diff --git a/documentation/proc-pages/eng-models/central-solenoid.md b/documentation/proc-pages/eng-models/central-solenoid.md
index e5bf1971d1..87964276cc 100644
--- a/documentation/proc-pages/eng-models/central-solenoid.md
+++ b/documentation/proc-pages/eng-models/central-solenoid.md
@@ -9,11 +9,11 @@ amount actually available. The code measures the magnetic flux in units of Volt.
 Switch `iohcl` controls whether a central solenoid is present. A value of 1 denotes that this coil 
 is present, and should be assigned a non-zero thickness `dr_cs`. A value of `iohcl` = 0 denotes 
 that no central solenoid is present, in which case the thickness `dr_cs` should be zero. No PF 
-coils should be located at positions defined by `ipfloc(j)` = 1 if no central solenoid is present.
+coils should be located at positions defined by `i_pf_location(j)` = 1 if no central solenoid is present.
 
-The central solenoid can be either resistive or superconducting (controlled via switch `ipfres` as 
-for the other PF coils), and if superconducting, switch `isumatpf` determines the superconducting 
-material to use -  its value is used like `isumattf` and `isumatpf`. The copper fraction (by volume) 
+The central solenoid can be either resistive or superconducting (controlled via switch `i_pf_conductor` as 
+for the other PF coils), and if superconducting, switch `i_pf_superconductor` determines the superconducting 
+material to use -  its value is used like `isumattf` and `i_pf_superconductor`. The copper fraction (by volume) 
 of the superconducting strands is `fcuohsu`.
 
 The hoop stress is calculated using equations 4.10 and 4.11 from "Superconducting magnets", Martin N. 
@@ -96,7 +96,7 @@ An example output follows.  Note that in this example the cycle life is *not* su
  Minimum burn time (s)                                                    (t_burn_min)                  7.200E+03     
  Initial vertical crack size (m)                                          (t_crack_vertical)        8.900E-04     
  Initial radial crack size (m)                                            (t_crack_radial)          2.670E-03     
- CS turn area (m)                                                         (a_oh_turn)               1.904E-03     
+ CS turn area (m)                                                         (a_cs_turn)               1.904E-03     
  CS turn length (m)                                                       (l_cond_cst)              7.557E-02     
  CS turn internal cable space radius (m)                                  (r_in_cst)                6.732E-03     
  CS turn width (m)                                                        (d_cond_cst)              2.519E-02     
@@ -146,10 +146,10 @@ The central solenoid pre-compression structure is included in the model if and o
 
 ## Current density inputs and limits
 
-The absolute value of the central solenoid current density at the end-of-flat-top ('EOF'), `coheof`, 
+The absolute value of the central solenoid current density at the end-of-flat-top ('EOF'), `j_cs_flat_top_end`, 
 is specified by the user, and can be used as an iteration variable (no. 37). The current density at 
-the beginning-of-pulse ('BOP' - See Figure 1) is specified as a (positive) fraction of `coheof` 
-using `fcohbop` (iteration variable no. 41). The current density in the CS at all other times is 
+the beginning-of-pulse ('BOP' - See Figure 1) is specified as a (positive) fraction of `j_cs_flat_top_end` 
+using `f_j_cs_start_pulse_end_flat_top` (iteration variable no. 41). The current density in the CS at all other times is 
 calculated by taking into account the flux swing necessary to initiate and maintain plasma current.
 
 The current density in the central solenoid can be limited at BOP and at EOF. To limit the current 
diff --git a/documentation/proc-pages/eng-models/pf-coil.md b/documentation/proc-pages/eng-models/pf-coil.md
index a4b5970151..7ae1e6afb5 100644
--- a/documentation/proc-pages/eng-models/pf-coil.md
+++ b/documentation/proc-pages/eng-models/pf-coil.md
@@ -9,11 +9,11 @@ position and shape during the flat-top period.
 The positions and sizes of te PF coils are partly input, and partly calculated after consideration 
 of the required currents and allowable current density.
 
-The PF coil locations are controlled using a set of switched stored in array `ipfloc` (see 
+The PF coil locations are controlled using a set of switched stored in array `i_pf_location` (see 
 Figure 1), and are calculated in routine `PFCOIL`. The coils are (usually) organised into groups 
 containing two PF coils placed symmetrically above and below the midplane, and each group `j` has 
-an element `ipfloc(j)` assigned to it. Input parameter `ngrp` should be set to the number of groups, 
-and `ncls(j)` should be assigned the number of coils in each group - which should be 2 in each case.
+an element `i_pf_location(j)` assigned to it. Input parameter `n_pf_coil_groups` should be set to the number of groups, 
+and `n_pf_coils_in_group(j)` should be assigned the number of coils in each group - which should be 2 in each case.
 
 <figure markdown>
 ![Machine build](../images/vertical-build.png){ width="100%"}
@@ -24,26 +24,26 @@ In the following, all variables are defined in the variable descriptor file `var
 values for `rpf1`, `rpf2`, `zref(j)` and `routr` should be adjusted by the user to locate the PF 
 coils accurately.
 
-The three possible values of `ipfloc(j)` correspond to the following PF coil positions: (Redo taking 
+The three possible values of `i_pf_location(j)` correspond to the following PF coil positions: (Redo taking 
 into account `i_single_null` and other recent changes e.g. rclsnorm)
 
-`ipfloc(j)` = 1: PF coils are placed above the central solenoid (one group only);
-*R* = `rohc` + `rpf1`<br>
-*Z* = $\pm$(`hmax` * `ohhghf` + 0.1 + 0.5 * (`hmax` * (1 - `ohhghf`) + `dr_tf_inboard` + 0.1))
+`i_pf_location(j)` = 1: PF coils are placed above the central solenoid (one group only);
+*R* = `r_cs_middle` + `rpf1`<br>
+*Z* = $\pm$(`hmax` * `f_z_cs_tf_internal` + 0.1 + 0.5 * (`hmax` * (1 - `f_z_cs_tf_internal`) + `dr_tf_inboard` + 0.1))
 
-`ipfloc(j)` = 2: PF coils are placed above the TF coils (one group only);<br>
+`i_pf_location(j)` = 2: PF coils are placed above the TF coils (one group only);<br>
 *R* = `rmajor` + `rpf2`<br>
 *Z* = $\pm$(`hmax` * `dr_tf_inboard` + 0.86)
 
-`ipfloc(j)` = 3: PF coils are placed radially outside the TF coils (any number of groups);<br>
+`i_pf_location(j)` = 3: PF coils are placed radially outside the TF coils (any number of groups);<br>
 *R* = `rtot` + `dr_tf_outboard`/2 + `routr`<br>
 *Z* = $\pm$(`rminor` * `zref(j)`
 
-The void fraction (for coolant) in each coil `i`'s winding pack is given by `vf(i)`.
+The void fraction (for coolant) in each coil `i`'s winding pack is given by `f_a_pf_coil_void(i)`.
 
 ## Coil currents
 
-The peak current per turn, `cptdin(i)`, and the winding pack peak current density `rjconpf(i)` in 
+The peak current per turn, `c_pf_coil_turn_peak_input(i)`, and the winding pack peak current density `j_pf_coil_wp_peak(i)` in 
 each PF coil `i` are inputs. The PF coil currents vary as a function of time during the tokamak 
 operation as indicated in Figure 2. They contribute part of the flux swing necessary to maintain the plasma current.
 
@@ -58,11 +58,11 @@ ramp-up period, although it will pass through zero during the burn phase.</figca
 ## Materials
 
 The PF coils can be either resistive or superconducting. This is determined from the value of 
-`ipfres`. If `ipfres` = 0, the PF coils and the central solenoid are assumed to be superconducting. 
-If `ipfres` = 1, they are assumed to be resistive, with their resistivity given by the value of variable `pfclres`.
+`i_pf_conductor`. If `i_pf_conductor` = 0, the PF coils and the central solenoid are assumed to be superconducting. 
+If `i_pf_conductor` = 1, they are assumed to be resistive, with their resistivity given by the value of variable `rho_pf_coil`.
 
-If `ipfres` = 0, switch `isumatpf` specifies which superconducting material is to be used for the 
-PF coils. The values of `isumatpf` are used in the same way as switch `isumattf` is for the TF coils.
+If `i_pf_conductor` = 0, switch `i_pf_superconductor` specifies which superconducting material is to be used for the 
+PF coils. The values of `i_pf_superconductor` are used in the same way as switch `isumattf` is for the TF coils.
 
