BehIcSUFADVUBBEOq6jXrj3b7jKquX2V8p7FyuYxehO0yB8UnSKskxeg58Quki4vW0eO7RlSdHISXRRVZH4Jk0+5YReRjcbDG0ruJ9Mj5WpHoq/UNlQYJ1F6pAC5A1jxoUbGcKT2k9KOU828WNncSeCOlDZRdFCQ8UhxDzQAhA7CVl+F+JkMBXYgLlocQxPYISgRd2zRKSJhJMT4Lj1AjBeuIyfoGZIO7WmoRVXMI7OeUVumTaiuIXVRFKm3pyS0x1THBuTmSZRGcLdaexL9BDQZlgq8LdR+liRKUJooBRD+TFzyB0UeKW2GlI8USZSipWXJMqFQrZ9HSuYeYYgNqRhaoIN35DX4ZUIK1L4KcQ78BO4YCrwuMm6EBqoXhI1NBZIC7PsI8rlYxHgFOlLcxRtQk5RBbkMifCjzPJz3CYOKA5gOb4uznTCDLePSkfL3SEXple6mIyWQHMMNlzlDtTLefqHxK0hFiUN7MSKFTi+Pc/Dr2NBUbDQihUBFQh+qTk6ixFEZHamSZIntro8ylGXr1wi0IZPuzxUBBOTCFtyMJN3yB845YhgGra8ShqUdtmJoPHn1lQqqtzztKhHj7ZFKGSn2M5LJYhPxoHOKwVsQ4nMV9VWFYHIY7DGT4ZWi0YXYkOoj0CF/YC0qzokqkz2lg89lTfbyZLntxqae8lzk5Aj1nLygQ0fK6z3YRGBOsVRuBo4E2VyK4Mr0FDnbkeESUttQwpGKUMsHkNs0i71nImLAHCOY+lyDlM25XB5Ou652fJTNoyTkA4rEcQUOAqKHaW5iky7EhlQfgbD8gWQ2khDpVyOfy2rDVQiUeB+nRypKo88LwhwpCd6R8z4i4yLKtGs/jxQlK8u+B9NT5GxHJrs1DEo4UhKbt8jzkPFYiqh2yxjBYcaIS/6gSEeKG4LitOvVjoxEhMj7tPmKEvxTHVl7oolNuhAbUn0EOjKFvNpQkYEVBhUbDcD/m51kXDI5WbB4rF/bWgj5Hh4p6jMyTZO9KCrRkWJkZVkQ8sAo0OcKg5THteh5ZHIZdGZpitpS3haBGnAq6shFYfRlnYKcxR4pEU+YSKjWr0RM1OFPmbkoYcRzoxKiiU26EBtSfQRalM29PFIy5FOmkSBCTna2wV2cpIimupXNJbJ8ZAwpGZ0dmaLFnKwsv3tQwDVyXIalBu9wsQYYwPe4Uj3DgKTMhgKPFKev1LHs9EgVc6RsrbUI2vVsRyKZQhdHqvhdSJWnivi56kJsSPURyChwU8l7Xpu7iEdKVBNG9sTD5WYIkXEFy+YEtU2BswAptQ5aYGhPwJDivk+ZTCGA31cdi7fI81Bxok8lUihPlgv1leXlkfG2FPHbosxI47STDcjaE2lXBY/MKUVCFcsUyUrlzkVX4W8JTTepMHtsSMWICtyBaZ1EOFlsXhuRUKovl8/VtXh3ZDvI+kZBHqkoQ0Gqs/a44SGA7rnz2iREjRMgWvmD4tpyAH8TEOGQcDdFXUrYQc+D/O4EyMlSRGoPFXYZo5/a17Dn6q615x3a43h5ZHhkXlIk1LVVxDjhzkWvkjm6Ej9EDmC6EBtSfQTcgemsm8VeeD02XpmMujC4FhWu98ErI42ZtdcTpyauh9GZlcjd9J2bhJQhxSSOyvK5RI0cIcOBuJnpkswIMoKpGw3XM+xsQybxw9J3AhiHGgmPFCe056dsHjWPrDhcVposteclNQQqZZwQ34PXwUmqbFDEY08XYkOqj0BGjI3LqfDiSMlkfYRBRN8oKMNQB4dE9tTEXRQNw2C/C+WhPW6JGImUa4A/9mQMB/IzZdavc7Yhy4cRfXdRyx8UewJLE6X2syGH2SU4UpzQnl+tvci9dh6HNi6nU0gnjSlF4hW61qFsDqgTO44CsSHVRyBFHKWethV4BQC5lGK2EaSASC3STw63wQsi3jCLJ0UOBagwpBwGH5VHpqqsENt7JhLKYi7eMvXrOKEur+fBPRhJyR8I8NusvhqGYSt3y3jDyX1l1drzIZuLGCcSoT1AwIMu4D2T8kgVcaTas+1s6kXU4ri6EBtSfQRRcgiC2uAaYy6yokhfqXwYjzZEw1Yi/QTkvFIyJ3Du+/Ty8ujwarA0oDz6yg7tCRjwouFDAwZbMgOgc1WC5D1kvLZhEJHHUOJtkQlDhqxNQWTzKIVAXX3w8NLrWK+4dS9dtQeL5CxE7hO1hpkuxIZUH4GQJozgpum18VJT2Z0nbk5fufX2vDZNHR4pZ9hCZsLLZFRJvU+up0CEwO1I1ecmOsiIwXJDyq42uIcNxvMoT5bbf5eMASu68Yqky1PbcM53V0UEiQxaKlTIH2gzpHpoveJ6z7wymUuTpfbz4d4nlj+I0augI1wWJMgZZVYTIOFtcUxU4VMwY7IbhiGUyejXdpTeAhWcNxFJgZJkifjCKxOq1RFSFtggnGOGyxmS4khpKJnjN9918H+ozyMoa0/kfYqEar0MNm5xZx2cTj+vl4q9JAwq1tWoEBtSfQQyE15mk+BmqIhkeYm0E1RgmX0KZvTT2Y6oR8oZDhHiOxAXxbTZnf/B5WUIPyMuydVLF4zLCZIIKVPDkCLGmrMdmbAcd6OR4R1R+TB+811nmJ1Xa09daA9geFy9qAgpsSzjKPlcfiFWHZSAmGweI3LoiDmrKBEjktUEwBYbbM/QClZ6LbxcRWWRxRsAypJlAEAu1VEM2fAnWydLwQbH6SdQ6KuK0J4OjhRAe64ixhrA3yS85iLbGJPwSAE0I9hvvot6pET4P2FrRhDZXGR8O0O1lOLfpml68xV1hNlLeDpS1uGruA1RvmKUGbQ6ERtSfQRaNHICMoWoCukiWU1APhwEgExODhSblMhSpMAKt1AzWPzaBXjvszRZymo3yMMYJWEZEDfAvd4nV0yQ8z5LEiX239aR7QhvQ2CDAIDyVDm5DcDHsFTAkQtDaZLHAfSb77bnk2BoOO/D6at1bdh8cHmkct4eKc74dkrLUIxN18HJORd1JH4IeqSKeXWi60bMkYrRqyDjgpZZzKx7ZMwMOnPhHhhrAiWMBDmrCeAbJ158AXsiRihwBxSeD9XoK4Zo+JPbroqUa2HDocvDSC6wqyBrT4TPBRTGHuW56mgDUCNFIupxtQ41lLnol8XIpgQIePqoz9TphSrWkRIJlwGFQw0pHGz6GJul0c9F5Rwp4vv0yjoNQyx/ECNyiGz6VgiKvfE6S8SkmKEP0cVbwUZjhxMi5JAA/L4WQ0TkUqRdrzHDJcqKeqSE36fEiV007Gb3NUvfFNljhutxDTjURKkWDggalkWbOzfMLhKWtdrMmtnAsez0QqlQNndez3lGxe2wi6wLjG9uiN3Pi6kj0YFjnOpGbEj1EYicnLheHi/DIplIsoqlyobLuEafX4YhyUgQyIIR6atfuwAz/Ml9RgH6PgBtQxY5WQJ871lQEeooOVIAz8iRPigQjDVAjU6ajvHtN991yB84w09Ba1zGKX9QxJGSfkaE9+nHI1MhQkztZ9bMkgSE/cY3u0qGYJjd2YfehNiQ6iMQOV2q8GAAvA1NNFxmb2bEjcbLg2GdvgBaSEn2xC464a2FlSPqKNKu12nb8lIC+cysMAh7pJjvM1BHKkJeBsAz+nTx6oLCsjKZrRRwDEu/+c72tgh4hsiGlCOcl1agIwWIGd+A/sxG1zMyw8ee3/PQkegge0CNErEh1UcgcnISNk6KJpFloFCME9lwGZcj5WzHuWiQFjjBUJAsR0rac0J9nx5jxjAM1rP2I5+G9pWxKPqpY1sEbYrBB4hlNTn7ynkeUY+ZQPmDiDMuWd4Wn2fO5eaIGOzOvyvoubpr7RWF9gQ5UiJjppg3ys7CFUwesMAJXcuG9kT2Aa7XViciN6TuvfdejB49GuXl5airq8Py5csDr3/sscdw1FFHoby8HOPGjcMzzzzj+tw0TcyZMwcjRoxARUUFJk+ejA8//NB1TUNDA6ZNm4bq6mrU1NRg+vTpaG4uuJDb29tx6aWXYty4cUilUjjvvPM8+/Liiy/ihBNOQFlZGQ477DA89NBDQs9AB3rSI2Xdh0Q2F/VIiYatDHFDStigkZzwwp4TQ2wzLl4UhThBEb5PP3VsUZ5VlH3VwavLmTn7mTjfXUUyv/HKZP6p7qvfYaQ0wcwwFZiLSSMJA0ZoX528qOLQnqzxzfFi+q2rFE8RIPY+qcZmWBtsw1giDPkv55GaP38+Zs+ejR//+Md48803cdxxx2HKlCnYsWOH5/VLlizBxRdfjOnTp+Ott97Ceeedh/POOw/vvfeefc2tt96Ku+++G3PnzsWyZctQVVWFKVOmoL29cCqdNm0aVq1ahUWLFuGpp57Cyy+/jJkzZ9qfZ7NZVFRU4Hvf+x4mT57s2Zf169fjnHPOwRlnnIGVK1fiqquuwre//W08++yzip6OWsi4dakD06+Ap1DoI2LekdcCaBhGoa+c0xe3r0zicLd2NXB5nNcVt2PfxxT3OIRBZDMG3OObLfcgmGGoIpQV2oaA8QoUeVwVeZjDwDISfJ651Vdq1qaoYjxFAsHpkfIlm0cYDvZbV7kHMpH3mTASrANY6OGLedAViqD8qxlSt99+O2bMmIHLLrsMRx99NObOnYvKyko88MADntffddddmDp1Kq655hqMHTsWN910E0444QT88pe/BJD3Rt1555244YYbcO655+LYY4/F7373O2zduhULFiwAAKxevRoLFy7E/fffj7q6OkyaNAn33HMPHn30UWzduhUAUFVVhV/96leYMWMGamtrPfsyd+5cjBkzBrfddhvGjh2LWbNm4atf/SruuOMO9Q9KAUTc9MLhhKJN086moGwCgkaCaF+LJ6qQ90ywr7IcqZ7IhHPdJ0qPFGPT9yPf2++SKqEgGqo1BIxvTZwa57vjjG1A3kPHkT8oHmOiUh1ReIdV19pztcsxNovnIdNwEH5GjHb8Dl+cPQAQW1v/JT1SnZ2dWLFihcvjk0gkMHnyZCxdutTzO0uXLu3mIZoyZYp9/fr161FfX++6ZsCAAairq7OvWbp0KWpqanDiiSfa10yePBmJRALLli0j9z+sL17o6OhAU1OT60cHcmYOJvILAMsjJZpyLWGc6EhBB/wnqoqwRBhkJ7zs4i3roeHcR8dG48pqSnQ3HKgZRzo8fbIeKQ6nBvA2LDO5DEkcV3rjleBICXuYRQ32gHZctfaKs/ZkvXaMZyTr5ZFOpmAcamT2ACBaXbCeQGSG1K5du5DNZjF8+HDX74cPH476+nrP79TX1wdeb/037Jphw4a5Pk+lUhg0aJBvu5y+NDU1oa3NW3PjlltuwYABA+yfUaNGkduTgXNhFYk5c93rMouijvAK4D9RWd4W0b4q0pGKmrDstzmp0AkKg0gbgD/njcIj6SscKT+dMWuOADxvUaTPw2eMsT0YggYNJWyVzYYrm4uuV6z34LOucjM5e0IXTJRvK7Jf5cwc6eCkE3HWnkJcf/312Lt3r/2zefNmLe36cUjCoILA7bpPLyEnA+HcjCg3GtnQnjTJXUJHinsfHe/TL6vJaThwTv5RZhjq0GZyjivn87AI3AAvdB1p2CqEU0MOQ0rKpgTNxXSAR8qPvxTargLPtyhHKtK5GPI+M1leeSqRCArQ+7xSkRlSQ4YMQTKZxPbt212/3759uy8vqba2NvB6679h1xST2TOZDBoaGnzb5fSluroaFRUVnt8pKytDdXW160cHZD1SMiVFAB7pV8epyRnqLN7QrM2GdZrWrGwuG1IkL2YhxmaUnDcVZVfYchY65A8EtZlElLBTRgqGYXTrJ8ATgtRhBPtmpEmIAVNA8kgFkM11eId9vTyCHCkd3mFfD2OEfeXOd52IzJAqLS3FhAkTsHjxYvt3uVwOixcvxsSJEz2/M3HiRNf1ALBo0SL7+jFjxqC2ttZ1TVNTE5YtW2ZfM3HiRDQ2NmLFihX2NS+88AJyuRzq6urI/Q/rS2+CaJFbUd6R7+mSI3IpujBJkJMBzd4WUfkDXeHPEAMl0ixMDs/GZxN1ZhxFOfa0hDo5xquPsZZMJG0PVaTyHgLvTjojTVbI1+d5mKYZXGtPA18xbF2V5bCGgZNBGfY+ubUzo5Rq0AneE2di9uzZ+OY3v4kTTzwRJ510Eu688060tLTgsssuAwBccsklOOCAA3DLLbcAAK688kqcdtppuO2223DOOefg0UcfxRtvvIFf//rXAPLprFdddRVuvvlmHH744RgzZgx+9KMfYeTIkbYW1NixYzF16lTMmDEDc+fORTqdxqxZs3DRRRdh5MiRdt/ef/99dHZ2oqGhAfv27cPKlSsBAOPHjwcAfPe738Uvf/lLXHvttfjWt76FF154AX/605/w9NNPR/nIhOAcVCwlbC7ZPETvRMtGI5Eu77wPZcJ7afVQIC3IKWpsGryQot+GLJK6HSknKGCDKEmWIJPJ9BrDQWeo02tcliZK0Z5tZxUQj1Tp3S/pQ3DtUe1tKTac/JTNowwHhx1orGSKsHGrhZ+nyuiTkGrImJleJ8oZqSF14YUXYufOnZgzZw7q6+sxfvx4LFy40CZxb9q0CYlEYeM/5ZRTMG/ePNxwww344Q9/iMMPPxwLFizAMcccY19z7bXXoqWlBTNnzkRjYyMmTZqEhQsXory83L7mkUcewaxZs3DmmWcikUjg/PPPx9133+3q29lnn42NGzfa/z7++OMBwM52GTNmDJ5++mlcffXVuOuuu3DggQfi/vvvx5QpU9Q/KEk4Nxqnqz8MKrSZgN6d1SQz4WUzhYTlDzSkMZumqUQTRsf7DDK+e5uGmc4sRq9nXpIoQXu2XSpbLAwqPJacEDsgPhfD+Ird5A6KQ3saBITDuIrWNUkE90HnXPQ7oMqKO4eBc3DSiUgNKQCYNWsWZs2a5fnZiy++2O13F1xwAS644ALf+xmGgRtvvBE33nij7zWDBg3CvHnzAvu1YcOGwM8B4PTTT8dbb70Vel1PQ1d9r1BtJgnXcBhUZHlx76OLGO/XbqQbfpDXTgH5NAxC78HDsBQyjCPkL/Ukpwbo2tDSER8UFDxzrrdFtu6lX1+LDamcCeRyJhKJ/IFUdL0SoSL4GSfWfZx1MD3vo0GqQbUgZ9R6groQZ+31AegqZaIi9VULOdlhJBSHOvcL+YPe4rXTIUApwbMBeCRXren+Ec7FoL+DJTirgxjvl5HGzMAS5f+EeaSy2e56W+4ixnJZexwvT3H40Pm39hbahB3Kl6BMAHo8fToRG1J9AMLZN4rcsazQngZvS1CoU4RrpbtosY7TmksdWyJbSKtXI8Bw0GIYa+BIkfSwAv4OoechOhclnjk3Aysqj1S6SDcKcGtJRUVydyIoecBqt7fMRVUcKWucR8k904nYkOoD0OU58dvgtUgKKMhqAvR6z6R1pHTVaytqR0coSxW5WhW3KAgqMrBC2xDJYvQyLEUOClEqvYeUiKHeR5oS4PNci8nm+WudAp36qAiy4zsqY9OJ0CxM7qFcc0H4qBAbUn0AspsZt8SGX02o3pKCHmSI6JBqUMaR2g94ZKIbjSqSuIh3JErDQYc2U9Az5xxqtBCpfQ5OCSOhhEcUBju05+Pps3SjSpOFrdBpXMl6TkihvZDkgXw/e7eHkV1AXLZGZ+yRiqEasrwMgFliQ6KUgeiJXYiX4eWREghbRUk0VdkuJ1vQT9QREDROIlwQgyQWtGheacxiVHVQiJTfpjgsy5JqUOyRspTMS1MJdPHLXZl7WhIUAgx8ESNeh7SM3+GLqyOlm38aFWJDqg9AliMFhC+8QenyrNCeRjVlr1Oklqw9yVOTjswvSviTYlxHFXJxIshw4JDNtYgritaE64GDgs4QsrKMy4jkD5IJA6mkJWbqFOiM3stjk82N7uuVCO+xJ2vtkaMbslxCQdpEVIgNqT6AIMMhCJysEFUilzp4R5Sspv2CI6VBWC+QZ9PLSsQEGcYc6Y2e8hapbkM2tKdDioR0qJE0yIIQLn+Q9z6VJA2kLMkDh0dKNmtPp7xHT9ImONGNnJmzxY51l9+KCrEh1QcgOoE4WSGqRC51lF0JOrFzqs7rCAVF0S7lVJg2/TeIXhcuC9hoUkk1IZQgcEK10urSHCFNj2duPQ+SYalB+DXIeOXwamTLn/gaUlmHR8oypDw4UlE+oyBjrbfJtYTVWwXC+ypaGxaIOVIxIoToggjQJ1FQlpcWAUeL/2Nm7NOMbxsEDgmHR8QpuwMokD/QwHlTlgmnI5xAIeP2FqOvB9PlgV78PHrI2xJWNskymlKJBEq6QnuZbPfQXpRkc5J3mGPkRFj30m/9dv47jPPmXJuiDJnqRGxI9QGILjIAfWC6srz8SsQwTtOiHqnivgS1EWQkRClYKB3ak+RIUdomZcJFqV0jMGakvWcasvas59pTWV5CWXtRhpAp4qE96D2zwnglSQOpZN4jlfYgm2vJSg0Y36xxEeH79BPkdBYQ53ikdK+tUSE2pPoARCc7QN8knB4p3xIxHONEwpCi9rXH04kllc1FXfQA3TAOJCz3ksyvoA2fE6rVKU3QE4VjAR5fUYeuVmg5G0TrPWORzbvqvrpCe6Jenp7QkdLBzwsy+gT2kljZPEavgegEAugnJ6fnwTddXkPmlPMeoX1VlE6smxApusElE0k7DMl5n8VQtakHQWTx9spqYhnxGpIHtKhLKxac7THxUI2JH2EcqZJkwvZIZR3K5lo4b6pD171cPDRIwy4MsSEVIzKITnaAwZGipKBHqDvEMRJUha1kRQBF4/iimwbA57x5LYgqaqmp6icQYhj3Nk6QLAeQqQFWDFZoT0MKem9RpQ/L2nOSzVUqm5MkRBR7pKI0jIO89NRQrXPcFR/KVfZVJ2JDqg9AdAIBDI5UkHaNyIIoYyQQY/A9dsJL0hfRoHZlOG8qeGRaeEeSvDqRbLdIyxNp0GYKfB4iz7WnOFIaZFNCQ3tdRlMq6U02ly4ELDlmVHn/gqBq/aYeBqSoKLFHKkZUED1pA4y4NuEkEuWpidMOSbCwl2yKXpBZaKjeJOXGZg95eVTpiwVBlVgmpQ1SVirhefQW3SEVBns2l4WJLoNH8TizdaQSBpKWR8pZtFiSm6VqfOugTeh8n0C0VBTdiA2pPgCd8gfSWicyRh9zospm7e1vHClO20FijLZxkmVwggSfEUXzKrC2HEPZXAufS9L4BggZl6okBURT+0WkGiQMdhc5WbVHykPZPLu/Fy2OUqk+iOJBDCvroKLoRmxI9QEokT+gkpODMqcizGoCBIw+Vd4zidOoaXavLk9tN8rwp2pCvqinwHkPP6hOoddBjJfKuCTORc/xrbOAuGT4UEh6RXFfnWTzEluQU17+QJWECNXjKqUWrqieH3Xsia6rzjZijlQM5dARc6ZklkQpfwDQSdwqFm9AXkfKeQ8OVIRqqcaJMkK+4OINhL+LQOVnRSrbQdBJigYIHBNFfEVbE0iDVIOX14t6AHNJryg2aNweKTfZ3FlfNFKJCIJxIlN5IgzKpDeYB93YIxWjV0GHICdpAkVYxgCgLyoqTnhh9wnsJ8O7ENiuwELDFcXrqRIxnDqPqvlcqsNDrjYEDUtWVqqqd6dBd0hFar9LwFF10WKnIKetI5X/nUuBu6eNE2IyEKBH80rmfeqgLuhGbEj1AUiFy4iZFpTsmyhP7ICaEw+LU6PAIyUy4aUMY+K78FMoBgQ5EwKGA7nOoyKphqjqtbnaUMEBDDOCA8aHNb45ob2eElMVMRK45ZpClc09PFJWuM+5JnJ5ZBwJFCU8MgVq4ZzMwEDvGTFiEGftxehV0EHgphIiwzhBWjSSVGcYCnKkALFYvo7MxkBRR4Z8gxZiPIVsriFUG6Vh6WpH0VwMg3RdQFkjQSBjmK07ZAQfFC2PVCqZ6KZsLmWcJOlrYmDoWoSQH2WdR4qOVAjFQ8f6phuxIdUHoEVSgEBOdl7nBy11AQnyBywyLnMRNQyDFQ7ybbeHjBMd2kycdijhBFIWpgbVcZ0Zl7KhTlmpBoqRoCRdXoZTQ/RIlSQMlNgeqa7QXk4+XGbCDOVJBhm03MoTfveh9FWb/IEKj3tMNo+hGkoWb2I4IUhNGZDjd4RBt0aS6MbLbUdlu1QDTrXXjhv6ABgeCVUlUQRDWRzDQYs3MaANkSoDURoJKjlSUegOFUJ7iYKOlBXa6+q7AUMqvC8ljssNl4l47RTxDFVkDIch9kjFiAwqOFIqjBPKfaSMPubGq4xIHaHRF9RupOEhRZlfSrIwNXjPXOnhMhl1EtmQYaDyalRwapz3iVKqQUWBZRW6QxSyuaVsns25OVIy7QJ61qsovXZOBIUhuVmYUVJRdCM2pPoAZE5sKjZeZ8YRVUMkikXRbkPVRqPguQqF9mR0VpinQlVqyj2tC0YdE4Bk8kCUp21mVqqMYelK7ZeRrtDgTVQyHyhk8yJlc+s5i3hbXTxJDaFaJXuApKCy1r7GhlQM1ZDxnKgIJ7Duo5EYL1sipqcUeKXa5YbLJOt76chSU6Fs7tLZEczao7SjIhxMDQVJEbglyMku6QqqzIbMxivhbQkN7TkEOVNFtfaChE/DYBgGWYokaHyTvbaa1iqVAqtSnv6YIxVDNZRweRgxeC+QywP0Eg9G1KnsUqE9GU6IweRIhSzekWZhKtQFo1acBwTI1Y73T/V86ci4lCmB5CJSM/tqGIYSYjyVzxWUch+GMOPU8j6lHB4pK9wnY8ABArQJBcaJEFdRUSYzeT5HGKrtKcSGVB+ADi5P2KLC5jtEmLFBFSzUItUgIn8gsxlzw0MBxqYsmTi0rwqlGjhZTVzDmGM46AhbqBBwlPFIudqR8Q4z0+Wj6KdVVy+ZdOhIFXGkROah83tUD6Ml1eCElkw4RR4p6mFaSYmYOLQXQzV62isA8DPqtEg1BIQ+nNf5QUWaLkWLqVu7Op4RgWxOuo+O8kQBp23uPQC+qCOrHYnTNpd8H+jl4aTLa0hSUUGkljkohhUtLkkkbLK5KkNK50FBxR6QyWXC5SwCvIOqDuWBfY05UjGigg7eUdjgJ59GdHCkepORIOCRkvHyqDBohTKOohx7CuQsnP3kpocDarJbyW3I6KRpEHB0tSMhm2KHabLinDDZflrlYFxk86y7RIxIu4Aaw1hFCDUMHKkGSmgvNCrRQ7IyUSI2pPoArEGlQy3cLwbP1TuJ8sSuSqpBR2q/Z7saMhuDQnscZXYd4U+KwGqUJ3YAZOKwzsQPmfI+1j0SRkLKQ0cmxsu8Oy1kcydHyu2REuEdOb9HNYJkvHYqOFKkdhT0VYlHKiabx1ANrWrhPm2Q+Q4aYvlhtdkoxWFdukOaXdBa67V5/G1OZXYdumBSgoVEsrmsd4FckzJC8Ui7DdP/UMPV8hF+Hgq4O1o4NU6+nyNz04IVxks5s/ZUh/Y0FIRXwSMDgudR2JrITTiKUsRXN2JDqg9AilPD5Uj5kc2pej4q+D8SJUWo91EV+hDJLtHhtQvbJCgbpWma+00WpqxHSgdHSieBWxf/R4URrIKrCHj31a615ypa7NaRkja+Q3iSJGXzCMedUwcwqB2XhIiECrsuYrxOxIZUH4BOL49fG9RUZiV1lmQzDAl/c9iiEQYVHqkonxHVwxjmtSu+ngMVRpDTYA0iysp4+UT6KuM9CfXQEQQcc2bO0wNj91P2eTAzaGU0r1QcLJz3cSJteaQSBkqKixZLhGkBfjg46H1G6Ql1thP0LpwGoUzR4rhETIxeCR2ZU1RBTh2TSIYQ6bxP0ElY1iOlgiPVG96nDq+djIYZNQtTZtwBmvkfEoaldaAJu49uD11PFbl1iYd6tFOQP3DW2su5rhf22ikwFHVkNlLbCcv01CrVEHOkYqhGb+JI9Qa9kzA3t4pFIwwqdKSiDCmGeSQonCBdKfQqsjBVcYKCnoer7EqUOmkWRypAdwgIPtTYCSq6OFIqSsQIGAlhYSsra68kYaCkK7TXrdZexM+IoukWpVo4tZ2w6gCWER+WhamKihIm1aATsSHVB6DCIyVD+AX4rv4oOVKh3hbCBi7tbSGSk72ggyMVlulJCn+awQtrGFRspBbBFQjxMEqMO4A2vl3PQ4dOmse7o2ZcSqt2Kwh1UtcMVUaf11x01drrIpunu7xUYZnK1HZVKNVHmfQB0NZEZ2jPK9NTp1QDRSxYJ2JDqg9AJj7OrVUm65FSMYnCyJthXgEOR0o2PbzXZu0peJ/OE6oOcrXX8yATZTVkqWk3pDz+FqoKuwyXCwBSSXnxRXambwRGn6vWniV/kHPrSMl6eWQScHTJe3C89KmEtxYbOYNWwcE/rK+6ERtSfQA6MoXCYvDkDBwVKuySbm6ORypqMT4vaM2Ek8jas8adAUPO2JSQaqD2VZbvQnmfLsOyh0rmuO4TpUfKkPcmqeI8hiFI3dziQ6WcJWKKdKSEtccUSIioyGylgHNQCOOeRipa+69sSN17770YPXo0ysvLUVdXh+XLlwde/9hjj+Goo45CeXk5xo0bh2eeecb1uWmamDNnDkaMGIGKigpMnjwZH374oeuahoYGTJs2DdXV1aipqcH06dPR3Nzsuuadd97BqaeeivLycowaNQq33nqr6/OHHnoIhmG4fsrLyyWeRDTQUbuILCnQC5SwyXwuwkYT9Wk0qG0Zkrt0qJbQf1W1yKhhSBmjT0coy/lZlAcFsjguwbsQZSgIUKSRFOG7yzqy9lJ21p5b/kDaOJE4+KmQmaCAM2ZkDqiA3NrKEQvWicgNqfnz52P27Nn48Y9/jDfffBPHHXccpkyZgh07dnhev2TJElx88cWYPn063nrrLZx33nk477zz8N5779nX3Hrrrbj77rsxd+5cLFu2DFVVVZgyZQra29vta6ZNm4ZVq1Zh0aJFeOqpp/Dyyy9j5syZ9udNTU0466yzcPDBB2PFihX4v//7P/zkJz/Br3/9a1d/qqursW3bNvtn48aNip+QPJSoKUsuZuwQYQ9lNTnvExRS0JFO7Acpj5Qq+QMGJyjqrCbySZhAlI1yU5TO9DRohqWS0LVsaj/BCM6ZOZjoMlSCyMlmxiWlUQxZo8/uq8e7K8gfJGyyebFHSlfWXpAhFSZnoYwYT5hDMp5hQK6vHLFgnYjckLr99tsxY8YMXHbZZTj66KMxd+5cVFZW4oEHHvC8/q677sLUqVNxzTXXYOzYsbjppptwwgkn4Je//CWAvDfqzjvvxA033IBzzz0Xxx57LH73u99h69atWLBgAQBg9erVWLhwIe6//37U1dVh0qRJuOeee/Doo49i69atAIBHHnkEnZ2deOCBB/CpT30KF110Eb73ve/h9ttvd/XHMAzU1tbaP8OHD4/uYQlCSyiIKn8QENozTVMJR0rZxksIW0Xt1veCFq+dAkFOXcZm6AKeJBjGqrL2Avh50rw64sYblihgEfAjJd8r4NCxMy4lPVJe7y5r1dpLFjxSaY1Fi53GZliR9d7icQ3L9CULrEac6KATkRpSnZ2dWLFiBSZPnlxoMJHA5MmTsXTpUs/vLF261HU9AEyZMsW+fv369aivr3ddM2DAANTV1dnXLF26FDU1NTjxxBPtayZPnoxEIoFly5bZ13z2s59FaWmpq521a9diz5499u+am5tx8MEHY9SoUTj33HOxatUq37+3o6MDTU1Nrh8d0CkpEGacBIWCpMm4XBFAGQ6JKiNBRP6gF3jtKIagrLGpgmxOvY+0jhTDQxelxIKznbANjfTuIuyr03AJNRJ6yJtok80TCSSLlM11hPdD1cKpxqaqZyRhrOkQreW0oxORGlK7du1CNpvt5sUZPnw46uvrPb9TX18feL3137Brhg0b5vo8lUph0KBBrmu87uFs48gjj8QDDzyAJ554An/4wx+Qy+Vwyimn4JNPPvHs+y233IIBAwbYP6NGjfK8TjV0CHKGbUSU0J6u0EfYJmGHFAhGn+xkD8sw9ILMJkflSKnw2ukyNsm6YBqMHBkOiYo2AIaYag8LcoYZCWFimRZUeYfDyOaWsnmxjlSU4U8Xr85jbLo4QRGGalnj22fNINfaU5QN+S/FkdqfMXHiRFxyySUYP348TjvtNPzlL3/B0KFD8f/+3//zvP7666/H3r177Z/Nmzdr6adOEUBV6fJR1gVUudEkEmJThPpcg9rWYRjLKJtLk3G571PCAyMbyiJl7fWCQsDO+wSFWMI8zGGgjG+XYKtHX5OJpP37ngohu8jmSbeyuTKyuYRkRsJIkErNhIV7Q/uqgBPJLUIu21eRRJ6oEKkhNWTIECSTSWzfvt31++3bt6O2ttbzO7W1tYHXW/8Nu6aYzJ7JZNDQ0OC6xusezjaKUVJSguOPPx4fffSR5+dlZWWorq52/eiAKgHHwFplRJFLyuIt2lfVG02UoQ+q96wYYZyJMHAzhXqSsKyTz6UqlBWpl0cRR4pjWEaqO+SQx1DhyY7CCLbEN1NJB9nc8kipCl0TjU0puRYdtfaIheujLELtbOdfJrRXWlqKCRMmYPHixfbvcrkcFi9ejIkTJ3p+Z+LEia7rAWDRokX29WPGjEFtba3rmqamJixbtsy+ZuLEiWhsbMSKFSvsa1544QXkcjnU1dXZ17z88stIp9Oudo488kgMHDjQs2/ZbBbvvvsuRowYwXkMkUMFOTlMKVZlKAiImM9FTNPVooTNnOzSIpeKUpBZKfQ9XL/ODilIZByFgbQpquIdUUtsqEim6GHD0hp/gQcwRVINXh4Mp0cqackfaMzas8Z2kBYbxxuqJbQXcqDJmtnggtkaEh10I/LQ3uzZs/Gb3/wGDz/8MFavXo3LL78cLS0tuOyyywAAl1xyCa6//nr7+iuvvBILFy7EbbfdhjVr1uAnP/kJ3njjDcyaNQtAPovuqquuws0334wnn3wS7777Li655BKMHDkS5513HgBg7NixmDp1KmbMmIHly5fj1VdfxaxZs3DRRRdh5MiRAICvf/3rKC0txfTp07Fq1SrMnz8fd911F2bPnm335cYbb8Rzzz2HdevW4c0338S///u/Y+PGjfj2t78d9WNjQUUoCKDF8lWUFBHNagpKY3ZCpbclauJwMcIqrIfB+o4qHSktoayA90mpX8fZsGRFHXua8AuEb5oUrooWjhThmfe0BpilGZVKGt2VzRVx3mS12FjeogjXq7D36SyYHZjdqmHd0A2xEcLAhRdeiJ07d2LOnDmor6/H+PHjsXDhQpvYvWnTJhcP5ZRTTsG8efNwww034Ic//CEOP/xwLFiwAMccc4x9zbXXXouWlhbMnDkTjY2NmDRpEhYuXOgSy3zkkUcwa9YsnHnmmUgkEjj//PNx9913258PGDAAzz33HK644gpMmDABQ4YMwZw5c1xaU3v27MGMGTNQX1+PgQMHYsKECViyZAmOPvroKB8ZGyo4UkB+olagwruNsJIilNCeLhHAkI2GlJGmydtSDN0eKb93wTIcotxoTELoQ2fWXg+noAN0OQgS3yVCjhTFWON4tqJQNs84PFIG3DpSOoxvZYaULIFbhSCn81CeTaMsWRZ4n74kfxC5IQUAs2bNsj1KxXjxxRe7/e6CCy7ABRdc4Hs/wzBw44034sYbb/S9ZtCgQZg3b15gv4499li88sorvp/fcccduOOOOwLv0RsgQzR0Zc7IEA17EacmzOizeRkRbjSiOlLSxZJ1ks01FEqlJCjozKjraaV3ihabTg9GoBfbTIe2wcq4jLDWXiqRgGGYXX1R65GS9eqqEMsMA4XfFLauOp9TkKabriQVnYiz9voAZE5s3CKnvsYJJ5wQcbiMnC7fC1L7ixGW6URuV1LOordwpEhk3F4if6AjHEzRYiPNRQ2HGorHkkI2V6Zs7kk29wrtqRXklA7taQhdcwxjv75SMwx1Hah1Ijak+gB0hBTCXMekdGiFAo6UDEMlWXsRqCkHwbkgelVYD4MzjBH4jIjJAxQxQR0ndoAQViaU/OlpwyGwDcaGCciF2XsdR6qH6l5mHSViUkmr1l5R0WIdmXAUj5SOQ41sqLaXZBjqRmxI9QFID0wF3gctXh4Hn4tCZpQpZ6PsmTI9Uqo2OIBWzkRJqDbC+nUUD52WLDXOQUFDvTOgh9+dIomFnqQEmKZZ4EglDZQk3MrmOnhHlL+N5dmK8H1S2tB6SP1X0ZGKET1cnAkNpxEZVVtVGy9APDmpyPKKkO/iBVWbMUAzUHrUa8dcvP08dDo5JD0d6nQpYUscalT1NUiqgTKWWYc4xUWLLW9U/hrD9kjlTCCXM+U5b1YGbdAz4pDNe4hHVtwGpa8kaZkIEx10Izak9nM4q6Y7N1EOONwMqUwhhd4WmQ2+t6QTe0GVqCMQ/TPS4aKnbBA6+Eu9Rf5AVWhPR9iKEurUKrNR1EbGaUglE0gmCoZ6OpdTt+HLks05yv0Rjj1SGJKgOt5Th9QooSVrL0Z0kM3yAtSERuyTSABPxc4uFOxn0kjCgAETptSiYnnPZAzHMAjLH8hmCxLrl1nPyM/4ZhXp1VCvTZVXQ0sGlobnEaTF1lsyaDlE6ij5XH7yBxbRPH+NAYcdhawCj5SyZ6QxXCbbV0pkoi/KH8Qeqf0cLg6JhgW8J+UPDMMgFeUlq3brqDjPDe1JLjLUZ6Qyhb7EkPOEBtYQC8kUAgqLd+BmrCGjTgcPi2JoU+Q9tBCpKaE9nVy8oja6hfYceobprEkae5R2KdwmVVpbOsaebF91qOrrRmxI7eeQVcIGiERaYtkVGe4SBWGbr0sJW4EKexQV54Mgu+ED4X9fzszZIWG/v0+LaKnDk+SXYUgKD/WS2nKqPCcUjpSyUGeURW4Vkc2jElO16uzl712QPwDyhPP9KbNRp/csiEKipfxWbEjFUA1ZJWxADU9Bh/sZCN80XYWRJcKQOk7sXpBdZChtU7SIdHJXguo8cgQLZcpbhPZVo5aPCdO3VhnFU6pDLbwn5A9kC4gXjw9nnT3DMJBwhPcyKsjmGpXNteiCccRDo1w3YrJ5DNWgFL0Mg4pToQ6dHUo7rPTwKPk/BNJlYLsReu1cIpdhhW97OHlA1UZD8eQEobc8D8q4ZCn3a9DVIvU1Sn6br0eqIMZpwaklpSN0rYwDqCFcZn2mrC5gzJGK0VsgOygBNadLHWVXAJ63RUr+QLa+F0Hh1wsq3qcdVvTRkaJ4MbV4eRiGlKoyI5FmNamUrlBgWJI8rhGGITkcKYqYqqxHyo8j5eRGObWkdNRnpPCwdISVVVEzWDy/OLQXo7fAGpSi0gcAkEoyUrtDvDwZM+OSZPC6R5RGH4V8r1MjKWMGK4wXo9d4pCibgKSXxzmWwvpKKTNC2ox7MCEjDK7nERK67jXhFVVhqygrIvh4hzM5f49UOmsq2/Ap1QGC/jZVIcIgsEQ/FRnxuhN5okRsSO3nkOXyADwyYxjvCJDbBMIQ1leSR0qjRhLAC+/JLogAj0cmlUIvaTg4MwzDPIzKOCSSRaij9NC5noff+OaQ73V4BRRleZFKESneeNPZ7h6pQr29HCmUJdKuE6zx3cMeV2VzsYeqRkSJ2JDaz6HDywMQBBydQpAhm4AKsrnfwkvS2dG40QC8k5OOrD3nxhSqFh6hV4PT16A2wowPQE8tMh1hdg7ht6eTKUjEeI5opeIwpJNsbl+btEJ7pvQzYnmSCM+I5Nnq4bqAJOkNDZpXuhEbUvs5lHp5JBZFDlFWB0eqpzcaSpgmsF0VHCmfhZdSQ0xHyrWrnRDvmbT8gaJQFqXGY5RzUZmAo0JDyi90TVmbWAKOijXAPMnmiQLZXJY2oUwtXCMVQUuGYQ9p9EWJ2JDazyE7KAGm98FnoiaMhC+p04KOEztnskepbG6psAf1NajdSI1NVVXcNfK5VAkWRhrK0pCVynoeGrJSgfCkBso4I4mpynqkfGrtOT1SJcnuZHPZMZMzc64EDycobajybFH6qkOQs6eqRkSJ2JDazyE7KIHwUJdT5FKm3IPWE7usdo2kgWoYBslg82s3UmOT45GKMFMIIIRqKUreBGVzVRl1QckUKrzDYd5ElrK5Bq8AIJcooNODUWzw2RypZGEbtOrtpRWE9kjGpirjRNFBgeKlDxTk1HDg6I219mJDaj+HUrK5hKQA6T4KTuxhGYYsnZ0IT02AGClSByGfE06glESJ0nvGqdemQ9nc2adiaOFIUVLQGaGgKDmAFKOPVAxalQejaD7YWXsuj1R+S8zm5LP2KFmpYTUvnZ/1tJeHchAOW1tN01R3qMnyNPqiRGxI7eeQnewAT1JA5nTZ24yEKHkZgNjJSYWXJ9SroUgdWwtHSpHRp4ojBcgZOdR2fMe3In6b7DijhK5VhSGjIn1nrNBesjvZPK0ga49SQJwlZxFl7UTCoU+FICelqkIYKAcn3YgNqf0cOjYzskcqZDLqCFtxXOVZM+tfikOFR0oglq+TkN/TBG6ALmfR06EP16YY0lcdyv0Uj2ugrpbku6OErlV4MJz3Ua2RlPGUP0jYn8nyjpKJpP23SxmbnPJEOpTqCRm0YfSOsPsEIeZIxVAOLadggsgloMcjFao7xEi5DryPQoNGREdKyftU4CkIIsrqFFiV9cDY4qGCzzWZSNpyGjLeszAo5QBGaFgC9IOTrICjtLK5r/xB99BeyqFsrjN5oKe9w5QsTBUHMF21YXUjNqT2cygpBMxxxxJIv1FypFR6pILuo6v0TjFUesJCuTyEcAIQsbFJXHgp5GqKB6anx56ONlhq4VEafarCVhEpmxfI5h46UjlTmkcGhM9F1YKzURLjSVUGQvYA572jzDDUjdiQ2s+hQ/7AeSL0E3AE6PyOnuZIUTSeVIStZDhSMu9ThVo4qVyJDjkLwiaqzQMTtimqmItEb6JsWHZ/lCJRrTtkkc1LHFl71v93ZgvZmSr4iiq8djoEZ4PaUVGeSIlHKuZIxVANHadgasgizE2v0yMV1EbCSChZ4GT76tmuxvepzJDqLQKUFA0cDdmtSt5dGGeMuJn5hmkUHsDCDEvpDFrJELIv2bzLI5X0CO11ZmgJNmEIGzOUkLNOY9PZp2JwjHg/jpR1j6DKE9S+xoZUDGXQ4X6mutbJG02E/B8qn0JLXyU4UkoWb4nN2CWwqoNcLWM4JMMNBx0hcJWGZVhYlrKZBd1HqbyHROjXPnxRBDkVK5vbWXsJp45U/v/bM4X+BEkThLZNfEayZHNZjxQlC5MksKpxXY0NqRjKoJScHOadCTntqCCfhkFFKIh0HxWhDwEdKR0GHNVYI/OXoiywzBABNGG6+HxefY10nigwLKlhWUrZlaD7aOFIKcpIU0mkdt/XX9m8OdMIAChPlqM8WS7UblDbhT70DtFSShamPRcN/7kY5mHUkWXeE4gNqf0cOiUFQjfekNCeysVb2kig/s0RcpU829VonIS9h7D+68zCpBLjw9KudUgT9JYSMUDA81DZV0VhSD+oEsbM5DIuj2XGq9ZeF0eqqbMRADCofFAgL5TTthc4XjuSyGWEBz9OooOfWKYOyZSeQGxI7efQoTtE9c6o0MAJgyoDqDdoXnlBi3HCNIx78n2SyOYEOQsdAqs6DgqU8U2RatDhPVPhbcmZuQLpWzK0B7izxjxr7SUsj9QeAMDA8oFCbRa3HSUH0FmySMs+IFEQXmVZqdgjFUMZtBB+iRuE7dYNC32oyGqSNIB0qrD3VK29/cFrR83CDCTGExSktUgTaNgkqO8uNA1dY2kpiqYbSQxYcUZaUK29fem9APIeKRmoyDLW8YwA+pooY/SpKCvlNOD9OJG6ERtS+zlUkkZlwwBaeEeqjL6QjUZp6nMvUzbnZmHKGDlhIIfLAp4HSWVbR5aaBsOSm0wRWkBcB/meEAoKW3sANRlpTo+UFdor8QjttXZxpGQNKTLnTUbomFjCKwwqQtcqxICp/QT8Na90Izak9nPo1B3qTZlwsl4BsmdLc3aJUmNTgusAEBZFFV47ahtUD6MEXycM5NBeD4c6AUaigMy6QS0gLqM7pMDb4lc82CKbJz3I5q3ZLo9UhaRHSmEyRZQil4Aab6iKg1FoPwmaV7oRG1L7OXQWLQ5byEJDezp1pMI4Ur01tKdjwycs3s7Pe5QjRQ1lhaib23o9EZJxtYTLFHmHtdRJZIhNFhPBLbjKU0nUBbTWA+f9MnaJmMI2WJbK/7+VtTe4fLBQmxbIWlsS6u8qRC5J7TAM40g9oQROpG7EhtR+DiUbBHECSYf2NBCp2WGrHkztD2o3So4U18PYo6EsVd5QHUa8gndHJnATDwp+G5rSdUNivodpXqkwpJztOPvqJX9QU5k3yJvTjQCiD+2ReEchOmnWHDFgCItcAuHv0/q9ktCezB5A4ETqRmxI7edQqo8T8eKt1EgIS68lhoJCT04KJryIjpQOF32v0NpS5JEiHwaiLKWkodC1qrCsjtJSnNpsfvdxzkMpGQKju0GT8SCbD6rK96etK7SnK2uPwpHy00lTwVWk9JWy14TWW1UQQaFwInUjNqT2c+jUx5HWHVIpHiq5QYTxO5QKcvYUR0rWMKaqMveC90lWvNeRtafhUCObTNFbshjDNK9UPFOg8FxdoT0PsvnALo9Uh9kEIPqsPY6OFOD9rJUZUmHlXUx5PpcKz7CrnZgjFUMFtMofUDlSEZ5GlPG5qBuN7hIxvVFHqgez9lQo1bsEC1U817Cirr0pzB4lX5Gq9C6heaXimTr7YLVhmiZ27OvounfBkBrcrxSAiayxD4BCQ0oBgdvvPirWKmc7UoaxhsL1rnbi0F4MFVB5spQhRDrvo4PALcM5oNynx4oWK2w3VAqA+Ixk7yPTBje053WadgkW9rBUQxhUiFwCwRuNKsNSh5CvimcKuJ9Ha2cGV81fib+/Vw8AOKq22r5uYGUpkGgDjPyYkTakPDxhTlDWVr+sw273kDQ2VSQo6KADUNrRDbnRGaPHoZTrEHKypGZ56eBISevsUMshROgZiqpdKmm0N5SIUf4+A07slPtQ2oi0ELCibLug+2gzLBl97ch2BHtbFG289U0tuG7eUqze1oRkwsAPzx6LKZ8abl83uKoURqoFANCvpL/tZReFFzfLCcrBzzAMpBIpZHIZz/tQ53MYVJDNLU9/1swim8t2e28qeISUvupGbEjt56B6YIJgbxBmBjkz1y3zgy1/EGVoj1pxvheJh7JCe71JRyrgGe1rT6O5PW8wS2UKaXifrsyvXkCMV9EG1bD05B2pMiwVeXVLk6VA2ruvKqgLzj7894KV2LXzYAzpV4pffv0EnHyIW95gQEUJkqnm/P+X1ki1CahN/PAzpD7YnifGpzPiZHyAcLhkCHIC+f0kiSJDSpP3TDe0hPbuvfdejB49GuXl5airq8Py5csDr3/sscdw1FFHoby8HOPGjcMzzzzj+tw0TcyZMwcjRoxARUUFJk+ejA8//NB1TUNDA6ZNm4bq6mrU1NRg+vTpaG5udl3zzjvv4NRTT0V5eTlGjRqFW2+9ld2XnkJTZ54MqVwpNiAFmXoK3tm6E43tjd0+16Euze2rb00oDVleUbUb5EkyTRPbmhoAAAkQDSnHwtqZyeGO59/DZ+77GVoyeR7JzibxzJlMNr8Evf3Jbvxx+Sbsbu5wf66gnI3TcNCRtaeEbB6hFIkyw5LIhwlN/AgYr6o8UpaRsae1HUcM74cnZk3qZkQBQCJhoH9lOwCgX0mNVJtA8Hto6ejEnta890tE925rYxu+88ir+P4zv+u6n1y5lHQmPxff2LgTO/a12783TRPrGtfBhBna17DkAWUcKcfa9M7Od7CucZ3U/WQRuUdq/vz5mD17NubOnYu6ujrceeedmDJlCtauXYthw4Z1u37JkiW4+OKLccstt+ALX/gC5s2bh/POOw9vvvkmjjnmGADArbfeirvvvhsPP/wwxowZgx/96EeYMmUK3n//fZSXlwMApk2bhm3btmHRokVIp9O47LLLMHPmTMybNw8A0NTUhLPOOguTJ0/G3Llz8e677+Jb3/oWampqMHPmTHJfegJtmTZc+LcLMW7oOHuwqjhZAvmJWuzOdi1mrQ3AtpVAug3IdADDjwGGHA4YBsqTVQCAlTtX4rPzT8NxQ4/HjGO/hVMPOBWGYbgn0e6PgaatQC4NmDkgVd71UwakKoBEEsimgWwHMOBAoCKfhmxN4m0t2zHj6evx3RMuwoQRx3n3lfA372rdhXQu3S1sqTQDKySzxDRNrNrahJJkAulsNJ6wtnQa//HUL/DWnmeRTe4GAHy03duI7NZ/x+J95V8X4OWmW5EY3AIDQC49ANUlQ4X7un5HfsFuym7Fj1+6Bz95YQA+fUgFjjs4hU9a1uGtHW8BCH8PHen8Rrno/a2oTTTg2ANrUNolrqhasLA9046/r/87tjZvxTFDjsG4IeNQWVKphVfHNSwfXfModrXtwikjT8G4IeNgGIYywzLZ9d1Vuz7Exr0bcfCAgz372hs4Uo2t+XDmEbUVmP+NU1Bd7k9TqKhoxz4AFYkBUm0C3nNxw+7duPyZW7C5cwmMVP4wsmtfDhgRfh9rLenM5HDhI/diT8V8lA3Jz6FE50ipvq7fmb/P06tX4a+v/gmHjGjFoKHrsCv7NnZ1bM23gSTKUmW+93COy53Nreg/qL/rc2VZe11r0/3vPoDXti1FbfkhePqCP4XST6JC5IbU7bffjhkzZuCyyy4DAMydOxdPP/00HnjgAVx33XXdrr/rrrswdepUXHPNNQCAm266CYsWLcIvf/lLzJ07F6Zp4s4778QNN9yAc889FwDwu9/9DsOHD8eCBQtw0UUXYfXq1Vi4cCFef/11nHjiiQCAe+65B2effTZ+8YtfYOTIkXjkkUfQ2dmJBx54AKWlpfjUpz6FlStX4vbbb7cNqbC+9BRe27IMn+zbgk+aP7F/p2LxBoCL/nYJDqs5DP82+jR87qDPoTxVXhj8TduAu8YDHXvdN6g+ADhiClIDL0DHzslI9X8PyfJ6rNy5AlcsXoF+xmgMSByC7Zl1gAEYr98PvPsUvYNGAhgxHjj0c8ABZyPbMQzJsh14bddTeO25p/Dlg2bhxjO+A8AxUZvqgfsnAzs/yBtrMIDaY4BRdcChZ8DM5f/mP33wJ/z1oydwyojTcMtnf4L+pfmJbxt97z4OvPNnoKM5b/AZBpAsAZKlXT8lQCIFGMn8/w8ck2/ngBOR6vL4FG8Q2ZyJvW1pNLZ24rV1DXh4yQZ8sHsLgBwqDtiGZCXQ1rAdWHsN0LKrq40SIJnq+m9Xm87fVw4BBo4GBh/azQBaU78Xlz75A7SUvQokATNXgkzzWAwb9Flg41Jg7ydASTlQUgFUDQX61QJVQ7ttcE++8zFebrwDidIWDCgZjpYdp2DP9uNRkjOA9S/nn09p/3y/sun8c0+VA2X98/c2TQAmUF4DlPUDAFSl8mTeREkTyoYtBAC83Qa8vabwvBJmGUZWHBo4RDY35I3C5+t/j+c2PocKYzA+d9gRqDv4IOxs25kfRrKChV3P9Y9r/oh5a+bZv08aSZx6wKm2l1jFoWZ3+26s2L4CtVW1GFk10tZQohr4LU35XXntnrVYu2ct7l15LyqN4Ti86jPozBY4UjKG5Se78s/y3d0r8IUFX0BN4jD87gv3YczAfNtcPtcvXv8Fjh92PKaMnoJPDfmU+x6SHikzl//+8QdVextRuSwAA0gkUFbWhn0ASo3q7tcxUTyHPtyxF19b8F1kytbASAFmtgLpvcejOjEm+D5F/Lz/W/xP7KmcByORxpCyUdi8vg4Dc3VSfc1l83tI6aClKB20FDsA7GjNf2bmksi2HgJj38kwTH/eWMJIAGYSMLKYcv/t6JcajAOHtqG6ejeac1vwSfMGAPIeKcuIX7rtVQDAjoZqNLW3YXBlHzSkOjs7sWLFClx//fX27xKJBCZPnoylS5d6fmfp0qWYPXu263dTpkzBggULAADr169HfX09Jk+ebH8+YMAA1NXVYenSpbjooouwdOlS1NTU2EYUAEyePBmJRALLli3Dl7/8ZSxduhSf/exnUVpa6mrn5z//Ofbs2YOBAweG9qWnULJ3JM7dfBReGbYRDeX5kb6vuT3kW/5IGAlUdIxAW9k2bNj3ATbs+wDPb34GZWYSh5sD0Wi0AwaQ2vJm3ogacBDQfzgAA9j2NtC0BXjjAUxO/B7XdZ6JD1tOQbK8Ge+WfoCNNZvQnNiA5uwGoCuEP3jtc/n/GXIEkCzL/z7TCWS6vFzp9vwmnCzNGwytu4CtbwJb38SRxu34ReYEPFMxHpsGbsP6yu1YsPFenPT4h/jCyDHI7ngTAJB878/AniKDb/Oy/M+Su/HlypFYWjUEWyta0IkOvLTlOXzpD0txy+CzcNygIcim888z9fKtQIYRutr4qv2/JUNHAf0MdDasQ/uyB7GxoRnPbN6AN5o+QavRgWwih/ZUO/b034N+g9zvr/rFnwAtzRBBybDDgSqgqaUJP/u/m/FK2WtoGbARMIFpFZNw8L6R2Fa/AZc2zwBWbPG+SXkNSkYdDgBI73gfe1f8Gfe99iAS/RoxEP3x96O+gdvXfYAxyd/j8D9c2d24DkNpP6DmIEypPBpLPqmDOTSNkSMz2Ny8B/uacjDbgQGdZRjaUYlDOkwc8NfZQOtHQGcL8hteEigfkP8ZNAbHtDbjxXIgUdKIREkj0gCe3bYEz24rNNkPSeDhLwGNm/LfT5bmjbtcOr+Rlg8AKgfnDcHOFiDTnjf6qoYCVUPQvncDgLwwYkmmBAPbBmFfeSPaSjrw4icv2u0kl/0/IIv8ASBZCqRK8+Pc+f8A0NmcbydZkjc0S6pQ2p7PJFu/dz0uXXgpAKAKZTjMGIyBRgnezW0HACTWvQykE3kDPtMOZDvz/59IAYkkTtiWQkv9mWit2IF9lTuxs2oHWhPb8XbzX+x+pnJJJFY/lff4FpOqDQMoqQRKq/J/h+WBtp5bZzNObEjg4+1HYXv/euyq2IvG3Ef45uNfxv0HfBFHDKhGtjXv+Uzt+ggYfEzeWAe6nnk2723e+wnK9iYBI+/JXrlzJR5c9SCO6TwQXzKPRoPRDJQCufZWoG2P7ZlmId2GymwbmpLAiN2vAMsc86p9L7BpKbDptfyh5OBTMMZsxi4ANc0NwI7VwNCj8s9DAKkuD9Le+g+x4u8P4kcf/xWZ/uuRzCVx7dCzsGVVEh/tLUPCR2DYQomZbz+9/iXUf/Q+Fq67D0ZlGmNTB+CO2q/ijnfXYFOZz1wmYpRRh10t76CsXxua0YoqlOHg9HAM2TsAR2YHoLmxDR+ZLWjvTKO8xN8QMnKlMJNtKB/+DDIANuQANBY+T+YSSO2qlerrzt15CkBJpgSf3jse0w47Ff1L+0ndUwaRGlK7du1CNpvF8OHDXb8fPnw41qxZ4/md+vp6z+vr6+vtz63fBV1THDZMpVIYNGiQ65oxY8Z0u4f12cCBA0P7UoyOjg50dBQ4Hk1NTZ7XyeLkWmBS9llktgGPVPfHK5UVOHPp/cBh/wYMPZJ3s6atMJ//KZZsXYYNJSXYUJLCqrJS/L2qCltKgPeMXfalNTkTOHMOcMqVeS8IkF9gN74KvHoXkutfxrdSCwFzIdAGoA3Ysy+Bp/pVoSVhoMQ0cWA6g8NSQ4CL/x8w5rPkPmLdS8C7f4Lx8Qs4O/kGzu4EzO3ANUMH49l+Vbij8WlMXFWPzMABQHV/JGEAJ04HTpqR36QyHcCWN4FNS4D3n8DY1q34W+tW5AC8XVaK/xo2BDtS+3Ddrj/hgvXN6KypBgwDifIa4LTrgQM/DcDIe11ymfzGlU0XPC+5bH5D2/UBUP8esOEVlLTtBvoNwZJ9H2Pqe/+HloSB9rIE4BEJS5pm3p40DPTL5XBMRztw+BTgkNPz7eXSQNb6b7qrD+nCv5t3AHs2AA0fI9WwHqgaiY5EB/465I/oSCSQME38bOdufKGly5NSAqADeQ/SyPFdBmxr/j4tO4H2RpTs+hCoqUbnmr/h5Y7HsWXYECRME3dv+xBV67+HHwH5FaQDQL/hQMWgvHGQ7ewyHFL58dGxL/9fyxuUS+ev2/E+xuB9/A4AtnX9eCEJYIfH7y0eXv07uBvA+pIUtqZSqE8lUZ/M/7cxmUT/XA412SxOa20D2sW5FOeVpLBq8CDUtbfj3/fuQ5X5MQBgXUkKj/bvjyf6V8EAMPyNh4CcGF/lJAAXDR6ID0pLsCuZxLZUCi1GB942twKOWw58ez7w2kO+9/lO1w9a8z+tuw0srqzAGxXlSJomykwTn2lrB/70DaF+AsB5XT9oBTanUrh0xDDsKGnB9Zt/h9tX7EK2dhhQkkLyyf8E0pfnDZVcBihS5/4jgHfLyvBRaQleLy/Dwn5VeK/0E7yHT9AvlwOQQEXLNuDnY4BBh+SNuVymyytb6vYQJ5L5cWaa+THW3gQ0fIxDhw5EfWUFDtr6JPDBH/3/qA/+joFDBwOlVThh6zPAfX/Kj+2DP1Mwsi1vsLNty1NsJIB99cDezcC2d1DStgEYPBBbdy7Hn9NLsLl/FRKmiTt31OP0jf8v32YpkP7LQ8CEf8973q31quFjYNeHwMalKOmXBkpLkF78E/yzJIXGIYNRnsvhtvXLccCHS/GLEgA5AH94Bqj7LlBzcN7ra5r5dSmXAcqq84Zosus9dLYADeuBXWuBD57FXR/+HaVmR9FcW1343y5nT3reUuBLdwLDj87/omMfsGMNsGUF8P4TuH3nZjzfrwLNiQRaDAMjMlkckk7j0HQah3amcUAmgxzuBJYMAE7+j/w7o2LPBuCfd+DWrUvwSmUp/r1pH4ZkPwY2vgOkLqPfRzHirD2FuOWWW/DTn/408nZSFdXAp7+NVLYTn1q3A1O3vYbhxg7g12cAn56en4hGAvk4WiLv8TESjt8ZQNM2YPt7wCdvIJFpQwLA7o5Dcfro0TgjVYaL24FXOlqwLteOps4cGtuBzqFfB04tWnhLKoDDJgOHnomFT85D6o3f4KD+wBEjBwPJUgxMluAbXafxZ9fsxrv7+iF1wXU4c8xh9D+4eiQw/mJg/MV4583X8MZf7sCY8n0448hh+HEui3eaV2FbCvjqiNFdJ7c02o+5BDjzJvd9hh6Zv8/Un+Ox3/8SFRuex1HDKnD8sP74dUc7/jO9HptTnZg7sMCNaPza33DAQUfzX1K6DR1P34Vk4yPIGAZ2p/KLRVXOwDhU4IBkKSqNBGqQxHGowDijApVGAss378HGlhQ+Pv1WjDrzHH677XuRXTYfqXX3IJMAOhIJVJoGfmQMxRdqDweMJNbtbsWaXWm0j5mMr/z7rLzXwYlsBtiyAvtevgXIfox51dWwEoK+mRuA8QccChgJvLahERs7qnH8OdNxRN059AWxYx+wbzuway3WLHsW+z5eiiHlwJjhgwoem1R+zLy6YR8+3GvgmONPwYl1nwUqB3Z5NDL5TbJtD7BjFd7453MY2LoBx5ZXYFJlBVBSidZkf3zSmkJrxsCHO1vxNqpx8vmfz2/GQH6zsrxGhpH3TrTsyt+7tCoflmxv7DIud6Hzo4/xzS1bceCAUlSNrgISKaRTVShpS+DL7RkcuWE32mAgc+wUYPCwQhvZzvxPpqPA+zPNfBulVfn20m1AuhV7G/bgjE924PMlCQyrrkAbDKxKAKsTGexLJLC3EyjtTODgmqOAIU0AzPwcTJY6jPwMPqjfg31tnRg1dCCGDRyAypJyfDFVgS+mytBhJvHoG1uw22hB7qBOJJq25L/rrONmZvOe4XSeDJ33ppV3eZI6gVQ5dqSG4+191Rg5uAafOqAGv0q34bL2NfigrBRfGFXg6yTKBgCdO/N/dzFK+2Ndeih2t9bgjKGDcXZZCb6UbsU92IbVyTY0dxUUHpgpyf+tDR/TxlgRzC4rYGfNMcDBDi5RshQ4YELeUMqlgfUvY8uaPwBoB5K1QGoL0LwdWPUX7xuHoKR/3kuyqqwMq8rynshrzcE4fWR+Li7fuBcHdn6EkR0NwJJ7/O/TLx8undt/BN6pzIdmL88NxKhRh6I1a+Dt9TtwUmI1kh89D3z0vFBfSwFsMQejtGYEhtYM6JqDXXMxVY6/vLUFUxPLUbllGfCrU/Jj1zQLY6QLkwEc3tIPBw4diGSqFKgaAFTUAGX9sb6hA29sfB91iTXAczcAKx7KG6iu/aprj3LuWZ0twO4PgS4v5wQAybYRMA44DqgqzdNLehCRGlJDhgxBMpnE9u3bXb/fvn07amu9XXu1tbWB11v/3b59O0aMGOG6Zvz48fY1O3a4j7CZTAYNDQ2u+3i142wjrC/FuP76612hwKamJowaNcrzWin0rwXOuQ0A8Phf3sGi+vfw1+EPYNTe14Eld7NvlzngJHxl3Rfxjnko1l44FWWpJIYBOL/r89+/thE/WvAePj8ywB1rGNhYczJuSdfgK6MPwO1fG9/tkvvnLsHrjXvwq2RV9+8T0dT/MNyYuQRH9euPMy74LPoDuGv3B5j29CXYVVqY0GubA9oorcQbA6ZifvpTuOaYI3HYGYfhUACPpVvwxEdPYNWu1Vjw/gpk24ehut/B/vcJQkkFcgdMQ+Prh6Du0DLc8IUj0K+0AgcPOCiQp/OrB5fjH2t34v8GHCvWbvkApI+8GHtfMDCgXwue+M5XcEC/A1wck789/yHueP4DfH3gQfhKsREF5D1JB9VhY9UkoOljZIw8J2HyqM/jP0/7af70DeCHt72IdS0tmD/8ZN6psqx//mfIYXi98Rj8aPV7mHp4LeZ+Y0K3Sx98+A08v3s7bhk1DiceeJD3/Y44C//33slY3tiA+846AWePy68LlQCOANDQ0onzbloEAJhx3NlIJMTCNE8uXINfffIxvnXkGMz5Yt64LgFgzfDL/mcx6pvaMf7kSRh8gBhRefk723DFvDdx0oGD8KfvTAQAHI4uzw+A6Q+9jqfX7MDJZ4zDmE/7PA8AN96/DP/8aBfuOnU8zh3v3mQyHRn8+LVnAQBTLp0aGKZBLgfA9Hy/v31mNf7fy+sw84hD8Kmzx+IIAA/vWYdr/vFjfLzvXZjIwjQT2H3u34Hh/QtepK7wIxIpoLQfLvvfF7C1rR1/mzoJ4w4cgFMBnApgT/sePP/BWlz3xGtYV3UE8P0T8h5fI9nllco6PMOdeUMtlyt4vMr650PIA0fj3b/+CMBbWD/mfODM7/j/vSOPx7aNzwLpzXhm8NWYdsUFwOblwJY38sau1V6xV9oylnNZoN8woOYgYPBh2L05ieymOzGwvD++cGQdJh0wCaceeKrd3C33vYp3Nu3Gn89sxvGNi/Le4Ex73oAYdAgw6FDggOOx+ZU7AGzC8n55I+qQfuPwzS//HkgksbuhFRff+g8cUbITz9W9A3y0KH/I6MgT2VFSCSQS+X87NMQAAP1HAIMPAw44ATetPwq/XVeNWz5zLC4+qfvYuu7Nv+MXHRdg8af+joqP/573+DnvM2ws0mM+h9OeqsZWDMF7M6egX5nbxHj7rS246sO3cMOIN/Dtlt8Auz/K/3BwyOn4/o6peHzXQfj9507CqYeLJ7uoQqSGVGlpKSZMmIDFixfjvPPOAwDkcjksXrwYs2bN8vzOxIkTsXjxYlx11VX27xYtWoSJE/OLypgxY1BbW4vFixfbhlNTUxOWLVuGyy+/3L5HY2MjVqxYgQkT8ovzCy+8gFwuh7q6Ovua//7v/0Y6nUZJSYndzpFHHomBAweS+lKMsrIylJX5ZzREgWTCwC4MwOOfugdXDXw172KFWThhmjnHv1H4d8XAfMbdiGPR1O8IvHNz/hRTkui+yVvV0dPZ4HBFuovEWpr0NhSsUgwZwbAHAKRzVn2sQhtjBx+B57/2DJ5d/yzue+Nx7ElvwJCSo9h9rSqpwtfHfh0AsGDRQrR3ZkUjNACQJ/Vmq1BTMhzjho0lfSeZsDLNJJ5RNodcx0iUlpXhoOruC2Kqq7ZYNuR9ji47Df/cuQWfHT0Wd37p6+hXxEGwxkXWoyI9ua+ZnKtP3fpKHDOd2e7jwoKzBEjWNJGAmCFl9bUk5f19FeM7k1Mzh6jPI7SvHutBcRspx/0OG3gI/vqV36M13YozfvkgdjYZGHDmUKB/TcB9rOLB7uc6sHwgDhlwBLItu2GWV+QPkP0FuTVmfqvb0b4BpmkGFkBuz+X5fu3tFXlvzJhT8z8CSO78GK3rZuPsCQfi+rrjun2eShjIIon62jOAf/u6730S//gzULoJo6uOw8zjL8RZo8+yD0fW+9xgDge+cHvhS6bp5nblckDnvryxl0jmvU0Wbw3Axw8uB7DT9T6L+7oVQ7Dz7AdwUGlT3rAEuriF+aSR9vY0tj6V58CWeMzpfF8NPF8xBd/+1uV5A9W5V9n7len+Xaosb/ANPhQorcLK214E0OI5vnsCkYf2Zs+ejW9+85s48cQTcdJJJ+HOO+9ES0uLncV3ySWX4IADDsAtt9wCALjyyitx2mmn4bbbbsM555yDRx99FG+88QZ+/etfA8irvF511VW4+eabcfjhh9vyByNHjrSNtbFjx2Lq1KmYMWMG5s6di3Q6jVmzZuGiiy7CyJF5t+7Xv/51/PSnP8X06dPxgx/8AO+99x7uuusu3HHHHXbfw/rSG5DqWugyZgL49LeF7pFuyhOdkwnD87RuTdRsLtftM9d9uhZEv8GdUmEk+Gy8g8oH4eKxF+P9tePw+9c2YmgXUdoPnR4FS51QsikGbGZ+sC6VMjZD2k0SDaBErgqduybj0E8d0s2IAoCEnUkWoeFgG33BYy+T83+fzo0hmzMR5IAJbqNrfPsYF7aBKvE8OsMMS2IbGQ8jx76H83mEGNPBbVgGUPfnUVlSifLM0ci1tYaO5aDxah0sMhL9BICyzKHYl3odr+16Cv/5wj7c9JmbMLC8O3E9k8ugLZv35DS1lHf7nAuvwshOUNeZ6paLsG39mbjuW2fgM4cO8bxHtzFRbCwmEnmjx7evwet3oa85X4PWedgOOpTncsgnLB0lQF+AYy76PFfdiNyQuvDCC7Fz507MmTMH9fX1GD9+PBYuXGiTuDdt2oSE44GfcsopmDdvHm644Qb88Ic/xOGHH44FCxa4dJuuvfZatLS0YObMmWhsbMSkSZOwcOFCW0MKAB555BHMmjULZ555JhKJBM4//3zcfXch7DVgwAA899xzuOKKKzBhwgQMGTIEc+bMsaUPqH3paSjx8gQsus7fUxdEv03Ad8IzUJhAIUZCqNFn9dVvU1ThGcp/189I8GxXgbEZ9oxSxPcQ5mG03rPc2PP2Rtht2EZfyH0y/n8zywMTgCAvj7OdaMc3zbCwDzWpsOcRPE+C27DGh9x8zwSMM+pYDUN5+6lob2xDvxHP4KVPXsKUx6fgjFFn4EuHfgmnjDzF9lA1djTChAnTNLC3RT6VPuxQY833XMihJp0FkKsMHN/ZnBnqbaP0NXQuBrwL6x5hh3KZcQc4DtQBHlOd0EI2nzVrlm8o78UXX+z2uwsuuAAXXHCB7/0Mw8CNN96IG2+80feaQYMG2eKbfjj22GPxyiuvBF4T1peehjUwwyZiEMI2fOqCGLrxKlgU0yEnPKrRlyH+zTInYSsM6bcwBbarwGsnewruDD2hdm0CKox4RYZxaGhPygMTclAw5DcJ6vimzkUvr4BhGEgY+cRCFQcF38MIcdMMMqZVzAcg/3em90zEdVO/gPkbb8WHez7EM+ufwTPrn8HPJv0MXzr0SwCAhva86r+ZrcSeloyUYQIA6a5++2341HUmyMhxHoBzJiDqpAn3ZHcZ8QRDynf8KvDaAoXn2ltCe72jFzGEoWLDD9sgUoQJBISH9tR4z0LaIPJ/bO+CD99FidEX4CXxQ4poOAS2G7J4U9sIP02rCH8GG7Rkb2hAaC/p2Ail+FyKDhyUNmTnULhB1uX5lHgeGQ++ohMUvp9pmiQ+l8x8AArPdUz1EXj8i49j3tnzcOzQfELHln0F/aWCIVWFdNZEc4d4+SMgnFdHNowz/mPP6fmRMeLDwmU0j1Rw+DthqDGMw0KmuhEbUvs5lGy8YSdL4iki1DWcVNHXYJduCdnoo4Vp5BYmEY6U9YyEm3Us3nLhoVB+hwKOlO218wkr25tx2Ik9wGhNJPIeGECNtyhsfKsJs8sawf6hPUCRx1WBd9j5mZeRoMI4BdzvzjAMjBs6DuOGjMt/5qg80NCWN6SMbL7CwZ4WuaK4Yby6BNsw9g9/Aoo8jCHes6A27DXDZ9ypoC4A4QcO3egdvYghDJUcKWmvQIhxouI0YvMpQjKnwo0+2qIhEzINI7R7QYWxaRtwIZw36jOK0sMYRFgG1I09JYkOxNCHivBh2PgmP49Qg0zDxhvwPJyGnJfXRhVHysvzadXvs8pBAcCejj3567rKw+xu8dC+YiCMV0c1jIPWkqQiQyo0dE0Ye16ZnF73UGkY9wbEhtR+DhULTSaEy0N1r1PDNFEu3nSOFHHDkjmxZ4KNBC+oMDbDuU1UjlTIJtA1XlRwpML4XLLeUDUhcFroQ8W7C/dIUcnm3n2lekKC25D3SDnr/nn9zao4Ul5rnCUf4CwovLstL/hYkRwAANjTGlzYO7RdBcZJ/j4ByRSGGkNKBcc1NHNbFUdKICM6SvSOXsQQRkKBcdIZwuVJEUNBnaGLBi3sFoTQDdMKr4TExsKMDZUGqhhHKvqTJZmwHKFERLhkBtUDE70RT83ak/FihklmUOcQld8mN87kN820Y556S1eoCQV1emR5WYXenYZUS5dKd2UqL1S7u1nWkFIzLm0jJzQLU8EhVYLukAnoJ6DmoJjLmba+X2xIxVACpR4pSXeslsU7p3Zhkt2wKG34pYdH364c/yto8QacHCmJMCTRMJYlxicV8JdUhSGDoCrryTbIJPguYaCGU4M33oKXzys7zmmsm1LEeI/QnochZf1/VVcxe1mPlIrDZS5n2p97rdGGYRSM+B7eB8JCe0qiEo7xFIf2YiiBio1XxcnSeZ9QcUUp75kar5eqNPPgNvihPRWub7I2EzFTKNosTBqXJ6gN03RsNFES48m6SfKJH6HPnKwjFeX4lvd8hpHrnd4WGadUxmNOlHSVOnIZUl18qcqSfIWK3S1qPFIyh0un4eCbPKCEf0rbBwKTB4jjV8X6BvA0+qJE7+hFDGGoDVnIhXDCTl9K0uVDwmXU50FX8Y3uxB7UbrSkaGK4LOxZq+BIhaRcU1LoXWrKUS7gijSBAtsgiyL6G2tOSQHfvtqbYvTp8hSOVNjak7+PWF9N0/TUdLPI5lmrNh88PFKShlRoeJwU/gw3HFSMb6r3LCh5gOpRVZFwBPh7vnQjNqT2cyhRU6aGLEJ4R9SsvShP7CniBqEqmyYIYYtKcLs972EM29RVZmHKhMuc7zrSRIcQWQkd745iBDvb9914FXjoOjNEg52w8fqFj11ik4JTMa/4nf//Eg+OlFP+wPr/fl01Uxsk5Q/ChCNJ49vFI4t+7Mlkb1M5jzLrqjNBIRkbUjFUQIf8gYrMEkATh0QZRyp6IrUXEgrUscNP+bTkgSARQEBt+DM0ay9oM84UPgtNQohQVkKtF1N8fLs8dJEWWA720FGkPKiGY749sXfn/BudRnAQR6q/bUjJyR8UaoOKHy6t+Zww/A0HFVmY9OxtikcqSgmcwrokozqvErEhtZ9DDS8jLJxAy5whu7FVhD58wytEjlRIGRU1XKVg4qVnuxo9jKoI+dESlunhIef13e+joq8W7yhCraoQD4b1zNMBcyhMUsD5eylycqiESPhcpNIBAPHnmvYZH17yB5ZHqro8b0jtaZUV5Azm1XG8PEFcS9l1wzRNsrRMkBo+dS9RU1aqdxhRQGxI7fdQwzsicj9COVJEt65UenjXaSQkFBDqbSFuWCp0h/z66tluktb/IKjK2gvzbKksESNTa6+wWfmfUHUU91bCwwrxYFBCI+5QUJTPg7jxBhkJxPAgIN5Xl+inlyCnh0fKMqR2N8sKcoasrYTDpfWMgojVspUYXF47iWQKasKRbk9/1Og9PYkhBJXkZL+TJZ3ArcODYS1MYRtEMBmXLNWgRNlcr45U2IavyiOlQsOMqsIeeGK3hU/9T6hqC2ZHKe9Bywyk8VS8JQUAxR5Xib6GyZlYBZYBeY+UURQaCwrtDSivAAA0tWdcHi0uwkumUN5nONfSuo9oYMLP2HSCwnmjehjV6PPFHqkYiqAyZBHGdaDqDkXpwSgs3uKbmZN86reAJxSQcTMCoT3b2FRQXDeszlpYG2Tvn1SmUIhHKhk+vikGq0puRphhGamyOUPk0u8egJrnoUIJO2zjzd9HTuLFz/tsyx+Y3Q2pyq6sPQDoyChIOPE9+Cka35IeKYo2E+V9hh2mneNOVBdMpBh81Og9PYkhBGss6RDWU1WbTaoWmcITOxCtVEOYQRNdu2FenvA0ZoBeN0sFz0au8C3hxK5AqoEa6lQhUBrGw1LlwZDrKy0sG5i1FxLac95H9N1lfOZDkEeqLJnq9n2xtsN4dYTxTQhlyXp6XB4pCYoHNWsPENcF85Ky6GnEhtR+DjWCnGp0pFS4+sPQGVK/roTgwXAJ3IWJh0osomFik15IKDQ2pXWkFBDBw6BCwI9yQlVZYFmPQKm4V4DCISk8V6Fu5tsJMWApxhqlr7LjzM+LbRlS2Vx3HanSZInjd/LGdzivLugZBUtEuO8j94wSRmENKgblQB2aMez4vXBfM/x1NWr0np7EEIJaBe7gBdE0g0+FdFe/ghR0Bafg/H2iD0OK6EhFaWzSdaSCQ3tKM0YlOFKU0IdaXTAdchAyXgHC81AgBxHe1/BDnjNRwA/UMkHh/fT2SDl1pKwwX0myhJy4EgS6srn/PcKMMUCdISV7GKH+vYCE9ywkUagn0Ht6EkMIOhS4nacIGbdub9PZCSLjqixlwCkRo8I4CQt1UUUdsyELlpL3afVVwlgLq9fnvI9oX0llaDQU5aZoM9lzxCd5BJBP/Mg5xoevEUww2MNKPjnvL5u1VzyOk0aX/IEHRyqVSElnwgF0vTpZr53s2OOFDwljL0JdsFj+IIZyFLI1ZEJBak4R1PIWORVE6pCJmiZM9iAyrpqwVfhpO4p2VXhOnJlKYUarHEeq632G6B0Fq2N3ec4CNwE5w4FShkYFDys0fZzicQ15pgBgvVJxArdjfIQYwTKHL8BBUBb0DPlxaoI4UikjpTaDVobTGaKoD8hnGYeJcQLEvoYd4gzaXhKEWP4ghnLIZmsAzlIPwZM9rJ1w/SJ5babQUBAjqyko5KZCqsHW1QrwDHRvV5+xSXmXQfdRkaWmpPBtSLjXeR/RsZfJhRuWSrWqJIzgsMwpQH58U8jJpL4SQnuyBo0fp8araLEV5kslUvY7CBI/DW2bWHaFsl75JdgA8tzKsMxtwLG2EqoMhCUgADLes1j+IIZiqNTlCFNBBvw3omzOtLMwdNSDkhHSDOP+AIqlGhikSIoHhtquvycpfBOl6MroKBFD05Gin6bFN+Pw56Gifl3oiZ6hFh5kwKvM8gpTsQ4y2CmhPZsjJext8V4zgjxSJYkStWurxPsMEw8G1BHyg4w1imxKGIfVMAzpLMywgtw9gd7TkxhCUJuN5D2JnM4fv3ZcZRj87tPLwla0rCb5VHZOaE9lEWp/T1LXdYRnlDD863up8NqFiriSPIwUDoncZuzS2QnJwJLi1IRkIHI4gEEbDeW5BoFUlkfRu5MPywqE9hIpaUK+s+yK1PvkSESIjm9SGRpCRjTDIJPmczFkZaJG7+lJDCGoEOQMy3oyDCN0wlNCQb2Fc0ATAVRh9AWTk72gRCKCqAsWlIXJy4ST8cAEL+AcHSlKeEj2xB6oFq7QgyFD8KcY8NIE7lz487D5ioHeYQ1hWR8jwSoRkzUd8gemw5CS9A67yq5IaTMRqAiSAquUhA2KiGtYxjAg77kNq4bQE4gNqf0cKj0YgYM/5LRNIeOqOLGHEeNL7FNwUJYX3YMh6n42TZPE3SmGmvAnzdgEgjyM4QRupR5GCZ0dUnjI5pCIjb0Mw8sjE5YN+1somVOUg0JhMxPMnCJod3H4XEEeDGmOVIggp0v+wDNrT65dwD/MysrCJMhZiL5Pe12lcKQIh5oow5BhNV17Ar2nJzGEoLTWnsRiliGEgmTrQQFON7cE54BwYpddRJ1laDikSJXFZMMIrkC4h5GUKaTkGQXzjmQzv+QX73CvgBqPVPC7U6HlQ71PEOxMOIK2UbB3WP4QFwY/jlEy0SV/EBbaEzS+XRUUwjxSgfXrGKFrwbWVwqujZYwSvGeSYWWK90w3YkNqP4fSKu6BJ55gA4USClLCISFKNVAKa0ZacsHp1hfwSMmk0FPDn4D/uwjL5HTeR9ZTAFB0kyin4KC+qslSI2XCSWVcUnWk5MJlslINunSHAPlx5rfxemXtqZQ/YEmIBBG4Kc9I0sNI8biqVqqPUjxUN3pPT2IIQW3Wnvhpm6Tlo7DifFgKOoW8GRwKCvdsBaHTtYjyyeZRigBSPFIU9WBVvKOgdihZmJ0EMq46jlR0bVDIybSsVLoRHOXzoPSVEtqTN6S8n2kx2dw0TZsvlQ/tya0BBeMkiEfG8KBTvEURSgpw+Fw0T6Wcp683yR+kwi+J0ZuhcuOl1HLyWxRp6tJyC5Oz/fD6bwEcKYqRQNBMCQKlDE1guwrCQzRdsJDQHoEjJXsKDmpHVW25hKJTMI2HFR05WdXziCoTzt1GeF8poT3Zw6JfiRWLbG7CRDaXRc50ZiKm7Pkjq8AdbGzm/0t6RgT+kqiH0U76IHmkKEZfhGRzgYoRUaP39CSGEAoTSPweJDG2kElECu2p0NkJESwspAH7Lyo6OFJ2OZGA06gXKJkxYQhLl3Zqufh6GAmhPWkvT9egNQJ4dZwstSj5SxSPq6q0bsCfq6Kq1p7sOFP1PFTVeAuCPT5S3h4pIJ+t5ySdlyRKpLMFacY3x8MY4fskqKfTvGeEEHhSduzxZWWiRu/pSQwhFMi4KkJB4QRBv3Z0EFyB8CwvpzHox1Wh8H9ki9xSMsm825WXs6CcLsMMKQ7nTVS7Jqw8DND7eTbebQiOGZc2U5hHivI8Asa3BsKvqioDsnOikJFW5JFyGlK5jKvmXkmixB6XURrfLB2pKAVWCZICFP4mJbRnvU9x71l4G7oRG1L7OSgemDDQiKPBi4qOxZuknu5oP4zPRcsUkly8macmlcZmEKeCynmLUt+HEy7raeVnToKCrOck346MR4r+7oSNBIaxHhhmJ1QZkOdzec/3boaUg3TulD9IC7fLGd/hhnGw90+ONkHRvGNljEb5PjPhbehG7+lJDCFQPDBhULGhcTwYUWZ5Ufg/Wup7CbqfVRa+pW1y4uFPVeEyigEfeArmlBmRzWqKdHyHh4M56tKy/KXAvnIK6QbyfyzvAuW5ynKV3M8jaSTt/3caUkkjmRchlhwznASF4FqSFMMYofcJQsHDKDe+CxGDCDlSsSBnDNVIEjwwYWBlJPmSzelegSglBZzuXj/9F1pqv2TWnmBoT6myOWmT835GBR2p8GckW3GeFlImEFx7uBaZKgK3LL8kTIsKkE9SoWxmnIw0mswGu5v59n2eq2EYNuHcaUhZniprzIgWLaZ4pUkeRlKJmOjDkJQxQ9Fbi8rD2JPoPT2JIYSkIW9IhWV5ARRlc84EEjzhuTLhgsnm+XbEw1aqjD5uaE+lsrnMJqciASEMdqV42Uwh0oYludEo4J2FtqEqE46y8Up6BSgikTRl8/DQnixfMejd2RIIZndDSt44UcP/ot1H0jhRIIED0EJ70hmGsY5UDNWgGA5hoJx4qLX2ouVl5NtIGP5ZXqSMNIIbW1W6PHeyJySTByg8MiDcw8iRPxDmSOUoXq/CBmH6eL4ooT3pjYYRytKRCZcNeh6UUL1kORsO+Z4ijisThg5DUAaqU0vKzyMl7TmRNL45nDdZnqwsb5QU2tOgeaUbsSG1n4MirhgGHnFU3ssTtUs3rK9a63txs/YkCfkUHhkQvoCrIKyHgZO1BwB+zXDkLIQ3GlIoS59HKqgdVphdNuNSlv+jQboiyDvsNKQs+QMr3CdbIsZPdsHVPmG+86pGRGec0LIwLY8U5X2Kcs/EvP1Rovf0JIYQEgkDVnRPmO+gwAXN0UwRFiwkhKwAx0T1aYdTu0pWfTfIOA1uV96QogiO+iYPkHgZcpsxJ8kBCAgr2weB6HgZvDETIUeKFLqmZ3nJilwGb7z5NtIUqQZJ/aIgBI0zl0fK9PZIqS6W7ARF/4lnbIpKb9DD4xTNq6B1T17DTIx/GiViQ6oPQEf2lNIsL+GNNzz+7mwnlM8VYUFeymnUu9389aYp5j2hqIUDFI9U9DwyWpKDIyvVr6+KMsiCQNJNktzMKLw652dhGbRRhjpVZXllSOFMhN4nCEHesyCOVFh90TComkMciQhZQr4sPy9D2QcUed2DPNm60Xt6EkMYCUniKCmkEJIKrMIYI/czZAJZC2AonytCDwYlyyuoXUDM4LTaDeKRAeFCriyOlAZJgXw78vy8KNWUo+TyFLcB+HtcKWE3mwMorAEWbgBxCogHexPVkL692vDK2rOKGRf6Lyd/IKsjxZOWkTTiJXXBaHpUcu/T7mtA+FA3YkOqD0CH5hGVnByldk3h9Bo8gWwhPd++Ek6KkqcmSn0sz3YlOW92mIvII/Pn2TB4ZMLp4eEGbYpiOBCyTlXxMiiHjSjrnTmzdGUyaHVkebF0h6Ik8RM5Ut2z9mS9dgRjk6H+HmXomrV++zRhmqYW4VrqgVonIu1JQ0MDpk2bhurqatTU1GD69Olobm4O/E57ezuuuOIKDB48GP369cP555+P7du3u67ZtGkTzjnnHFRWVmLYsGG45pprkMlkXNe8+OKLOOGEE1BWVobDDjsMDz30ULe27r33XowePRrl5eWoq6vD8uXLXZ+ffvrpMAzD9fPd735X7GFECJlJlHNkeQV7BmheHtmMoyB0EsIJACPDkMLLkOVzMUN7slmYllcjTAg0lCPFEaAUDNV2EowTNwdQhs8l9z5pXi/JUBAhRJlIGLCGSG8o7xNYbJiiecXKVFTPAQ0ypKznJzpmKCFWViYcwdgUfZ+8rGvv9+Acj9R9QAT/cmTzadOmYdWqVVi0aBGeeuopvPzyy5g5c2bgd66++mr87W9/w2OPPYaXXnoJW7duxVe+8hX782w2i3POOQednZ1YsmQJHn74YTz00EOYM2eOfc369etxzjnn4IwzzsDKlStx1VVX4dvf/jaeffZZ+5r58+dj9uzZ+PGPf4w333wTxx13HKZMmYIdO3a4+jNjxgxs27bN/rn11lsVPR11CAtlBcFJBJXhVHBCe4BYX6lpr3TNKw38nxBifDEooZsgWH9zGBEzjPivs35d2IIY9i4o3CJlGYaRao9RkymCDTZOX6MVKA03gDiekCiyfT0NKUOVR4rOAQziRFp6a0HGiawUSWHMEIy+EE8/EGI8SpLN/6XkD1avXo2FCxfi/vvvR11dHSZNmoR77rkHjz76KLZu3er5nb179+K3v/0tbr/9dnzuc5/DhAkT8OCDD2LJkiV47bXXAADPPfcc3n//ffzhD3/A+PHj8fnPfx433XQT7r33XnR2dgIA5s6dizFjxuC2227D2LFjMWvWLHz1q1/FHXfcYbd1++23Y8aMGbjssstw9NFHY+7cuaisrMQDDzzg6lNlZSVqa2vtn+rq6oiemDhkap45B3/gKSLEBc3PwBLvq+zGq0U8VPDURAndBKEzw3tG4ckDURKWaX1VIQZrc4KkT+wBbUhuEJTMKYAuXUFTC5cNdcp56EjeRGvtka3pSORIdc/ai24NIHEAcxoOfgwJHN9x53hOtPcpl2H4L6FsvnTpUtTU1ODEE0+0fzd58mQkEgksW7bM8zsrVqxAOp3G5MmT7d8dddRROOigg7B06VL7vuPGjcPw4cPta6ZMmYKmpiasWrXKvsZ5D+sa6x6dnZ1YsWKF65pEIoHJkyfb11h45JFHMGTIEBxzzDG4/vrr0dra6vs3d3R0oKmpyfWjA9bmK+LWdRIpKaq2MoRf5yQV6Wua7G2R956p8khxU3QpoZsgUL0a9M2YEO6VDX0QPTC+oSwFgrJhoBgOsrw6SuYUQJiLBA+dqoLT8jpShNCerAfDqq3pERpz6UiZadfvrPcgWiKGoxYO+K+JNMO4a44Ih2oVSOC4Kk+Ic63C0Bs9UqnwS8RQX1+PYcOGuRtLpTBo0CDU19f7fqe0tBQ1NTWu3w8fPtz+Tn19vcuIsj63Pgu6pqmpCW1tbdizZw+y2aznNWvWrLH//fWvfx0HH3wwRo4ciXfeeQc/+MEPsHbtWvzlL3/x7P8tt9yCn/70p56fRQkZF7S1mRlGSJZXSAYLJ0VXtK8UBXaAMOFZGWmyoQ/+WSWVSKAzm5PK2pOViOgkVFiXF3Wk9TVUYLWXGA5hc4TaRtiYCSvArKJSQRgomxllXcowvC3i/B9/b4tlNKXNtPoSMYQ5RPJIEbzM1muQJ5uLZ6VSim477xOlTIhusA2p6667Dj//+c8Dr1m9erVwh3oTnHyucePGYcSIETjzzDPx8ccf49BDD+12/fXXX4/Zs2fb/25qasKoUaMi76dMlXKnunTQ4A87BVO8C5QMrMC+ElJ0gXCSKyerSbwelPhkTyYMICsXqg3z8oRm7RE2OFljs/A+aR4YmVCWDv6SOq+XpEeKI44rapwQQkFhz8M0TVa6vLzmlUdor8toyuay3cnm0uObLrMCSPIVLZ6spJxF1GXCAHkPI8UDrRtsQ+r73/8+Lr300sBrDjnkENTW1nYjbmcyGTQ0NKC2ttbze7W1tejs7ERjY6PLK7V9+3b7O7W1td2y66ysPuc1xZl+27dvR3V1NSoqKpBMJpFMJj2v8esbANTV1QEAPvroI09DqqysDGVlZb7fjwoyp+0McfGmZu2FbbyGkSdWinGkLA8GcaPx8QyQTnga0onD2hZKHlBE4NZhnLBL/vhtNAwVdlHOG8VDp0rpncwZC5GDIInjSmcYUjwP+Szd4oOaM2RGkiKRNhK69zWZSALwkT+QLBFDyp4kcCJJKvKy3uEcx8MYzFUMPQhIvs8MIWSqG2yTbujQoTjqqKMCf0pLSzFx4kQ0NjZixYoV9ndfeOEF5HI52yApxoQJE1BSUoLFixfbv1u7di02bdqEiRMnAgAmTpyId99912WkLVq0CNXV1Tj66KPta5z3sK6x7lFaWooJEya4rsnlcli8eLF9jRdWrlwJABgxYgTlUWmDzKJImezONsIyhYJCewCkqs5Ty66EGUE0rRM5tz6VSO0FGSOOTuAO4x3RjU1ROQtlRh/FOyLLXyLxXdSMmVDpCiJnjBSmEd7Mwr3DYar0zg05UqHTgHFWYpR03dtfkFP2fYYVRw/jRJI8UtKizPJziGLAAyoOHL0vtBdZT8aOHYupU6dixowZWL58OV599VXMmjULF110EUaOHAkA2LJlC4466ijbwzRgwABMnz4ds2fPxj/+8Q+sWLECl112GSZOnIiTTz4ZAHDWWWfh6KOPxje+8Q28/fbbePbZZ3HDDTfgiiuusL1B3/3ud7Fu3Tpce+21WLNmDe677z786U9/wtVXX233b/bs2fjNb36Dhx9+GKtXr8bll1+OlpYWXHbZZQCAjz/+GDfddBNWrFiBDRs24Mknn8Qll1yCz372szj22GOjemxCsJXNRcjmhJMIEB7XphKHZTwD9HT54I2Gd/qSXbz5pyY1hrGa8BDF1Q/4FxQOAlnOIhk8ZigFllXVa6NwAMWz9lQlU3Cy9uT6GtiG4zOvvlqeYYAmfyDLqQniSHnJH1jXp2XHTOhcpMlZRDn2VMhQFAx42t+ruyB8lIiMbA7kM95mzZqFM888E4lEAueffz7uvvtu+/N0Oo21a9e6MuHuuOMO+9qOjg5MmTIF9913n/15MpnEU089hcsvvxwTJ05EVVUVvvnNb+LGG2+0rxkzZgyefvppXH311bjrrrtw4IEH4v7778eUKVPsay688ELs3LkTc+bMQX19PcaPH4+FCxfaBPTS0lI8//zzuPPOO9HS0oJRo0bh/PPPxw033BDlIxMCRfjOD5QwF0DZeOn36YBs2EpyoyHosuioX+gHOWOTGC4jyllQJAWAfF+tMAkVFE+S8/PQWns9fGK33pulCZQIOVQUg+pNpOpq0bw8gsYJgZwcptLf6QiZBR3AVBW5DRTk9Ky1J2fAsULXWe9nlMuZNJ00yb7ShFHDDqhUb7gk96wXeqQiNaQGDRqEefPm+X4+evTobiGB8vJy3Hvvvbj33nt9v3fwwQfjmWeeCWz79NNPx1tvvRV4zaxZszBr1izPz0aNGoWXXnop8Pu9BTJp6FRJAVv007e+Fy8DSya0F7rRhNYF5GSoyGVgiWidFIju4u2Gh4doXg2KsQkIvk9CbTmAYBjnwjcseTVlupcHyPe1lGlIsTlSIVl7FCNHPnRNfx7d+ukYY4GJLlbpnQhU2F0eKdOnREyEmZ759vzHN1UwWUu9VVVkc2VzsfcYUr2nJzGEISOM6Mzak2mDquQtpcLODX34LIAk8qaiCuXcosVAeCiL0i71GakoQp2/j0hYWY0HhkSMl9Z4IngFZA1Ldpjdz7BkhPaEy/vwQr9ehG2KMQaoNGj8PVLpXBrpnFtHqkRRtiA1dO01F6mCyfJZqeEe17AsXfbBSOB9mmbBQyeSyBMVYkOqD0CmbpaqUwRXlVnI6KPKH4S5oBlGgmxZCqHQngJCvipl88AsNUPScFDACcoT3fP/HyVhmVO/Lt+OgBGcoYWCwuU9KKFruXR5SgjZMIzAdUNV7czQvgYY7EHyB7rWgMLf53EPl8ilDkK+hEeKeTAS268K34k9UjGUQkaXg5yyGpq1xxOCFCJSE1KunW2Ehq0CxSbznwXVwAqCTGhPztikngqDN1KKh1G+5A83a8/rxO4MfUQZyqKHPgCxsCxFuwsIfne5nGn/jcHZYlab0Xpcg8Yy/RAnmShghTo9xnLS6JI/iIQjxT0o+I/vhBEsmGyHPyP0uIZl6VJCys77CHFAXWVoYo9UDIWQmfDUU1OomjIxtCdDHC2koNP66qf/QskwlDUS7LIUQll74uFPqlgdOXkgwNgM8ziEQUVox0lY1lE7keL1Em2HHB4ncmpkyn2EgZ4o4D8+CgRn2t8r3tcA+YNEQf6gOLRnZ+1FzJEK8kBTvTyqCPnUg0KQnEWoca3A457vT+8xX3pPT2IIQ06QU026PDW0p0KFPUyrSkVqv3NTFHFBdxLDNEFty4Q/qVpbMvXrKPcJgoqsPeeYp2gaRUnGlTUsKcYrEPzMqaEP+cwp+bAsNbSXkDSCg7wtQfIHsqToQkiRxpHyloigJo/IjW9OmSXn9U7YxYTJB11xLzYQe6RiKIbMiY26mdnudWVZe6xuAuBrVYVxpIJDe2o8UiJxfBk3vb3whoQ/VWgRAXKnSzIZlxAeSiaMQLkB6zVEIeroakdFmJ3skfIIBRE5NfIlkHjZoUFhWeohTsSOCiMnexlSlpeqJMSzHQa6d9jfCOInj6gPfxb306+dgto9cUyI6B4S6/npRmxI9QHIZOCwB79s1p4CjSSZsBVVl4VSAysIMqJxMt4CfsglOFQrK6MQBDJHKiDjrpOcKaTqxB7dhkauDhDkkcrRODWqtHzC+TD+/CZVcg9BSId4LJ1Ze6rJ5lzvcFDoOnJJAcLBL8wjRaktmL+PfOZ2byKaA7Eh1ScgtXiTB3/wYkYPS6iYROITlarLQqmBFQSq0GlQ22KcN+7mFOy1o3PnxENZdHKq1+Ld1U8Jrg4FFNFPZzsim2/B4yqhO8R8plEqmwOOvnoYCdxQvcz6BngnqVhhPK9ae6rCwWHe4aC/j8xhVWQYy8h7kOkdCg5fvUn6AIgNqT6BsLBbELiDX1aMTW4S0TaJkiDOAVGXhVIDKwiUE54f5Grt8TY4fzkLXjanlBFPbiMgPET04giH9qjeBSkOoIKDAplTEx3vyAmS/AH5EKeenOzJkSrK2ksLhvb4tUG9tLbCM4zzbYjPQ6o2k1V03q8dKr3DCsGLefrFD6hRonf1JoYQpDYzxfW9whZFuUnEdXP7L0yU+4TVwAqCzMlJRjySfoIN/tuoob1CtpCEbpJEEWpqaE++5A/XuyDSBu3dBR0UuLUzcyaECk7bGbShFRHC+W2ytTMD+xlCTrZ1pMxsN2VzVZIZModUqudPLioRHP50tROUYagg6zQMvbHOHhAbUn0Cch4MokcqtDYbz00fpUZSUDjBWpjCOCSAIr6LkEdK3MNI1gWz3qdHG9mcaRchlvVUBoGq5B2YtSeQpShkOCjwLoSBfVDwsNao2aJhxOEwqMjqpIb2ZDSvrHUp6UNOdnqkuskfJMUPUvm25Y0gvldLfM0AwjX6gjWveF5KkWxo6nzXjd7VmxhCkFGKpXMdgjd3HXWWOom8o2CCK22jAVTxXQQ8UjLJA9z34CWs51pYo+NIccNDXmOPIq4KKDAcyIKz8hxAGXHcgpYP7b353ScMXG6a18ZLnSPWM5URxvVb3zw5UobbIyVemoZKmwgP1VKTgWTVwmV0wVSJOweBOt91o3f1JoYQEhITnpp9Q+VIUVO3hVJfc8w2JDgkgBzfhcrd8WxXgSdMJtRFFbkEZMX1eGFlr02Ceup37g9S3LPQ0LVEGzmaF5OSCRf6TCXL+9jjLNSDEZ7a35NlpYI4UqrKroS9i6AxQ1WQL+wB4tw8QI0UiQz1IgzUfUY3YkOqDyAslT0IVC4MNWuPnrotLn9AbcOTvEkMJwGSYUiJ0J4KT5jM5kQVuQy7TxhUbKTU0Ifzc+6pnRfqFPdIdWZ4J3pvOQielw/gvzvTNNVkGCqSXglCGAfUlj8wC/IH3XSkRAn5RMM4aMxQ57Nc0kdw+NPVTkDRefb6LEE2FxE6jhK9qzcxhCCnO0T08gSEcJz1vchZe0IZhrzFW2ajARxE6gi5Sp7tBnBgwsD3MPpnwqUSwSKX+WskiMBEbSaKh5Gatedslwp3PT/iiV3EO0ycQ0HK0FQh2LBU9iA4r5cp71PwFonzcsIQpp4e7JHqGtuioT127Tl/40QmVB8GasKGs50g/qlMxCAMGaKHTjdiQ6oPQG5g0jbewHACUZvJeZ9IlbADNhqOoJsK3oGQsrkKDgHxPXguiETPSP4+CsaehGAhtb6Xy3BgbozushQRku/Z0hUBchCEUFBQKntwP52GlLjBTva2KODh+XmFAuUPpCUzVL7P6LinVL4bEDy+6UZf1x4gsa7GHqkYyqFC5FKmcChVmwmQK9VBTg8n8TIIRkJA6nYYCqnAejlSKorJcoxNqeQBdtjCazOm/b1Ow4H7PjMMw0HGM8Am30t6XEX5bbyDU1Boz+JZ0VLupQqdh5DNszkP+QPJ0J4KMU1u5p8M/49zcPLO2oteiiSWP4gRGVQYJ1T3s5c4nYg2kw5ycjrA6KN5pGS8ZzQyrne74psxN9QVxDsiEfIVLOBUAUoZng0gvoBb444imSHDV1QRuuZwAEVDZhwOnTXPgvpK5WeKhNhsOQif9xZUa09mbLPoDkElkJiZf6bJz24UyWSW4XNJJUdJCB1Hid7VmxhC0FG7iDKBDMJGI+VtYYcCxF3lgDjfhUPG9W5XnJtBLfkTtHiLhD+jDCsH9ZX69wLihoPt5YtwzOS/Y6V2SxiWGt4dtVC0dQ0gy6kRDwWFbby2IWV2D+2VyBgnAnQHGSqCKwuT+ZyoCUcATRdMNgM8CDKlt6JE7+pNDCHIZZfJu455Xh4FsXwJgivHNSzaV+cz0p+1xw0nBBibBG+aitCeTIkQ6t8LSISyOJIZUgcFFWFZxvMQHGecFPTgRAFiaE8ixB4WLg0S5HRqbaUj9NoFcTHtsRdmXDv6yl+v1HAi6fxMCY87MTlKN2JDqg9ASpfD5tQQT4WeJxH+RhOpCrti/o9U6EMgtCdH4JZPoRfbjAUyDK30cIn0d05oT/S5imw0Urw6CXkPlpHT9X5FQ0Gy812FNzwMYXQACtlcpG13gkII8T+AA5bO8dY8v/sEoWDAU8Z3kDdUfn0OA3UP0I3e1ZsYQpCq76WEU0PfaILCbmGghstUTPZ8O2IT3iloKRbak9+MVYg6UojyosaJaRY4JHSPVIAuGMNwYL9PRjhBBQeQWqtM1rAM2sCDwCEnB8136ruTKe9jz/cQQc50rqAjVVA2L3wnzQzVOq+n8+okQnsSRh/HOKEpmxM5UlJllGKPVAzFkBK5JKa+BhIiRbSZZDREyIVjAxYmhgdDdKMBxCa8DGGZLmeBrjYCSKMEb5o4z6ZwvQynQkcoS4yHxWuDI/oZrCNF9xbJvjvaM/c32DuZWXuAuDfRbyy7PFKmm2yuwiNVmkyEilwGyrUQpUhknhHnIKwiw9Aed7EgZ4zeBDXhBCrvyP9kGeXiDTA4JAFpy9RTv7Md0Y0mlQhXCvZCwTBmf5VRLT6A4EosSJu/jxxhGWB4z4I4b5EaffzMQH64jE5OpiR+0MI0chwpVR4MquEIyIStfDxSXrX2uowrt2SGWHif5LULODhRPcwyfRV7n17Z21x+psR+FRtSMVRDCYcgLI2ZoM1EO9FEL38QpJ7OIidr2Gi8oMIjJccj0+DlcXmk5D2MlBCq+PvkcEjkxgxAFzSU0WYCxMPsqjhjImKqXHHcsGQay2jKmtluhhRQWPe4WZhUKQBAXTJFwYgnd9PVLieU791XKueti5snpLUWh/ZiRISghTUM1CK3QZkzLA6JhEqxCv5PRiC0x91oZMrD5NsVf5/8+nXip2BAwmvnTA+XyNqj1nh0tiP6PnnjWyJBQcII5niHRT2fPM5YOCWAqmEHyGQYhmfteRlSsgkKstnBGcbYK9AmoluvSFIkEYqHUgWHdaN39SaGEETDCYCazBmOSJoKDokcp4a+wIluNJysJu920dVu9F47dc9IdIOjFEpV01dRIUAOGVeUA8gR/QwyglmhPcGN1/ZIcTx0EhpJzk2TX94n2EPnJJtnzazrd4CTJsBsl6MwT9IFi56vSNNJC6IE8EJ7QhwpO5ki9kjFUIyEjIXPVDbPeGTO6JnsdAI3SfOKVVcqOg+GF+Q8UjQjLkjLRSS0F2WmEC3dn/E+mSEFKu/M1QbbQ0ffzFRoMwF63p2SuoCOj1UnClgcqY5sR+F3TkMqgBsahDQj/EkJs1M8ruLvkxZiBUL6yiyYLVbyh75+60Tv6k0MIegslAoAxc2w6nsJpr46J51UbTbGiUZasFAwtCcnWkr1SHWF5CQLO+t4RhTDgbbRiIUhqZmQzjb4Hgx+SC6Id8QJQ3L7yjEsrefhVa6JapAZhiHh+QwmfTuNJvt3hjO0J/c+ZddEToUE4WfECJcFH8CIGYaCBxqAxz3Tid7VmxhCUCGKyNEpKa63x6rvJaguzannp3qjEVU2Fw/tibVrmqbWQqmAI6wsqu8jG/pghJlET8I8zpgcp0aWp8LJShUtRcQxLIPryKkxNoIQpm3kZUhZ8gf5vgmGgwUI3F5OL16YXczoYxUtDhIPzdDWPTlBTrlDalSIDak+ADVZezQPhlc7LA+G4MLEqecXJLzIU2UWy9ihar/4QdaAAyR1wTTUI1QVDhYKQwr2lbTRCL47nlc3SA6CHtoTDXWK1GZTVa6JnZEWMt89PVIeZHOuAcfRYgtKarGftYai3Jz1OxsggxM2TxKOfgoLrMaGVAzV0FEIOChzhkOsFF28MwLcJk/5A4aRI6tsLs6Rkjt9AwxdMGU8G7FQLUu2IEjzirHRiMofcMZ3lKKfNDmI6LzDYmFZf90hXjhTkKvkx5EqMqSSRtKV/CDsYSRq3jnbkK3EIBv+5Bi03tnbPI4UEK3RpxO9qzcxhCBXm402UYMGPye8IspTEckkCxTk1KCRJKq+K77BFa6XKXwrkkIvGk6QTg8XUB2PMpVdVjKDZxDKeTDEld45RkJ4RposwT4IYXPRyYfKt1P0767v8UvEiMhQ9AxfkccBDJqLNMNYRs5Cdm2NCr2rNzGEIKPLQSWOBinn6vQKyPIyVGUcBYFaBd0PakQdqR4pf4Iry8gRzoSTJeNGn+hAPWkDwRySIHBEP4M5UozxLah5VTDW5PoqQloX57d5t5FMJGHA6YEqNqz0ee2k65gK8hVFvKEyfXUa4HxupdzaGhViQ6oPQKZQqoqClSLV4EV5KrLhFSF+h2AWjLCyuShHilGaJmjMpIlCiYCD79BDhGURgVX+RsMIQyajH98U3SFZjacgUEs1udqQPNSIaqtRDmBuuYNij5RomJ3xt1mczgBtJsp6JaqT1snwDPpFFEQSXQDxtTUW5IyhHDIeKaFyD0UTlRfak3M/c06vXgtTpxC/Q5RsLsqRkg1/ym1wqozWIPDCZeGGA+s0LZg8QPLASI9vuTCXCDlZ1Cugq9Ze/j7RZaS5DKmiUJ9owolI6FrVXNShC1bcV06ii9OQYh84GNEPnehdvYkhBGuR4Cqbc04RAHzr7ekgJ3NCQaoWJlGhU1n3s2yaPmfxNs3u44bTf1Gjzy4PIkmu5oX2BA1UFjFe8HkIcQDlQnuiKuwcI4FWmy06flvB0Bb0SEnPRbk1UWxcMBM/hN5DEb2DkejinPJRJmXoRGxI9QEIL4iMUwTgX29PSGeH6TxjaZ0EESIZYUjR0juy7mf57Bv6uwS6v08Ro5WdhamorBAntKdjU5TNSpVWNmeE9kRDyGEil642CKn9UXpbCmH2AI+UQTGkxEJ7nPcpH/4U9DCykgf89gDHXkIQWNVRzkYneldvYghBSdkVRthCLmtPzCPFEbm0Fvh00AmPpO8iSHCVdD+LE5b5GxPQ/X2KLN6iHCll4SHK2BPmngmc2DVkeQVmpTKU3sU1wOTasA81rAxDMW8LlSPlFOPMf09wzAhkenoZQEJZmBHq3iV9DpfOvYS1DwiHlf9FPFINDQ2YNm0aqqurUVNTg+nTp6O5uTnwO+3t7bjiiiswePBg9OvXD+effz62b9/uumbTpk0455xzUFlZiWHDhuGaa65BJpNxXfPiiy/ihBNOQFlZGQ477DA89NBDrs9ffvllfPGLX8TIkSNhGAYWLFjQrS+maWLOnDkYMWIEKioqMHnyZHz44YdCzyJqiOsOFQYxjzhanLVHD+2lBBdvHrcp30ZQ2IpVmy3CRdQLhQ1fLJuK8owSDjJ6t/cpQOAWLTPC4uZ5Gg6csSdqoMpzSMLb4I/vIOOEV0tSzJMtYwTncqaDxB9daI/CrQwK7Ykbm/T3EGQAcYpQy75PmQQcp4ETluji6muEBzCdiKw306ZNw6pVq7Bo0SI89dRTePnllzFz5szA71x99dX429/+hsceewwvvfQStm7diq985Sv259lsFueccw46OzuxZMkSPPzww3jooYcwZ84c+5r169fjnHPOwRlnnIGVK1fiqquuwre//W08++yz9jUtLS047rjjcO+99/r25dZbb8Xdd9+NuXPnYtmyZaiqqsKUKVPQ3t4u8VSigXiWFz1dHvDP9BLjAwiGPhgLE+Dvgo62LAV9EfWCKCma5bUL8EhxOFKiEhE8j1RAVpOQAGV0Bqq4jpTIuFTEO+JKV2T4bXSbh47nQzKCJesCBq0bQYZUifAaQPd8qyLkW4cjUS+PTAIOZ30GnPxTwefaywyp7vr4CrB69WosXLgQr7/+Ok488UQAwD333IOzzz4bv/jFLzBy5Mhu39m7dy9++9vfYt68efjc5z4HAHjwwQcxduxYvPbaazj55JPx3HPP4f3338fzzz+P4cOHY/z48bjpppvwgx/8AD/5yU9QWlqKuXPnYsyYMbjtttsAAGPHjsU///lP3HHHHZgyZQoA4POf/zw+//nP+/bfNE3ceeeduOGGG3DuuecCAH73u99h+PDhWLBgAS666CKlz0sW0vFmQro8UFgUi8XpVOmQBPeVz8MCvCY8PwNLmOBKaMMLwhwpARc94MWR4hutbM6bQOhDNnkgqKZZELSIIjKeB0knjeJNFK17mQs3Tiz49dV5SCB5Qqy+inowAp5HcNaepIeRkaAQlDxAysKUlU2RkN7gGPCADOeNvsbpRCRm3dKlS1FTU2MbUQAwefJkJBIJLFu2zPM7K1asQDqdxuTJk+3fHXXUUTjooIOwdOlS+77jxo3D8OHD7WumTJmCpqYmrFq1yr7GeQ/rGuseFKxfvx719fWu+wwYMAB1dXWs++iCKNmccxIB/Ad/p1DWXnR9dRsJ7l2TleUlWBeQs4h6wfbARChyaRiG77vgcLxkPTAym7HzPryNRtR7Fp3xzRL9tD2WARwpTvKIcHiFc/jyz/KKklNDOeQFeqQC6nYGtssZlwHhT+t3sny0ILAkRHx00rght6TgGscJXetEJB6p+vp6DBs2zN1QKoVBgwahvr7e9zulpaWoqalx/X748OH2d+rr611GlPW59VnQNU1NTWhra0NFRQWp/857e/XFCx0dHejo6LD/3dTUFNqWCogKcnLdpL4cKQ0ndhGeCuAftoqSI8XZ3L0gHf5kvM+sg6tigSd/IGdsqtK8ilLDjKfCLqh3JJA5FRgKYnlco5ci6Xb46roHpQh5/j6ia1z4nAjK2vPzwoeBw20ihT8jrDLAERAO50jR1h5hTTdJb39UYK301113HQzDCPxZs2ZNVH3t9bjlllswYMAA+2fUqFFa2vWTJQgDhzQK+G/wrLCEoKSASOZUvm8+RkKUWXuMRdS7XblFhqpf5fcuRLL/2GrhAppXXmNGRNQxSgNVWDKDIfqpSkdKT2027znk7CeHVhCF152iIyXqxeTJWRQfUAt/K4sjJbi2yshZcA0cWYmX3qZszvJIff/738ell14aeM0hhxyC2tpa7Nixw/X7TCaDhoYG1NbWen6vtrYWnZ2daGxsdHmltm/fbn+ntrYWy5cvd33PyupzXlOc6bd9+3ZUV1eTvFHOe23fvh0jRoxw3Wf8+PG+37v++usxe/Zs+99NTU1ajCnhxZu54fsRPu3QXqQEbl7YKpUwkMmZ3YwRVWn3qvqqtF2mfpX/6ZL+jMTDytZGI7eJiqXQR2egypYV4hQCDpaDiE7zSiwZwYerSPVgSIZlg9qhlIgRL1os4ZHKOD1S0WWMisid+K4ZkmtPGDhcWZ1gGVJDhw7F0KFDQ6+bOHEiGhsbsWLFCkyYMAEA8MILLyCXy6Gurs7zOxMmTEBJSQkWL16M888/HwCwdu1abNq0CRMnTrTv+7Of/Qw7duywQ4eLFi1CdXU1jj76aPuaZ555xnXvRYsW2fegYMyYMaitrcXixYttw6mpqQnLli3D5Zdf7vu9srIylJWVkdtRBeegNE2TdMIDeBtmvh3v7CmWV0BaBJA+UTM504MjxciCEdauURPai1q/KvR0Gen75IRYvQ0Hbgq9DgNV9nlwN7Pi+c7xDIjWSeTMxbBQEJWfKeylJWjcUeQPolyv/MaM9YwSxPCnFZngCwjLSyyIhvbEvcP7cWiPirFjx2Lq1KmYMWMGli9fjldffRWzZs3CRRddZGfsbdmyBUcddZTtYRowYACmT5+O2bNn4x//+AdWrFiByy67DBMnTsTJJ58MADjrrLNw9NFH4xvf+AbefvttPPvss7jhhhtwxRVX2AbMd7/7Xaxbtw7XXnst1qxZg/vuuw9/+tOfcPXVV9v9a25uxsqVK7Fy5UoAeXL5ypUrsWnTJgB5j8ZVV12Fm2++GU8++STeffddXHLJJRg5ciTOO++8KB6ZFJKOhZQzLjnhFcD/xKOqbloQuKUBwid8hMRhydCecDiB+Yz8wy4C71NUqkFCjJGbQi9a1JVjoBY8dFzjmz8uAfd8d5Z8klGpDkNGaOMtOtAwvNiARIYhkyPVTZBT0nMiE5LjHPoABUK+HBFXRYYx532aptlrs/YiIZsDwCOPPIJZs2bhzDPPRCKRwPnnn4+7777b/jydTmPt2rVobW21f3fHHXfY13Z0dGDKlCm477777M+TySSeeuopXH755Zg4cSKqqqrwzW9+EzfeeKN9zZgxY/D000/j6quvxl133YUDDzwQ999/vy19AABvvPEGzjjjDPvfVjjum9/8pi3eee2116KlpQUzZ85EY2MjJk2ahIULF6K8vFz5s5KFu9xHDslEkvQ97kT1NU44oT3BBZHvPQt2l0epecXtq6p2ORmJgD/hU4TYL6xdw9iMc2b+tO1lEHFCWWw+l4C8h77yPoX57hzrNHFFuSQVWqak98ZrPVNqiEZWCZsc2jO8Q3teGZJB4PFGvd8Dp5xV/j5y4U+aeGj+v915lWr4tkHI5kxYr3+/Du1xMGjQIMybN8/389GjR8MsmhTl5eW49957A4UyDz744G6hu2KcfvrpeOuttwI/L267GIZh4MYbb3QZab0VQVlqQeBmeRU4UuLhsihJo05Yf1N3jxTfSIiyqKt3u6KkaDWnQlb4M0JPgd1Px9+TNU0kYPFWeFlNovw8XmHk6Me333x3GZaMrD1hfhtHZ0zSgxFlXUAa2Zx5qBHijfp4homhelmdNBpf0ccwZnKXROais8241l4M5UiKGlLMUiZ+J9gMw92aEo3ji0o1ODYXp2s4Wo+UHNlcNAuTS8T0Sx7gZDbKC6yKGw78FHpRo48/vnVwpAD3c+907KAcI0d8LjLGR5HXkx3aEw4hh/c1mGwuR0WQKR7NpQjI1jGVoTtwSj4F3ScIncyDk07EhlQfgHPRZA1M5mLmW/k7Q3dBy6ZcyyjnOl3DHJe7eEaaoCElGf6U9UixsniE6wLSn5G7LmB3D0xJgppCL7YZ8woKC274jDCOa7472hH30InORXmPVNTkZFvtP6hETICOVMEQFMsy5hUb9pY/kKUzhEGE7tBdSzD6vnJD+TrRu3oTQwjOAwtrYDJOTYCaRVGWwM2dqE5CMleXRd4jJXZqKs7K4rfLNYzFQ7WF90nupqtNDkcK8DYcoi5LIaQjJahKTys47eibl2HJLRwbYe1BP69ngSPFW3tEZSXIJWJ8BDmjDH+GJcZQs3+FZXBY0ht+hy/uXMy3xemrM4sxQdyzdCE2pPoAgsp9BEF0onY7OTFCe6I8FS6fy6u0Q6dmXRZRQqRfVha1XbachaORfOYX431KFgLmnNgB97gR5ZCIK5v3Di+PpZMGuN8dtzSRLJ+LZ2h7Z+2R5UwEx5m9wQvKH1h/o7hyv/iYSTOKQwNOuZboOJ2qlM2tIcrpa28tWAzEhlSfgcii6CxaLNNGR5oe+hAmUoueYB0LYEtnxu4naQMXDFsVvAtyHKl82yILDc9D43yfHZmcHf4sS4Vnf+o4sfsdFLgqx7Kld3qTF9PrQKKrcCyHUxOaLk9de+y5SO4msjnTPogEyh9E4JHiCf/6JMbk6PfI30eDx9VX84pnGIvsA9yDok70vh7FEIKIW5edteczUZs78gZKdXlJt+8UQ+QkAvBPsF59tfrZr5yWrCpdD0o4a0/UkGKe8q1nlO3+jACgX1n4cxJNHhDNMHSOm9Yuw7iqjCb3oSN5QFi5n7lpBnlcqR5mYfkDBqfGb81o68wCACpLae9OJAzpKoxMJZsXyx9Ihj9lsvba0/lnxH2f0XpcvT104geB6A6KOhEbUn0EMgOTnrLafaJmsjm0di2KFAPFOomYJtPoE+RzOTe0fe16Nl7Zk5NfKCsM4kWoHYZU1zPqV5YiZcLJloiR8Z40OfrKuYcOaQK2WniG58X0enctHbznYTUVpdK7nyJ54VATfvhy3Ye1ZhSupepIlSS9BTnTEY4Z5zzL9cD75NRc9TOMO7rGb1mEfC7ZJJ4o0ft6FEMIIqmvbC2XAC8PQJvwLqkGASI1l8/l6ZEqIy7ewtlzkvIHDqKwkJyFRPLAPrZxIujVUGD0WX3tT/QwiqaHpxmcN+FQEDN07TW+7XdHfh6Cqf0i8gdFz7yZaSSIhK2cXE5qiZhiZfOk5fkTLKMjI2dhPSP6+ObPRdM07esph1Q/j+u+9nRXX6MzjHtrnT0gNqT6DERO2+yU1WT306W1eJelaLwj6bCVBJHWOuH1py7eFh8gwgwsL/gtrKHtWnIW3OQBp9euw1oQecYJ33DgvU+vEEvBe0ZbvP0yyMLA0kkTNCw7Rce3cy5qME4AMSMhV+SBLhhSVO8w3+hzZukGeVdd8gdFob0S0fEtWPJH7lAjvgcANE+P83060cxcW0UONZx5qBuxIdVHIFLUU7TWXtYjXMY9iQC8Cc/nVHTf0JpFT+zM06gd6iQuKsWQzcKUKdPA9WrIcqS4YrBuj1Te6KuO8MSezZlCHim28S1ccLr7+OZ7BSKUP3BqXplehhS1r133EOTUBMlB0Mjm3IQTUY+U46DAfkYi4TJR7TH382hir63RJ0fpRGxI9RHYuhyccBnTK+DJqbGJ5rxTE8Bzl1un7SqmN8m5UOg6sTe38/rqBRFDqoV5yg/ajKnPSJQj1SmY6JDxIMazkwcYfbUI7QDtfYpypLjvrqB+79x4u7yJzPHNsRFyOdP2uJKyOn0yUEUPNVFkeQUrm4tmNsp7pPjPSIBHxtTW8xvf3HVDZG2N5Q9iRA6RSdTRlRVCJQh6ZQpZXgHuZAd4pzw+8dLfSKAaOELPNJO1N5p+peKGlMhCwzU2vTYnTgamaD8BoK3LQKF6GIO8Z9QwpEhdwJaO/BxJJQzSPBENdRYyEMW5adyNNyHgbWlNZ215DFJWZwj/h2v0s0LdRImF4Fp7gl7pDsuDzuONenKk2MYJgyfruJbHkXI/Dz5Him8Yt3fJ7JSV0MaMTsSGVB+BkAeDuXirIPwahmErM3P6KnricS9MPP6PyMJkbbwAPTvQCyIbMtfY9HpGtmHMHhO80AeXSOvFb+KGlUWMPquflaVJYhkaQS+mZQQTjW+v8SGaxSji9UwYQHkJL2zlJbPBDVtx5iLVOCWViGG06zxMUdZWv1A+P3nACiuTu1oIKZPV8L0NID4xPv9fsfUtNqRiRAQRjpS16cssvPvsUxNtQczfp2syMsKQLcwwjre3hff3yhgz5SUJqTRdkY2DmwmV9Ahb7OOGy2yOFLmbAPibvvdGwzT6BMI04sYpg0SbzdmnbbpHKiArNcJQULPD68kpQ5NvxyNRIMKwLHU+qBbkdB2mmB5Xr4Mff45EuGb4PI9mdgYt3yPFPWzoRGxI9RFInbaZukpubSZeaM91H6LRZ5ommpnii94eqehT+7knbf+2JTxSEpsTe0E0BE/sXSdhrjfJi4zL9TCKPFOu17Y4Sy2wjU6+FzNIA4z+TPnjm5v56udt4WftCaxvRGNNdYkYkcOUF/dI1CPF6asqr66ODEPLwyiaxBMlYkOqj0AkW0j0tO2dKUQf3Fyjr7WzwMuger5s70PWeQpm8rkE0uW5G4Rv2xKLIjc85JWFyT2h5kyQCyxbY4bXjhc/L3odqWamIeWXpRYEax6WJA0SgTvfjjU+PAxLCS9fGEQSKYLFQ6PTHRLxSJUYRTpSUu3SD1O2Zp1HZiM7eYCxB6gI5edyhYMuN2OUk2FoRRRkkniiQmxI9RGI8Xm4G29+uKQ9Tk3UyQ7wDRRrQaHyMgBVHilxL5/sZOdmYaazOVtdWMZDwyebOwwH4nMqGHxJknq6X1+5BNeUgBZRC/MULFInkev1Avz4iqKhoGjHdxAlgOth5m28NEOblrUnEi6jH6a86nqykwcEMmhFuYrOd9nSmSkcdDV4h6kRFJ2IDak+goSAB4N/2vbnqVA3M7/7UPtJ4WXk2/DSHRJL7c/mTLa3Rdb9zD0JW4sMIJC1l/XYjMmZX4X/p/aVG04AgusCRms4WKdg3obPaUeE++EVluPy24T4P528jdernc5MrhDaJXuk+EYw1UMbTDbnh/ZkjM2M1/vkCggLPCN+KL/7PMx7VLkadgKZ2zFHKkZUEMvAkSdfc080gPPkRJtEzQJeL6/nYXsXRDSvmAaNrCHFfZ9OhXlutXgZY1PII8XMnsy345+lxlZhF+C7UDfFhMPQpxvBfAHXYI5UhB5XZvjY3U5+vruNfnHNszBQyffqyeYSHsauseniETKNTZ4hJVbaxVkr1blmUA+6sokOvQ2xIdVHIDfhiYuZh/uZq2gL8IUAhRYmj3I2XIPMFaaheqSYXgE/cD2MMp4CLxIw1zgB+B4pkQQFq68yhHUOh0SUR+jsa2gbzEQKwHsuFjg10Smbi/BUir1JVj85ZGyZ9S1svgeTzcUzPXkHP7cRJCKj4uUtCgNfVqY7B1DEwywjvRGTzWNEBi6nxjRNPv/DY3PnZgoB3qrMQRAxTopPwaZpCith5+/DD0PKgB3+FCABB3mkuF4NgM5fEVp4i8aMGGE9+lNwImHAOpRTx7cKD0YmmyuUJmLzXcjNFowEEW9ittiDwX//LK6Sgqw96zmnGQ9JzNh0j02r7xUlSbaxyTFO2F5dDw4gl5sHiHnPWmKyeYyowQ1btKdzduFJKY4UU+skfx/eJOJyYYDuC1NHJmeT5Lmp7M77hEHVqYnrLRB6Rkl/Y5Nq5CQEnlFzOz+0V7zwFnhFfMJ61KdgbjvcpA+vNmQ8GGJZjAwiddFcFPGe2nQAgbJSYQYbRdk86szG4vdpr6sRZkMDYM93L6V6EXqHSO1EkbGnC7Eh1UfAPY00O3gKFUTJfe/CsVaWlxy/IwgqNjPn30vdsFxubOICLmLQeLfNC0OpILi2p3P284rScBDJ9Czuq0x4MMPwLlgaT1RhRXc71Hcn78GwNt7SVIIsoaCLp1LsTSoYGoxQpkBYluyRcpLNjSJDyqNmZxgKnn4RY9P9jFjZ0AKGlEyJL2tNFJHAEUke4EZQdCI2pPoIRI2TqtKky6sQhGK+gGmaQqE99sYrFPpwT9QWAQ+G8zK6VIMa9zN3MxbhZSSLas9Zi2rCoNfAc/WV6NnYJ3SCdfe1SShbVFyAslLA40rd9EVKXxT/Ldzi4V73oEBonBWH9hR4mCmgyhC4dKQSJUWf6ZGIKB7fInQGmWdEHTdJVzJFfr5zE1QAOe9wHNqLERm4OlIyk92aQO3pnD1pOROeq3ci45GyvA8iHgzDMITDNJyNxgvcTU7MQ+M2Np0bHDX7Jt9XXvKADDm1mEMiEsqMsn4hwN/Q5OZi98wp8j0kBGdlwlZcMU5ALLWfKowZVdaeyJjpZkgJPGeO1hZbEibRvVZq4WDElzOJQmC1JxAbUn0EXLeuinCZFU4wDF7og0scFdk0i4vcik5CNldJgB/hBSuqGOVmbL+HIhIwZ0EEHBmGVI+UEDnV6qvbMGZ5tQyRzVg87BalIGfxwYkr3ui8h4jIpVTWnj2fOV5PcT0nmVp7domYCDPh8u0We4f59+DOQ2c7Ip7dghEvwOdK8saeSD1KnYgNqT4CrlJsC7EyuhPdPBgC+iH5+/CyhexiwxLES1GhTFHxUFn5A65HSibkYqUx63pGIkaQ3UZXE1wFdkC2jFJ0HCkR7kd3jpTAxuvwDFMFZ9UcwGSycPkGjYyyudMoJovyKvAwymUqR+eRAjy8ZwLzmaslKFKPUidiQ6qPIMHe8HmKzYC/ccLZzNz3oYYh8yceFdo1XANHNEyjrNZelB6pbuEEfjYd4MioY240vFCAZVhaHimRbNH83+sUEwyDnLeI2gbf61XsTZThKgIAde8VCqkWZ+0JhPa4G28mm0NbmiZ0GuiREhCcFTGMu3HeJMjmPPV3kQxa77CyrGByEETqUepEbEj1EXA9Uq0Scfx0t1BQtMZJQflZwuiTDO1FGabxAjfs0qxAHVtEXDV/n/x/qR4YkcW7W9aeCGHdoYHDNlAZ0gTccLAzEYIKv/CKSM3L/H2i41b6hiEFBEipNoJbDiK4r85Cxd08UgJjpkXAg67CI8UtBNyZKdTnFPLsdpM/iI4j1ZuJ5kBsSPUZcAXOVCyIIl6B/H2YRGqRaup+CxPjHvn78LgZqgiRbI+UhIemeIPjcqREifEiRlAxn0sk9AHQ+ppxFIKOMiOpp7K8uM8jL+Irb7DL6cJRM0MLchClIfXfkomCQddN/kBEJ01EFyxZvLbKr3nUfgJykQkh7zAzeUDkmepEbEj1EegIJ/jxMoQ9UszUfpkSGiJxfICnX5MW3Hg922US8sVOwW4jUYQvkb8P1+iTz9qTKXycv0/4c+V4Nbza4ZeIkfDQSYTcAFpfXTpjjHFmEba7G30CkinkNSP/7igeOor8AUDXH5MKf1qhWqF6lMzDdFc/K0vp6umuvlpGn5CcCa+vrQIGvE70zl7FYEN48RbKtiv2CnC9PKKSAvxNM511L95coiLHSHAXY5XM2mNKRIhobaniSHGMzVzORLMEubrAIeGHsrgFlq1+libDvRpe7XAPNTKq9ELhFYNnSDk9GJVEEV/Ay0iQIPCTPRj0TLJ+Jf2QSqRQniz3JZtT287mTJubJcU/ldFaI3IVm4QjCj6JPAIZtHwOaO/jRwGxIdVnoEe7xu3BEPXycCe8iBJySdFmJuIqB3ieIauNslTCPoWLQpSMqSLkwtXA4hRYbu7MwHrtUhwpoUyhwv9zDGPu4p0Qnov8jbebpIDAxuu8TxBERHydfe2eQRudmCrHQ1dZUol7PncPypJl3bKPDcNAMmEgmzNJbVsHVEBOW0/Gq0X12glzXJPec1GGZxWG3s6R6p29isEGNxNOSRqzAGnYeR/K4m2aDg+GBHmzRYBD4roPYXFSWcKAW0JB5ARb7GEUJZtzjD5rgyhNJlDO8mq4s/ZEPDDcTVG0ADXneaSzOXQKhIOLQyMWJ4hjBIs+D9nMVzEiNVz3CAOXhzXpgEm+n6W6nhGlTIxodlmBTC8uZ8FNOBIJsebbKYw9Tnak+x6CZPOYIxUjSujIglCR9uq8T5awMLV2Zm0PhhiZsWjjjXBTFDXWZNsFxIRA/ep7RSlaKkISB9TU2gN4J+FWgZCbs40ow8EqlN4BXl+FDUufuSgiyMmdD9xDnhdEDgrcZ+Tn7Rc5PFI9/dZBmFNWyNlOJmu6wr2svjIFOVWV3ooKsSHVR8BPl+dP+BIFvAyAdxqxNpqEQS+uDKip75W/D90zZG3uKk5NSUZWS0cmi86sfHaZ7PukcKREvZjFBpCsN5TjgeHUHXS3QfBgdJFoS5nh4OIwjojIpbOvlHVDxIsNFOZQOpsXtRTJoNWRCenbNkPdXDS7zHcuCvBC2eLBEodLa80rL2GOX+EyYb2TIxUbUn0E3FBQIQtCoEyDHQoSIytyTpdOErVI/bdicnKUYRqRzLmwdmnGpiO7jFVs2EeLiNl/DkdKNNPT+Tycm7GoN5THkdLQhqCxVuyRYhuojA1NxcbbkSlk/nE4YbqMBC+kGOPbzhaUCH9mc2ZhfRYs7E1RYZfXAcyJc0+ZVBSVhnEUiA2pPgLrMBClLoeKzBKAx3cQLQLsp2wepXionSmkYLInDIZXo+tvqyjhpTH7kYCj9PIISyw4dKRaOrO2MKOo94zmLRI0HBjeRNENIln0dxTC7MwMWkYyhWxfMw4PBiC29nBrXqo41HBC1/K8upy0vhNAEy4Vra3pNNgKpZqilUzp7WTz2JDqI+B6pJRypNgTMd9XSjhBlHNQvPCKpJgD3TesIKiM43M8UvuEeRlF4U8dPBth0c9CG9Y9kgkD5SW8JYwzT8QNB7rHVTRc5nweLsJvhIkfsn11Ggn9ylKszD9btdskrhuCBzAv2IWLKVmpCoxN6x6lqQSLsO58njS+omhEwRna4xcsBvhFi1Um8kSB3tmrGGxwOVIihkVPZO3JElwzWTOvXaSh1p7oRuPZbpGSd2C7nfKeJJe+k+AzipYjVcjac96DE+7N3yf/X1qYRtCw7OpSpOFDh8ilM7QrbASTjAS+PpKrjZwpLCnhEg81TSQQ/N5FOZFBbfPWAFFenSlUZ895D+s+YRAN7Tn7ahnwovOZnmH4L0o2b2howLRp01BdXY2amhpMnz4dzc3Ngd9pb2/HFVdcgcGDB6Nfv344//zzsX37dtc1mzZtwjnnnIPKykoMGzYM11xzDTKZjOuaF198ESeccALKyspw2GGH4aGHHnJ9/vLLL+OLX/wiRo4cCcMwsGDBgm59ufTSS2EYhutn6tSpQs9CBziTPV/qoYtIK8hTME1TXkeKc7KUaMOl7RIhR0pVwWJnuxwvj7jeUQ6t6UJ2JLcINaeMjnCmp8M4EeVZATw9ohZhw4HehugG4RwflvRBGaEcSvf7dHmHCUawiP5Tvo3u5GRRg8+6TxgKoT1eX70gsgZwyeZOw4IjJuq+B/MZKaA7CL9Pg/5MgX9hsvm0adOwatUqLFq0CE899RRefvllzJw5M/A7V199Nf72t//f3rnHR1Gd//8zu8luLiQbkpBsltwDkiAXIUCIVyApJNKKBS0gVrCABcEb1KJtFS+/Fiut/Co/RL8VQStStV/UCrUYLolFEy6BgNxSLpEAuUHiZnPbZLN7fn8sO9klIdk5M7sb4vN+vfJ6wczZmefMmZnzzHM7n+Pjjz9GQUEBKioqMH36dHG/1WrF1KlT0dbWhm+++QbvvvsuNm3ahOeff15sU1ZWhqlTp2LixIkoKSnBk08+iQULFmDHjh1im6amJowcORLr1q3rVp6cnBxUVlaKf1u2bOG8Gp5HSlwGd0kBp8rQre02rnW37MfhCcaVeo6OyczxwvBTCdBKnGh4lD6pE03X55UwwSmSfWMRt0m9RjwTjWR3sJMFhjfAFZCWIi433sWTFgx1F8oJj2Kp4ohXlC6rs5Igr3YR4IOPGtG67X68Iu/C37KUTYmV6jssu/x1pOTGWfWVGCmPSHXy5En8+9//xoEDBzBmzBgAwNq1a3H33XfjT3/6EwwGQ6ff1NfXY8OGDfjggw8wadIkAMDGjRuRlpaGoqIijB8/Hl9++SVOnDiBnTt3Ijo6GrfccgtefvllrFixAi+88AI0Gg3efPNNJCUl4c9//jMAIC0tDXv37sWaNWswZcoUAEBubi5yc3N77IdWq4Ver1fqsniUjsq47j/skksKOK2EbmqxiP+WPim6H3fEm9btEnPgFHgq1RXkDcuQ7PNyL8jcoVQ4Wxelu8vcV05MCriD5dQI4qoLxh0YLyE4mTNd3mK1cSvS9uNIsJ5xrAkIuH7kyVUcAalKn3IfNZ5076u7+PCTY7WTElspJyaSN8GGe9HiXqpIecQiVVhYiLCwMFGJAoDs7GyoVCrs27evy98UFxfDYrEgOztb3Jaamor4+HgUFhaKxx0+fDiio6PFNlOmTIHJZMLx48fFNs7HcLRxHEMK+fn5iIqKwpAhQ7B48WLU1tZ22761tRUmk8nlz1vwmp95SgoAwPfN/O4EKSnX8gNc+V9MgHcCh7s+r/sxUh0uF6lxGSrxHLxVzQFp46lEIc0GjnX2rj2OpMBhTiXHnevRzKmcuGROyRk7KddD7sRrZdyxS7zxP0pk7flLmPR51rwErhMjJVF2R6V6wL1YWfkxUh3lD3iz9jy5BJY38YgiVVVVhaioKJdtfn5+CA8PR1VV1XV/o9FoEBYW5rI9Ojpa/E1VVZWLEuXY79jXXRuTyYSWlha3+5CTk4P33nsPu3btwh//+EcUFBQgNzcXVqv1ur9ZtWoVdDqd+BcXF+f2+eQiqWJzG19chtpFkWoD4A2rgNzq0nK/2DksQ4qmXHvuvF1lCnG5y6RYYBTI2pPjypLynMitI+WOW5b3/vZzspLICaz2hoXOJWuP0y2rUglwfPNJKUOg5EeNlCVi+LP25L2veOqCyXHL8Srx0mOk+lCw+TPPPNMpAPvav1OnTnlKVq8ya9Ys3HPPPRg+fDjuvfdebNu2DQcOHEB+fv51f/Pss8+ivr5e/Ltw4YLX5PVTS3+AJAfROlmvjM18/nVAYkFO3vIHTll7clxBXG4aBcsfeLK+j7N5XQl3mVsWqVa5lc1t3O5ewPk5cWdS9HwMoFg9XVaMlJxn0fMxY11l7fHELrk7+boUbPXyEjFiQU4FqoXLsTB68ho5vzdMnIqxlNpcbe22jpUbeulae5KkWr58OebNm9dtm+TkZOj1etTU1Lhsb29vR11d3XVjjvR6Pdra2mA0Gl2sUtXV1eJv9Ho99u/f7/I7R1afc5trM/2qq6sRGhqKwMDAHvvYXb8iIyNx5swZZGVlddlGq9VCq9Vyn0MO3nBBqVQCVIK9lovxqkWK6ytYgqmcN3jTNauJX8HhCRxWonYNT8q1nCrfSrjL3Ct/wJva3ZEZKEtxkPAlzJPZCkhzyypRR4o3XR6QWieN71n0V3cR/8OpJNjrZnV/Xc2WjurpylQ2v7rEjSdrjzl/+MmwDrv7vmpus4rXSPJKBoKzrJwxj5KSozqyrqU+i95CUu8HDBiAAQMG9NguMzMTRqMRxcXFSE9PBwDs3r0bNpsNGRkZXf4mPT0d/v7+2LVrF2bMmAEAKC0tRXl5OTIzM8Xj/v73v0dNTY3oOszLy0NoaCiGDh0qtvnXv/7lcuy8vDzxGLxcvHgRtbW1iImJkXUcT8Fj0uVTLFRos9rEGCk57hVpgdSc8T/O5mdZE41nr+u1SFq/Tom4DDkTnJR7T4lqygqMp2cDhzmeRanp8k4JG3KVE8DDdbW6TJfnUxJa0fMz4bB6CoL0dRK7PC9X9XcF6khxZWG6975yyKlWCZISjgBlrGc8z4jU9Si9iUekSktLQ05ODhYuXIj9+/fj66+/xtKlSzFr1iwxY+/SpUtITU0VLUw6nQ7z58/HsmXLsGfPHhQXF+Phhx9GZmYmxo8fDwCYPHkyhg4dip///Oc4cuQIduzYgd/97ndYsmSJaAlatGgRzp07h1//+tc4deoU3njjDXz00Ud46qmnRPkaGxtRUlKCkpISAPaSCSUlJSgvLxf3P/300ygqKsJ3332HXbt2Ydq0aRg0aJCY+dfbkBb7YTc/B3GYSR0vlTcLzgIA9KEB0o/hhZICzqbjJhlmfr7sOSUsUu7XZpI/wdnkxbxJKB4qN8C13cZgbOFbtd5+HPer6vPGZUirVSWzxIKVP13e+TjS6mrxK+yyXHtuPouiS1ZiMk2P5/Xos9hFiQgPjqdzVXPpWbpX728n96DUZ9HxjDA3KtXzuti9icck27x5M5YuXYqsrCyoVCrMmDEDr7/+urjfYrGgtLQUzc3N4rY1a9aIbVtbWzFlyhS88cYb4n61Wo1t27Zh8eLFyMzMRHBwMObOnYuXXnpJbJOUlITt27fjqaeewl/+8hfExsbi7bffdlGADh48iIkTJ4r/X7ZsGQBg7ty52LRpE9RqNY4ePYp3330XRqMRBoMBkydPxssvv+wz111P8AWN8r/M6lssSIoMxuNZg7mP4cl4LsfkbrbY8PbeMgCetUi1W20wW2zc57kWScom50TqeJm1tdvw4YGLAIAh+lBJxwDcH0+zxdoR6yD1C/bqeFYYW3Ciwp4NOzg6RKqobssqJy5DmtVL7tJFjDto2Pk4Pcna2u40dpyyupRq4FLY3VNQlVxnD3AN7O8JRWq6ycoydi/2SCnlmzd5wKXmVQ+V6nnnAG/iMUUqPDwcH3zwwXX3JyYmdlqhOiAgAOvWreu2UGZCQkIn1921TJgwAYcPH+52f3erYwcGBroU8LwRUHthoVQA6B+kQYO5HbnD9Hj1vhHyAlwl1LySuhhrRLAWMboAVNabUX/VgpEYGSxRUulfwYAyrj0VjyWMe2kX4EpjKxIjgjBzjPRMU8dLsSeXi0NOQZCunDhe3jUNrQCA2wZFICMpXKqobsdmOO47QI6bxpOuIPvkXlVvRm2TPR6VSzlxs/Cry/0t0V3WdSkSGUpfD5ahBgUXDwfct0ozxmTFn9rPYUMj5/p1gNMz3cOtJyvz9eoz1GBu564L51yT0Gpj6M67yFuU2Zv0XskISXhj8VEAWP/gaFz6vgU/GhrNbTaXFHfEWeRS46fC7uUTUHalCcYWu9tqXCLHxOu0xlu3crZ1+PGl1tXq+rw87k/+2jwA8NupQ7lkd7dgofgVrJG2YK39HB3tBQH47d1Due4/dxVjxzXV+qlES4jUc7iR6CkG0vIWNGxobQdagcSIIEwc0nP86rWo3FROHO+MAH+e62Fvv/fMFbS22y8Kj3XB3UQBxS1Sbmbumi02OETjdX+eu9yE72qbAAAxOulhE+5apDpccvwB7f8ovgiLlSEuPFByiIfzu6fnj9TeXUMKIEWqz9DxknHDysNZRwoAbjbocLNBJ/l3zrirJDDmtJAuh6yBGjWGGqS7qpxxd1KUEwDd3Xk9WTPH+avw9kGRyE6L6qb19XHXysO7UjzgukTI/emx3OPqrrVIzmrzUixSvHFHBl0g1CoBQf5qPJY1CHNvTYTWT7py4n5MDf/1iArRuhwj0F+NQQP6ST6OVCXB2xYpOUHujr6drmkEAExKjcLwgdLfs5JjpGRYva402q3Dj04YJOvDyN3A+N5aQwogRarPwJON5Ksb09mC8eGBcvzr2yqsvm8Eoq75qnFZE1Chr0upuDspKu3H93PTRO/iTpB4jQL81AjWqGFut+G5H/NZeAD3LYxyspEck2KgvxrLJw+R/HsHKjczDOU8I+66ZZ3jsKS6LfS6ABQ8PQEhAf7QBfIvg+K261qGYjkxNQpv/Twd7VaG6FAtUgb0Q/9gjeTjOBR2d13Iyn3UuGdxFZVijiB3ZwtNgL8KL95zsyyLq7uKsZwEHAAw6AIwY3Ss5GNIWReQLFKE1xBfMh4ONlcCx4NYVW/Gyn8eh9liw8vbT2Lt7FEu7XjXBFQS92Ok+GM/uj9v95pUa7sNlqtuGamTvsZPhffm28uRDNFLD9x24OxyKT5fhzM1jbgvPc7lqxMALl/9guV5IabFhOB3U9Mw1BCKaI5MUQfuWs8aZVRSdtcqICcOCwBi+wdJ/s21SP9Q4LNgTLlZ/pql7sZIKa1I+Ys1nnqwYioQJA4Aj2cNRlw439hKVaTkLJsFAIsnpHCFAzgq1TPW8zuuw4PyAww2J7yLlIU1fW0qdTzsp6oaxG2fH6nAgxnxGJcUjnV7zuCfRyoQd3WiCOZI0VWKaydFxhh2nqzB1kMXMWtcPO66yR6XouRq84DrhF9e24yC05dx9zA9Ivq5Zo26TMYcwZjpCf3lCYqO8TSZLXh44wGYzO3IO1GNv8wa5XKPbd5nLy8yKl76OQVBwII7khWQ1b3ML3mZre49i3LisJTCeeIt+O9lqATgjsGdY60aOVcYUBJ3FVSlY6SkxtXxTPiOj4PBUf2w4Hb++1xqvCJPspBjHKJCtLifIznF+TgWKyPXHtF7kFT+gHOhVKW41lIxOj4Mh8qNWPnP4xibGI6/FZ0HAPy32h4vwBMQqRSOF1NtYxv+eaQCG/aW4cgFIwBg16kabF6QgVFxYfjimH2tR6VkdbigahpaMX39N7jS2IpV/zqJn2cm4Be3JSE6NACMMXx5wl7FP0ij7nRdvYXj3vvyeLX40tt5sgb3v1mIDfPGIEYXiKJztdhfVgeNWoWFCihEcmW12hgu1DVDELq27MgrWuumRUqGu0wpHPdMyQUjXtx2AgDw0S8zMfaaxAwlq/bzIlVBVUpWyQocx3kzksKxcd5YjIwLk5WsIsrKGIzNbQjwVyOgC2t+Zb193Vke197tgyPx4cELeO7HQ7s8truorypS7iY6kGuP8Djuxn4Arr58X+A84d+aEoF1D4zGhD/l41RVA05VNUAQgCezboKVMRy/VI+cYfLdArw4LEPbv63E9m8rAdjdjMkDgnG8woT5mw5gTGI4dp+qgVolYM74eGXOe3XSqKw3A7DHTTS3WfFWwTn8z1fncEtcGDRqFfaV1QFQxrLEiyNo3TGB3Z8eiz2lNThRacJ96wvx/oIMrN19GgAwc2wc9BzZSIrJevXe23a0En/89ylYbQzTbhmIBXckocbUiv3f1cFfrYLpaskMXlcWYK+btfXQRfy3uhEJEUFIjgxGRD8NgrV+CAvU+DxW0VnWT0sqxG3LPirBF0/ciSB/NT4/WoHSqgaUXrUe9yaLVG1jK97IP4tvL9XjDz8djkFR9gB2OWvVdXneq9ZCi5XBYrVBcNrmjJwPVEEQMDGVL9nDGUd8XtnlJjy+5TDUKgG/npKKmWM7XO01DWbsPGn/ALt9UKTkc4xPjsCB32bLltX+jrO5HfNGFinC40hZu8jXBc6cgxWXTx6C/sEa/GryTXjus+PwUwlYM/MW/GSkwSeyXYvj5SwIQJo+FHcNGYD5tychWOOHOW8X4VC5EbtP1UCjVuH12aMwKTVakfM6K5sDwwKx9dFbcexSPdbnn8XB89/jcLkRgD3O6bGJg/DIXb6z8jgHjgb6q/G7Hw/F41mDMfed/Th3pQnT/t9emMzt8FcLWDQhxWdyAh33XslVqyIAfHL4Ej45fKnL9lJrJgEdz+IXx6pES+W1CEJHNltvUE4Au7IeHqTBhboWrPjHUdQ1taHwXK1L+7Ag31mHHUpCtcmM174sxYa9ZWL8zOL3i/HZ0ttw6fsW7Dhuv+aGMP61VZ1xXKPN+85jw95z8FOpcPtge5brj4bqEX41cP5Cnb24tC8tJw5ZN+wtExXK33zyLT48UI71D6bDEBaIzUXlsFgZRseHYWRcmM9kddx6be02fHm8CmkxoV3GhvWGD46e6L2SEZJwjnX4R/FF/K3oPMYl9sePRxgwIlbnEmPka1PpUEMogjVq5AyLES0pczISEKTxw+DofhgRG+YTubpi8tBoFDw9AWFBmk7ZURvmjsXsvxbhQl0z3ngwXYyXUoKoUPsk2z/IH+/NH4fo0ABEhwYgKy0a1SYz8k5Uo7K+Bfenx3EVGlUSZ6Vv+uiB0AXaM8k+WpSJhzbsx4lKeyXy+9JjMVChyY0Xh9tErRLwbG4qxiWF4/Vdp7HrVA0SwoMwLikc9S0W7Cm9jLZ2G27iqJ6ucbJWRPbT4kdDo3DJaEbZlUaYWtrR1NqOdhtDtckefB8d6rvVEpwDhxfdlYLM5AjM+muRi/X13lEGtFrsloOHMhN8JaqoJDyz9Vtx2/CBOlSZzDhd04hn/vdbHK+oR3ObFZnJEchRIMAdsI8h0GHpslityDtRjbwT1fjtJ8dw++BINLW248B339vbh/hyPO3X6JLR7rp7ICMen5dU4MjFeix87yA+WDAem/fZQyd+cXuSz+QEOqx6z2z9FsXnv4dGrcLDtydi0Z0paGxtR5XJDLVKwOUGR5IKBZsTHsbxkqlvseBXHx8BABy5YMRf/1MGf7WAAD81tP5q0UUE+E7Dj9EFomTlZJevYZVKwIx06Wm0nkYQBCREdK2o9A/WYNtjt6O13ab4tUwZ0A9bFo5HYmQQYnSuykd0aAAeHO+7Ce1anMdx7q2J4r8j+2mx5ZHxWPS3YpyqMuHRCYN8IJ0rPxsTh9rGNsy9NRHjrlZGf3vuWLRbbS7umgazBecuNyEtRnq9qqy0aPx0VB2GD9Rh9rh4BF5j1WKM4XJjK45dqse5y02YpIBLhxfH2Bl0AfjlnSkI1KixdOIgrN19BuOSwrH6vhHXvf+9jXNtplviwvDIncnIHaZH0bk6zHm7CP88YndP6kMDsPaBUYoF8D+QEY+wIH/0D9JgiD4EJrMFu0/WYMeJKhy7ZEJ+6WUAdgX6vjGxWP6jmxQ5Lw/O1uFUfQh+f+8wLL4rBfeu+xrHK0yYtm4vrjS2IUYXoEgmpRwcSl/xebsC2ma14a2Cc3ir4FyX7amyOeFxrg00fvi2RFxuaMWukzVosVhhsbaLazgBQGS/zhYWb9JbV/GWip/acxlXmSkRHjmu0oRf/WK/bVBEJwuOLtAfHyzMgI11vkd9wbCBOqybM7rT9mvHMCTAn9vtMSBEizUzb7nufkEQEBUSgEmpAZiUynUKxZiUGoU9pTX4P/cOExW+5ZOHYNa4eMSEBkgutOhJnsy+Can6EPx4hMFlbDJTIvBU9k34c95/4a8W8MaDo0UrkhIEa/06ZafdbNDhsazBOHu5EduPVsLGGGaNjfdp/B/Q4VYGgIV3JEMQBMSFB2HdnNGY8/Y+fFdrdz8+lJno83ewQ4lXqwSsnT0KWj8Vfr/9JM5daYLGT4UYXQCsNgZTiwX9gzU+jQPtCVKk+gjhwRoEa9QQBHuM0Y+G2mN1zBYr6praYLZY0dpug9lihdliw6Cofj5/kIi+Qe4wPVbfNwJZaV3HhwmCAHXvmY8JJyamRmFv6qRO233tgu2K9IT+151Ml0wchMgQe7HP0RzlNXhJGdCPa+F2T+H4WIkK0brEmY5PjsBzU9PwwucnEOivxuxx/GULlCIpMhg1Da34vzNvwd3DYwAAE4dEwWS2QBfo77OSNzyQItVHCNL4Yefyu6D1U4vBjwAQ4K9WLOiSILrCX62SVU+GIOSiUgmYPU6ZjNkbmfAg+7t/7q2JncoozL01Ef2DNYgODUBYkPTK8krzzryxMDZbXKx4KpXQK2STisBYD7mHBDcmkwk6nQ719fUIDZW35htBEARBdMfF75vx9ZkrmDE61mdFXvsKUuZvskgRBEEQRB8gtn8QZo4ly5y3IZWVIAiCIAiCE1KkCIIgCIIgOCFFiiAIgiAIghNSpAiCIAiCIDghRYogCIIgCIITUqQIgiAIgiA4IUWKIAiCIAiCE1KkCIIgCIIgOCFFiiAIgiAIghNSpAiCIAiCIDghRYogCIIgCIITUqQIgiAIgiA4IUWKIAiCIAiCEz9fC9CXYYwBAEwmk48lIQiCIAjCXRzztmMe7w5SpDxIQ0MDACAuLs7HkhAEQRAEIZWGhgbodLpu2wjMHXWL4MJms6GiogIhISEQBEHRY5tMJsTFxeHChQsIDQ1V9Ni9Heo79Z36/sOB+k5990XfGWNoaGiAwWCAStV9FBRZpDyISqVCbGysR88RGhr6g3vAHFDfqe8/NKjv1PcfGr7se0+WKAcUbE4QBEEQBMEJKVIEQRAEQRCckCJ1g6LVarFy5UpotVpfi+J1qO/U9x8a1Hfq+w+NG6nvFGxOEARBEATBCVmkCIIgCIIgOCFFiiAIgiAIghNSpAiCIAiCIDghRYogCIIgCIITUqRuQNatW4fExEQEBAQgIyMD+/fv97VIirNq1SqMHTsWISEhiIqKwr333ovS0lKXNhMmTIAgCC5/ixYt8pHEyvHCCy906ldqaqq432w2Y8mSJYiIiEC/fv0wY8YMVFdX+1Bi5UhMTOzUd0EQsGTJEgB9a8y/+uor/OQnP4HBYIAgCPj0009d9jPG8PzzzyMmJgaBgYHIzs7G6dOnXdrU1dVhzpw5CA0NRVhYGObPn4/GxkYv9oKP7vpusViwYsUKDB8+HMHBwTAYDHjooYdQUVHhcoyu7pVXXnnFyz2RTk/jPm/evE79ysnJcWnTF8cdQJfPviAIWL16tdimN447KVI3GB9++CGWLVuGlStX4tChQxg5ciSmTJmCmpoaX4umKAUFBViyZAmKioqQl5cHi8WCyZMno6mpyaXdwoULUVlZKf69+uqrPpJYWW6++WaXfu3du1fc99RTT+Hzzz/Hxx9/jIKCAlRUVGD69Ok+lFY5Dhw44NLvvLw8AMD9998vtukrY97U1ISRI0di3bp1Xe5/9dVX8frrr+PNN9/Evn37EBwcjClTpsBsNott5syZg+PHjyMvLw/btm3DV199hUceecRbXeCmu743Nzfj0KFDeO6553Do0CFs3boVpaWluOeeezq1femll1zuhccee8wb4suip3EHgJycHJd+bdmyxWV/Xxx3AC59rqysxDvvvANBEDBjxgyXdr1u3BlxQzFu3Di2ZMkS8f9Wq5UZDAa2atUqH0rleWpqahgAVlBQIG6766672BNPPOE7oTzEypUr2ciRI7vcZzQamb+/P/v444/FbSdPnmQAWGFhoZck9B5PPPEES0lJYTabjTHWd8ccAPvkk0/E/9tsNqbX69nq1avFbUajkWm1WrZlyxbGGGMnTpxgANiBAwfENl988QUTBIFdunTJa7LL5dq+d8X+/fsZAHb+/HlxW0JCAluzZo1nhfMwXfV97ty5bNq0adf9zQ9p3KdNm8YmTZrksq03jjtZpG4g2traUFxcjOzsbHGbSqVCdnY2CgsLfSiZ56mvrwcAhIeHu2zfvHkzIiMjMWzYMDz77LNobm72hXiKc/r0aRgMBiQnJ2POnDkoLy8HABQXF8NisbjcA6mpqYiPj+9z90BbWxvef/99/OIXv3BZ9LuvjrkzZWVlqKqqchlnnU6HjIwMcZwLCwsRFhaGMWPGiG2ys7OhUqmwb98+r8vsSerr6yEIAsLCwly2v/LKK4iIiMCoUaOwevVqtLe3+0ZAhcnPz0dUVBSGDBmCxYsXo7a2Vtz3Qxn36upqbN++HfPnz++0r7eNOy1afANx5coVWK1WREdHu2yPjo7GqVOnfCSV57HZbHjyySdx2223YdiwYeL2Bx54AAkJCTAYDDh69ChWrFiB0tJSbN261YfSyicjIwObNm3CkCFDUFlZiRdffBF33HEHjh07hqqqKmg0mk4TSnR0NKqqqnwjsIf49NNPYTQaMW/ePHFbXx3za3GMZVfPumNfVVUVoqKiXPb7+fkhPDy8T90LZrMZK1aswOzZs10Wr3388ccxevRohIeH45tvvsGzzz6LyspKvPbaaz6UVj45OTmYPn06kpKScPbsWfzmN79Bbm4uCgsLoVarfzDj/u677yIkJKRT2EJvHHdSpIhez5IlS3Ds2DGXOCEALjEBw4cPR0xMDLKysnD27FmkpKR4W0zFyM3NFf89YsQIZGRkICEhAR999BECAwN9KJl32bBhA3Jzc2EwGMRtfXXMia6xWCz42c9+BsYY1q9f77Jv2bJl4r9HjBgBjUaDX/7yl1i1atUNsazI9Zg1a5b47+HDh2PEiBFISUlBfn4+srKyfCiZd3nnnXcwZ84cBAQEuGzvjeNOrr0biMjISKjV6k4ZWtXV1dDr9T6SyrMsXboU27Ztw549exAbG9tt24yMDADAmTNnvCGa1wgLC8NNN92EM2fOQK/Xo62tDUaj0aVNX7sHzp8/j507d2LBggXdtuurY+4Yy+6edb1e3ynJpL29HXV1dX3iXnAoUefPn0deXp6LNaorMjIy0N7eju+++847AnqJ5ORkREZGivd4Xx93APjPf/6D0tLSHp9/oHeMOylSNxAajQbp6enYtWuXuM1ms2HXrl3IzMz0oWTKwxjD0qVL8cknn2D37t1ISkrq8TclJSUAgJiYGA9L510aGxtx9uxZxMTEID09Hf7+/i73QGlpKcrLy/vUPbBx40ZERUVh6tSp3bbrq2OelJQEvV7vMs4mkwn79u0TxzkzMxNGoxHFxcVim927d8Nms4kK5o2KQ4k6ffo0du7ciYiIiB5/U1JSApVK1cntdaNz8eJF1NbWivd4Xx53Bxs2bEB6ejpGjhzZY9teMe6+jnYnpPH3v/+dabVatmnTJnbixAn2yCOPsLCwMFZVVeVr0RRl8eLFTKfTsfz8fFZZWSn+NTc3M8YYO3PmDHvppZfYwYMHWVlZGfvss89YcnIyu/POO30suXyWL1/O8vPzWVlZGfv6669ZdnY2i4yMZDU1NYwxxhYtWsTi4+PZ7t272cGDB1lmZibLzMz0sdTKYbVaWXx8PFuxYoXL9r425g0NDezw4cPs8OHDDAB77bXX2OHDh8XMtFdeeYWFhYWxzz77jB09epRNmzaNJSUlsZaWFvEYOTk5bNSoUWzfvn1s7969bPDgwWz27Nm+6pLbdNf3trY2ds8997DY2FhWUlLi8vy3trYyxhj75ptv2Jo1a1hJSQk7e/Yse//999mAAQPYQw895OOe9Ux3fW9oaGC/+tWvWGFhISsrK2M7d+5ko0ePZoMHD2Zms1k8Rl8cdwf19fUsKCiIrV+/vtPve+u4kyJ1A7J27VoWHx/PNBoNGzduHCsqKvK1SIoDoMu/jRs3MsYYKy8vZ3feeScLDw9nWq2WDRo0iD399NOsvr7et4IrwMyZM1lMTAzTaDRs4MCBbObMmezMmTPi/paWFvboo4+y/v37s6CgIPbTn/6UVVZW+lBiZdmxYwcDwEpLS12297Ux37NnT5f3+Ny5cxlj9hIIzz33HIuOjmZarZZlZWV1uia1tbVs9uzZrF+/fiw0NJQ9/PDDrKGhwQe9kUZ3fS8rK7vu879nzx7GGGPFxcUsIyOD6XQ6FhAQwNLS0tgf/vAHF2Wjt9Jd35ubm9nkyZPZgAEDmL+/P0tISGALFy7s9KHcF8fdwVtvvcUCAwOZ0Wjs9PveOu4CY4x51ORFEARBEATRR6EYKYIgCIIgCE5IkSIIgiAIguCEFCmCIAiCIAhOSJEiCIIgCILghBQpgiAIgiAITkiRIgiCIAiC4IQUKYIgCIIgCE5IkSIIgiAIguCEFCmCIAiCIAhOSJEiCIIgCILghBQpgiAIgiAITkiRIgiCIAiC4OT/A6qtnarC1/GLAAAAAElFTkSuQmCC",
+      "text/plain": [
+       "<Figure size 640x480 with 1 Axes>"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    }
+   ],
+   "source": [
+    "plt.plot(dispersion_data[\"raw_orbit_x_up\"])\n",
+    "plt.plot(dispersion_data[\"raw_orbit_x_center\"])\n",
+    "plt.plot(dispersion_data[\"raw_orbit_x_down\"])"
+   ]
+  },
+  {
+   "cell_type": "markdown",
+   "id": "481249c6-46b0-4b28-8c37-d03ade348968",
+   "metadata": {},
+   "source": [
+    "Now we can construct the response matrix"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 101,
+   "id": "ed0164b9-5553-4409-88b2-f583713ed61c",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "from pyaml.tuning_tools.orbit import ConfigModel as OrbitConfigModel\n",
+    "from pyaml.tuning_tools.orbit import Orbit"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 102,
+   "id": "e9338428-e984-41e3-bf56-61ae65b37a2d",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "from pyaml.tuning_tools.response_matrix import ConfigModel as ResponseMatrixCondigModel\n",
+    "from pyaml.tuning_tools.response_matrix import ResponseMatrix"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 103,
+   "id": "84b510a0-596d-4b13-b7af-6a5a8136075c",
+   "metadata": {},
+   "outputs": [
+    {
+     "data": {
+      "text/plain": [
+       "dict_keys(['matrix', 'matrix_err', 'inputs_delta', 'shots_per_orbit', 'bipolar', 'raw_up', 'raw_center', 'raw_down', 'raw_err_up', 'raw_err_center', 'raw_err_down', 'reference', 'reference_err', 'input_names', 'output_names', 'last_input', 'last_number', 'timestamp', 'original_save_path', 'inputs_plane', 'outputs_plane'])"
+      ]
+     },
+     "execution_count": 103,
+     "metadata": {},
+     "output_type": "execute_result"
+    }
+   ],
+   "source": [
+    "ormdata.keys()"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 107,
+   "id": "e41f0055-b097-4e77-b6c9-22a58af0d85f",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "rest_mat = ResponseMatrix(\n",
+    "    ResponseMatrixCondigModel(\n",
+    "        matrix=ormdata[\"matrix\"],\n",
+    "        input_names=ormdata[\"input_names\"],\n",
+    "        output_names=ormdata[\"output_names\"],\n",
+    "        rf_response=rf_response,\n",
+    "    )\n",
+    ")"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 105,
+   "id": "d19cb30c-0f5f-496b-8977-7cf3c0abd12f",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "orbit = Orbit(\n",
+    "    OrbitConfigModel(\n",
+    "        name=\"DEFAULT_ORBIT\",\n",
+    "        bpm_array_name=\"BPM\",\n",
+    "        hcorr_array_name=\"HCORR\",\n",
+    "        vcorr_array_name=\"VCORR\",\n",
+    "        singular_values=180,\n",
+    "        response_matrix=rest_mat,\n",
+    "    )\n",
+    ")"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 111,
+   "id": "d0167df0-75df-48ca-91d0-d18d14e01140",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "control_mode = sr.design"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 113,
+   "id": "79c2aa20-3715-4d84-aca6-1ab51cf91ea3",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "control_mode.fill_device([orbit])\n",
+    "orbit = control_mode.get_orbit_tuning(\"DEFAULT_ORBIT\")\n",
+    "orbit.post_init()"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 116,
+   "id": "55a46fa6-14fe-497a-891e-a0dcdc1fec88",
+   "metadata": {},
+   "outputs": [
+    {
+     "data": {
+      "text/plain": [
+       "<matplotlib.legend.Legend at 0x7755cba24fb0>"
+      ]
+     },
+     "execution_count": 116,
+     "metadata": {},
+     "output_type": "execute_result"
+    },
+    {
+     "data": {
+      "image/png": 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",
+      "text/plain": [
+       "<Figure size 640x480 with 1 Axes>"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    }
+   ],
+   "source": [
+    "plt.plot(positions_bc[:, 0], label=\"H (before corr)\", color=\"b\", ls=\"--\")\n",
+    "plt.plot(positions_bc[:, 1], label=\"V (before corr)\", color=\"r\", ls=\"--\")\n",
+    "\n",
+    "orbit.correct(reference=reference)\n",
+    "\n",
+    "positions_after = bpms.positions.get()\n",
+    "plt.plot(positions_after[:, 0], label=\"H (after corr)\", color=\"b\", ls=\"-\")\n",
+    "plt.plot(positions_after[:, 1], label=\"V (after corr)\", color=\"r\", ls=\"-\")\n",
+    "\n",
+    "plt.xlabel(\"BPM number\")\n",
+    "plt.ylabel(\"Orbit\")\n",
+    "plt.legend()"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": null,
+   "id": "46a4b572-9f24-4b5b-998e-db66350c8434",
+   "metadata": {},
+   "outputs": [],
+   "source": []
+  }
+ ],
+ "metadata": {
+  "kernelspec": {
+   "display_name": "Python 3 (ipykernel)",
+   "language": "python",
+   "name": "python3"
+  },
+  "language_info": {
+   "codemirror_mode": {
+    "name": "ipython",
+    "version": 3
+   },
+   "file_extension": ".py",
+   "mimetype": "text/x-python",
+   "name": "python",
+   "nbconvert_exporter": "python",
+   "pygments_lexer": "ipython3",
+   "version": "3.12.3"
+  }
+ },
+ "nbformat": 4,
+ "nbformat_minor": 5
+}

From dafab5df0d159cc468f49e9ccba003c7965013bb Mon Sep 17 00:00:00 2001
From: gubaidulinvadim <gubaidulinvadim@gmail.com>
Date: Sun, 1 Feb 2026 16:57:39 +0100
Subject: [PATCH 3/5] Added minimal description on how to run things.