 The fraction of copper present in the superconducting filaments if given by the value of 
 variable `fcupfsu`.
diff --git a/documentation/proc-pages/io/python-lib-guide.md b/documentation/proc-pages/io/python-lib-guide.md
index 5582ddff8d..c6c1ba9530 100644
--- a/documentation/proc-pages/io/python-lib-guide.md
+++ b/documentation/proc-pages/io/python-lib-guide.md
@@ -26,7 +26,7 @@ To get values of input file entries from the object
     i.number_of_constraints
     i.number_of_itvars
     i.data["fimp"].value
-    i.data["ipfloc"].value
+    i.data["i_pf_location"].value
 ```
 
 To add/remove constraints, iteration variables
diff --git a/examples/data/csv_output_large_tokamak_MFILE.DAT b/examples/data/csv_output_large_tokamak_MFILE.DAT
index c005fd08e4..02e170d3c5 100644
--- a/examples/data/csv_output_large_tokamak_MFILE.DAT
+++ b/examples/data/csv_output_large_tokamak_MFILE.DAT
@@ -61,9 +61,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.6968E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      9.4947E-01    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.6925E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.8528E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0948E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.8527E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.8528E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0948E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.8527E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.3084E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      1.1244E+00    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      7.3057E-01    
@@ -553,7 +553,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.5043E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      5.8939E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      5.8939E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8401E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.8571E+02    
  # Times #
@@ -605,7 +605,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -773,26 +773,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.0573E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.3084E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.3997E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.5395E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.3997E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.5395E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0618E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.4704E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.9770E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.3221E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      4.2900E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.4704E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.9770E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.3221E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      4.2900E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.2870E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      4.2063E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.0066E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      4.2063E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.0066E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      2.0588E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.5551E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      8.8176E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      8.8176E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.1169E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      2.8819E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.2351E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.7006E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      5.3310E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      2.8819E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.2351E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.7006E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      5.3310E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.8991E+08 OP 
@@ -801,15 +801,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.5405E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5000E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5000E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.9935E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.9935E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.7333E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.3195E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.5778E-02    
@@ -817,68 +817,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      5.5693E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      4.2524E+02 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.3091E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.3091E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.2994E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.2994E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.6436E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.6436E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.8574E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.6228E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0543E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.6228E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0543E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.3991E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.3991E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.3830E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.3830E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.1532E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      7.1259E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6706E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      7.1259E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6706E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1273E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1273E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9061E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9061E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.6244E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6246E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6706E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6246E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6706E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1273E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1273E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9061E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9061E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.6244E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6246E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5180E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6246E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5180E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.0922E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.0922E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.3097E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.3097E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.2388E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5758E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5180E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5758E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5180E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.0922E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.0922E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.3097E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.3097E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.2388E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5758E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.3365E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5758E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.3365E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.5551E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.4232E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.7693E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.3997E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.4232E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.7693E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.3997E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      3.8915E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -5.9000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -5.9000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.8528E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -1.9610E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.8528E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -1.9610E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.4447E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.8574E+07    
@@ -1296,20 +1296,20 @@ bmxlim = 14.0
 * Central solenoid EOF current density upper limit *
 *--------------------------------------------------*
 icc = 26
-ixc = 37 * coheof [A/m2]
+ixc = 37 * j_cs_flat_top_end [A/m2]
 ixc = 38 * fjohc
 boundu(38) = 1.0
-coheof = 1.5E7
+j_cs_flat_top_end = 1.5E7
 fjohc = 0.6
 
 * Central solenoid BOP current density upper limit *
 *--------------------------------------------------*
 icc = 27
 ixc = 39 * fjohc0
-ixc = 41 * fcohbop
+ixc = 41 * f_j_cs_start_pulse_end_flat_top
 boundu(39) = 1.0
 fjohc0 = 0.6
-fcohbop = 0.9
+f_j_cs_start_pulse_end_flat_top = 0.9
 
 * I_op/I_Crit TF coil limit *
 *---------------------------*
@@ -1465,9 +1465,9 @@ cpttf = 65000.0
 ixc = 109
 boundu(109) = 0.1
 
-* CS steel fraction, oh_steel_frac
+* CS steel fraction, f_a_cs_steel
 ixc = 122
-oh_steel_frac = 0.8
+f_a_cs_steel = 0.8
 
 * core impurity fraction, Xenon
 ixc = 135
@@ -1734,27 +1734,27 @@ iavail = 0
 ************
 
 * Peak current per turn input for PF coil i [A]
-cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
+c_pf_coil_turn_peak_input = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
 
 * Switch for locating scheme of pf coil group i
-ipfloc = 2,2,3,3
+i_pf_location = 2,2,3,3
 
 * Switch for superconductor material in pf coils
-isumatpf = 3
+i_pf_superconductor = 3
 
 * Number of pf coils in group j
-ncls = 1,1,2,2
+n_pf_coils_in_group = 1,1,2,2
 
 * Number of groups of PF coils
-ngrp = 4
+n_pf_coil_groups = 4
 
 * Central solenoid height / TF coil internal height
-ohhghf = 0.9
+f_z_cs_tf_internal = 0.9
 
 * Average winding pack current density of PF coil i [A/m2]
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
 
-* Offset of radial position of ipfloc=2 pf coils [m]
+* Offset of radial position of i_pf_location=2 pf coils [m]
 rpf2 = -1.825 
 
 zref(1) = 3.6
@@ -1770,7 +1770,7 @@ zref(8) = 1.0
 fcuohsu = 0.70
 
 * ITER Nb3Sn parameterisation
-isumatoh = 1
+i_cs_superconductor = 1
 
 * TF Coil *
 ***********
diff --git a/examples/data/large_tokamak_1_MFILE.DAT b/examples/data/large_tokamak_1_MFILE.DAT
index 8f554a3f05..10e487f9b1 100644
--- a/examples/data/large_tokamak_1_MFILE.DAT
+++ b/examples/data/large_tokamak_1_MFILE.DAT
@@ -62,9 +62,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.4190E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      9.0316E-01    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.4144E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.4380E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0487E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.4374E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.4380E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0487E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.4374E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.1737E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      1.1036E+00    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      7.1709E-01    
@@ -551,7 +551,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.6029E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      5.7728E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      5.7728E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8601E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.7014E+02    
  # Times #
@@ -602,7 +602,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -768,26 +768,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.9795E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.1737E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.4050E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.4918E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.4050E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.4918E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0475E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.5294E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.9126E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.3920E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.6097E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.5294E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.9126E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.3920E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.6097E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0829E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.6485E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.0264E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.6485E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.0264E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      1.9854E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.7587E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      9.1407E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      9.1407E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.3996E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.0797E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3199E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.7411E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      5.1868E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.0797E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3199E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.7411E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      5.1868E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.7569E+08 OP 
@@ -796,15 +796,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.6256E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5052E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5052E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.9739E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.9739E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.6953E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.4740E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.5651E-02    
@@ -812,68 +812,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      5.3514E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      1.3378E+02 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.3603E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.3603E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.2727E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.2727E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.4541E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.4541E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.7816E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.2280E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0594E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.2280E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0594E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.3651E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.3651E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.1248E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.1248E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.0499E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      6.6990E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6731E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      6.6990E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6731E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1332E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1332E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9262E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9262E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.7049E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6389E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6731E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6389E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6731E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1332E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1332E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9262E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9262E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.7049E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6389E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5209E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6389E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5209E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.0773E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.0773E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.3049E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.3049E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.2194E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5737E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5209E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5737E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5209E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.0773E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.0773E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.3049E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.3049E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.2194E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5737E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.2734E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5737E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.2734E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.7587E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6308E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8523E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.4050E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6308E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8523E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.4050E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      3.5207E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -5.8000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -5.8000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.4380E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -1.4083E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.4380E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -1.4083E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.3971E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.7816E+07    
@@ -1291,20 +1291,20 @@ bmxlim = 14.0
 * Central solenoid EOF current density upper limit *
 *--------------------------------------------------*
 icc = 26
-ixc = 37 * coheof [A/m2]
+ixc = 37 * j_cs_flat_top_end [A/m2]
 ixc = 38 * fjohc
 boundu(38) = 1.0
-coheof = 1.5E7
+j_cs_flat_top_end = 1.5E7
 fjohc = 0.6
 
 * Central solenoid BOP current density upper limit *
 *--------------------------------------------------*
 icc = 27
 ixc = 39 * fjohc0
-ixc = 41 * fcohbop
+ixc = 41 * f_j_cs_start_pulse_end_flat_top
 boundu(39) = 1.0
 fjohc0 = 0.6
-fcohbop = 0.9
+f_j_cs_start_pulse_end_flat_top = 0.9
 
 * I_op/I_Crit TF coil limit *
 *---------------------------*
@@ -1459,9 +1459,9 @@ cpttf = 65000.0
 ixc = 109
 boundu(109) = 0.1
 
-* CS steel fraction, oh_steel_frac
+* CS steel fraction, f_a_cs_steel
 ixc = 122
-oh_steel_frac = 0.8
+f_a_cs_steel = 0.8
 
 * core impurity fraction, Xenon
 ixc = 135
@@ -1728,27 +1728,27 @@ iavail = 0
 ************
 
 * Peak current per turn input for PF coil i [A]
-cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
+c_pf_coil_turn_peak_input = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
 
 * Switch for locating scheme of pf coil group i
-ipfloc = 2,2,3,3
+i_pf_location = 2,2,3,3
 
 * Switch for superconductor material in pf coils
-isumatpf = 3
+i_pf_superconductor = 3
 
 * Number of pf coils in group j
-ncls = 1,1,2,2
+n_pf_coils_in_group = 1,1,2,2
 
 * Number of groups of PF coils
-ngrp = 4
+n_pf_coil_groups = 4
 
 * Central solenoid height / TF coil internal height
-ohhghf = 0.9
+f_z_cs_tf_internal = 0.9
 
 * Average winding pack current density of PF coil i [A/m2]
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
 
-* Offset of radial position of ipfloc=2 pf coils [m]
+* Offset of radial position of i_pf_location=2 pf coils [m]
 rpf2 = -1.825 
 
 zref(1) = 3.6
@@ -1764,7 +1764,7 @@ zref(8) = 1.0
 fcuohsu = 0.70
 
 * ITER Nb3Sn parameterisation
-isumatoh = 1
+i_cs_superconductor = 1
 
 * TF Coil *
 ***********
diff --git a/examples/data/large_tokamak_2_MFILE.DAT b/examples/data/large_tokamak_2_MFILE.DAT
index 6082bc29ce..847e86c95c 100644
--- a/examples/data/large_tokamak_2_MFILE.DAT
+++ b/examples/data/large_tokamak_2_MFILE.DAT
@@ -62,9 +62,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.4190E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      9.0316E-01    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.4144E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.4380E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0487E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.4374E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.4380E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0487E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.4374E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.1737E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      1.1036E+00    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      7.1709E-01    
@@ -551,7 +551,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.6029E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      5.7728E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      5.7728E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8601E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.7014E+02    
  # Times #
@@ -602,7 +602,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -768,26 +768,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.9795E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.1737E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.4050E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.4918E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.4050E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.4918E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0475E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.5294E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.9126E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.3920E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.6097E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.5294E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.9126E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.3920E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.6097E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0829E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.6485E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.0264E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.6485E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.0264E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      1.9854E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.7587E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      9.1407E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      9.1407E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.3996E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.0797E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3199E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.7411E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      5.1868E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.0797E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3199E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.7411E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      5.1868E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.7569E+08 OP 
@@ -796,15 +796,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.6256E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5052E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5052E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.9739E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.9739E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.6953E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.4740E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.5651E-02    
@@ -812,68 +812,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      5.3514E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      1.3378E+02 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.3603E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.3603E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.2727E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.2727E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.4541E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.4541E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.7816E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.2280E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0594E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.2280E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0594E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.3651E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.3651E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.1248E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.1248E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.0499E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      6.6990E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6731E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      6.6990E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6731E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1332E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1332E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9262E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9262E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.7049E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6389E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6731E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6389E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6731E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1332E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1332E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9262E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9262E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.7049E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6389E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5209E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6389E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5209E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.0773E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.0773E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.3049E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.3049E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.2194E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5737E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5209E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5737E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5209E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.0773E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.0773E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.3049E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.3049E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.2194E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5737E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.2734E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5737E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.2734E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.7587E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6308E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8523E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.4050E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6308E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8523E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.4050E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      3.5207E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -5.8000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -5.8000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.4380E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -1.4083E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.4380E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -1.4083E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.3971E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.7816E+07    
@@ -1291,20 +1291,20 @@ bmxlim = 14.0
 * Central solenoid EOF current density upper limit *
 *--------------------------------------------------*
 icc = 26
-ixc = 37 * coheof [A/m2]
+ixc = 37 * j_cs_flat_top_end [A/m2]
 ixc = 38 * fjohc
 boundu(38) = 1.0
-coheof = 1.5E7
+j_cs_flat_top_end = 1.5E7
 fjohc = 0.6
 
 * Central solenoid BOP current density upper limit *
 *--------------------------------------------------*
 icc = 27
 ixc = 39 * fjohc0
-ixc = 41 * fcohbop
+ixc = 41 * f_j_cs_start_pulse_end_flat_top
 boundu(39) = 1.0
 fjohc0 = 0.6
-fcohbop = 0.9
+f_j_cs_start_pulse_end_flat_top = 0.9
 
 * I_op/I_Crit TF coil limit *
 *---------------------------*
@@ -1459,9 +1459,9 @@ cpttf = 65000.0
 ixc = 109
 boundu(109) = 0.1
 
-* CS steel fraction, oh_steel_frac
+* CS steel fraction, f_a_cs_steel
 ixc = 122
-oh_steel_frac = 0.8
+f_a_cs_steel = 0.8
 
 * core impurity fraction, Xenon
 ixc = 135
@@ -1728,27 +1728,27 @@ iavail = 0
 ************
 
 * Peak current per turn input for PF coil i [A]
-cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
+c_pf_coil_turn_peak_input = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
 
 * Switch for locating scheme of pf coil group i
-ipfloc = 2,2,3,3
+i_pf_location = 2,2,3,3
 
 * Switch for superconductor material in pf coils
-isumatpf = 3
+i_pf_superconductor = 3
 
 * Number of pf coils in group j
-ncls = 1,1,2,2
+n_pf_coils_in_group = 1,1,2,2
 
 * Number of groups of PF coils
-ngrp = 4
+n_pf_coil_groups = 4
 
 * Central solenoid height / TF coil internal height
-ohhghf = 0.9
+f_z_cs_tf_internal = 0.9
 
 * Average winding pack current density of PF coil i [A/m2]
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
 
-* Offset of radial position of ipfloc=2 pf coils [m]
+* Offset of radial position of i_pf_location=2 pf coils [m]
 rpf2 = -1.825 
 
 zref(1) = 3.6
@@ -1764,7 +1764,7 @@ zref(8) = 1.0
 fcuohsu = 0.70
 
 * ITER Nb3Sn parameterisation
-isumatoh = 1
+i_cs_superconductor = 1
 
 * TF Coil *
 ***********
diff --git a/examples/data/large_tokamak_3_MFILE.DAT b/examples/data/large_tokamak_3_MFILE.DAT
index 9f03ff0b92..396c1613e0 100644
--- a/examples/data/large_tokamak_3_MFILE.DAT
+++ b/examples/data/large_tokamak_3_MFILE.DAT
@@ -62,9 +62,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.4190E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      9.0316E-01    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.4144E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.4380E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0487E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.4374E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.4380E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0487E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.4374E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.1737E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      1.1036E+00    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      6.1709E-01    
@@ -551,7 +551,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.6029E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      5.7728E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      5.7728E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8601E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.7014E+02    
  # Times #
@@ -602,7 +602,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -768,26 +768,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.9795E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.1737E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.4050E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.4918E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.4050E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.4918E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0475E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.5294E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.9126E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.3920E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.6097E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.5294E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.9126E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.3920E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.6097E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0829E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.6485E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.0264E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.6485E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.0264E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      1.9854E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.7587E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      9.1407E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      9.1407E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.3996E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.0797E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3199E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.7411E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      5.1868E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.0797E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3199E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.7411E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      5.1868E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.7569E+08 OP 
@@ -796,15 +796,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.6256E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5052E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5052E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.9739E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.9739E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.6953E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.4740E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.5651E-02    
@@ -812,68 +812,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      5.3514E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      1.3378E+02 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.3603E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.3603E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.2727E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.2727E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.4541E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.4541E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.7816E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.2280E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0594E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.2280E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0594E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.3651E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.3651E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.1248E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.1248E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.0499E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      6.6990E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6731E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      6.6990E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6731E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1332E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1332E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9262E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9262E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.7049E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6389E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6731E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6389E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6731E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1332E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1332E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9262E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9262E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.7049E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6389E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5209E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6389E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5209E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.0773E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.0773E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.3049E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.3049E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.2194E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5737E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5209E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5737E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5209E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.0773E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.0773E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.3049E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.3049E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.2194E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5737E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.2734E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5737E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.2734E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.7587E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6308E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8523E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.4050E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6308E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8523E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.4050E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      3.5207E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -5.8000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -5.8000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.4380E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -1.4083E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.4380E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -1.4083E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.3971E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.7816E+07    
@@ -1291,20 +1291,20 @@ bmxlim = 14.0
 * Central solenoid EOF current density upper limit *
 *--------------------------------------------------*
 icc = 26
-ixc = 37 * coheof [A/m2]
+ixc = 37 * j_cs_flat_top_end [A/m2]
 ixc = 38 * fjohc
 boundu(38) = 1.0
-coheof = 1.5E7
+j_cs_flat_top_end = 1.5E7
 fjohc = 0.6
 
 * Central solenoid BOP current density upper limit *
 *--------------------------------------------------*
 icc = 27
 ixc = 39 * fjohc0
-ixc = 41 * fcohbop
+ixc = 41 * f_j_cs_start_pulse_end_flat_top
 boundu(39) = 1.0
 fjohc0 = 0.6
-fcohbop = 0.9
+f_j_cs_start_pulse_end_flat_top = 0.9
 
 * I_op/I_Crit TF coil limit *
 *---------------------------*
@@ -1459,9 +1459,9 @@ cpttf = 65000.0
 ixc = 109
 boundu(109) = 0.1
 
-* CS steel fraction, oh_steel_frac
+* CS steel fraction, f_a_cs_steel
 ixc = 122
-oh_steel_frac = 0.8
+f_a_cs_steel = 0.8
 
 * core impurity fraction, Xenon
 ixc = 135
@@ -1729,27 +1729,27 @@ iavail = 0
 ************
 
 * Peak current per turn input for PF coil i [A]
-cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
+c_pf_coil_turn_peak_input = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
 
 * Switch for locating scheme of pf coil group i
-ipfloc = 2,2,3,3
+i_pf_location = 2,2,3,3
 
 * Switch for superconductor material in pf coils
-isumatpf = 3
+i_pf_superconductor = 3
 
 * Number of pf coils in group j
-ncls = 1,1,2,2
+n_pf_coils_in_group = 1,1,2,2
 
 * Number of groups of PF coils
-ngrp = 4
+n_pf_coil_groups = 4
 
 * Central solenoid height / TF coil internal height
-ohhghf = 0.9
+f_z_cs_tf_internal = 0.9
 
 * Average winding pack current density of PF coil i [A/m2]
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
 
-* Offset of radial position of ipfloc=2 pf coils [m]
+* Offset of radial position of i_pf_location=2 pf coils [m]
 rpf2 = -1.825 
 
 zref(1) = 3.6
@@ -1765,7 +1765,7 @@ zref(8) = 1.0
 fcuohsu = 0.70
 
 * ITER Nb3Sn parameterisation
-isumatoh = 1
+i_cs_superconductor = 1
 
 * TF Coil *
 ***********
diff --git a/examples/data/large_tokamak_4_MFILE.DAT b/examples/data/large_tokamak_4_MFILE.DAT
index a9b5f4faa0..a6bdf2d151 100644
--- a/examples/data/large_tokamak_4_MFILE.DAT
+++ b/examples/data/large_tokamak_4_MFILE.DAT
@@ -62,9 +62,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.4190E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      9.0316E-01    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.4144E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.4380E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0487E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.8374E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.4380E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0487E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.8374E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.1737E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      1.1036E+00    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      7.1709E-01    
@@ -551,7 +551,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.6029E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      5.7728E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      5.7728E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8601E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.7014E+02    
  # Times #
@@ -602,7 +602,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -768,26 +768,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.9795E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.1737E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.4050E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.4918E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.4050E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.4918E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0475E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.5294E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.9126E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.3920E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.6097E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.5294E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.9126E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.3920E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.6097E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0829E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.6485E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.0264E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.6485E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.0264E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      1.9854E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.7587E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      9.1407E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      9.1407E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.3996E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.0797E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3199E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.7411E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      5.1868E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.0797E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3199E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.7411E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      5.1868E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.7569E+08 OP 
@@ -796,15 +796,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.6256E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5052E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5052E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.9739E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.9739E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.6953E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.4740E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.5651E-02    
@@ -812,68 +812,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      5.3514E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      1.3378E+02 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.3603E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.3603E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.2727E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.2727E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.4541E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.4541E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.7816E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.2280E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0594E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.2280E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0594E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.3651E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.3651E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.1248E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.1248E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.0499E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      6.6990E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6731E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      6.6990E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6731E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1332E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1332E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9262E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9262E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.7049E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6389E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6731E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6389E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6731E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1332E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1332E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9262E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9262E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.7049E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6389E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5209E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6389E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5209E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.0773E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.0773E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.3049E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.3049E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.2194E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5737E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5209E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5737E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5209E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.0773E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.0773E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.3049E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.3049E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.2194E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5737E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.2734E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5737E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.2734E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.7587E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6308E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8523E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.4050E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6308E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8523E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.4050E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      3.5207E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -5.8000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -5.8000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.4380E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -1.4083E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.4380E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -1.4083E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.3971E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.7816E+07    
@@ -1291,20 +1291,20 @@ bmxlim = 14.0
 * Central solenoid EOF current density upper limit *
 *--------------------------------------------------*
 icc = 26
-ixc = 37 * coheof [A/m2]
+ixc = 37 * j_cs_flat_top_end [A/m2]
 ixc = 38 * fjohc
 boundu(38) = 1.0
-coheof = 1.5E7
+j_cs_flat_top_end = 1.5E7
 fjohc = 0.6
 
 * Central solenoid BOP current density upper limit *
 *--------------------------------------------------*
 icc = 27
 ixc = 39 * fjohc0
-ixc = 41 * fcohbop
+ixc = 41 * f_j_cs_start_pulse_end_flat_top
 boundu(39) = 1.0
 fjohc0 = 0.6
-fcohbop = 0.9
+f_j_cs_start_pulse_end_flat_top = 0.9
 
 * I_op/I_Crit TF coil limit *
 *---------------------------*
@@ -1459,9 +1459,9 @@ cpttf = 65000.0
 ixc = 109
 boundu(109) = 0.1
 
-* CS steel fraction, oh_steel_frac
+* CS steel fraction, f_a_cs_steel
 ixc = 122
-oh_steel_frac = 0.8
+f_a_cs_steel = 0.8
 
 * core impurity fraction, Xenon
 ixc = 135
@@ -1729,27 +1729,27 @@ iavail = 0
 ************
 
 * Peak current per turn input for PF coil i [A]
-cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
+c_pf_coil_turn_peak_input = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
 
 * Switch for locating scheme of pf coil group i
-ipfloc = 2,2,3,3
+i_pf_location = 2,2,3,3
 
 * Switch for superconductor material in pf coils
-isumatpf = 3
+i_pf_superconductor = 3
 
 * Number of pf coils in group j
-ncls = 1,1,2,2
+n_pf_coils_in_group = 1,1,2,2
 
 * Number of groups of PF coils
-ngrp = 4
+n_pf_coil_groups = 4
 
 * Central solenoid height / TF coil internal height
-ohhghf = 0.9
+f_z_cs_tf_internal = 0.9
 
 * Average winding pack current density of PF coil i [A/m2]
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
 
-* Offset of radial position of ipfloc=2 pf coils [m]
+* Offset of radial position of i_pf_location=2 pf coils [m]
 rpf2 = -1.825 
 
 zref(1) = 3.6
@@ -1765,7 +1765,7 @@ zref(8) = 1.0
 fcuohsu = 0.70
 
 * ITER Nb3Sn parameterisation
-isumatoh = 1
+i_cs_superconductor = 1
 
 * TF Coil *
 ***********
diff --git a/examples/data/large_tokamak_IN.DAT b/examples/data/large_tokamak_IN.DAT
index 89099c6042..95029ac392 100644
--- a/examples/data/large_tokamak_IN.DAT
+++ b/examples/data/large_tokamak_IN.DAT
@@ -103,20 +103,20 @@ bmxlim = 14.0
 * Central solenoid EOF current density upper limit *
 *--------------------------------------------------*
 icc = 26
-ixc = 37 * coheof [A/m2]
+ixc = 37 * j_cs_flat_top_end [A/m2]
 ixc = 38 * fjohc
 boundu(38) = 1.0
-coheof = 1.5E7
+j_cs_flat_top_end = 1.5E7
 fjohc = 0.6
 
 * Central solenoid BOP current density upper limit *
 *--------------------------------------------------*
 icc = 27
 ixc = 39 * fjohc0
-ixc = 41 * fcohbop
+ixc = 41 * f_j_cs_start_pulse_end_flat_top
 boundu(39) = 1.0
 fjohc0 = 0.6
-fcohbop = 0.9
+f_j_cs_start_pulse_end_flat_top = 0.9
 
 * I_op/I_Crit TF coil limit *
 *---------------------------*
@@ -269,9 +269,9 @@ cpttf = 65000.0
 ixc = 109
 boundu(109) = 0.1
 
-* CS steel fraction, oh_steel_frac
+* CS steel fraction, f_a_cs_steel
 ixc = 122
-oh_steel_frac = 0.8
+f_a_cs_steel = 0.8
 
 * core impurity fraction, Xenon
 ixc = 135
@@ -539,27 +539,27 @@ iavail = 0
 ************
 
 * Peak current per turn input for PF coil i [A]
-cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
+c_pf_coil_turn_peak_input = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
 
 * Switch for locating scheme of pf coil group i
-ipfloc = 2,2,3,3
+i_pf_location = 2,2,3,3
 
 * Switch for superconductor material in pf coils
-isumatpf = 3
+i_pf_superconductor = 3
 
 * Number of pf coils in group j
-ncls = 1,1,2,2
+n_pf_coils_in_group = 1,1,2,2
 
 * Number of groups of PF coils
-ngrp = 4
+n_pf_coil_groups = 4
 
 * Central solenoid height / TF coil internal height
-ohhghf = 0.9
+f_z_cs_tf_internal = 0.9
 
 * Average winding pack current density of PF coil i [A/m2]
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
 
-* Offset of radial position of ipfloc=2 pf coils [m]
+* Offset of radial position of i_pf_location=2 pf coils [m]
 rpf2 = -1.825 
 
 zref(1) = 3.6
@@ -575,7 +575,7 @@ zref(8) = 1.0
 fcuohsu = 0.70
 
 * ITER Nb3Sn parameterisation
-isumatoh = 1
+i_cs_superconductor = 1
 
 * TF Coil *
 ***********
diff --git a/examples/data/mfile_to_csv_vars.json b/examples/data/mfile_to_csv_vars.json
index dc589edaef..1e089ba71c 100644
--- a/examples/data/mfile_to_csv_vars.json
+++ b/examples/data/mfile_to_csv_vars.json
@@ -8,7 +8,7 @@
         "alstroh",
         "sig_tf_wp_max",
         "thwcndut",
-        "fcohbop",
+        "f_j_cs_start_pulse_end_flat_top",
         "alstroh",
         "rmajor",
         "dr_tf_inboard",
diff --git a/examples/data/scan_MFILE.DAT b/examples/data/scan_MFILE.DAT
index c6b477d872..916cf5431a 100644
--- a/examples/data/scan_MFILE.DAT
+++ b/examples/data/scan_MFILE.DAT
@@ -68,9 +68,9 @@
  fjohc0__________________________________________________________________ (itvar015)____________________      1.3899E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm015)______________________      2.5776E-01    
  fjohc0_(range_normalised)_______________________________________________ (nitvar015)___________________      1.3813E-01    
- fcohbop_________________________________________________________________ (itvar016)____________________      1.0000E+00    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0732E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar016)____________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0732E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
  gapoh___________________________________________________________________ (itvar017)____________________      5.0000E-02    
  gapoh_(final_value/initial_value)_______________________________________ (xcm017)______________________      1.0000E+00    
  gapoh_(range_normalised)________________________________________________ (nitvar017)___________________      0.0000E+00    
@@ -406,7 +406,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      5.1000E+01    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      4.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.2750E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.2115E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.2115E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      3.6189E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.3054E+02    
  # Times #
@@ -455,7 +455,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      7.6976E+00    
@@ -616,26 +616,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      7.5516E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      6.4527E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              5    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.1499E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      6.6143E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              5    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.1499E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      6.6143E+08 OP 
  Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________      1.9843E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      9.2008E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.2788E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.0525E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      8.1933E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      9.2008E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.2788E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.0525E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      8.1933E+08 OP 
  Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________      2.4580E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      1.1397E+08 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      1.2788E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      1.1397E+08 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      1.2788E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore.)_______________________      2.2626E+00    
  CS_thickness_(m)________________________________________________________ (dr_cs.)______________________      7.0754E-01    
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      5.0000E-02 ITV
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      1.1774E+01 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      1.1774E+01 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      7.7989E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      5.4592E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      2.3397E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      3.9748E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      3.3760E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      5.4592E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      2.3397E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      3.9748E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      3.3760E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      6.6000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.6000E+08 OP 
@@ -644,72 +644,72 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.2933E+09 OP 
  Strain_on_CS_superconductor_____________________________________________ (strncon_cs)__________________     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      4.1259E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      4.1259E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_01_radius_(m)___________________________________________________ (rpf(01))_____________________      6.4763E+00    
- PF_coil_01_vertical_position_(m)________________________________________ (zpf(01))_____________________      9.9877E+00    
+ PF_coil_01_radius_(m)___________________________________________________ (r_pf_coil_middle(01))_____________________      6.4763E+00    
+ PF_coil_01_vertical_position_(m)________________________________________ (z_pf_coil_middle(01))_____________________      9.9877E+00    
  PF_coil_01_radial_thickness_(m)_________________________________________ (pfdr01)______________________      1.1966E+00    
  PF_coil_01_vertical_thickness_(m)_______________________________________ (pfdz01)______________________      1.1966E+00    
- PF_coil_01_turns________________________________________________________ (turns(01))___________________      3.7322E+02    
+ PF_coil_01_turns________________________________________________________ (n_pf_coil_turns(01))___________________      3.7322E+02    
  PF_coil_01_current_(MA)_________________________________________________ (ric(01))_____________________      1.5750E+01    
- PF_coil_01_field_(T)____________________________________________________ (bpf(01))_____________________      4.7287E+00    
- PF_coil_02_radius_(m)___________________________________________________ (rpf(02))_____________________      6.4763E+00    
- PF_coil_02_vertical_position_(m)________________________________________ (zpf(02))_____________________     -1.1505E+01    
+ PF_coil_01_field_(T)____________________________________________________ (b_pf_coil_peak(01))_____________________      4.7287E+00    
+ PF_coil_02_radius_(m)___________________________________________________ (r_pf_coil_middle(02))_____________________      6.4763E+00    
+ PF_coil_02_vertical_position_(m)________________________________________ (z_pf_coil_middle(02))_____________________     -1.1505E+01    
  PF_coil_02_radial_thickness_(m)_________________________________________ (pfdr02)______________________      1.2848E+00    
  PF_coil_02_vertical_thickness_(m)_______________________________________ (pfdz02)______________________     -1.2848E+00    
- PF_coil_02_turns________________________________________________________ (turns(02))___________________      4.3026E+02    
+ PF_coil_02_turns________________________________________________________ (n_pf_coil_turns(02))___________________      4.3026E+02    
  PF_coil_02_current_(MA)_________________________________________________ (ric(02))_____________________      1.8157E+01    
- PF_coil_02_field_(T)____________________________________________________ (bpf(02))_____________________      5.1781E+00    
- PF_coil_03_radius_(m)___________________________________________________ (rpf(03))_____________________      1.9032E+01    
- PF_coil_03_vertical_position_(m)________________________________________ (zpf(03))_____________________      2.9606E+00    
+ PF_coil_02_field_(T)____________________________________________________ (b_pf_coil_peak(02))_____________________      5.1781E+00    
+ PF_coil_03_radius_(m)___________________________________________________ (r_pf_coil_middle(03))_____________________      1.9032E+01    
+ PF_coil_03_vertical_position_(m)________________________________________ (z_pf_coil_middle(03))_____________________      2.9606E+00    
  PF_coil_03_radial_thickness_(m)_________________________________________ (pfdr03)______________________      1.1659E+00    
  PF_coil_03_vertical_thickness_(m)_______________________________________ (pfdz03)______________________      1.1659E+00    
- PF_coil_03_turns________________________________________________________ (turns(03))___________________      1.9327E+02    
+ PF_coil_03_turns________________________________________________________ (n_pf_coil_turns(03))___________________      1.9327E+02    
  PF_coil_03_current_(MA)_________________________________________________ (ric(03))_____________________     -8.1561E+00    
- PF_coil_03_field_(T)____________________________________________________ (bpf(03))_____________________      2.6808E+00    
- PF_coil_04_radius_(m)___________________________________________________ (rpf(04))_____________________      1.9032E+01    
- PF_coil_04_vertical_position_(m)________________________________________ (zpf(04))_____________________     -2.9606E+00    
+ PF_coil_03_field_(T)____________________________________________________ (b_pf_coil_peak(03))_____________________      2.6808E+00    
+ PF_coil_04_radius_(m)___________________________________________________ (r_pf_coil_middle(04))_____________________      1.9032E+01    
+ PF_coil_04_vertical_position_(m)________________________________________ (z_pf_coil_middle(04))_____________________     -2.9606E+00    
  PF_coil_04_radial_thickness_(m)_________________________________________ (pfdr04)______________________      1.1659E+00    
  PF_coil_04_vertical_thickness_(m)_______________________________________ (pfdz04)______________________     -1.1659E+00    
- PF_coil_04_turns________________________________________________________ (turns(04))___________________      1.9327E+02    
+ PF_coil_04_turns________________________________________________________ (n_pf_coil_turns(04))___________________      1.9327E+02    
  PF_coil_04_current_(MA)_________________________________________________ (ric(04))_____________________     -8.1561E+00    
- PF_coil_04_field_(T)____________________________________________________ (bpf(04))_____________________      2.6808E+00    
- PF_coil_05_radius_(m)___________________________________________________ (rpf(05))_____________________      1.7386E+01    
- PF_coil_05_vertical_position_(m)________________________________________ (zpf(05))_____________________      8.2897E+00    
+ PF_coil_04_field_(T)____________________________________________________ (b_pf_coil_peak(04))_____________________      2.6808E+00    
+ PF_coil_05_radius_(m)___________________________________________________ (r_pf_coil_middle(05))_____________________      1.7386E+01    
+ PF_coil_05_vertical_position_(m)________________________________________ (z_pf_coil_middle(05))_____________________      8.2897E+00    
  PF_coil_05_radial_thickness_(m)_________________________________________ (pfdr05)______________________      8.2067E-01    
  PF_coil_05_vertical_thickness_(m)_______________________________________ (pfdz05)______________________      8.2067E-01    
- PF_coil_05_turns________________________________________________________ (turns(05))___________________      1.2530E+02    
+ PF_coil_05_turns________________________________________________________ (n_pf_coil_turns(05))___________________      1.2530E+02    
  PF_coil_05_current_(MA)_________________________________________________ (ric(05))_____________________     -5.3879E+00    
- PF_coil_05_field_(T)____________________________________________________ (bpf(05))_____________________      2.5876E+00    
- PF_coil_06_radius_(m)___________________________________________________ (rpf(06))_____________________      1.7386E+01    
- PF_coil_06_vertical_position_(m)________________________________________ (zpf(06))_____________________     -8.2897E+00    
+ PF_coil_05_field_(T)____________________________________________________ (b_pf_coil_peak(05))_____________________      2.5876E+00    
+ PF_coil_06_radius_(m)___________________________________________________ (r_pf_coil_middle(06))_____________________      1.7386E+01    
+ PF_coil_06_vertical_position_(m)________________________________________ (z_pf_coil_middle(06))_____________________     -8.2897E+00    
  PF_coil_06_radial_thickness_(m)_________________________________________ (pfdr06)______________________      8.2067E-01    
  PF_coil_06_vertical_thickness_(m)_______________________________________ (pfdz06)______________________     -8.2067E-01    
- PF_coil_06_turns________________________________________________________ (turns(06))___________________      1.2530E+02    
+ PF_coil_06_turns________________________________________________________ (n_pf_coil_turns(06))___________________      1.2530E+02    
  PF_coil_06_current_(MA)_________________________________________________ (ric(06))_____________________     -5.3879E+00    
- PF_coil_06_field_(T)____________________________________________________ (bpf(06))_____________________      2.5876E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf(nohc))___________________      2.6164E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf(nohc))___________________      0.0000E+00    
+ PF_coil_06_field_(T)____________________________________________________ (b_pf_coil_peak(06))_____________________      2.5876E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle(n_cs_pf_coils))___________________      2.6164E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle(n_cs_pf_coils))___________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      7.0754E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.6640E+01    
- Central_solenoid_turns__________________________________________________ (turns(nohc))_________________      3.5015E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric(nohc))___________________     -1.5057E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf(nohc))___________________      1.1499E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns(n_cs_pf_coils))_________________      3.5015E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric(n_cs_pf_coils))___________________     -1.5057E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak(n_cs_pf_coils))___________________      1.1499E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      4.0453E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.2115E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.2115E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      1.0000E+00 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________      4.6908E-02 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      1.0000E+00 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________      4.6908E-02 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_01_-_Time_point_01_(A)_______________________________________ (pfc01t01)____________________      0.0000E+00    
  PF_Circuit_01_-_Time_point_02_(A)_______________________________________ (pfc01t02)____________________      1.2790E+07    
  PF_Circuit_01_-_Time_point_03_(A)_______________________________________ (pfc01t03)____________________      1.5750E+07    
@@ -1063,9 +1063,9 @@
  fjohc0__________________________________________________________________ (itvar015)____________________      1.3899E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0000E+00    
  fjohc0_(range_normalised)_______________________________________________ (nitvar015)___________________      1.3813E-01    
- fcohbop_________________________________________________________________ (itvar016)____________________      1.0000E+00    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar016)____________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
  gapoh___________________________________________________________________ (itvar017)____________________      5.0000E-02    
  gapoh_(final_value/initial_value)_______________________________________ (xcm017)______________________      1.0000E+00    
  gapoh_(range_normalised)________________________________________________ (nitvar017)___________________      0.0000E+00    
@@ -1401,7 +1401,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      5.1000E+01    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      4.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.2750E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.2115E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.2115E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      3.6189E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.3054E+02    
  # Times #
@@ -1450,7 +1450,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      7.6976E+00    
@@ -1611,26 +1611,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      7.5516E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      6.4527E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              5    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.1499E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      6.6143E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              5    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.1499E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      6.6143E+08 OP 
  Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________      1.9843E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      9.2008E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.2788E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.0525E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      8.1933E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      9.2008E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.2788E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.0525E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      8.1933E+08 OP 
  Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________      2.4580E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      1.1397E+08 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      1.2788E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      1.1397E+08 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      1.2788E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore.)_______________________      2.2626E+00    
  CS_thickness_(m)________________________________________________________ (dr_cs.)______________________      7.0754E-01    
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      5.0000E-02 ITV
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      1.1774E+01 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      1.1774E+01 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      7.7989E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      5.4592E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      2.3397E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      3.9748E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      3.3760E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      5.4592E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      2.3397E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      3.9748E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      3.3760E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      6.6000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.6000E+08 OP 
@@ -1639,72 +1639,72 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.2933E+09 OP 
  Strain_on_CS_superconductor_____________________________________________ (strncon_cs)__________________     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      4.1259E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      4.1259E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_01_radius_(m)___________________________________________________ (rpf(01))_____________________      6.4763E+00    
- PF_coil_01_vertical_position_(m)________________________________________ (zpf(01))_____________________      9.9877E+00    
+ PF_coil_01_radius_(m)___________________________________________________ (r_pf_coil_middle(01))_____________________      6.4763E+00    
+ PF_coil_01_vertical_position_(m)________________________________________ (z_pf_coil_middle(01))_____________________      9.9877E+00    
  PF_coil_01_radial_thickness_(m)_________________________________________ (pfdr01)______________________      1.1966E+00    
  PF_coil_01_vertical_thickness_(m)_______________________________________ (pfdz01)______________________      1.1966E+00    
- PF_coil_01_turns________________________________________________________ (turns(01))___________________      3.7322E+02    
+ PF_coil_01_turns________________________________________________________ (n_pf_coil_turns(01))___________________      3.7322E+02    
  PF_coil_01_current_(MA)_________________________________________________ (ric(01))_____________________      1.5750E+01    
- PF_coil_01_field_(T)____________________________________________________ (bpf(01))_____________________      4.7287E+00    
- PF_coil_02_radius_(m)___________________________________________________ (rpf(02))_____________________      6.4763E+00    
- PF_coil_02_vertical_position_(m)________________________________________ (zpf(02))_____________________     -1.1505E+01    
+ PF_coil_01_field_(T)____________________________________________________ (b_pf_coil_peak(01))_____________________      4.7287E+00    
+ PF_coil_02_radius_(m)___________________________________________________ (r_pf_coil_middle(02))_____________________      6.4763E+00    
+ PF_coil_02_vertical_position_(m)________________________________________ (z_pf_coil_middle(02))_____________________     -1.1505E+01    
  PF_coil_02_radial_thickness_(m)_________________________________________ (pfdr02)______________________      1.2848E+00    
  PF_coil_02_vertical_thickness_(m)_______________________________________ (pfdz02)______________________     -1.2848E+00    
- PF_coil_02_turns________________________________________________________ (turns(02))___________________      4.3026E+02    
+ PF_coil_02_turns________________________________________________________ (n_pf_coil_turns(02))___________________      4.3026E+02    
  PF_coil_02_current_(MA)_________________________________________________ (ric(02))_____________________      1.8157E+01    
- PF_coil_02_field_(T)____________________________________________________ (bpf(02))_____________________      5.1781E+00    
- PF_coil_03_radius_(m)___________________________________________________ (rpf(03))_____________________      1.9032E+01    
- PF_coil_03_vertical_position_(m)________________________________________ (zpf(03))_____________________      2.9606E+00    
+ PF_coil_02_field_(T)____________________________________________________ (b_pf_coil_peak(02))_____________________      5.1781E+00    
+ PF_coil_03_radius_(m)___________________________________________________ (r_pf_coil_middle(03))_____________________      1.9032E+01    
+ PF_coil_03_vertical_position_(m)________________________________________ (z_pf_coil_middle(03))_____________________      2.9606E+00    
  PF_coil_03_radial_thickness_(m)_________________________________________ (pfdr03)______________________      1.1659E+00    
  PF_coil_03_vertical_thickness_(m)_______________________________________ (pfdz03)______________________      1.1659E+00    
- PF_coil_03_turns________________________________________________________ (turns(03))___________________      1.9327E+02    
+ PF_coil_03_turns________________________________________________________ (n_pf_coil_turns(03))___________________      1.9327E+02    
  PF_coil_03_current_(MA)_________________________________________________ (ric(03))_____________________     -8.1561E+00    
- PF_coil_03_field_(T)____________________________________________________ (bpf(03))_____________________      2.6808E+00    
- PF_coil_04_radius_(m)___________________________________________________ (rpf(04))_____________________      1.9032E+01    
- PF_coil_04_vertical_position_(m)________________________________________ (zpf(04))_____________________     -2.9606E+00    
+ PF_coil_03_field_(T)____________________________________________________ (b_pf_coil_peak(03))_____________________      2.6808E+00    
+ PF_coil_04_radius_(m)___________________________________________________ (r_pf_coil_middle(04))_____________________      1.9032E+01    
+ PF_coil_04_vertical_position_(m)________________________________________ (z_pf_coil_middle(04))_____________________     -2.9606E+00    
  PF_coil_04_radial_thickness_(m)_________________________________________ (pfdr04)______________________      1.1659E+00    
  PF_coil_04_vertical_thickness_(m)_______________________________________ (pfdz04)______________________     -1.1659E+00    
- PF_coil_04_turns________________________________________________________ (turns(04))___________________      1.9327E+02    
+ PF_coil_04_turns________________________________________________________ (n_pf_coil_turns(04))___________________      1.9327E+02    
  PF_coil_04_current_(MA)_________________________________________________ (ric(04))_____________________     -8.1561E+00    
- PF_coil_04_field_(T)____________________________________________________ (bpf(04))_____________________      2.6808E+00    
- PF_coil_05_radius_(m)___________________________________________________ (rpf(05))_____________________      1.7386E+01    
- PF_coil_05_vertical_position_(m)________________________________________ (zpf(05))_____________________      8.2897E+00    
+ PF_coil_04_field_(T)____________________________________________________ (b_pf_coil_peak(04))_____________________      2.6808E+00    
+ PF_coil_05_radius_(m)___________________________________________________ (r_pf_coil_middle(05))_____________________      1.7386E+01    
+ PF_coil_05_vertical_position_(m)________________________________________ (z_pf_coil_middle(05))_____________________      8.2897E+00    
  PF_coil_05_radial_thickness_(m)_________________________________________ (pfdr05)______________________      8.2067E-01    
  PF_coil_05_vertical_thickness_(m)_______________________________________ (pfdz05)______________________      8.2067E-01    
- PF_coil_05_turns________________________________________________________ (turns(05))___________________      1.2530E+02    
+ PF_coil_05_turns________________________________________________________ (n_pf_coil_turns(05))___________________      1.2530E+02    
  PF_coil_05_current_(MA)_________________________________________________ (ric(05))_____________________     -5.3879E+00    
- PF_coil_05_field_(T)____________________________________________________ (bpf(05))_____________________      2.5876E+00    
- PF_coil_06_radius_(m)___________________________________________________ (rpf(06))_____________________      1.7386E+01    
- PF_coil_06_vertical_position_(m)________________________________________ (zpf(06))_____________________     -8.2897E+00    
+ PF_coil_05_field_(T)____________________________________________________ (b_pf_coil_peak(05))_____________________      2.5876E+00    
+ PF_coil_06_radius_(m)___________________________________________________ (r_pf_coil_middle(06))_____________________      1.7386E+01    
+ PF_coil_06_vertical_position_(m)________________________________________ (z_pf_coil_middle(06))_____________________     -8.2897E+00    
  PF_coil_06_radial_thickness_(m)_________________________________________ (pfdr06)______________________      8.2067E-01    
  PF_coil_06_vertical_thickness_(m)_______________________________________ (pfdz06)______________________     -8.2067E-01    
- PF_coil_06_turns________________________________________________________ (turns(06))___________________      1.2530E+02    
+ PF_coil_06_turns________________________________________________________ (n_pf_coil_turns(06))___________________      1.2530E+02    
  PF_coil_06_current_(MA)_________________________________________________ (ric(06))_____________________     -5.3879E+00    
- PF_coil_06_field_(T)____________________________________________________ (bpf(06))_____________________      2.5876E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf(nohc))___________________      2.6164E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf(nohc))___________________      0.0000E+00    
+ PF_coil_06_field_(T)____________________________________________________ (b_pf_coil_peak(06))_____________________      2.5876E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle(n_cs_pf_coils))___________________      2.6164E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle(n_cs_pf_coils))___________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      7.0754E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.6640E+01    
- Central_solenoid_turns__________________________________________________ (turns(nohc))_________________      3.5015E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric(nohc))___________________     -1.5057E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf(nohc))___________________      1.1499E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns(n_cs_pf_coils))_________________      3.5015E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric(n_cs_pf_coils))___________________     -1.5057E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak(n_cs_pf_coils))___________________      1.1499E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      4.0453E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.2115E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.2115E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      1.0000E+00 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________      4.6908E-02 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      1.0000E+00 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________      4.6908E-02 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_01_-_Time_point_01_(A)_______________________________________ (pfc01t01)____________________      0.0000E+00    
  PF_Circuit_01_-_Time_point_02_(A)_______________________________________ (pfc01t02)____________________      1.2790E+07    
  PF_Circuit_01_-_Time_point_03_(A)_______________________________________ (pfc01t03)____________________      1.5750E+07    
@@ -2058,9 +2058,9 @@
  fjohc0__________________________________________________________________ (itvar015)____________________      1.3899E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0000E+00    
  fjohc0_(range_normalised)_______________________________________________ (nitvar015)___________________      1.3813E-01    
- fcohbop_________________________________________________________________ (itvar016)____________________      1.0000E+00    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar016)____________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
  gapoh___________________________________________________________________ (itvar017)____________________      5.0000E-02    
  gapoh_(final_value/initial_value)_______________________________________ (xcm017)______________________      1.0000E+00    