---
 examples/SOLEIL_examples/HOWTO.md | 41 +++++++++++++++++++++++++++++++
 1 file changed, 41 insertions(+)
 create mode 100644 examples/SOLEIL_examples/HOWTO.md

diff --git a/examples/SOLEIL_examples/HOWTO.md b/examples/SOLEIL_examples/HOWTO.md
new file mode 100644
index 0000000..2ecb8dd
--- /dev/null
+++ b/examples/SOLEIL_examples/HOWTO.md
@@ -0,0 +1,41 @@
+# Instructions for how to run SOLEIL examples.
+
+## Install pyAML
+
+1. Create a virtual environment and activate it. You need to have Python 3.11+.
+
+2. Install pyAML including the tango-pyaml EPICS bindings.
+
+  ```bash
+  pip install accelerator-middle-layer[tango-pyaml]
+  ```
+
+## Start the SOLEIL II virtual accelerator
+
+1. Install [Apptainer](https://apptainer.org/docs/admin/main/installation.html) in case you don't already have it.
+
+For the live control mode, you should have some control system emulation runing. It is possible to do
+```
+apptainer pull virtual-accelerator.sif oras://gitlab-registry.synchrotron-soleil.fr/software-control-system/containers/apptainer/virtual-accelerator:latest
+apptainer run virtual-accelerator.sif
+```
+
+***Keep this terminal running and don't do anything else in it.*** The virtual accelerator will run there and you will be able to interact with it from other terminals, jupyter notebooks, IDEs etc over the network. If you want to put it in the background, using something like tmux would be a good option.
+
+this will run SOLEIL II proof-of-concept digital twin on localhost:11000. You can play with the digital twin itself (without pyAML) via jive to check that everything is working. You can run jive in a different terminal with
+```
+apptainer pull jive.sif https://gitlab.synchrotron-soleil.fr/api/v4/projects/2739/packages/generic/jive/latest/jive.sif
+apptainer run jive.sif
+```
+On linux you may need additionally to configure X11
+```
+export DISPLAY=:0
+xhost +local:root
+```
+
+NOTE: This is just a demonstration of pyAML functionality. Certain things may be done stupidly. The person who wrote this jupyter notebook only cared about showing that the code is working, not about intelligently controlling the accelerator.
+
+
+  ## Run the examples
+
+    There are three jupyter notebook available with some basic examples. Feel free to play around and modify them. A .yaml configuration file is already provided, it was generated procedurally from the .m lattice file and nomenclature description file.

From a015d996b3780e2823345e544dad4b9ae01ded87 Mon Sep 17 00:00:00 2001
From: gubaidulinvadim <gubaidulinvadim@gmail.com>
Date: Sun, 1 Feb 2026 22:13:02 +0100
Subject: [PATCH 4/5] Renamed howto -> readme

---
 examples/SOLEIL_examples/{HOWTO.md => README.md} | 0
 1 file changed, 0 insertions(+), 0 deletions(-)
 rename examples/SOLEIL_examples/{HOWTO.md => README.md} (100%)

diff --git a/examples/SOLEIL_examples/HOWTO.md b/examples/SOLEIL_examples/README.md
similarity index 100%
rename from examples/SOLEIL_examples/HOWTO.md
rename to examples/SOLEIL_examples/README.md

From a765071988ee2f7f746f0118c97459b265e07047 Mon Sep 17 00:00:00 2001
From: gubaidulinvadim <gubaidulinvadim@gmail.com>
Date: Mon, 2 Feb 2026 17:51:59 +0100
Subject: [PATCH 5/5] Temporarily removed orbit example

---
 .../SOLEIL_examples/03-Orbit_correction.ipynb | 992 ------------------
 1 file changed, 992 deletions(-)
 delete mode 100644 examples/SOLEIL_examples/03-Orbit_correction.ipynb

diff --git a/examples/SOLEIL_examples/03-Orbit_correction.ipynb b/examples/SOLEIL_examples/03-Orbit_correction.ipynb
deleted file mode 100644
index 8128834..0000000
--- a/examples/SOLEIL_examples/03-Orbit_correction.ipynb
+++ /dev/null
@@ -1,992 +0,0 @@
-{
- "cells": [
-  {
-   "cell_type": "code",
-   "execution_count": 74,
-   "id": "68b780c8-534e-46af-b336-6860edeefef4",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "import os\n",
-    "\n",
-    "import numpy as np\n",
-    "\n",
-    "from pyaml.accelerator import Accelerator\n",
-    "from pyaml.common.constants import ACTION_RESTORE\n",
-    "from pyaml.configuration.factory import Factory\n",
-    "from pyaml.magnet.magnet import Magnet"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 76,
-   "id": "62dc34e1-bb65-4b56-b596-e05d60a0e0a5",
-   "metadata": {},
-   "outputs": [
-    {
-     "name": "stdout",
-     "output_type": "stream",
-     "text": [
-      "01 Feb% 2026, 13:34:44 | WARNING | PyAML Tango control system binding (0.3.3) initialized with name 'live' and TANGO_HOST=localhost:11000\n"
-     ]
-    }
-   ],
-   "source": [
-    "sr = Accelerator.load(\"p.yaml\")\n",
-    "Factory.clear()"
-   ]
-  },
-  {
-   "cell_type": "markdown",
-   "id": "71e973b4-e9d8-48d7-98dc-8f43fcbacb21",
-   "metadata": {},
-   "source": [
-    "For the live control mode, you should have some control system emulation runing. It is possible to do \n",
-    "```\n",
-    "apptainer pull virtual-accelerator.sif oras://gitlab-registry.synchrotron-soleil.fr/software-control-system/containers/apptainer/virtual-accelerator:latest\n",
-    "apptainer run virtual-accelerator.sif\n",
-    "```\n",
-    "this will run SOLEIL II proof-of-concept digital twin on localhost:11000. You can play with the digital twin itself (without pyAML) via jive to check that everything is working. You can run jive in a different terminal with \n",
-    "```\n",
-    "apptainer pull jive.sif https://gitlab.synchrotron-soleil.fr/api/v4/projects/2739/packages/generic/jive/latest/jive.sif\n",
-    "apptainer run jive.sif\n",
-    "```\n",
-    "On linux you may need additionally to configure X11\n",
-    "```\n",
-    "export DISPLAY=:0\n",
-    "xhost +local:root\n",
-    "```\n",
-    "\n",
-    "NOTE: This is just a demonstration of pyAML functionality. Certain things may be done stupidly. The person who wrote this jupyter notebook only cared about showing that the code is working, not about intelligently controlling the accelerator."
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 77,
-   "id": "6727e66d-a4f8-4a88-86b9-a58022d5ea55",
-   "metadata": {},
-   "outputs": [
-    {
-     "data": {
-      "text/plain": [
-       "TangoControlSystem(name='live', tango_host='localhost:11000', debug_level=None, lazy_devices=True, scalar_aggregator='tango.pyaml.multi_attribute', vector_aggregator=None, timeout_ms=3000)"
-      ]
-     },
-     "execution_count": 77,
-     "metadata": {},
-     "output_type": "execute_result"
-    }
-   ],
-   "source": [
-    "control_mode = sr.design\n",
-    "control_mode"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 78,
-   "id": "f4918a42-a21b-4815-a747-a96c292405fe",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "bpms = control_mode.get_bpms(\"BPM\")"
-   ]
-  },
-  {
-   "cell_type": "markdown",
-   "id": "21047feb-a273-48b4-8d87-17384a873cde",
-   "metadata": {},
-   "source": [
-    "In the configuration file, the dipolar correctors magnets are not grouped in a family. We can simply look for the element names ending in 'hcorrector' or 'vcorrector' and create an array of magnets ourselves. "
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 79,
-   "id": "d05ed3cf-3bae-4ec8-8dfd-f9a860694b72",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "hcorr_names = [\n",
-    "    mag.get_name()\n",
-    "    for mag in control_mode.get_all_magnets()\n",
-    "    if mag.get_name().endswith(\"hcorrector\")\n",
-    "]\n",
-    "vcorr_names = [\n",
-    "    mag.get_name()\n",
-    "    for mag in control_mode.get_all_magnets()\n",
-    "    if mag.get_name().endswith(\"vcorrector\")\n",
-    "]\n",
-    "\n",
-    "control_mode.fill_magnet_array(\"HCORR\", hcorr_names)\n",
-    "control_mode.fill_magnet_array(\"VCORR\", vcorr_names)"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 80,
-   "id": "e1f5308b-d1b8-41fa-b2ef-6ef074ae449a",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "from pyaml.tuning_tools.orbit_response_matrix import ConfigModel as ORM_ConfigModel\n",
-    "from pyaml.tuning_tools.orbit_response_matrix import OrbitResponseMatrix\n",
-    "\n",
-    "orm = OrbitResponseMatrix(\n",
-    "    cfg=ORM_ConfigModel(\n",
-    "        name=\"DEFAULT_ORM\",\n",
-    "        bpm_array_name=\"BPM\",\n",
-    "        hcorr_array_name=\"HCORR\",\n",
-    "        vcorr_array_name=\"VCORR\",\n",
-    "        corrector_delta=1e-5,\n",
-    "    ),\n",
-    ")\n",
-    "\n",
-    "control_mode.fill_device([orm])\n",
-    "orm = control_mode.get_orm_tuning(\"DEFAULT_ORM\")"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 81,
-   "id": "19b62db1-e93f-48cc-8351-f09c518379de",
-   "metadata": {},
-   "outputs": [
-    {
-     "name": "stdout",
-     "output_type": "stream",
-     "text": [
-      "01 Feb% 2026, 13:34:58 | INFO | Measuring correctors from the default arrays: HCORR and VCORR.\n",
-      "01 Feb% 2026, 13:35:04 | INFO | Measured response of SH1_COR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:35:09 | INFO | Measured response of SH2_HCOR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:35:14 | INFO | Measured response of SXF11_HCOR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:35:18 | INFO | Measured response of SXF1_HCOR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:35:23 | INFO | Measured response of SXF13_HCOR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:35:28 | INFO | Measured response of SXF13_HCOR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:35:33 | INFO | Measured response of SXF1_HCOR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:35:37 | INFO | Measured response of SXF12_HCOR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:35:42 | INFO | Measured response of SH6_COR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:35:47 | INFO | Measured response of SH4_COR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:35:51 | INFO | Measured response of SH4_COR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:35:56 | INFO | Measured response of SH6_COR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:36:01 | INFO | Measured response of SXF21_HCOR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:36:06 | INFO | Measured response of SXF2_HCOR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:36:10 | INFO | Measured response of SXF22_HCOR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:36:15 | INFO | Measured response of SH9_COR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:36:20 | INFO | Measured response of SH7_COR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:36:24 | INFO | Measured response of SH7_COR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:36:29 | INFO | Measured response of SH9_COR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:36:34 | INFO | Measured response of SXF31_HCOR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:36:39 | INFO | Measured response of SXF3_HCOR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:36:43 | INFO | Measured response of SXF33_HCOR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:36:48 | INFO | Measured response of SXF33_HCOR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:36:53 | INFO | Measured response of SXF3_HCOR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:36:57 | INFO | Measured response of SXF32_HCOR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:37:02 | INFO | Measured response of SH9_COR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:37:07 | INFO | Measured response of SH7_COR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:37:12 | INFO | Measured response of SH7_COR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:37:16 | INFO | Measured response of SH9_COR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:37:21 | INFO | Measured response of SXF41_HCOR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:37:26 | INFO | Measured response of SXF4_HCOR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:37:30 | INFO | Measured response of SXF42_HCOR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:37:35 | INFO | Measured response of SH12_COR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:37:40 | INFO | Measured response of SH10_COR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:37:45 | INFO | Measured response of SH10_COR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:37:49 | INFO | Measured response of SH12_COR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:37:54 | INFO | Measured response of SXF51_HCOR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:37:59 | INFO | Measured response of SXF5_HCOR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:38:04 | INFO | Measured response of SXF53_HCOR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:38:08 | INFO | Measured response of SXF53_HCOR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:38:13 | INFO | Measured response of SXF5_HCOR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:38:18 | INFO | Measured response of SXF52_HCOR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:38:22 | INFO | Measured response of SH14_HCOR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:38:27 | INFO | Measured response of SH13_COR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:38:32 | INFO | Measured response of SH16_COR_001.hcorrector.\n",
-      "01 Feb% 2026, 13:38:37 | INFO | Measured response of SH16_COR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:38:41 | INFO | Measured response of SH13_COR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:38:46 | INFO | Measured response of SH14_HCOR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:38:51 | INFO | Measured response of SXF52_HCOR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:38:56 | INFO | Measured response of SXF5_HCOR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:39:00 | INFO | Measured response of SXF53_HCOR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:39:05 | INFO | Measured response of SXF53_HCOR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:39:10 | INFO | Measured response of SXF5_HCOR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:39:14 | INFO | Measured response of SXF51_HCOR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:39:19 | INFO | Measured response of SH12_COR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:39:24 | INFO | Measured response of SH10_COR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:39:28 | INFO | Measured response of SH10_COR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:39:33 | INFO | Measured response of SH12_COR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:39:38 | INFO | Measured response of SXF42_HCOR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:39:43 | INFO | Measured response of SXF4_HCOR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:39:47 | INFO | Measured response of SXF41_HCOR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:39:52 | INFO | Measured response of SH9_COR_005.hcorrector.\n",
-      "01 Feb% 2026, 13:39:57 | INFO | Measured response of SH7_COR_005.hcorrector.\n",
-      "01 Feb% 2026, 13:40:01 | INFO | Measured response of SH7_COR_006.hcorrector.\n",
-      "01 Feb% 2026, 13:40:06 | INFO | Measured response of SH9_COR_006.hcorrector.\n",
-      "01 Feb% 2026, 13:40:11 | INFO | Measured response of SXF32_HCOR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:40:16 | INFO | Measured response of SXF3_HCOR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:40:20 | INFO | Measured response of SXF33_HCOR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:40:25 | INFO | Measured response of SXF33_HCOR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:40:30 | INFO | Measured response of SXF3_HCOR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:40:34 | INFO | Measured response of SXF31_HCOR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:40:39 | INFO | Measured response of SH9_COR_007.hcorrector.\n",
-      "01 Feb% 2026, 13:40:44 | INFO | Measured response of SH7_COR_007.hcorrector.\n",
-      "01 Feb% 2026, 13:40:49 | INFO | Measured response of SH7_COR_008.hcorrector.\n",
-      "01 Feb% 2026, 13:40:53 | INFO | Measured response of SH9_COR_008.hcorrector.\n",
-      "01 Feb% 2026, 13:40:58 | INFO | Measured response of SXF22_HCOR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:41:03 | INFO | Measured response of SXF2_HCOR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:41:08 | INFO | Measured response of SXF21_HCOR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:41:12 | INFO | Measured response of SH6_COR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:41:17 | INFO | Measured response of SH4_COR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:41:22 | INFO | Measured response of SH4_COR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:41:26 | INFO | Measured response of SH6_COR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:41:31 | INFO | Measured response of SXF12_HCOR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:41:36 | INFO | Measured response of SXF1_HCOR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:41:41 | INFO | Measured response of SXF13_HCOR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:41:46 | INFO | Measured response of SXF13_HCOR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:41:51 | INFO | Measured response of SXF1_HCOR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:41:56 | INFO | Measured response of SXF11_HCOR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:42:01 | INFO | Measured response of SH2_HCOR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:42:05 | INFO | Measured response of SH1_COR_002.hcorrector.\n",
-      "01 Feb% 2026, 13:42:10 | INFO | Measured response of SH1_COR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:42:15 | INFO | Measured response of SH2_HCOR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:42:20 | INFO | Measured response of SXF11_HCOR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:42:24 | INFO | Measured response of SXF1_HCOR_005.hcorrector.\n",
-      "01 Feb% 2026, 13:42:29 | INFO | Measured response of SXF13_HCOR_005.hcorrector.\n",
-      "01 Feb% 2026, 13:42:34 | INFO | Measured response of SXF13_HCOR_006.hcorrector.\n",
-      "01 Feb% 2026, 13:42:38 | INFO | Measured response of SXF1_HCOR_006.hcorrector.\n",
-      "01 Feb% 2026, 13:42:43 | INFO | Measured response of SXF12_HCOR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:42:48 | INFO | Measured response of SH6_COR_005.hcorrector.\n",
-      "01 Feb% 2026, 13:42:53 | INFO | Measured response of SH4_COR_005.hcorrector.\n",
-      "01 Feb% 2026, 13:42:57 | INFO | Measured response of SH4_COR_006.hcorrector.\n",
-      "01 Feb% 2026, 13:43:02 | INFO | Measured response of SH6_COR_006.hcorrector.\n",
-      "01 Feb% 2026, 13:43:07 | INFO | Measured response of SXF21_HCOR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:43:11 | INFO | Measured response of SXF2_HCOR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:43:16 | INFO | Measured response of SXF22_HCOR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:43:21 | INFO | Measured response of SH9_COR_009.hcorrector.\n",
-      "01 Feb% 2026, 13:43:26 | INFO | Measured response of SH7_COR_009.hcorrector.\n",
-      "01 Feb% 2026, 13:43:30 | INFO | Measured response of SH7_COR_010.hcorrector.\n",
-      "01 Feb% 2026, 13:43:35 | INFO | Measured response of SH9_COR_010.hcorrector.\n",
-      "01 Feb% 2026, 13:43:40 | INFO | Measured response of SXF31_HCOR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:43:45 | INFO | Measured response of SXF3_HCOR_005.hcorrector.\n",
-      "01 Feb% 2026, 13:43:49 | INFO | Measured response of SXF33_HCOR_005.hcorrector.\n",
-      "01 Feb% 2026, 13:43:54 | INFO | Measured response of SXF33_HCOR_006.hcorrector.\n",
-      "01 Feb% 2026, 13:43:59 | INFO | Measured response of SXF3_HCOR_006.hcorrector.\n",
-      "01 Feb% 2026, 13:44:03 | INFO | Measured response of SXF32_HCOR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:44:08 | INFO | Measured response of SH9_COR_011.hcorrector.\n",
-      "01 Feb% 2026, 13:44:13 | INFO | Measured response of SH7_COR_011.hcorrector.\n",
-      "01 Feb% 2026, 13:44:18 | INFO | Measured response of SH7_COR_012.hcorrector.\n",
-      "01 Feb% 2026, 13:44:22 | INFO | Measured response of SH9_COR_012.hcorrector.\n",
-      "01 Feb% 2026, 13:44:27 | INFO | Measured response of SXF41_HCOR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:44:32 | INFO | Measured response of SXF4_HCOR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:44:36 | INFO | Measured response of SXF42_HCOR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:44:41 | INFO | Measured response of SH12_COR_005.hcorrector.\n",
-      "01 Feb% 2026, 13:44:46 | INFO | Measured response of SH10_COR_005.hcorrector.\n",
-      "01 Feb% 2026, 13:44:51 | INFO | Measured response of SH10_COR_006.hcorrector.\n",
-      "01 Feb% 2026, 13:44:55 | INFO | Measured response of SH12_COR_006.hcorrector.\n",
-      "01 Feb% 2026, 13:45:00 | INFO | Measured response of SXF51_HCOR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:45:05 | INFO | Measured response of SXF5_HCOR_005.hcorrector.\n",
-      "01 Feb% 2026, 13:45:09 | INFO | Measured response of SXF53_HCOR_005.hcorrector.\n",
-      "01 Feb% 2026, 13:45:14 | INFO | Measured response of SXF53_HCOR_006.hcorrector.\n",
-      "01 Feb% 2026, 13:45:19 | INFO | Measured response of SXF5_HCOR_006.hcorrector.\n",
-      "01 Feb% 2026, 13:45:24 | INFO | Measured response of SXF52_HCOR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:45:28 | INFO | Measured response of SH14_HCOR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:45:33 | INFO | Measured response of SH13_COR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:45:38 | INFO | Measured response of SH16_COR_003.hcorrector.\n",
-      "01 Feb% 2026, 13:45:42 | INFO | Measured response of SH16_COR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:45:47 | INFO | Measured response of SH13_COR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:45:52 | INFO | Measured response of SH14_HCOR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:45:57 | INFO | Measured response of SXF52_HCOR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:46:01 | INFO | Measured response of SXF5_HCOR_007.hcorrector.\n",
-      "01 Feb% 2026, 13:46:06 | INFO | Measured response of SXF53_HCOR_007.hcorrector.\n",
-      "01 Feb% 2026, 13:46:11 | INFO | Measured response of SXF53_HCOR_008.hcorrector.\n",
-      "01 Feb% 2026, 13:46:15 | INFO | Measured response of SXF5_HCOR_008.hcorrector.\n",
-      "01 Feb% 2026, 13:46:20 | INFO | Measured response of SXF51_HCOR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:46:25 | INFO | Measured response of SH12_COR_007.hcorrector.\n",
-      "01 Feb% 2026, 13:46:30 | INFO | Measured response of SH10_COR_007.hcorrector.\n",
-      "01 Feb% 2026, 13:46:34 | INFO | Measured response of SH10_COR_008.hcorrector.\n",
-      "01 Feb% 2026, 13:46:39 | INFO | Measured response of SH12_COR_008.hcorrector.\n",
-      "01 Feb% 2026, 13:46:44 | INFO | Measured response of SXF42_HCOR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:46:48 | INFO | Measured response of SXF4_HCOR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:46:53 | INFO | Measured response of SXF41_HCOR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:46:58 | INFO | Measured response of SH9_COR_013.hcorrector.\n",
-      "01 Feb% 2026, 13:47:03 | INFO | Measured response of SH7_COR_013.hcorrector.\n",
-      "01 Feb% 2026, 13:47:07 | INFO | Measured response of SH7_COR_014.hcorrector.\n",
-      "01 Feb% 2026, 13:47:12 | INFO | Measured response of SH9_COR_014.hcorrector.\n",
-      "01 Feb% 2026, 13:47:17 | INFO | Measured response of SXF32_HCOR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:47:22 | INFO | Measured response of SXF3_HCOR_007.hcorrector.\n",
-      "01 Feb% 2026, 13:47:26 | INFO | Measured response of SXF33_HCOR_007.hcorrector.\n",
-      "01 Feb% 2026, 13:47:31 | INFO | Measured response of SXF33_HCOR_008.hcorrector.\n",
-      "01 Feb% 2026, 13:47:36 | INFO | Measured response of SXF3_HCOR_008.hcorrector.\n",
-      "01 Feb% 2026, 13:47:40 | INFO | Measured response of SXF31_HCOR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:47:45 | INFO | Measured response of SH9_COR_015.hcorrector.\n",
-      "01 Feb% 2026, 13:47:50 | INFO | Measured response of SH7_COR_015.hcorrector.\n",
-      "01 Feb% 2026, 13:47:55 | INFO | Measured response of SH7_COR_016.hcorrector.\n",
-      "01 Feb% 2026, 13:47:59 | INFO | Measured response of SH9_COR_016.hcorrector.\n",
-      "01 Feb% 2026, 13:48:04 | INFO | Measured response of SXF22_HCOR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:48:09 | INFO | Measured response of SXF2_HCOR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:48:13 | INFO | Measured response of SXF21_HCOR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:48:18 | INFO | Measured response of SH6_COR_007.hcorrector.\n",
-      "01 Feb% 2026, 13:48:23 | INFO | Measured response of SH4_COR_007.hcorrector.\n",
-      "01 Feb% 2026, 13:48:28 | INFO | Measured response of SH4_COR_008.hcorrector.\n",
-      "01 Feb% 2026, 13:48:32 | INFO | Measured response of SH6_COR_008.hcorrector.\n",
-      "01 Feb% 2026, 13:48:37 | INFO | Measured response of SXF12_HCOR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:48:42 | INFO | Measured response of SXF1_HCOR_007.hcorrector.\n",
-      "01 Feb% 2026, 13:48:47 | INFO | Measured response of SXF13_HCOR_007.hcorrector.\n",
-      "01 Feb% 2026, 13:48:51 | INFO | Measured response of SXF13_HCOR_008.hcorrector.\n",
-      "01 Feb% 2026, 13:48:56 | INFO | Measured response of SXF1_HCOR_008.hcorrector.\n",
-      "01 Feb% 2026, 13:49:01 | INFO | Measured response of SXF11_HCOR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:49:05 | INFO | Measured response of SH2_HCOR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:49:10 | INFO | Measured response of SH1_COR_004.hcorrector.\n",
-      "01 Feb% 2026, 13:49:15 | INFO | Measured response of SH1_COR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:49:20 | INFO | Measured response of SH3_VCOR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:49:24 | INFO | Measured response of SXD11_VCOR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:49:29 | INFO | Measured response of SXD1_VCOR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:49:34 | INFO | Measured response of SXD13_VCOR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:49:38 | INFO | Measured response of SXD1_VCOR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:49:43 | INFO | Measured response of SXD1_VCOR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:49:48 | INFO | Measured response of SXD12_VCOR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:49:53 | INFO | Measured response of SH6_COR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:49:57 | INFO | Measured response of SH4_COR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:50:02 | INFO | Measured response of SH4_COR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:50:07 | INFO | Measured response of SH6_COR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:50:11 | INFO | Measured response of SXD21_VCOR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:50:16 | INFO | Measured response of SXD2_VCOR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:50:21 | INFO | Measured response of SXD22_VCOR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:50:26 | INFO | Measured response of SH9_COR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:50:30 | INFO | Measured response of SH7_COR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:50:35 | INFO | Measured response of SH7_COR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:50:40 | INFO | Measured response of SH9_COR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:50:44 | INFO | Measured response of SXD31_VCOR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:50:49 | INFO | Measured response of SXD3_VCOR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:50:54 | INFO | Measured response of SXD33_VCOR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:50:59 | INFO | Measured response of SXD3_VCOR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:51:03 | INFO | Measured response of SXD3_VCOR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:51:08 | INFO | Measured response of SXD32_VCOR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:51:13 | INFO | Measured response of SH9_COR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:51:17 | INFO | Measured response of SH7_COR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:51:22 | INFO | Measured response of SH7_COR_004.vcorrector.\n",