  gapoh_(range_normalised)________________________________________________ (nitvar017)___________________      0.0000E+00    
@@ -2396,7 +2396,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      5.1000E+01    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      4.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.2750E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.2115E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.2115E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      3.6189E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.3054E+02    
  # Times #
@@ -2445,7 +2445,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      7.6976E+00    
@@ -2606,26 +2606,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      7.5516E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      6.4527E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              5    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.1499E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      6.6143E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              5    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.1499E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      6.6143E+08 OP 
  Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________      1.9843E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      9.2008E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.2788E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.0525E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      8.1933E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      9.2008E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.2788E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.0525E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      8.1933E+08 OP 
  Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________      2.4580E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      1.1397E+08 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      1.2788E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      1.1397E+08 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      1.2788E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore.)_______________________      2.2626E+00    
  CS_thickness_(m)________________________________________________________ (dr_cs.)______________________      7.0754E-01    
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      5.0000E-02 ITV
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      1.1774E+01 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      1.1774E+01 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      7.7989E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      5.4592E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      2.3397E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      3.9748E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      3.3760E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      5.4592E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      2.3397E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      3.9748E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      3.3760E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      6.6000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.6000E+08 OP 
@@ -2634,72 +2634,72 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.2933E+09 OP 
  Strain_on_CS_superconductor_____________________________________________ (strncon_cs)__________________     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      4.1259E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      4.1259E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_01_radius_(m)___________________________________________________ (rpf(01))_____________________      6.4763E+00    
- PF_coil_01_vertical_position_(m)________________________________________ (zpf(01))_____________________      9.9877E+00    
+ PF_coil_01_radius_(m)___________________________________________________ (r_pf_coil_middle(01))_____________________      6.4763E+00    
+ PF_coil_01_vertical_position_(m)________________________________________ (z_pf_coil_middle(01))_____________________      9.9877E+00    
  PF_coil_01_radial_thickness_(m)_________________________________________ (pfdr01)______________________      1.1966E+00    
  PF_coil_01_vertical_thickness_(m)_______________________________________ (pfdz01)______________________      1.1966E+00    
- PF_coil_01_turns________________________________________________________ (turns(01))___________________      3.7322E+02    
+ PF_coil_01_turns________________________________________________________ (n_pf_coil_turns(01))___________________      3.7322E+02    
  PF_coil_01_current_(MA)_________________________________________________ (ric(01))_____________________      1.5750E+01    
- PF_coil_01_field_(T)____________________________________________________ (bpf(01))_____________________      4.7287E+00    
- PF_coil_02_radius_(m)___________________________________________________ (rpf(02))_____________________      6.4763E+00    
- PF_coil_02_vertical_position_(m)________________________________________ (zpf(02))_____________________     -1.1505E+01    
+ PF_coil_01_field_(T)____________________________________________________ (b_pf_coil_peak(01))_____________________      4.7287E+00    
+ PF_coil_02_radius_(m)___________________________________________________ (r_pf_coil_middle(02))_____________________      6.4763E+00    
+ PF_coil_02_vertical_position_(m)________________________________________ (z_pf_coil_middle(02))_____________________     -1.1505E+01    
  PF_coil_02_radial_thickness_(m)_________________________________________ (pfdr02)______________________      1.2848E+00    
  PF_coil_02_vertical_thickness_(m)_______________________________________ (pfdz02)______________________     -1.2848E+00    
- PF_coil_02_turns________________________________________________________ (turns(02))___________________      4.3026E+02    
+ PF_coil_02_turns________________________________________________________ (n_pf_coil_turns(02))___________________      4.3026E+02    
  PF_coil_02_current_(MA)_________________________________________________ (ric(02))_____________________      1.8157E+01    
- PF_coil_02_field_(T)____________________________________________________ (bpf(02))_____________________      5.1781E+00    
- PF_coil_03_radius_(m)___________________________________________________ (rpf(03))_____________________      1.9032E+01    
- PF_coil_03_vertical_position_(m)________________________________________ (zpf(03))_____________________      2.9606E+00    
+ PF_coil_02_field_(T)____________________________________________________ (b_pf_coil_peak(02))_____________________      5.1781E+00    
+ PF_coil_03_radius_(m)___________________________________________________ (r_pf_coil_middle(03))_____________________      1.9032E+01    
+ PF_coil_03_vertical_position_(m)________________________________________ (z_pf_coil_middle(03))_____________________      2.9606E+00    
  PF_coil_03_radial_thickness_(m)_________________________________________ (pfdr03)______________________      1.1659E+00    
  PF_coil_03_vertical_thickness_(m)_______________________________________ (pfdz03)______________________      1.1659E+00    
- PF_coil_03_turns________________________________________________________ (turns(03))___________________      1.9327E+02    
+ PF_coil_03_turns________________________________________________________ (n_pf_coil_turns(03))___________________      1.9327E+02    
  PF_coil_03_current_(MA)_________________________________________________ (ric(03))_____________________     -8.1561E+00    
- PF_coil_03_field_(T)____________________________________________________ (bpf(03))_____________________      2.6808E+00    
- PF_coil_04_radius_(m)___________________________________________________ (rpf(04))_____________________      1.9032E+01    
- PF_coil_04_vertical_position_(m)________________________________________ (zpf(04))_____________________     -2.9606E+00    
+ PF_coil_03_field_(T)____________________________________________________ (b_pf_coil_peak(03))_____________________      2.6808E+00    
+ PF_coil_04_radius_(m)___________________________________________________ (r_pf_coil_middle(04))_____________________      1.9032E+01    
+ PF_coil_04_vertical_position_(m)________________________________________ (z_pf_coil_middle(04))_____________________     -2.9606E+00    
  PF_coil_04_radial_thickness_(m)_________________________________________ (pfdr04)______________________      1.1659E+00    
  PF_coil_04_vertical_thickness_(m)_______________________________________ (pfdz04)______________________     -1.1659E+00    
- PF_coil_04_turns________________________________________________________ (turns(04))___________________      1.9327E+02    
+ PF_coil_04_turns________________________________________________________ (n_pf_coil_turns(04))___________________      1.9327E+02    
  PF_coil_04_current_(MA)_________________________________________________ (ric(04))_____________________     -8.1561E+00    
- PF_coil_04_field_(T)____________________________________________________ (bpf(04))_____________________      2.6808E+00    
- PF_coil_05_radius_(m)___________________________________________________ (rpf(05))_____________________      1.7386E+01    
- PF_coil_05_vertical_position_(m)________________________________________ (zpf(05))_____________________      8.2897E+00    
+ PF_coil_04_field_(T)____________________________________________________ (b_pf_coil_peak(04))_____________________      2.6808E+00    
+ PF_coil_05_radius_(m)___________________________________________________ (r_pf_coil_middle(05))_____________________      1.7386E+01    
+ PF_coil_05_vertical_position_(m)________________________________________ (z_pf_coil_middle(05))_____________________      8.2897E+00    
  PF_coil_05_radial_thickness_(m)_________________________________________ (pfdr05)______________________      8.2067E-01    
  PF_coil_05_vertical_thickness_(m)_______________________________________ (pfdz05)______________________      8.2067E-01    
- PF_coil_05_turns________________________________________________________ (turns(05))___________________      1.2530E+02    
+ PF_coil_05_turns________________________________________________________ (n_pf_coil_turns(05))___________________      1.2530E+02    
  PF_coil_05_current_(MA)_________________________________________________ (ric(05))_____________________     -5.3879E+00    
- PF_coil_05_field_(T)____________________________________________________ (bpf(05))_____________________      2.5876E+00    
- PF_coil_06_radius_(m)___________________________________________________ (rpf(06))_____________________      1.7386E+01    
- PF_coil_06_vertical_position_(m)________________________________________ (zpf(06))_____________________     -8.2897E+00    
+ PF_coil_05_field_(T)____________________________________________________ (b_pf_coil_peak(05))_____________________      2.5876E+00    
+ PF_coil_06_radius_(m)___________________________________________________ (r_pf_coil_middle(06))_____________________      1.7386E+01    
+ PF_coil_06_vertical_position_(m)________________________________________ (z_pf_coil_middle(06))_____________________     -8.2897E+00    
  PF_coil_06_radial_thickness_(m)_________________________________________ (pfdr06)______________________      8.2067E-01    
  PF_coil_06_vertical_thickness_(m)_______________________________________ (pfdz06)______________________     -8.2067E-01    
- PF_coil_06_turns________________________________________________________ (turns(06))___________________      1.2530E+02    
+ PF_coil_06_turns________________________________________________________ (n_pf_coil_turns(06))___________________      1.2530E+02    
  PF_coil_06_current_(MA)_________________________________________________ (ric(06))_____________________     -5.3879E+00    
- PF_coil_06_field_(T)____________________________________________________ (bpf(06))_____________________      2.5876E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf(nohc))___________________      2.6164E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf(nohc))___________________      0.0000E+00    
+ PF_coil_06_field_(T)____________________________________________________ (b_pf_coil_peak(06))_____________________      2.5876E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle(n_cs_pf_coils))___________________      2.6164E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle(n_cs_pf_coils))___________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      7.0754E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.6640E+01    
- Central_solenoid_turns__________________________________________________ (turns(nohc))_________________      3.5015E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric(nohc))___________________     -1.5057E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf(nohc))___________________      1.1499E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns(n_cs_pf_coils))_________________      3.5015E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric(n_cs_pf_coils))___________________     -1.5057E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak(n_cs_pf_coils))___________________      1.1499E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      4.0453E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.2115E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.2115E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      1.0000E+00 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________      4.6908E-02 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      1.0000E+00 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________      4.6908E-02 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_01_-_Time_point_01_(A)_______________________________________ (pfc01t01)____________________      0.0000E+00    
  PF_Circuit_01_-_Time_point_02_(A)_______________________________________ (pfc01t02)____________________      1.2790E+07    
  PF_Circuit_01_-_Time_point_03_(A)_______________________________________ (pfc01t03)____________________      1.5750E+07    
@@ -3053,9 +3053,9 @@
  fjohc0__________________________________________________________________ (itvar015)____________________      1.3899E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0000E+00    
  fjohc0_(range_normalised)_______________________________________________ (nitvar015)___________________      1.3813E-01    
- fcohbop_________________________________________________________________ (itvar016)____________________      1.0000E+00    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar016)____________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
  gapoh___________________________________________________________________ (itvar017)____________________      5.0000E-02    
  gapoh_(final_value/initial_value)_______________________________________ (xcm017)______________________      1.0000E+00    
  gapoh_(range_normalised)________________________________________________ (nitvar017)___________________      0.0000E+00    
@@ -3391,7 +3391,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      5.1000E+01    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      4.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.2750E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.2115E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.2115E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      3.6189E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.3054E+02    
  # Times #
@@ -3440,7 +3440,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      7.6976E+00    
@@ -3601,26 +3601,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      7.5516E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      6.4527E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              5    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.1499E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      6.6143E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              5    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.1499E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      6.6143E+08 OP 
  Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________      1.9843E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      9.2008E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.2788E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.0525E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      8.1933E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      9.2008E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.2788E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.0525E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      8.1933E+08 OP 
  Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________      2.4580E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      1.1397E+08 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      1.2788E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      1.1397E+08 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      1.2788E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore.)_______________________      2.2626E+00    
  CS_thickness_(m)________________________________________________________ (dr_cs.)______________________      7.0754E-01    
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      5.0000E-02 ITV
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      1.1774E+01 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      1.1774E+01 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      7.7989E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      5.4592E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      2.3397E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      3.9748E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      3.3760E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      5.4592E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      2.3397E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      3.9748E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      3.3760E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      6.6000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.6000E+08 OP 
@@ -3629,72 +3629,72 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.2933E+09 OP 
  Strain_on_CS_superconductor_____________________________________________ (strncon_cs)__________________     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      4.1259E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      4.1259E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_01_radius_(m)___________________________________________________ (rpf(01))_____________________      6.4763E+00    
- PF_coil_01_vertical_position_(m)________________________________________ (zpf(01))_____________________      9.9877E+00    
+ PF_coil_01_radius_(m)___________________________________________________ (r_pf_coil_middle(01))_____________________      6.4763E+00    
+ PF_coil_01_vertical_position_(m)________________________________________ (z_pf_coil_middle(01))_____________________      9.9877E+00    
  PF_coil_01_radial_thickness_(m)_________________________________________ (pfdr01)______________________      1.1966E+00    
  PF_coil_01_vertical_thickness_(m)_______________________________________ (pfdz01)______________________      1.1966E+00    
- PF_coil_01_turns________________________________________________________ (turns(01))___________________      3.7322E+02    
+ PF_coil_01_turns________________________________________________________ (n_pf_coil_turns(01))___________________      3.7322E+02    
  PF_coil_01_current_(MA)_________________________________________________ (ric(01))_____________________      1.5750E+01    
- PF_coil_01_field_(T)____________________________________________________ (bpf(01))_____________________      4.7287E+00    
- PF_coil_02_radius_(m)___________________________________________________ (rpf(02))_____________________      6.4763E+00    
- PF_coil_02_vertical_position_(m)________________________________________ (zpf(02))_____________________     -1.1505E+01    
+ PF_coil_01_field_(T)____________________________________________________ (b_pf_coil_peak(01))_____________________      4.7287E+00    
+ PF_coil_02_radius_(m)___________________________________________________ (r_pf_coil_middle(02))_____________________      6.4763E+00    
+ PF_coil_02_vertical_position_(m)________________________________________ (z_pf_coil_middle(02))_____________________     -1.1505E+01    
  PF_coil_02_radial_thickness_(m)_________________________________________ (pfdr02)______________________      1.2848E+00    
  PF_coil_02_vertical_thickness_(m)_______________________________________ (pfdz02)______________________     -1.2848E+00    
- PF_coil_02_turns________________________________________________________ (turns(02))___________________      4.3026E+02    
+ PF_coil_02_turns________________________________________________________ (n_pf_coil_turns(02))___________________      4.3026E+02    
  PF_coil_02_current_(MA)_________________________________________________ (ric(02))_____________________      1.8157E+01    
- PF_coil_02_field_(T)____________________________________________________ (bpf(02))_____________________      5.1781E+00    
- PF_coil_03_radius_(m)___________________________________________________ (rpf(03))_____________________      1.9032E+01    
- PF_coil_03_vertical_position_(m)________________________________________ (zpf(03))_____________________      2.9606E+00    
+ PF_coil_02_field_(T)____________________________________________________ (b_pf_coil_peak(02))_____________________      5.1781E+00    
+ PF_coil_03_radius_(m)___________________________________________________ (r_pf_coil_middle(03))_____________________      1.9032E+01    
+ PF_coil_03_vertical_position_(m)________________________________________ (z_pf_coil_middle(03))_____________________      2.9606E+00    
  PF_coil_03_radial_thickness_(m)_________________________________________ (pfdr03)______________________      1.1659E+00    
  PF_coil_03_vertical_thickness_(m)_______________________________________ (pfdz03)______________________      1.1659E+00    
- PF_coil_03_turns________________________________________________________ (turns(03))___________________      1.9327E+02    
+ PF_coil_03_turns________________________________________________________ (n_pf_coil_turns(03))___________________      1.9327E+02    
  PF_coil_03_current_(MA)_________________________________________________ (ric(03))_____________________     -8.1561E+00    
- PF_coil_03_field_(T)____________________________________________________ (bpf(03))_____________________      2.6808E+00    
- PF_coil_04_radius_(m)___________________________________________________ (rpf(04))_____________________      1.9032E+01    
- PF_coil_04_vertical_position_(m)________________________________________ (zpf(04))_____________________     -2.9606E+00    
+ PF_coil_03_field_(T)____________________________________________________ (b_pf_coil_peak(03))_____________________      2.6808E+00    
+ PF_coil_04_radius_(m)___________________________________________________ (r_pf_coil_middle(04))_____________________      1.9032E+01    
+ PF_coil_04_vertical_position_(m)________________________________________ (z_pf_coil_middle(04))_____________________     -2.9606E+00    
  PF_coil_04_radial_thickness_(m)_________________________________________ (pfdr04)______________________      1.1659E+00    
  PF_coil_04_vertical_thickness_(m)_______________________________________ (pfdz04)______________________     -1.1659E+00    
- PF_coil_04_turns________________________________________________________ (turns(04))___________________      1.9327E+02    
+ PF_coil_04_turns________________________________________________________ (n_pf_coil_turns(04))___________________      1.9327E+02    
  PF_coil_04_current_(MA)_________________________________________________ (ric(04))_____________________     -8.1561E+00    
- PF_coil_04_field_(T)____________________________________________________ (bpf(04))_____________________      2.6808E+00    
- PF_coil_05_radius_(m)___________________________________________________ (rpf(05))_____________________      1.7386E+01    
- PF_coil_05_vertical_position_(m)________________________________________ (zpf(05))_____________________      8.2897E+00    
+ PF_coil_04_field_(T)____________________________________________________ (b_pf_coil_peak(04))_____________________      2.6808E+00    
+ PF_coil_05_radius_(m)___________________________________________________ (r_pf_coil_middle(05))_____________________      1.7386E+01    
+ PF_coil_05_vertical_position_(m)________________________________________ (z_pf_coil_middle(05))_____________________      8.2897E+00    
  PF_coil_05_radial_thickness_(m)_________________________________________ (pfdr05)______________________      8.2067E-01    
  PF_coil_05_vertical_thickness_(m)_______________________________________ (pfdz05)______________________      8.2067E-01    
- PF_coil_05_turns________________________________________________________ (turns(05))___________________      1.2530E+02    
+ PF_coil_05_turns________________________________________________________ (n_pf_coil_turns(05))___________________      1.2530E+02    
  PF_coil_05_current_(MA)_________________________________________________ (ric(05))_____________________     -5.3879E+00    
- PF_coil_05_field_(T)____________________________________________________ (bpf(05))_____________________      2.5876E+00    
- PF_coil_06_radius_(m)___________________________________________________ (rpf(06))_____________________      1.7386E+01    
- PF_coil_06_vertical_position_(m)________________________________________ (zpf(06))_____________________     -8.2897E+00    
+ PF_coil_05_field_(T)____________________________________________________ (b_pf_coil_peak(05))_____________________      2.5876E+00    
+ PF_coil_06_radius_(m)___________________________________________________ (r_pf_coil_middle(06))_____________________      1.7386E+01    
+ PF_coil_06_vertical_position_(m)________________________________________ (z_pf_coil_middle(06))_____________________     -8.2897E+00    
  PF_coil_06_radial_thickness_(m)_________________________________________ (pfdr06)______________________      8.2067E-01    
  PF_coil_06_vertical_thickness_(m)_______________________________________ (pfdz06)______________________     -8.2067E-01    
- PF_coil_06_turns________________________________________________________ (turns(06))___________________      1.2530E+02    
+ PF_coil_06_turns________________________________________________________ (n_pf_coil_turns(06))___________________      1.2530E+02    
  PF_coil_06_current_(MA)_________________________________________________ (ric(06))_____________________     -5.3879E+00    
- PF_coil_06_field_(T)____________________________________________________ (bpf(06))_____________________      2.5876E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf(nohc))___________________      2.6164E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf(nohc))___________________      0.0000E+00    
+ PF_coil_06_field_(T)____________________________________________________ (b_pf_coil_peak(06))_____________________      2.5876E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle(n_cs_pf_coils))___________________      2.6164E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle(n_cs_pf_coils))___________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      7.0754E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.6640E+01    
- Central_solenoid_turns__________________________________________________ (turns(nohc))_________________      3.5015E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric(nohc))___________________     -1.5057E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf(nohc))___________________      1.1499E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns(n_cs_pf_coils))_________________      3.5015E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric(n_cs_pf_coils))___________________     -1.5057E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak(n_cs_pf_coils))___________________      1.1499E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      4.0453E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.2115E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.2115E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      1.0000E+00 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________      4.6908E-02 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      1.0000E+00 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________      4.6908E-02 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_01_-_Time_point_01_(A)_______________________________________ (pfc01t01)____________________      0.0000E+00    
  PF_Circuit_01_-_Time_point_02_(A)_______________________________________ (pfc01t02)____________________      1.2790E+07    
  PF_Circuit_01_-_Time_point_03_(A)_______________________________________ (pfc01t03)____________________      1.5750E+07    
@@ -4048,9 +4048,9 @@
  fjohc0__________________________________________________________________ (itvar015)____________________      1.3899E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0000E+00    
  fjohc0_(range_normalised)_______________________________________________ (nitvar015)___________________      1.3813E-01    
- fcohbop_________________________________________________________________ (itvar016)____________________      1.0000E+00    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar016)____________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
  gapoh___________________________________________________________________ (itvar017)____________________      5.0000E-02    
  gapoh_(final_value/initial_value)_______________________________________ (xcm017)______________________      1.0000E+00    
  gapoh_(range_normalised)________________________________________________ (nitvar017)___________________      0.0000E+00    
@@ -4386,7 +4386,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      5.1000E+01    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      4.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.2750E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.2115E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.2115E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      3.6189E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.3054E+02    
  # Times #
@@ -4435,7 +4435,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      7.6976E+00    
@@ -4596,26 +4596,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      7.5516E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      6.4527E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              5    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.1499E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      6.6143E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              5    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.1499E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      6.6143E+08 OP 
  Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________      1.9843E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      9.2008E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.2788E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.0525E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      8.1933E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      9.2008E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.2788E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.0525E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      8.1933E+08 OP 
  Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________      2.4580E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      1.1397E+08 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      1.2788E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      1.1397E+08 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      1.2788E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore.)_______________________      2.2626E+00    
  CS_thickness_(m)________________________________________________________ (dr_cs.)______________________      7.0754E-01    
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      5.0000E-02 ITV
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      1.1774E+01 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      1.1774E+01 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      7.7989E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      5.4592E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      2.3397E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      3.9748E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      3.3760E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      5.4592E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      2.3397E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      3.9748E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      3.3760E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      6.6000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.6000E+08 OP 
@@ -4624,72 +4624,72 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.2933E+09 OP 
  Strain_on_CS_superconductor_____________________________________________ (strncon_cs)__________________     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      4.1259E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      4.1259E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_01_radius_(m)___________________________________________________ (rpf(01))_____________________      6.4763E+00    
- PF_coil_01_vertical_position_(m)________________________________________ (zpf(01))_____________________      9.9877E+00    
+ PF_coil_01_radius_(m)___________________________________________________ (r_pf_coil_middle(01))_____________________      6.4763E+00    
+ PF_coil_01_vertical_position_(m)________________________________________ (z_pf_coil_middle(01))_____________________      9.9877E+00    
  PF_coil_01_radial_thickness_(m)_________________________________________ (pfdr01)______________________      1.1966E+00    
  PF_coil_01_vertical_thickness_(m)_______________________________________ (pfdz01)______________________      1.1966E+00    
- PF_coil_01_turns________________________________________________________ (turns(01))___________________      3.7322E+02    
+ PF_coil_01_turns________________________________________________________ (n_pf_coil_turns(01))___________________      3.7322E+02    
  PF_coil_01_current_(MA)_________________________________________________ (ric(01))_____________________      1.5750E+01    
- PF_coil_01_field_(T)____________________________________________________ (bpf(01))_____________________      4.7287E+00    
- PF_coil_02_radius_(m)___________________________________________________ (rpf(02))_____________________      6.4763E+00    
- PF_coil_02_vertical_position_(m)________________________________________ (zpf(02))_____________________     -1.1505E+01    
+ PF_coil_01_field_(T)____________________________________________________ (b_pf_coil_peak(01))_____________________      4.7287E+00    
+ PF_coil_02_radius_(m)___________________________________________________ (r_pf_coil_middle(02))_____________________      6.4763E+00    
+ PF_coil_02_vertical_position_(m)________________________________________ (z_pf_coil_middle(02))_____________________     -1.1505E+01    
  PF_coil_02_radial_thickness_(m)_________________________________________ (pfdr02)______________________      1.2848E+00    
  PF_coil_02_vertical_thickness_(m)_______________________________________ (pfdz02)______________________     -1.2848E+00    
- PF_coil_02_turns________________________________________________________ (turns(02))___________________      4.3026E+02    
+ PF_coil_02_turns________________________________________________________ (n_pf_coil_turns(02))___________________      4.3026E+02    
  PF_coil_02_current_(MA)_________________________________________________ (ric(02))_____________________      1.8157E+01    
- PF_coil_02_field_(T)____________________________________________________ (bpf(02))_____________________      5.1781E+00    
- PF_coil_03_radius_(m)___________________________________________________ (rpf(03))_____________________      1.9032E+01    
- PF_coil_03_vertical_position_(m)________________________________________ (zpf(03))_____________________      2.9606E+00    
+ PF_coil_02_field_(T)____________________________________________________ (b_pf_coil_peak(02))_____________________      5.1781E+00    
+ PF_coil_03_radius_(m)___________________________________________________ (r_pf_coil_middle(03))_____________________      1.9032E+01    
+ PF_coil_03_vertical_position_(m)________________________________________ (z_pf_coil_middle(03))_____________________      2.9606E+00    
  PF_coil_03_radial_thickness_(m)_________________________________________ (pfdr03)______________________      1.1659E+00    
  PF_coil_03_vertical_thickness_(m)_______________________________________ (pfdz03)______________________      1.1659E+00    
- PF_coil_03_turns________________________________________________________ (turns(03))___________________      1.9327E+02    
+ PF_coil_03_turns________________________________________________________ (n_pf_coil_turns(03))___________________      1.9327E+02    
  PF_coil_03_current_(MA)_________________________________________________ (ric(03))_____________________     -8.1561E+00    
- PF_coil_03_field_(T)____________________________________________________ (bpf(03))_____________________      2.6808E+00    
- PF_coil_04_radius_(m)___________________________________________________ (rpf(04))_____________________      1.9032E+01    
- PF_coil_04_vertical_position_(m)________________________________________ (zpf(04))_____________________     -2.9606E+00    
+ PF_coil_03_field_(T)____________________________________________________ (b_pf_coil_peak(03))_____________________      2.6808E+00    
+ PF_coil_04_radius_(m)___________________________________________________ (r_pf_coil_middle(04))_____________________      1.9032E+01    
+ PF_coil_04_vertical_position_(m)________________________________________ (z_pf_coil_middle(04))_____________________     -2.9606E+00    
  PF_coil_04_radial_thickness_(m)_________________________________________ (pfdr04)______________________      1.1659E+00    
  PF_coil_04_vertical_thickness_(m)_______________________________________ (pfdz04)______________________     -1.1659E+00    
- PF_coil_04_turns________________________________________________________ (turns(04))___________________      1.9327E+02    
+ PF_coil_04_turns________________________________________________________ (n_pf_coil_turns(04))___________________      1.9327E+02    
  PF_coil_04_current_(MA)_________________________________________________ (ric(04))_____________________     -8.1561E+00    
- PF_coil_04_field_(T)____________________________________________________ (bpf(04))_____________________      2.6808E+00    
- PF_coil_05_radius_(m)___________________________________________________ (rpf(05))_____________________      1.7386E+01    
- PF_coil_05_vertical_position_(m)________________________________________ (zpf(05))_____________________      8.2897E+00    
+ PF_coil_04_field_(T)____________________________________________________ (b_pf_coil_peak(04))_____________________      2.6808E+00    
+ PF_coil_05_radius_(m)___________________________________________________ (r_pf_coil_middle(05))_____________________      1.7386E+01    
+ PF_coil_05_vertical_position_(m)________________________________________ (z_pf_coil_middle(05))_____________________      8.2897E+00    
  PF_coil_05_radial_thickness_(m)_________________________________________ (pfdr05)______________________      8.2067E-01    
  PF_coil_05_vertical_thickness_(m)_______________________________________ (pfdz05)______________________      8.2067E-01    
- PF_coil_05_turns________________________________________________________ (turns(05))___________________      1.2530E+02    
+ PF_coil_05_turns________________________________________________________ (n_pf_coil_turns(05))___________________      1.2530E+02    
  PF_coil_05_current_(MA)_________________________________________________ (ric(05))_____________________     -5.3879E+00    
- PF_coil_05_field_(T)____________________________________________________ (bpf(05))_____________________      2.5876E+00    
- PF_coil_06_radius_(m)___________________________________________________ (rpf(06))_____________________      1.7386E+01    
- PF_coil_06_vertical_position_(m)________________________________________ (zpf(06))_____________________     -8.2897E+00    
+ PF_coil_05_field_(T)____________________________________________________ (b_pf_coil_peak(05))_____________________      2.5876E+00    
+ PF_coil_06_radius_(m)___________________________________________________ (r_pf_coil_middle(06))_____________________      1.7386E+01    
+ PF_coil_06_vertical_position_(m)________________________________________ (z_pf_coil_middle(06))_____________________     -8.2897E+00    
  PF_coil_06_radial_thickness_(m)_________________________________________ (pfdr06)______________________      8.2067E-01    
  PF_coil_06_vertical_thickness_(m)_______________________________________ (pfdz06)______________________     -8.2067E-01    
- PF_coil_06_turns________________________________________________________ (turns(06))___________________      1.2530E+02    
+ PF_coil_06_turns________________________________________________________ (n_pf_coil_turns(06))___________________      1.2530E+02    
  PF_coil_06_current_(MA)_________________________________________________ (ric(06))_____________________     -5.3879E+00    
- PF_coil_06_field_(T)____________________________________________________ (bpf(06))_____________________      2.5876E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf(nohc))___________________      2.6164E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf(nohc))___________________      0.0000E+00    
+ PF_coil_06_field_(T)____________________________________________________ (b_pf_coil_peak(06))_____________________      2.5876E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle(n_cs_pf_coils))___________________      2.6164E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle(n_cs_pf_coils))___________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      7.0754E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.6640E+01    
- Central_solenoid_turns__________________________________________________ (turns(nohc))_________________      3.5015E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric(nohc))___________________     -1.5057E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf(nohc))___________________      1.1499E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns(n_cs_pf_coils))_________________      3.5015E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric(n_cs_pf_coils))___________________     -1.5057E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak(n_cs_pf_coils))___________________      1.1499E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      4.0453E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.2115E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.2115E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      1.0000E+00 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________      4.6908E-02 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      1.0000E+00 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________      4.6908E-02 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_01_-_Time_point_01_(A)_______________________________________ (pfc01t01)____________________      0.0000E+00    
  PF_Circuit_01_-_Time_point_02_(A)_______________________________________ (pfc01t02)____________________      1.2790E+07    
  PF_Circuit_01_-_Time_point_03_(A)_______________________________________ (pfc01t03)____________________      1.5750E+07    
@@ -5043,9 +5043,9 @@
  fjohc0__________________________________________________________________ (itvar015)____________________      1.3899E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0000E+00    
  fjohc0_(range_normalised)_______________________________________________ (nitvar015)___________________      1.3813E-01    
- fcohbop_________________________________________________________________ (itvar016)____________________      1.0000E+00    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar016)____________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
  gapoh___________________________________________________________________ (itvar017)____________________      5.0000E-02    
  gapoh_(final_value/initial_value)_______________________________________ (xcm017)______________________      1.0000E+00    
  gapoh_(range_normalised)________________________________________________ (nitvar017)___________________      0.0000E+00    
@@ -5381,7 +5381,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      5.1000E+01    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      4.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.2750E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.2115E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.2115E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      3.6189E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.3054E+02    
  # Times #
@@ -5430,7 +5430,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      7.6976E+00    
@@ -5591,26 +5591,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      7.5516E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      6.4527E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              5    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.1499E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      6.6143E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              5    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.1499E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      6.6143E+08 OP 
  Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________      1.9843E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      9.2008E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.2788E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.0525E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      8.1933E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      9.2008E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.2788E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.0525E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      8.1933E+08 OP 
  Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________      2.4580E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      1.1397E+08 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      1.2788E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      1.1397E+08 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      1.2788E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore.)_______________________      2.2626E+00    
  CS_thickness_(m)________________________________________________________ (dr_cs.)______________________      7.0754E-01    
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      5.0000E-02 ITV
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      1.1774E+01 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      1.1774E+01 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      7.7989E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      5.4592E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      2.3397E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      3.9748E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      3.3760E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      5.4592E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      2.3397E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      3.9748E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      3.3760E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      6.6000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.6000E+08 OP 
@@ -5619,72 +5619,72 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.2933E+09 OP 
  Strain_on_CS_superconductor_____________________________________________ (strncon_cs)__________________     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      4.1259E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      4.1259E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_01_radius_(m)___________________________________________________ (rpf(01))_____________________      6.4763E+00    
- PF_coil_01_vertical_position_(m)________________________________________ (zpf(01))_____________________      9.9877E+00    
+ PF_coil_01_radius_(m)___________________________________________________ (r_pf_coil_middle(01))_____________________      6.4763E+00    
+ PF_coil_01_vertical_position_(m)________________________________________ (z_pf_coil_middle(01))_____________________      9.9877E+00    
  PF_coil_01_radial_thickness_(m)_________________________________________ (pfdr01)______________________      1.1966E+00    
  PF_coil_01_vertical_thickness_(m)_______________________________________ (pfdz01)______________________      1.1966E+00    
- PF_coil_01_turns________________________________________________________ (turns(01))___________________      3.7322E+02    
+ PF_coil_01_turns________________________________________________________ (n_pf_coil_turns(01))___________________      3.7322E+02    
  PF_coil_01_current_(MA)_________________________________________________ (ric(01))_____________________      1.5750E+01    
- PF_coil_01_field_(T)____________________________________________________ (bpf(01))_____________________      4.7287E+00    
- PF_coil_02_radius_(m)___________________________________________________ (rpf(02))_____________________      6.4763E+00    
- PF_coil_02_vertical_position_(m)________________________________________ (zpf(02))_____________________     -1.1505E+01    
+ PF_coil_01_field_(T)____________________________________________________ (b_pf_coil_peak(01))_____________________      4.7287E+00    
+ PF_coil_02_radius_(m)___________________________________________________ (r_pf_coil_middle(02))_____________________      6.4763E+00    
+ PF_coil_02_vertical_position_(m)________________________________________ (z_pf_coil_middle(02))_____________________     -1.1505E+01    
  PF_coil_02_radial_thickness_(m)_________________________________________ (pfdr02)______________________      1.2848E+00    
  PF_coil_02_vertical_thickness_(m)_______________________________________ (pfdz02)______________________     -1.2848E+00    
- PF_coil_02_turns________________________________________________________ (turns(02))___________________      4.3026E+02    
+ PF_coil_02_turns________________________________________________________ (n_pf_coil_turns(02))___________________      4.3026E+02    
  PF_coil_02_current_(MA)_________________________________________________ (ric(02))_____________________      1.8157E+01    
- PF_coil_02_field_(T)____________________________________________________ (bpf(02))_____________________      5.1781E+00    
- PF_coil_03_radius_(m)___________________________________________________ (rpf(03))_____________________      1.9032E+01    
- PF_coil_03_vertical_position_(m)________________________________________ (zpf(03))_____________________      2.9606E+00    
+ PF_coil_02_field_(T)____________________________________________________ (b_pf_coil_peak(02))_____________________      5.1781E+00    
+ PF_coil_03_radius_(m)___________________________________________________ (r_pf_coil_middle(03))_____________________      1.9032E+01    
+ PF_coil_03_vertical_position_(m)________________________________________ (z_pf_coil_middle(03))_____________________      2.9606E+00    
  PF_coil_03_radial_thickness_(m)_________________________________________ (pfdr03)______________________      1.1659E+00    
  PF_coil_03_vertical_thickness_(m)_______________________________________ (pfdz03)______________________      1.1659E+00    
- PF_coil_03_turns________________________________________________________ (turns(03))___________________      1.9327E+02    
+ PF_coil_03_turns________________________________________________________ (n_pf_coil_turns(03))___________________      1.9327E+02    
  PF_coil_03_current_(MA)_________________________________________________ (ric(03))_____________________     -8.1561E+00    
- PF_coil_03_field_(T)____________________________________________________ (bpf(03))_____________________      2.6808E+00    
- PF_coil_04_radius_(m)___________________________________________________ (rpf(04))_____________________      1.9032E+01    
- PF_coil_04_vertical_position_(m)________________________________________ (zpf(04))_____________________     -2.9606E+00    
+ PF_coil_03_field_(T)____________________________________________________ (b_pf_coil_peak(03))_____________________      2.6808E+00    
+ PF_coil_04_radius_(m)___________________________________________________ (r_pf_coil_middle(04))_____________________      1.9032E+01    
+ PF_coil_04_vertical_position_(m)________________________________________ (z_pf_coil_middle(04))_____________________     -2.9606E+00    
  PF_coil_04_radial_thickness_(m)_________________________________________ (pfdr04)______________________      1.1659E+00    
  PF_coil_04_vertical_thickness_(m)_______________________________________ (pfdz04)______________________     -1.1659E+00    
- PF_coil_04_turns________________________________________________________ (turns(04))___________________      1.9327E+02    
+ PF_coil_04_turns________________________________________________________ (n_pf_coil_turns(04))___________________      1.9327E+02    
  PF_coil_04_current_(MA)_________________________________________________ (ric(04))_____________________     -8.1561E+00    
- PF_coil_04_field_(T)____________________________________________________ (bpf(04))_____________________      2.6808E+00    
- PF_coil_05_radius_(m)___________________________________________________ (rpf(05))_____________________      1.7386E+01    
- PF_coil_05_vertical_position_(m)________________________________________ (zpf(05))_____________________      8.2897E+00    
+ PF_coil_04_field_(T)____________________________________________________ (b_pf_coil_peak(04))_____________________      2.6808E+00    
+ PF_coil_05_radius_(m)___________________________________________________ (r_pf_coil_middle(05))_____________________      1.7386E+01    
+ PF_coil_05_vertical_position_(m)________________________________________ (z_pf_coil_middle(05))_____________________      8.2897E+00    
  PF_coil_05_radial_thickness_(m)_________________________________________ (pfdr05)______________________      8.2067E-01    
  PF_coil_05_vertical_thickness_(m)_______________________________________ (pfdz05)______________________      8.2067E-01    
- PF_coil_05_turns________________________________________________________ (turns(05))___________________      1.2530E+02    
+ PF_coil_05_turns________________________________________________________ (n_pf_coil_turns(05))___________________      1.2530E+02    
  PF_coil_05_current_(MA)_________________________________________________ (ric(05))_____________________     -5.3879E+00    
- PF_coil_05_field_(T)____________________________________________________ (bpf(05))_____________________      2.5876E+00    
- PF_coil_06_radius_(m)___________________________________________________ (rpf(06))_____________________      1.7386E+01    
- PF_coil_06_vertical_position_(m)________________________________________ (zpf(06))_____________________     -8.2897E+00    
+ PF_coil_05_field_(T)____________________________________________________ (b_pf_coil_peak(05))_____________________      2.5876E+00    
+ PF_coil_06_radius_(m)___________________________________________________ (r_pf_coil_middle(06))_____________________      1.7386E+01    
+ PF_coil_06_vertical_position_(m)________________________________________ (z_pf_coil_middle(06))_____________________     -8.2897E+00    
  PF_coil_06_radial_thickness_(m)_________________________________________ (pfdr06)______________________      8.2067E-01    
  PF_coil_06_vertical_thickness_(m)_______________________________________ (pfdz06)______________________     -8.2067E-01    
- PF_coil_06_turns________________________________________________________ (turns(06))___________________      1.2530E+02    
+ PF_coil_06_turns________________________________________________________ (n_pf_coil_turns(06))___________________      1.2530E+02    
  PF_coil_06_current_(MA)_________________________________________________ (ric(06))_____________________     -5.3879E+00    
- PF_coil_06_field_(T)____________________________________________________ (bpf(06))_____________________      2.5876E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf(nohc))___________________      2.6164E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf(nohc))___________________      0.0000E+00    