-      "01 Feb% 2026, 13:51:27 | INFO | Measured response of SH9_COR_004.vcorrector.\n",
-      "01 Feb% 2026, 13:51:32 | INFO | Measured response of SXD41_VCOR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:51:36 | INFO | Measured response of SXD4_VCOR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:51:41 | INFO | Measured response of SXD42_VCOR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:51:46 | INFO | Measured response of SH12_COR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:51:50 | INFO | Measured response of SH10_COR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:51:55 | INFO | Measured response of SH10_COR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:52:00 | INFO | Measured response of SH12_COR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:52:05 | INFO | Measured response of SXD51_VCOR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:52:09 | INFO | Measured response of SXD5_VCOR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:52:14 | INFO | Measured response of SXD53_VCOR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:52:19 | INFO | Measured response of SXD5_VCOR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:52:23 | INFO | Measured response of SXD5_VCOR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:52:28 | INFO | Measured response of SXD52_VCOR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:52:33 | INFO | Measured response of SH15_VCOR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:52:38 | INFO | Measured response of SH13_COR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:52:42 | INFO | Measured response of SH16_COR_001.vcorrector.\n",
-      "01 Feb% 2026, 13:52:47 | INFO | Measured response of SH16_COR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:52:52 | INFO | Measured response of SH13_COR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:52:56 | INFO | Measured response of SH15_VCOR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:53:01 | INFO | Measured response of SXD52_VCOR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:53:06 | INFO | Measured response of SXD5_VCOR_004.vcorrector.\n",
-      "01 Feb% 2026, 13:53:11 | INFO | Measured response of SXD53_VCOR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:53:15 | INFO | Measured response of SXD5_VCOR_005.vcorrector.\n",
-      "01 Feb% 2026, 13:53:20 | INFO | Measured response of SXD5_VCOR_006.vcorrector.\n",
-      "01 Feb% 2026, 13:53:25 | INFO | Measured response of SXD51_VCOR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:53:29 | INFO | Measured response of SH12_COR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:53:34 | INFO | Measured response of SH10_COR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:53:39 | INFO | Measured response of SH10_COR_004.vcorrector.\n",
-      "01 Feb% 2026, 13:53:44 | INFO | Measured response of SH12_COR_004.vcorrector.\n",
-      "01 Feb% 2026, 13:53:48 | INFO | Measured response of SXD42_VCOR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:53:53 | INFO | Measured response of SXD4_VCOR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:53:58 | INFO | Measured response of SXD41_VCOR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:54:02 | INFO | Measured response of SH9_COR_005.vcorrector.\n",
-      "01 Feb% 2026, 13:54:07 | INFO | Measured response of SH7_COR_005.vcorrector.\n",
-      "01 Feb% 2026, 13:54:12 | INFO | Measured response of SH7_COR_006.vcorrector.\n",
-      "01 Feb% 2026, 13:54:17 | INFO | Measured response of SH9_COR_006.vcorrector.\n",
-      "01 Feb% 2026, 13:54:21 | INFO | Measured response of SXD32_VCOR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:54:26 | INFO | Measured response of SXD3_VCOR_004.vcorrector.\n",
-      "01 Feb% 2026, 13:54:31 | INFO | Measured response of SXD33_VCOR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:54:35 | INFO | Measured response of SXD3_VCOR_005.vcorrector.\n",
-      "01 Feb% 2026, 13:54:40 | INFO | Measured response of SXD3_VCOR_006.vcorrector.\n",
-      "01 Feb% 2026, 13:54:45 | INFO | Measured response of SXD31_VCOR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:54:50 | INFO | Measured response of SH9_COR_007.vcorrector.\n",
-      "01 Feb% 2026, 13:54:54 | INFO | Measured response of SH7_COR_007.vcorrector.\n",
-      "01 Feb% 2026, 13:54:59 | INFO | Measured response of SH7_COR_008.vcorrector.\n",
-      "01 Feb% 2026, 13:55:04 | INFO | Measured response of SH9_COR_008.vcorrector.\n",
-      "01 Feb% 2026, 13:55:08 | INFO | Measured response of SXD22_VCOR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:55:13 | INFO | Measured response of SXD2_VCOR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:55:18 | INFO | Measured response of SXD21_VCOR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:55:23 | INFO | Measured response of SH6_COR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:55:27 | INFO | Measured response of SH4_COR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:55:32 | INFO | Measured response of SH4_COR_004.vcorrector.\n",
-      "01 Feb% 2026, 13:55:37 | INFO | Measured response of SH6_COR_004.vcorrector.\n",
-      "01 Feb% 2026, 13:55:41 | INFO | Measured response of SXD12_VCOR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:55:46 | INFO | Measured response of SXD1_VCOR_004.vcorrector.\n",
-      "01 Feb% 2026, 13:55:51 | INFO | Measured response of SXD13_VCOR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:55:55 | INFO | Measured response of SXD1_VCOR_005.vcorrector.\n",
-      "01 Feb% 2026, 13:56:00 | INFO | Measured response of SXD1_VCOR_006.vcorrector.\n",
-      "01 Feb% 2026, 13:56:05 | INFO | Measured response of SXD11_VCOR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:56:10 | INFO | Measured response of SH3_VCOR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:56:14 | INFO | Measured response of SH1_COR_002.vcorrector.\n",
-      "01 Feb% 2026, 13:56:19 | INFO | Measured response of SH1_COR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:56:24 | INFO | Measured response of SH3_VCOR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:56:28 | INFO | Measured response of SXD11_VCOR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:56:33 | INFO | Measured response of SXD1_VCOR_007.vcorrector.\n",
-      "01 Feb% 2026, 13:56:38 | INFO | Measured response of SXD13_VCOR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:56:43 | INFO | Measured response of SXD1_VCOR_008.vcorrector.\n",
-      "01 Feb% 2026, 13:56:47 | INFO | Measured response of SXD1_VCOR_009.vcorrector.\n",
-      "01 Feb% 2026, 13:56:52 | INFO | Measured response of SXD12_VCOR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:56:57 | INFO | Measured response of SH6_COR_005.vcorrector.\n",
-      "01 Feb% 2026, 13:57:01 | INFO | Measured response of SH4_COR_005.vcorrector.\n",
-      "01 Feb% 2026, 13:57:06 | INFO | Measured response of SH4_COR_006.vcorrector.\n",
-      "01 Feb% 2026, 13:57:11 | INFO | Measured response of SH6_COR_006.vcorrector.\n",
-      "01 Feb% 2026, 13:57:16 | INFO | Measured response of SXD21_VCOR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:57:20 | INFO | Measured response of SXD2_VCOR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:57:25 | INFO | Measured response of SXD22_VCOR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:57:30 | INFO | Measured response of SH9_COR_009.vcorrector.\n",
-      "01 Feb% 2026, 13:57:34 | INFO | Measured response of SH7_COR_009.vcorrector.\n",
-      "01 Feb% 2026, 13:57:39 | INFO | Measured response of SH7_COR_010.vcorrector.\n",
-      "01 Feb% 2026, 13:57:44 | INFO | Measured response of SH9_COR_010.vcorrector.\n",
-      "01 Feb% 2026, 13:57:49 | INFO | Measured response of SXD31_VCOR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:57:53 | INFO | Measured response of SXD3_VCOR_007.vcorrector.\n",
-      "01 Feb% 2026, 13:57:58 | INFO | Measured response of SXD33_VCOR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:58:03 | INFO | Measured response of SXD3_VCOR_008.vcorrector.\n",
-      "01 Feb% 2026, 13:58:07 | INFO | Measured response of SXD3_VCOR_009.vcorrector.\n",
-      "01 Feb% 2026, 13:58:12 | INFO | Measured response of SXD32_VCOR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:58:17 | INFO | Measured response of SH9_COR_011.vcorrector.\n",
-      "01 Feb% 2026, 13:58:22 | INFO | Measured response of SH7_COR_011.vcorrector.\n",
-      "01 Feb% 2026, 13:58:26 | INFO | Measured response of SH7_COR_012.vcorrector.\n",
-      "01 Feb% 2026, 13:58:31 | INFO | Measured response of SH9_COR_012.vcorrector.\n",
-      "01 Feb% 2026, 13:58:36 | INFO | Measured response of SXD41_VCOR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:58:40 | INFO | Measured response of SXD4_VCOR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:58:45 | INFO | Measured response of SXD42_VCOR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:58:50 | INFO | Measured response of SH12_COR_005.vcorrector.\n",
-      "01 Feb% 2026, 13:58:55 | INFO | Measured response of SH10_COR_005.vcorrector.\n",
-      "01 Feb% 2026, 13:58:59 | INFO | Measured response of SH10_COR_006.vcorrector.\n",
-      "01 Feb% 2026, 13:59:04 | INFO | Measured response of SH12_COR_006.vcorrector.\n",
-      "01 Feb% 2026, 13:59:09 | INFO | Measured response of SXD51_VCOR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:59:13 | INFO | Measured response of SXD5_VCOR_007.vcorrector.\n",
-      "01 Feb% 2026, 13:59:18 | INFO | Measured response of SXD53_VCOR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:59:23 | INFO | Measured response of SXD5_VCOR_008.vcorrector.\n",
-      "01 Feb% 2026, 13:59:28 | INFO | Measured response of SXD5_VCOR_009.vcorrector.\n",
-      "01 Feb% 2026, 13:59:32 | INFO | Measured response of SXD52_VCOR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:59:37 | INFO | Measured response of SH15_VCOR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:59:42 | INFO | Measured response of SH13_COR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:59:46 | INFO | Measured response of SH16_COR_003.vcorrector.\n",
-      "01 Feb% 2026, 13:59:51 | INFO | Measured response of SH16_COR_004.vcorrector.\n",
-      "01 Feb% 2026, 13:59:56 | INFO | Measured response of SH13_COR_004.vcorrector.\n",
-      "01 Feb% 2026, 14:00:00 | INFO | Measured response of SH15_VCOR_004.vcorrector.\n",
-      "01 Feb% 2026, 14:00:05 | INFO | Measured response of SXD52_VCOR_004.vcorrector.\n",
-      "01 Feb% 2026, 14:00:10 | INFO | Measured response of SXD5_VCOR_010.vcorrector.\n",
-      "01 Feb% 2026, 14:00:15 | INFO | Measured response of SXD53_VCOR_004.vcorrector.\n",
-      "01 Feb% 2026, 14:00:19 | INFO | Measured response of SXD5_VCOR_011.vcorrector.\n",
-      "01 Feb% 2026, 14:00:24 | INFO | Measured response of SXD5_VCOR_012.vcorrector.\n",
-      "01 Feb% 2026, 14:00:29 | INFO | Measured response of SXD51_VCOR_004.vcorrector.\n",
-      "01 Feb% 2026, 14:00:33 | INFO | Measured response of SH12_COR_007.vcorrector.\n",
-      "01 Feb% 2026, 14:00:38 | INFO | Measured response of SH10_COR_007.vcorrector.\n",
-      "01 Feb% 2026, 14:00:43 | INFO | Measured response of SH10_COR_008.vcorrector.\n",
-      "01 Feb% 2026, 14:00:48 | INFO | Measured response of SH12_COR_008.vcorrector.\n",
-      "01 Feb% 2026, 14:00:52 | INFO | Measured response of SXD42_VCOR_004.vcorrector.\n",
-      "01 Feb% 2026, 14:00:57 | INFO | Measured response of SXD4_VCOR_004.vcorrector.\n",
-      "01 Feb% 2026, 14:01:02 | INFO | Measured response of SXD41_VCOR_004.vcorrector.\n",
-      "01 Feb% 2026, 14:01:06 | INFO | Measured response of SH9_COR_013.vcorrector.\n",
-      "01 Feb% 2026, 14:01:11 | INFO | Measured response of SH7_COR_013.vcorrector.\n",
-      "01 Feb% 2026, 14:01:16 | INFO | Measured response of SH7_COR_014.vcorrector.\n",
-      "01 Feb% 2026, 14:01:21 | INFO | Measured response of SH9_COR_014.vcorrector.\n",
-      "01 Feb% 2026, 14:01:25 | INFO | Measured response of SXD32_VCOR_004.vcorrector.\n",
-      "01 Feb% 2026, 14:01:30 | INFO | Measured response of SXD3_VCOR_010.vcorrector.\n",
-      "01 Feb% 2026, 14:01:35 | INFO | Measured response of SXD33_VCOR_004.vcorrector.\n",
-      "01 Feb% 2026, 14:01:39 | INFO | Measured response of SXD3_VCOR_011.vcorrector.\n",
-      "01 Feb% 2026, 14:01:44 | INFO | Measured response of SXD3_VCOR_012.vcorrector.\n",
-      "01 Feb% 2026, 14:01:49 | INFO | Measured response of SXD31_VCOR_004.vcorrector.\n",
-      "01 Feb% 2026, 14:01:54 | INFO | Measured response of SH9_COR_015.vcorrector.\n",
-      "01 Feb% 2026, 14:01:58 | INFO | Measured response of SH7_COR_015.vcorrector.\n",
-      "01 Feb% 2026, 14:02:03 | INFO | Measured response of SH7_COR_016.vcorrector.\n",
-      "01 Feb% 2026, 14:02:08 | INFO | Measured response of SH9_COR_016.vcorrector.\n",
-      "01 Feb% 2026, 14:02:12 | INFO | Measured response of SXD22_VCOR_004.vcorrector.\n",
-      "01 Feb% 2026, 14:02:17 | INFO | Measured response of SXD2_VCOR_004.vcorrector.\n",
-      "01 Feb% 2026, 14:02:22 | INFO | Measured response of SXD21_VCOR_004.vcorrector.\n",
-      "01 Feb% 2026, 14:02:26 | INFO | Measured response of SH6_COR_007.vcorrector.\n",
-      "01 Feb% 2026, 14:02:31 | INFO | Measured response of SH4_COR_007.vcorrector.\n",
-      "01 Feb% 2026, 14:02:36 | INFO | Measured response of SH4_COR_008.vcorrector.\n",
-      "01 Feb% 2026, 14:02:41 | INFO | Measured response of SH6_COR_008.vcorrector.\n",
-      "01 Feb% 2026, 14:02:45 | INFO | Measured response of SXD12_VCOR_004.vcorrector.\n",
-      "01 Feb% 2026, 14:02:50 | INFO | Measured response of SXD1_VCOR_010.vcorrector.\n",
-      "01 Feb% 2026, 14:02:55 | INFO | Measured response of SXD13_VCOR_004.vcorrector.\n",
-      "01 Feb% 2026, 14:02:59 | INFO | Measured response of SXD1_VCOR_011.vcorrector.\n",
-      "01 Feb% 2026, 14:03:04 | INFO | Measured response of SXD1_VCOR_012.vcorrector.\n",
-      "01 Feb% 2026, 14:03:09 | INFO | Measured response of SXD11_VCOR_004.vcorrector.\n",
-      "01 Feb% 2026, 14:03:14 | INFO | Measured response of SH3_VCOR_004.vcorrector.\n",
-      "01 Feb% 2026, 14:03:18 | INFO | Measured response of SH1_COR_004.vcorrector.\n"
-     ]
-    }
-   ],
-   "source": [
-    "orm.measure(set_wait_time=1.5)"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 82,
-   "id": "2fd3fe46-6156-4b1d-a269-7c8c7b22ee92",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "ormdata = orm.get()"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 83,
-   "id": "e6e5ae9f-f83d-4535-b727-6b3758fd85d0",
-   "metadata": {},
-   "outputs": [
-    {
-     "data": {
-      "text/plain": [
-       "(180, 180)"
-      ]
-     },
-     "execution_count": 83,
-     "metadata": {},
-     "output_type": "execute_result"
-    }
-   ],
-   "source": [
-    "len(bpms), len(hcorr_names)"
-   ]
-  },
-  {
-   "cell_type": "markdown",
-   "id": "d00f9cd7-739e-4a85-a5c6-a1229d8b3155",
-   "metadata": {},
-   "source": [
-    "Let's visualise the orbit response matrix"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 84,
-   "id": "7e0ddfe2-241b-4ee1-9eb2-bee4fe06ce03",
-   "metadata": {},
-   "outputs": [
-    {
-     "data": {
-      "text/plain": [
-       "<matplotlib.image.AxesImage at 0x7755e3b809b0>"
-      ]
-     },
-     "execution_count": 84,
-     "metadata": {},
-     "output_type": "execute_result"
-    },
-    {
-     "data": {
-      "image/png": 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",
-      "text/plain": [
-       "<Figure size 640x480 with 1 Axes>"
-      ]
-     },
-     "metadata": {},
-     "output_type": "display_data"
-    }
-   ],
-   "source": [
-    "import matplotlib.pyplot as plt\n",
-    "\n",
-    "plt.imshow(np.array(ormdata[\"matrix\"]))"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 85,
-   "id": "79628252-7eea-44f1-83f9-5c032dbd75d6",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "orm.save(f\"orm_{control_mode}.json\")"
-   ]
-  },
-  {
-   "cell_type": "markdown",
-   "id": "9cdc7159-bbad-465b-aed9-039e3d4ef073",
-   "metadata": {},
-   "source": [
-    "To have some orbit in the design mode we have to mangle it by introducing some noise on the H and V correctors. "
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 89,
-   "id": "a771c0f2-d09a-4ae6-ae95-f0416f6c570b",
-   "metadata": {},
-   "outputs": [
-    {
-     "name": "stdout",
-     "output_type": "stream",
-     "text": [
-      "R.m.s. orbit before correction H:  42.3 µm, V:  17.2 µm.\n"
-     ]
-    }
-   ],
-   "source": [
-    "from time import sleep\n",
-    "\n",
-    "std_kick = 1e-6\n",
-    "hcorr = control_mode.get_magnets(\"HCORR\")\n",
-    "vcorr = control_mode.get_magnets(\"VCORR\")\n",
-    "bpms = control_mode.get_bpms(\"BPM\")\n",
-    "ref_h, ref_v = control_mode.get_bpms(\"BPM\").positions.get().T\n",
-    "reference = np.concat((ref_h, ref_v))\n",
-    "# mangle orbit\n",
-    "hcorr.strengths.set(\n",
-    "    hcorr.strengths.get() + std_kick * np.random.normal(size=len(hcorr))\n",
-    ")\n",
-    "vcorr.strengths.set(\n",
-    "    vcorr.strengths.get() + std_kick * np.random.normal(size=len(vcorr))\n",
-    ")\n",
-    "\n",
-    "positions_bc = bpms.positions.get()\n",
-    "std_bc = np.std(positions_bc, axis=0)\n",
-    "sleep(2)\n",
-    "print(\n",
-    "    \"R.m.s. orbit before correction \"\n",
-    "    f\"H: {1e6 * std_bc[0]: .1f} µm, V: {1e6 * std_bc[1]: .1f} µm.\"\n",
-    ")"
-   ]
-  },
-  {
-   "cell_type": "markdown",
-   "id": "6a6a21e4-3885-4f8c-8e30-36fa74563064",
-   "metadata": {},
-   "source": [
-    "Let's visualise the mangled orbit before the correction is applied"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 90,
-   "id": "5785e582-a8ff-4464-a759-fe731f197420",
-   "metadata": {},
-   "outputs": [
-    {
-     "data": {
-      "text/plain": [
-       "Text(0, 0.5, 'Orbit')"
-      ]
-     },
-     "execution_count": 90,
-     "metadata": {},
-     "output_type": "execute_result"
-    },
-    {
-     "data": {
-      "image/png": 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",
-      "text/plain": [
-       "<Figure size 640x480 with 1 Axes>"
-      ]
-     },
-     "metadata": {},
-     "output_type": "display_data"
-    }
-   ],
-   "source": [
-    "plt.plot(positions_bc[:, 0], label=\"H\")\n",
-    "plt.plot(positions_bc[:, 1], label=\"V\")\n",
-    "plt.xlabel(\"BPM number\")\n",
-    "plt.ylabel(\"Orbit\")"
-   ]
-  },
-  {
-   "cell_type": "markdown",
-   "id": "955fb761-4044-48dc-a1dc-f4a0ca5d67e3",
-   "metadata": {},
-   "source": [
-    "### Dispersion measurement\n",
-    "\n",
-    "In order to correct the orbit we would also need to know the rf response of our machine. For this we will measure dispersion."
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 96,
-   "id": "51ba7574-d658-4a00-bca9-92f412561174",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "sr.design.get_lattice().enable_6d()\n",
-    "control_mode = sr.design"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 97,
-   "id": "13d1490e-13eb-4cbb-a34b-48c3bf542886",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "from pyaml.tuning_tools.dispersion import ConfigModel as Disp_ConfigModel\n",
-    "from pyaml.tuning_tools.dispersion import Dispersion\n",
-    "\n",
-    "dispersion = Dispersion(\n",
-    "    cfg=Disp_ConfigModel(\n",
-    "        name=\"DEFAULT_DISPERSION\",\n",
-    "        bpm_array_name=\"BPM\",\n",
-    "        rf_plant_name=\"RF\",\n",
-    "        frequency_delta=500,\n",
-    "    ),\n",
-    ")\n",
-    "\n",
-    "control_mode.fill_device([dispersion])\n",
-    "dispersion = control_mode.get_dispersion_tuning(\"DEFAULT_DISPERSION\")"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 98,
-   "id": "42ad67c6-77a0-4e85-9c7b-201a5ded4f35",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "dispersion.measure(set_waiting_time=10)\n",
-    "dispersion_data = dispersion.get()"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 99,
-   "id": "dee3fc75-72f7-45c0-8590-6209e4884fe0",
-   "metadata": {},
-   "outputs": [
-    {
-     "data": {
-      "text/plain": [
-       "dict_keys(['raw_orbit_x_up', 'raw_orbit_y_up', 'raw_orbit_x_center', 'raw_orbit_y_center', 'raw_orbit_x_down', 'raw_orbit_y_down', 'raw_orbit_x_err_up', 'raw_orbit_y_err_up', 'raw_orbit_x_err_center', 'raw_orbit_y_err_center', 'raw_orbit_x_err_down', 'raw_orbit_y_err_down', 'frequency_response_x', 'frequency_response_y', 'frequency_response_x_err', 'frequency_response_y_err', 'delta', 'momentum_compaction', 'shots_per_orbit', 'bipolar', 'timestamp', 'original_save_path'])"
-      ]
-     },
-     "execution_count": 99,
-     "metadata": {},
-     "output_type": "execute_result"
-    }
-   ],
-   "source": [
-    "rf_response = (\n",
-    "    dispersion_data[\"frequency_response_x\"] + dispersion_data[\"frequency_response_y\"]\n",
-    ")\n",
-    "dispersion_data.keys()"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 100,
-   "id": "d47202ca-d547-43c1-9aea-3d72cbcdb057",
-   "metadata": {},
-   "outputs": [
-    {
-     "data": {
-      "text/plain": [
-       "[<matplotlib.lines.Line2D at 0x7755cbb98200>]"
-      ]
-     },
-     "execution_count": 100,
-     "metadata": {},
-     "output_type": "execute_result"
-    },
-    {
-     "data": {
-      "image/png": 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",
-      "text/plain": [
-       "<Figure size 640x480 with 1 Axes>"
-      ]
-     },
-     "metadata": {},
-     "output_type": "display_data"
-    }
-   ],
-   "source": [
-    "plt.plot(dispersion_data[\"raw_orbit_x_up\"])\n",
-    "plt.plot(dispersion_data[\"raw_orbit_x_center\"])\n",
-    "plt.plot(dispersion_data[\"raw_orbit_x_down\"])"
-   ]
-  },
-  {
-   "cell_type": "markdown",
-   "id": "481249c6-46b0-4b28-8c37-d03ade348968",
-   "metadata": {},
-   "source": [
-    "Now we can construct the response matrix"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 101,
-   "id": "ed0164b9-5553-4409-88b2-f583713ed61c",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "from pyaml.tuning_tools.orbit import ConfigModel as OrbitConfigModel\n",
-    "from pyaml.tuning_tools.orbit import Orbit"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 102,
-   "id": "e9338428-e984-41e3-bf56-61ae65b37a2d",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "from pyaml.tuning_tools.response_matrix import ConfigModel as ResponseMatrixCondigModel\n",
-    "from pyaml.tuning_tools.response_matrix import ResponseMatrix"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 103,
-   "id": "84b510a0-596d-4b13-b7af-6a5a8136075c",
-   "metadata": {},
-   "outputs": [
-    {
-     "data": {
-      "text/plain": [
-       "dict_keys(['matrix', 'matrix_err', 'inputs_delta', 'shots_per_orbit', 'bipolar', 'raw_up', 'raw_center', 'raw_down', 'raw_err_up', 'raw_err_center', 'raw_err_down', 'reference', 'reference_err', 'input_names', 'output_names', 'last_input', 'last_number', 'timestamp', 'original_save_path', 'inputs_plane', 'outputs_plane'])"
-      ]
-     },
-     "execution_count": 103,
-     "metadata": {},
-     "output_type": "execute_result"
-    }
-   ],
-   "source": [
-    "ormdata.keys()"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 107,
-   "id": "e41f0055-b097-4e77-b6c9-22a58af0d85f",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "rest_mat = ResponseMatrix(\n",
-    "    ResponseMatrixCondigModel(\n",
-    "        matrix=ormdata[\"matrix\"],\n",
-    "        input_names=ormdata[\"input_names\"],\n",
-    "        output_names=ormdata[\"output_names\"],\n",
-    "        rf_response=rf_response,\n",
-    "    )\n",
-    ")"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 105,
-   "id": "d19cb30c-0f5f-496b-8977-7cf3c0abd12f",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "orbit = Orbit(\n",
-    "    OrbitConfigModel(\n",
-    "        name=\"DEFAULT_ORBIT\",\n",
-    "        bpm_array_name=\"BPM\",\n",
-    "        hcorr_array_name=\"HCORR\",\n",
-    "        vcorr_array_name=\"VCORR\",\n",
-    "        singular_values=180,\n",
-    "        response_matrix=rest_mat,\n",
-    "    )\n",
-    ")"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 111,
-   "id": "d0167df0-75df-48ca-91d0-d18d14e01140",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "control_mode = sr.design"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 113,
-   "id": "79c2aa20-3715-4d84-aca6-1ab51cf91ea3",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "control_mode.fill_device([orbit])\n",
-    "orbit = control_mode.get_orbit_tuning(\"DEFAULT_ORBIT\")\n",
-    "orbit.post_init()"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 116,
-   "id": "55a46fa6-14fe-497a-891e-a0dcdc1fec88",
-   "metadata": {},
-   "outputs": [
-    {
-     "data": {
-      "text/plain": [
-       "<matplotlib.legend.Legend at 0x7755cba24fb0>"
-      ]
-     },
-     "execution_count": 116,
-     "metadata": {},
-     "output_type": "execute_result"
-    },
-    {
-     "data": {
-      "image/png": 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",
-      "text/plain": [
-       "<Figure size 640x480 with 1 Axes>"
-      ]
-     },
-     "metadata": {},
-     "output_type": "display_data"
-    }
-   ],
-   "source": [
-    "plt.plot(positions_bc[:, 0], label=\"H (before corr)\", color=\"b\", ls=\"--\")\n",
-    "plt.plot(positions_bc[:, 1], label=\"V (before corr)\", color=\"r\", ls=\"--\")\n",
-    "\n",
-    "orbit.correct(reference=reference)\n",
-    "\n",
-    "positions_after = bpms.positions.get()\n",
-    "plt.plot(positions_after[:, 0], label=\"H (after corr)\", color=\"b\", ls=\"-\")\n",
-    "plt.plot(positions_after[:, 1], label=\"V (after corr)\", color=\"r\", ls=\"-\")\n",
-    "\n",
-    "plt.xlabel(\"BPM number\")\n",
-    "plt.ylabel(\"Orbit\")\n",
-    "plt.legend()"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": null,
-   "id": "46a4b572-9f24-4b5b-998e-db66350c8434",
-   "metadata": {},
-   "outputs": [],
-   "source": []
-  }
- ],
- "metadata": {
-  "kernelspec": {
-   "display_name": "Python 3 (ipykernel)",
-   "language": "python",
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