+ PF_coil_06_field_(T)____________________________________________________ (b_pf_coil_peak(06))_____________________      2.5876E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle(n_cs_pf_coils))___________________      2.6164E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle(n_cs_pf_coils))___________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      7.0754E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.6640E+01    
- Central_solenoid_turns__________________________________________________ (turns(nohc))_________________      3.5015E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric(nohc))___________________     -1.5057E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf(nohc))___________________      1.1499E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns(n_cs_pf_coils))_________________      3.5015E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric(n_cs_pf_coils))___________________     -1.5057E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak(n_cs_pf_coils))___________________      1.1499E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      4.0453E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.2115E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.2115E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      1.0000E+00 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________      4.6908E-02 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      1.0000E+00 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________      4.6908E-02 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_01_-_Time_point_01_(A)_______________________________________ (pfc01t01)____________________      0.0000E+00    
  PF_Circuit_01_-_Time_point_02_(A)_______________________________________ (pfc01t02)____________________      1.2790E+07    
  PF_Circuit_01_-_Time_point_03_(A)_______________________________________ (pfc01t03)____________________      1.5750E+07    
@@ -6038,9 +6038,9 @@
  fjohc0__________________________________________________________________ (itvar015)____________________      1.3899E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0000E+00    
  fjohc0_(range_normalised)_______________________________________________ (nitvar015)___________________      1.3813E-01    
- fcohbop_________________________________________________________________ (itvar016)____________________      1.0000E+00    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar016)____________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
  gapoh___________________________________________________________________ (itvar017)____________________      5.0000E-02    
  gapoh_(final_value/initial_value)_______________________________________ (xcm017)______________________      1.0000E+00    
  gapoh_(range_normalised)________________________________________________ (nitvar017)___________________      0.0000E+00    
@@ -6376,7 +6376,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      5.1000E+01    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      4.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.2750E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.2115E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.2115E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      3.6189E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.3054E+02    
  # Times #
@@ -6425,7 +6425,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      7.6976E+00    
@@ -6586,26 +6586,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      7.5516E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      6.4527E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              5    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.1499E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      6.6143E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              5    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.1499E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      6.6143E+08 OP 
  Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________      1.9843E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      9.2008E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.2788E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.0525E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      8.1933E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      9.2008E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.2788E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.0525E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      8.1933E+08 OP 
  Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________      2.4580E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      1.1397E+08 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      1.2788E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      1.1397E+08 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      1.2788E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore.)_______________________      2.2626E+00    
  CS_thickness_(m)________________________________________________________ (dr_cs.)______________________      7.0754E-01    
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      5.0000E-02 ITV
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      1.1774E+01 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      1.1774E+01 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      7.7989E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      5.4592E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      2.3397E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      3.9748E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      3.3760E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      5.4592E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      2.3397E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      3.9748E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      3.3760E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      6.6000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.6000E+08 OP 
@@ -6614,72 +6614,72 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.2933E+09 OP 
  Strain_on_CS_superconductor_____________________________________________ (strncon_cs)__________________     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      4.1259E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      4.1259E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_01_radius_(m)___________________________________________________ (rpf(01))_____________________      6.4763E+00    
- PF_coil_01_vertical_position_(m)________________________________________ (zpf(01))_____________________      9.9877E+00    
+ PF_coil_01_radius_(m)___________________________________________________ (r_pf_coil_middle(01))_____________________      6.4763E+00    
+ PF_coil_01_vertical_position_(m)________________________________________ (z_pf_coil_middle(01))_____________________      9.9877E+00    
  PF_coil_01_radial_thickness_(m)_________________________________________ (pfdr01)______________________      1.1966E+00    
  PF_coil_01_vertical_thickness_(m)_______________________________________ (pfdz01)______________________      1.1966E+00    
- PF_coil_01_turns________________________________________________________ (turns(01))___________________      3.7322E+02    
+ PF_coil_01_turns________________________________________________________ (n_pf_coil_turns(01))___________________      3.7322E+02    
  PF_coil_01_current_(MA)_________________________________________________ (ric(01))_____________________      1.5750E+01    
- PF_coil_01_field_(T)____________________________________________________ (bpf(01))_____________________      4.7287E+00    
- PF_coil_02_radius_(m)___________________________________________________ (rpf(02))_____________________      6.4763E+00    
- PF_coil_02_vertical_position_(m)________________________________________ (zpf(02))_____________________     -1.1505E+01    
+ PF_coil_01_field_(T)____________________________________________________ (b_pf_coil_peak(01))_____________________      4.7287E+00    
+ PF_coil_02_radius_(m)___________________________________________________ (r_pf_coil_middle(02))_____________________      6.4763E+00    
+ PF_coil_02_vertical_position_(m)________________________________________ (z_pf_coil_middle(02))_____________________     -1.1505E+01    
  PF_coil_02_radial_thickness_(m)_________________________________________ (pfdr02)______________________      1.2848E+00    
  PF_coil_02_vertical_thickness_(m)_______________________________________ (pfdz02)______________________     -1.2848E+00    
- PF_coil_02_turns________________________________________________________ (turns(02))___________________      4.3026E+02    
+ PF_coil_02_turns________________________________________________________ (n_pf_coil_turns(02))___________________      4.3026E+02    
  PF_coil_02_current_(MA)_________________________________________________ (ric(02))_____________________      1.8157E+01    
- PF_coil_02_field_(T)____________________________________________________ (bpf(02))_____________________      5.1781E+00    
- PF_coil_03_radius_(m)___________________________________________________ (rpf(03))_____________________      1.9032E+01    
- PF_coil_03_vertical_position_(m)________________________________________ (zpf(03))_____________________      2.9606E+00    
+ PF_coil_02_field_(T)____________________________________________________ (b_pf_coil_peak(02))_____________________      5.1781E+00    
+ PF_coil_03_radius_(m)___________________________________________________ (r_pf_coil_middle(03))_____________________      1.9032E+01    
+ PF_coil_03_vertical_position_(m)________________________________________ (z_pf_coil_middle(03))_____________________      2.9606E+00    
  PF_coil_03_radial_thickness_(m)_________________________________________ (pfdr03)______________________      1.1659E+00    
  PF_coil_03_vertical_thickness_(m)_______________________________________ (pfdz03)______________________      1.1659E+00    
- PF_coil_03_turns________________________________________________________ (turns(03))___________________      1.9327E+02    
+ PF_coil_03_turns________________________________________________________ (n_pf_coil_turns(03))___________________      1.9327E+02    
  PF_coil_03_current_(MA)_________________________________________________ (ric(03))_____________________     -8.1561E+00    
- PF_coil_03_field_(T)____________________________________________________ (bpf(03))_____________________      2.6808E+00    
- PF_coil_04_radius_(m)___________________________________________________ (rpf(04))_____________________      1.9032E+01    
- PF_coil_04_vertical_position_(m)________________________________________ (zpf(04))_____________________     -2.9606E+00    
+ PF_coil_03_field_(T)____________________________________________________ (b_pf_coil_peak(03))_____________________      2.6808E+00    
+ PF_coil_04_radius_(m)___________________________________________________ (r_pf_coil_middle(04))_____________________      1.9032E+01    
+ PF_coil_04_vertical_position_(m)________________________________________ (z_pf_coil_middle(04))_____________________     -2.9606E+00    
  PF_coil_04_radial_thickness_(m)_________________________________________ (pfdr04)______________________      1.1659E+00    
  PF_coil_04_vertical_thickness_(m)_______________________________________ (pfdz04)______________________     -1.1659E+00    
- PF_coil_04_turns________________________________________________________ (turns(04))___________________      1.9327E+02    
+ PF_coil_04_turns________________________________________________________ (n_pf_coil_turns(04))___________________      1.9327E+02    
  PF_coil_04_current_(MA)_________________________________________________ (ric(04))_____________________     -8.1561E+00    
- PF_coil_04_field_(T)____________________________________________________ (bpf(04))_____________________      2.6808E+00    
- PF_coil_05_radius_(m)___________________________________________________ (rpf(05))_____________________      1.7386E+01    
- PF_coil_05_vertical_position_(m)________________________________________ (zpf(05))_____________________      8.2897E+00    
+ PF_coil_04_field_(T)____________________________________________________ (b_pf_coil_peak(04))_____________________      2.6808E+00    
+ PF_coil_05_radius_(m)___________________________________________________ (r_pf_coil_middle(05))_____________________      1.7386E+01    
+ PF_coil_05_vertical_position_(m)________________________________________ (z_pf_coil_middle(05))_____________________      8.2897E+00    
  PF_coil_05_radial_thickness_(m)_________________________________________ (pfdr05)______________________      8.2067E-01    
  PF_coil_05_vertical_thickness_(m)_______________________________________ (pfdz05)______________________      8.2067E-01    
- PF_coil_05_turns________________________________________________________ (turns(05))___________________      1.2530E+02    
+ PF_coil_05_turns________________________________________________________ (n_pf_coil_turns(05))___________________      1.2530E+02    
  PF_coil_05_current_(MA)_________________________________________________ (ric(05))_____________________     -5.3879E+00    
- PF_coil_05_field_(T)____________________________________________________ (bpf(05))_____________________      2.5876E+00    
- PF_coil_06_radius_(m)___________________________________________________ (rpf(06))_____________________      1.7386E+01    
- PF_coil_06_vertical_position_(m)________________________________________ (zpf(06))_____________________     -8.2897E+00    
+ PF_coil_05_field_(T)____________________________________________________ (b_pf_coil_peak(05))_____________________      2.5876E+00    
+ PF_coil_06_radius_(m)___________________________________________________ (r_pf_coil_middle(06))_____________________      1.7386E+01    
+ PF_coil_06_vertical_position_(m)________________________________________ (z_pf_coil_middle(06))_____________________     -8.2897E+00    
  PF_coil_06_radial_thickness_(m)_________________________________________ (pfdr06)______________________      8.2067E-01    
  PF_coil_06_vertical_thickness_(m)_______________________________________ (pfdz06)______________________     -8.2067E-01    
- PF_coil_06_turns________________________________________________________ (turns(06))___________________      1.2530E+02    
+ PF_coil_06_turns________________________________________________________ (n_pf_coil_turns(06))___________________      1.2530E+02    
  PF_coil_06_current_(MA)_________________________________________________ (ric(06))_____________________     -5.3879E+00    
- PF_coil_06_field_(T)____________________________________________________ (bpf(06))_____________________      2.5876E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf(nohc))___________________      2.6164E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf(nohc))___________________      0.0000E+00    
+ PF_coil_06_field_(T)____________________________________________________ (b_pf_coil_peak(06))_____________________      2.5876E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle(n_cs_pf_coils))___________________      2.6164E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle(n_cs_pf_coils))___________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      7.0754E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.6640E+01    
- Central_solenoid_turns__________________________________________________ (turns(nohc))_________________      3.5015E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric(nohc))___________________     -1.5057E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf(nohc))___________________      1.1499E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns(n_cs_pf_coils))_________________      3.5015E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric(n_cs_pf_coils))___________________     -1.5057E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak(n_cs_pf_coils))___________________      1.1499E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      4.0453E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.2115E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.2115E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      1.0000E+00 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________      4.6908E-02 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      1.0000E+00 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________      4.6908E-02 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_01_-_Time_point_01_(A)_______________________________________ (pfc01t01)____________________      0.0000E+00    
  PF_Circuit_01_-_Time_point_02_(A)_______________________________________ (pfc01t02)____________________      1.2790E+07    
  PF_Circuit_01_-_Time_point_03_(A)_______________________________________ (pfc01t03)____________________      1.5750E+07    
@@ -7033,9 +7033,9 @@
  fjohc0__________________________________________________________________ (itvar015)____________________      1.3899E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0000E+00    
  fjohc0_(range_normalised)_______________________________________________ (nitvar015)___________________      1.3813E-01    
- fcohbop_________________________________________________________________ (itvar016)____________________      1.0000E+00    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar016)____________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
  gapoh___________________________________________________________________ (itvar017)____________________      5.0000E-02    
  gapoh_(final_value/initial_value)_______________________________________ (xcm017)______________________      1.0000E+00    
  gapoh_(range_normalised)________________________________________________ (nitvar017)___________________      0.0000E+00    
@@ -7371,7 +7371,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      5.1000E+01    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      4.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.2750E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.2115E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.2115E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      3.6189E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.3054E+02    
  # Times #
@@ -7420,7 +7420,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      7.6976E+00    
@@ -7581,26 +7581,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      7.5516E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      6.4527E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              5    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.1499E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      6.6143E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              5    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.1499E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      6.6143E+08 OP 
  Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________      1.9843E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      9.2008E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.2788E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.0525E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      8.1933E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      9.2008E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.2788E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.0525E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      8.1933E+08 OP 
  Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________      2.4580E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      1.1397E+08 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      1.2788E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      1.1397E+08 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      1.2788E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore.)_______________________      2.2626E+00    
  CS_thickness_(m)________________________________________________________ (dr_cs.)______________________      7.0754E-01    
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      5.0000E-02 ITV
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      1.1774E+01 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      1.1774E+01 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      7.7989E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      5.4592E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      2.3397E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      3.9748E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      3.3760E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      5.4592E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      2.3397E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      3.9748E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      3.3760E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      6.6000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.6000E+08 OP 
@@ -7609,72 +7609,72 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.2933E+09 OP 
  Strain_on_CS_superconductor_____________________________________________ (strncon_cs)__________________     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      4.1259E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      4.1259E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_01_radius_(m)___________________________________________________ (rpf(01))_____________________      6.4763E+00    
- PF_coil_01_vertical_position_(m)________________________________________ (zpf(01))_____________________      9.9877E+00    
+ PF_coil_01_radius_(m)___________________________________________________ (r_pf_coil_middle(01))_____________________      6.4763E+00    
+ PF_coil_01_vertical_position_(m)________________________________________ (z_pf_coil_middle(01))_____________________      9.9877E+00    
  PF_coil_01_radial_thickness_(m)_________________________________________ (pfdr01)______________________      1.1966E+00    
  PF_coil_01_vertical_thickness_(m)_______________________________________ (pfdz01)______________________      1.1966E+00    
- PF_coil_01_turns________________________________________________________ (turns(01))___________________      3.7322E+02    
+ PF_coil_01_turns________________________________________________________ (n_pf_coil_turns(01))___________________      3.7322E+02    
  PF_coil_01_current_(MA)_________________________________________________ (ric(01))_____________________      1.5750E+01    
- PF_coil_01_field_(T)____________________________________________________ (bpf(01))_____________________      4.7287E+00    
- PF_coil_02_radius_(m)___________________________________________________ (rpf(02))_____________________      6.4763E+00    
- PF_coil_02_vertical_position_(m)________________________________________ (zpf(02))_____________________     -1.1505E+01    
+ PF_coil_01_field_(T)____________________________________________________ (b_pf_coil_peak(01))_____________________      4.7287E+00    
+ PF_coil_02_radius_(m)___________________________________________________ (r_pf_coil_middle(02))_____________________      6.4763E+00    
+ PF_coil_02_vertical_position_(m)________________________________________ (z_pf_coil_middle(02))_____________________     -1.1505E+01    
  PF_coil_02_radial_thickness_(m)_________________________________________ (pfdr02)______________________      1.2848E+00    
  PF_coil_02_vertical_thickness_(m)_______________________________________ (pfdz02)______________________     -1.2848E+00    
- PF_coil_02_turns________________________________________________________ (turns(02))___________________      4.3026E+02    
+ PF_coil_02_turns________________________________________________________ (n_pf_coil_turns(02))___________________      4.3026E+02    
  PF_coil_02_current_(MA)_________________________________________________ (ric(02))_____________________      1.8157E+01    
- PF_coil_02_field_(T)____________________________________________________ (bpf(02))_____________________      5.1781E+00    
- PF_coil_03_radius_(m)___________________________________________________ (rpf(03))_____________________      1.9032E+01    
- PF_coil_03_vertical_position_(m)________________________________________ (zpf(03))_____________________      2.9606E+00    
+ PF_coil_02_field_(T)____________________________________________________ (b_pf_coil_peak(02))_____________________      5.1781E+00    
+ PF_coil_03_radius_(m)___________________________________________________ (r_pf_coil_middle(03))_____________________      1.9032E+01    
+ PF_coil_03_vertical_position_(m)________________________________________ (z_pf_coil_middle(03))_____________________      2.9606E+00    
  PF_coil_03_radial_thickness_(m)_________________________________________ (pfdr03)______________________      1.1659E+00    
  PF_coil_03_vertical_thickness_(m)_______________________________________ (pfdz03)______________________      1.1659E+00    
- PF_coil_03_turns________________________________________________________ (turns(03))___________________      1.9327E+02    
+ PF_coil_03_turns________________________________________________________ (n_pf_coil_turns(03))___________________      1.9327E+02    
  PF_coil_03_current_(MA)_________________________________________________ (ric(03))_____________________     -8.1561E+00    
- PF_coil_03_field_(T)____________________________________________________ (bpf(03))_____________________      2.6808E+00    
- PF_coil_04_radius_(m)___________________________________________________ (rpf(04))_____________________      1.9032E+01    
- PF_coil_04_vertical_position_(m)________________________________________ (zpf(04))_____________________     -2.9606E+00    
+ PF_coil_03_field_(T)____________________________________________________ (b_pf_coil_peak(03))_____________________      2.6808E+00    
+ PF_coil_04_radius_(m)___________________________________________________ (r_pf_coil_middle(04))_____________________      1.9032E+01    
+ PF_coil_04_vertical_position_(m)________________________________________ (z_pf_coil_middle(04))_____________________     -2.9606E+00    
  PF_coil_04_radial_thickness_(m)_________________________________________ (pfdr04)______________________      1.1659E+00    
  PF_coil_04_vertical_thickness_(m)_______________________________________ (pfdz04)______________________     -1.1659E+00    
- PF_coil_04_turns________________________________________________________ (turns(04))___________________      1.9327E+02    
+ PF_coil_04_turns________________________________________________________ (n_pf_coil_turns(04))___________________      1.9327E+02    
  PF_coil_04_current_(MA)_________________________________________________ (ric(04))_____________________     -8.1561E+00    
- PF_coil_04_field_(T)____________________________________________________ (bpf(04))_____________________      2.6808E+00    
- PF_coil_05_radius_(m)___________________________________________________ (rpf(05))_____________________      1.7386E+01    
- PF_coil_05_vertical_position_(m)________________________________________ (zpf(05))_____________________      8.2897E+00    
+ PF_coil_04_field_(T)____________________________________________________ (b_pf_coil_peak(04))_____________________      2.6808E+00    
+ PF_coil_05_radius_(m)___________________________________________________ (r_pf_coil_middle(05))_____________________      1.7386E+01    
+ PF_coil_05_vertical_position_(m)________________________________________ (z_pf_coil_middle(05))_____________________      8.2897E+00    
  PF_coil_05_radial_thickness_(m)_________________________________________ (pfdr05)______________________      8.2067E-01    
  PF_coil_05_vertical_thickness_(m)_______________________________________ (pfdz05)______________________      8.2067E-01    
- PF_coil_05_turns________________________________________________________ (turns(05))___________________      1.2530E+02    
+ PF_coil_05_turns________________________________________________________ (n_pf_coil_turns(05))___________________      1.2530E+02    
  PF_coil_05_current_(MA)_________________________________________________ (ric(05))_____________________     -5.3879E+00    
- PF_coil_05_field_(T)____________________________________________________ (bpf(05))_____________________      2.5876E+00    
- PF_coil_06_radius_(m)___________________________________________________ (rpf(06))_____________________      1.7386E+01    
- PF_coil_06_vertical_position_(m)________________________________________ (zpf(06))_____________________     -8.2897E+00    
+ PF_coil_05_field_(T)____________________________________________________ (b_pf_coil_peak(05))_____________________      2.5876E+00    
+ PF_coil_06_radius_(m)___________________________________________________ (r_pf_coil_middle(06))_____________________      1.7386E+01    
+ PF_coil_06_vertical_position_(m)________________________________________ (z_pf_coil_middle(06))_____________________     -8.2897E+00    
  PF_coil_06_radial_thickness_(m)_________________________________________ (pfdr06)______________________      8.2067E-01    
  PF_coil_06_vertical_thickness_(m)_______________________________________ (pfdz06)______________________     -8.2067E-01    
- PF_coil_06_turns________________________________________________________ (turns(06))___________________      1.2530E+02    
+ PF_coil_06_turns________________________________________________________ (n_pf_coil_turns(06))___________________      1.2530E+02    
  PF_coil_06_current_(MA)_________________________________________________ (ric(06))_____________________     -5.3879E+00    
- PF_coil_06_field_(T)____________________________________________________ (bpf(06))_____________________      2.5876E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf(nohc))___________________      2.6164E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf(nohc))___________________      0.0000E+00    
+ PF_coil_06_field_(T)____________________________________________________ (b_pf_coil_peak(06))_____________________      2.5876E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle(n_cs_pf_coils))___________________      2.6164E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle(n_cs_pf_coils))___________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      7.0754E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.6640E+01    
- Central_solenoid_turns__________________________________________________ (turns(nohc))_________________      3.5015E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric(nohc))___________________     -1.5057E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf(nohc))___________________      1.1499E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns(n_cs_pf_coils))_________________      3.5015E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric(n_cs_pf_coils))___________________     -1.5057E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak(n_cs_pf_coils))___________________      1.1499E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      4.0453E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.2115E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.2115E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      1.0000E+00 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________      4.6908E-02 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      1.0000E+00 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________      4.6908E-02 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_01_-_Time_point_01_(A)_______________________________________ (pfc01t01)____________________      0.0000E+00    
  PF_Circuit_01_-_Time_point_02_(A)_______________________________________ (pfc01t02)____________________      1.2790E+07    
  PF_Circuit_01_-_Time_point_03_(A)_______________________________________ (pfc01t03)____________________      1.5750E+07    
@@ -8028,9 +8028,9 @@
  fjohc0__________________________________________________________________ (itvar015)____________________      1.3899E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0000E+00    
  fjohc0_(range_normalised)_______________________________________________ (nitvar015)___________________      1.3813E-01    
- fcohbop_________________________________________________________________ (itvar016)____________________      1.0000E+00    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar016)____________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
  gapoh___________________________________________________________________ (itvar017)____________________      5.0000E-02    
  gapoh_(final_value/initial_value)_______________________________________ (xcm017)______________________      1.0000E+00    
  gapoh_(range_normalised)________________________________________________ (nitvar017)___________________      0.0000E+00    
@@ -8366,7 +8366,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      5.1000E+01    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      4.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.2750E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.2115E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.2115E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      3.6189E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.3054E+02    
  # Times #
@@ -8415,7 +8415,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      7.6976E+00    
@@ -8576,26 +8576,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      7.5516E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      6.4527E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              5    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.1499E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      6.6143E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              5    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.1499E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      6.6143E+08 OP 
  Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________      1.9843E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      9.2008E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.2788E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.0525E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      8.1933E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      9.2008E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.2788E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.0525E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      8.1933E+08 OP 
  Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________      2.4580E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      1.1397E+08 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      1.2788E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      1.1397E+08 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      1.2788E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore.)_______________________      2.2626E+00    
  CS_thickness_(m)________________________________________________________ (dr_cs.)______________________      7.0754E-01    
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      5.0000E-02 ITV
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      1.1774E+01 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      1.1774E+01 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      7.7989E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      5.4592E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      2.3397E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      3.9748E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      3.3760E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      5.4592E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      2.3397E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      3.9748E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      3.3760E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      6.6000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.6000E+08 OP 
@@ -8604,72 +8604,72 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.2933E+09 OP 
  Strain_on_CS_superconductor_____________________________________________ (strncon_cs)__________________     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      4.1259E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      4.1259E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_01_radius_(m)___________________________________________________ (rpf(01))_____________________      6.4763E+00    
- PF_coil_01_vertical_position_(m)________________________________________ (zpf(01))_____________________      9.9877E+00    
+ PF_coil_01_radius_(m)___________________________________________________ (r_pf_coil_middle(01))_____________________      6.4763E+00    
+ PF_coil_01_vertical_position_(m)________________________________________ (z_pf_coil_middle(01))_____________________      9.9877E+00    
  PF_coil_01_radial_thickness_(m)_________________________________________ (pfdr01)______________________      1.1966E+00    
  PF_coil_01_vertical_thickness_(m)_______________________________________ (pfdz01)______________________      1.1966E+00    
- PF_coil_01_turns________________________________________________________ (turns(01))___________________      3.7322E+02    
+ PF_coil_01_turns________________________________________________________ (n_pf_coil_turns(01))___________________      3.7322E+02    
  PF_coil_01_current_(MA)_________________________________________________ (ric(01))_____________________      1.5750E+01    
- PF_coil_01_field_(T)____________________________________________________ (bpf(01))_____________________      4.7287E+00    
- PF_coil_02_radius_(m)___________________________________________________ (rpf(02))_____________________      6.4763E+00    
- PF_coil_02_vertical_position_(m)________________________________________ (zpf(02))_____________________     -1.1505E+01    
+ PF_coil_01_field_(T)____________________________________________________ (b_pf_coil_peak(01))_____________________      4.7287E+00    
+ PF_coil_02_radius_(m)___________________________________________________ (r_pf_coil_middle(02))_____________________      6.4763E+00    
+ PF_coil_02_vertical_position_(m)________________________________________ (z_pf_coil_middle(02))_____________________     -1.1505E+01    
  PF_coil_02_radial_thickness_(m)_________________________________________ (pfdr02)______________________      1.2848E+00    
  PF_coil_02_vertical_thickness_(m)_______________________________________ (pfdz02)______________________     -1.2848E+00    
- PF_coil_02_turns________________________________________________________ (turns(02))___________________      4.3026E+02    
+ PF_coil_02_turns________________________________________________________ (n_pf_coil_turns(02))___________________      4.3026E+02    
  PF_coil_02_current_(MA)_________________________________________________ (ric(02))_____________________      1.8157E+01    
- PF_coil_02_field_(T)____________________________________________________ (bpf(02))_____________________      5.1781E+00    
- PF_coil_03_radius_(m)___________________________________________________ (rpf(03))_____________________      1.9032E+01    
- PF_coil_03_vertical_position_(m)________________________________________ (zpf(03))_____________________      2.9606E+00    
+ PF_coil_02_field_(T)____________________________________________________ (b_pf_coil_peak(02))_____________________      5.1781E+00    
+ PF_coil_03_radius_(m)___________________________________________________ (r_pf_coil_middle(03))_____________________      1.9032E+01    
+ PF_coil_03_vertical_position_(m)________________________________________ (z_pf_coil_middle(03))_____________________      2.9606E+00    
  PF_coil_03_radial_thickness_(m)_________________________________________ (pfdr03)______________________      1.1659E+00    
  PF_coil_03_vertical_thickness_(m)_______________________________________ (pfdz03)______________________      1.1659E+00    
- PF_coil_03_turns________________________________________________________ (turns(03))___________________      1.9327E+02    
+ PF_coil_03_turns________________________________________________________ (n_pf_coil_turns(03))___________________      1.9327E+02    
  PF_coil_03_current_(MA)_________________________________________________ (ric(03))_____________________     -8.1561E+00    
- PF_coil_03_field_(T)____________________________________________________ (bpf(03))_____________________      2.6808E+00    
- PF_coil_04_radius_(m)___________________________________________________ (rpf(04))_____________________      1.9032E+01    
- PF_coil_04_vertical_position_(m)________________________________________ (zpf(04))_____________________     -2.9606E+00    
+ PF_coil_03_field_(T)____________________________________________________ (b_pf_coil_peak(03))_____________________      2.6808E+00    
+ PF_coil_04_radius_(m)___________________________________________________ (r_pf_coil_middle(04))_____________________      1.9032E+01    
+ PF_coil_04_vertical_position_(m)________________________________________ (z_pf_coil_middle(04))_____________________     -2.9606E+00    
  PF_coil_04_radial_thickness_(m)_________________________________________ (pfdr04)______________________      1.1659E+00    
  PF_coil_04_vertical_thickness_(m)_______________________________________ (pfdz04)______________________     -1.1659E+00    
- PF_coil_04_turns________________________________________________________ (turns(04))___________________      1.9327E+02    
+ PF_coil_04_turns________________________________________________________ (n_pf_coil_turns(04))___________________      1.9327E+02    
  PF_coil_04_current_(MA)_________________________________________________ (ric(04))_____________________     -8.1561E+00    
- PF_coil_04_field_(T)____________________________________________________ (bpf(04))_____________________      2.6808E+00    
- PF_coil_05_radius_(m)___________________________________________________ (rpf(05))_____________________      1.7386E+01    
- PF_coil_05_vertical_position_(m)________________________________________ (zpf(05))_____________________      8.2897E+00    
+ PF_coil_04_field_(T)____________________________________________________ (b_pf_coil_peak(04))_____________________      2.6808E+00    
+ PF_coil_05_radius_(m)___________________________________________________ (r_pf_coil_middle(05))_____________________      1.7386E+01    
+ PF_coil_05_vertical_position_(m)________________________________________ (z_pf_coil_middle(05))_____________________      8.2897E+00    
  PF_coil_05_radial_thickness_(m)_________________________________________ (pfdr05)______________________      8.2067E-01    
  PF_coil_05_vertical_thickness_(m)_______________________________________ (pfdz05)______________________      8.2067E-01    
- PF_coil_05_turns________________________________________________________ (turns(05))___________________      1.2530E+02    
+ PF_coil_05_turns________________________________________________________ (n_pf_coil_turns(05))___________________      1.2530E+02    
  PF_coil_05_current_(MA)_________________________________________________ (ric(05))_____________________     -5.3879E+00    
- PF_coil_05_field_(T)____________________________________________________ (bpf(05))_____________________      2.5876E+00    
- PF_coil_06_radius_(m)___________________________________________________ (rpf(06))_____________________      1.7386E+01    
- PF_coil_06_vertical_position_(m)________________________________________ (zpf(06))_____________________     -8.2897E+00    
+ PF_coil_05_field_(T)____________________________________________________ (b_pf_coil_peak(05))_____________________      2.5876E+00    
+ PF_coil_06_radius_(m)___________________________________________________ (r_pf_coil_middle(06))_____________________      1.7386E+01    
+ PF_coil_06_vertical_position_(m)________________________________________ (z_pf_coil_middle(06))_____________________     -8.2897E+00    
  PF_coil_06_radial_thickness_(m)_________________________________________ (pfdr06)______________________      8.2067E-01    
  PF_coil_06_vertical_thickness_(m)_______________________________________ (pfdz06)______________________     -8.2067E-01    
- PF_coil_06_turns________________________________________________________ (turns(06))___________________      1.2530E+02    
+ PF_coil_06_turns________________________________________________________ (n_pf_coil_turns(06))___________________      1.2530E+02    
  PF_coil_06_current_(MA)_________________________________________________ (ric(06))_____________________     -5.3879E+00    
- PF_coil_06_field_(T)____________________________________________________ (bpf(06))_____________________      2.5876E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf(nohc))___________________      2.6164E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf(nohc))___________________      0.0000E+00    
+ PF_coil_06_field_(T)____________________________________________________ (b_pf_coil_peak(06))_____________________      2.5876E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle(n_cs_pf_coils))___________________      2.6164E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle(n_cs_pf_coils))___________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      7.0754E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.6640E+01    
- Central_solenoid_turns__________________________________________________ (turns(nohc))_________________      3.5015E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric(nohc))___________________     -1.5057E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf(nohc))___________________      1.1499E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns(n_cs_pf_coils))_________________      3.5015E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric(n_cs_pf_coils))___________________     -1.5057E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak(n_cs_pf_coils))___________________      1.1499E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      4.0453E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.2115E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.2115E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      1.0000E+00 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________      4.6908E-02 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      1.0000E+00 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________      4.6908E-02 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_01_-_Time_point_01_(A)_______________________________________ (pfc01t01)____________________      0.0000E+00    
  PF_Circuit_01_-_Time_point_02_(A)_______________________________________ (pfc01t02)____________________      1.2790E+07    
  PF_Circuit_01_-_Time_point_03_(A)_______________________________________ (pfc01t03)____________________      1.5750E+07    
@@ -9024,12 +9024,12 @@ boundl(18) = 3.5
 ixc = 29 * dr_bore
 boundl(29) = 0.1
 ixc = 36 * fbeta_max
-ixc = 37 * coheof
+ixc = 37 * j_cs_flat_top_end
 ixc = 38 * fjohc
 boundu(38) = 1.0
 ixc = 39 * fjohc0
 boundu(39) = 1.0
-ixc = 41 * fcohbop
+ixc = 41 * f_j_cs_start_pulse_end_flat_top
 ixc = 42 * dr_cs_tf_gap
 boundl(42) = 0.05
 boundu(42) = 0.1
@@ -9066,7 +9066,7 @@ boundl(59) = 0.50
 boundu(59) = 0.94
 ixc = 54 * ftmargtf
 ixc = 106 * ftmargoh
-ixc = 122 * oh_steel_frac
+ixc = 122 * f_a_cs_steel
 ixc = 123 * foh_stress
 ixc = 109 * f_nd_alpha_electron
 ixc = 110 * falpha_energy_confinement
@@ -9202,16 +9202,16 @@ epsvmc   = 1.0e-8 * Error tolerance for vmcon
 
 *-----------------Pfcoil Variables-----------------*
 
-coheof   = 13540000.0 * Central solenoid overall current density at end of flat-top (a/m2)
-cptdin   = 4.22d4, 4.22d4, 4.22d4, 4.22d4, 4.3d4, 4.3d4,  4.3d4, 4.3d4, * Peak current per turn input for pf coil i (a)
-fcohbop  = 0.9362 * Ratio of central solenoid overall current density at
-ipfloc   = 2,2,3,3 * Switch for locating scheme of pf coil group i;
-isumatpf = 3 * Switch for superconductor material in pf coils;
-ncls     = 1,1,2,2, * Number of pf coils in group j
-ngrp     = 4 * Number of groups of pf coils;
-ohhghf   = 0.9 * Central solenoid height / tf coil internal height
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6, * Average winding pack current density of pf coil i (a/m2)
-rpf2     = -1.825 * Offset (m) of radial position of ipfloc=2 pf coils
+j_cs_flat_top_end   = 13540000.0 * Central solenoid overall current density at end of flat-top (a/m2)
+c_pf_coil_turn_peak_input   = 4.22d4, 4.22d4, 4.22d4, 4.22d4, 4.3d4, 4.3d4,  4.3d4, 4.3d4, * Peak current per turn input for pf coil i (a)
+f_j_cs_start_pulse_end_flat_top  = 0.9362 * Ratio of central solenoid overall current density at
+i_pf_location   = 2,2,3,3 * Switch for locating scheme of pf coil group i;
+i_pf_superconductor = 3 * Switch for superconductor material in pf coils;
+n_pf_coils_in_group     = 1,1,2,2, * Number of pf coils in group j
+n_pf_coil_groups     = 4 * Number of groups of pf coils;
+f_z_cs_tf_internal   = 0.9 * Central solenoid height / tf coil internal height
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6, * Average winding pack current density of pf coil i (a/m2)
+rpf2     = -1.825 * Offset (m) of radial position of i_pf_location=2 pf coils
 
 zref(1) = 3.6
 zref(2) = 1.2
@@ -9224,8 +9224,8 @@ zref(8) = 1.0
 
 alstroh = 6.6D8 * allowable hoop stress in Central Solenoid structural material (Pa)
 fcuohsu = 0.70 * copper fraction of strand in central solenoid cable
-isumatoh = 5 * WST Nb3Sn parameterisation
-oh_steel_frac = 0.8
+i_cs_superconductor = 5 * WST Nb3Sn parameterisation
+f_a_cs_steel = 0.8
 
 *----------------Physics Variables-----------------*
 
@@ -9326,10 +9326,10 @@ t_burn    = 1.0d4 * Burn time (s) (calculated if i_pulsed_plant=1)
                      q95              =  3.5000E+00
                      dr_bore           =  2.3322E+00
                      fbeta_max       =  4.8251E-01
-                     coheof         =  2.0726E+07
+                     j_cs_flat_top_end         =  2.0726E+07
                      fjohc          =  5.7941E-01
                      fjohc0         =  5.3923E-01
-                     fcohbop        =  9.3176E-01
+                     f_j_cs_start_pulse_end_flat_top        =  9.3176E-01
                      dr_cs_tf_gap          =  5.0000E-02
                      fvsbrnni       =  3.9566E-01
                      fstrcase       =  1.0000E+00
@@ -9349,7 +9349,7 @@ t_burn    = 1.0d4 * Burn time (s) (calculated if i_pulsed_plant=1)
                      fcutfsu        =  8.0884E-01
                      ftmargtf       =  1.0000E+00
                      ftmargoh       =  1.0000E+00
-                     oh_steel_frac  =  5.7875E-01
+                     f_a_cs_steel  =  5.7875E-01
                      foh_stress     =  1.0000E+00
                      f_nd_alpha_electron         =  6.8940E-02
                      falpha_energy_confinement      =  1.0000E+00
\ No newline at end of file
diff --git a/examples/data/scan_example_file_IN.DAT b/examples/data/scan_example_file_IN.DAT
index 792b2e5a11..cf10665c88 100644
--- a/examples/data/scan_example_file_IN.DAT
+++ b/examples/data/scan_example_file_IN.DAT
@@ -103,20 +103,20 @@ bmxlim = 14.0
 * Central solenoid EOF current density upper limit *
 *--------------------------------------------------*
 icc = 26
-ixc = 37 * coheof [A/m2]
+ixc = 37 * j_cs_flat_top_end [A/m2]
 ixc = 38 * fjohc
 boundu(38) = 1.0
-coheof = 1.5E7
+j_cs_flat_top_end = 1.5E7
 fjohc = 0.6
 
 * Central solenoid BOP current density upper limit *
 *--------------------------------------------------*
 icc = 27
 ixc = 39 * fjohc0
-ixc = 41 * fcohbop
+ixc = 41 * f_j_cs_start_pulse_end_flat_top
 boundu(39) = 1.0
 fjohc0 = 0.6
-fcohbop = 0.9
+f_j_cs_start_pulse_end_flat_top = 0.9
 
 * I_op/I_Crit TF coil limit *
 *---------------------------*
@@ -269,9 +269,9 @@ cpttf = 65000.0
 ixc = 109
 boundu(109) = 0.1
 
-* CS steel fraction, oh_steel_frac
+* CS steel fraction, f_a_cs_steel
 ixc = 122
-oh_steel_frac = 0.8
+f_a_cs_steel = 0.8
 
 * core impurity fraction, Xenon
 ixc = 135
@@ -539,27 +539,27 @@ iavail = 0
 ************
 
 * Peak current per turn input for PF coil i [A]
-cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
+c_pf_coil_turn_peak_input = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
 
 * Switch for locating scheme of pf coil group i
-ipfloc = 2,2,3,3
+i_pf_location = 2,2,3,3
 
 * Switch for superconductor material in pf coils
-isumatpf = 3
+i_pf_superconductor = 3
 
 * Number of pf coils in group j
-ncls = 1,1,2,2
+n_pf_coils_in_group = 1,1,2,2
 
 * Number of groups of PF coils
-ngrp = 4
+n_pf_coil_groups = 4
 
 * Central solenoid height / TF coil internal height
-ohhghf = 0.9
+f_z_cs_tf_internal = 0.9
 
 * Average winding pack current density of PF coil i [A/m2]
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
 
-* Offset of radial position of ipfloc=2 pf coils [m]
+* Offset of radial position of i_pf_location=2 pf coils [m]
 rpf2 = -1.825 
 
 zref(1) = 3.6
@@ -575,7 +575,7 @@ zref(8) = 1.0
 fcuohsu = 0.70
 
 * ITER Nb3Sn parameterisation
-isumatoh = 1
+i_cs_superconductor = 1
 
 * TF Coil *
 ***********
diff --git a/process/blanket_library.py b/process/blanket_library.py
index 9a208be93e..d9479e2606 100644
--- a/process/blanket_library.py
+++ b/process/blanket_library.py
@@ -378,7 +378,7 @@ def external_cryo_geometry() -> None:
         # Cryostat radius [m]
         # Take radius of furthest PF coil and add clearance
         fwbs_variables.r_cryostat_inboard = (
-            np.max(pfcoil_variables.rb) + fwbs_variables.dr_pf_cryostat
+            np.max(pfcoil_variables.r_pf_coil_outer) + fwbs_variables.dr_pf_cryostat
         )
 
         # Clearance between uppermost PF coil and cryostat lid [m].
@@ -392,7 +392,7 @@ def external_cryo_geometry() -> None:
         # Half-height of cryostat [m]
         # Take height of furthest PF coil and add clearance
         fwbs_variables.z_cryostat_half_inside = (
-            np.max(pfcoil_variables.zh) + blanket_library.dz_pf_cryostat
+            np.max(pfcoil_variables.z_pf_coil_upper) + blanket_library.dz_pf_cryostat
         )
 
         # Vertical clearance between TF coil and cryostat (m)
diff --git a/process/build.py b/process/build.py
index a3408093e8..ac633ae4b3 100644
--- a/process/build.py
+++ b/process/build.py
@@ -701,8 +701,8 @@ def calculate_vertical_build(self, output: bool) -> None:
             po.ovarre(
                 self.mfile,
                 "Ratio of Central Solenoid height to TF coil internal height",
-                "(ohhghf)",
-                pfcoil_variables.ohhghf,
+                "(f_z_cs_tf_internal)",
+                pfcoil_variables.f_z_cs_tf_internal,
             )
             po.ocmmnt(
                 self.outfile,
diff --git a/process/buildings.py b/process/buildings.py
index 5ee18495d0..c7f2df7cfb 100644
--- a/process/buildings.py
+++ b/process/buildings.py
@@ -74,8 +74,8 @@ def run(self, output: bool = False):
                 buildings_variables.elevol,
             ) = self.bldgs(
                 output,
-                pfcoil_variables.pfrmax,
-                pfcoil_variables.pfmmax,
+                pfcoil_variables.r_pf_coil_outer_max,
+                pfcoil_variables.m_pf_coil_max,
                 tfro,
                 tfri,
                 tf_vertical_dim,
@@ -396,7 +396,9 @@ def bldgs_sizes(self, output, tf_radial_dim, tf_vertical_dim):
         # Lateral size driven by radial width of largest component, from:
         #  PF coil max radius, cryostat radius, TF coil outer radius
         width_reactor_piece = max(
-            pfcoil_variables.pfrmax, fwbs_variables.r_cryostat_inboard, tf_radial_dim
+            pfcoil_variables.r_pf_coil_outer_max,
+            fwbs_variables.r_cryostat_inboard,
+            tf_radial_dim,
         )
         # Allow for biological shielding around reactor
         width_reactor_piece = width_reactor_piece + buildings_variables.bioshld_thk
diff --git a/process/costs.py b/process/costs.py
index 1a7042e2af..3a37475d71 100644
--- a/process/costs.py
+++ b/process/costs.py
@@ -1553,10 +1553,12 @@ def acc2222(self):
         #  Total length of PF coil windings (m)
 
         pfwndl = 0.0e0
-        for i in range(pfcoil_variables.nohc):
+        for i in range(pfcoil_variables.n_cs_pf_coils):
             pfwndl = (
                 pfwndl
-                + constants.twopi * pfcoil_variables.rpf[i] * pfcoil_variables.turns[i]
+                + constants.twopi
+                * pfcoil_variables.r_pf_coil_middle[i]
+                * pfcoil_variables.n_pf_coil_turns[i]
             )
 
         #  Account 222.2.1 : Conductor
@@ -1565,60 +1567,77 @@ def acc2222(self):
         #  costpfsh is the cost per metre of the steel conduit/sheath around
         #  each superconducting cable (so is zero for resistive coils)
 
-        costpfsh = 0.0 if pfcoil_variables.ipfres == 1 else cost_variables.cconshpf
+        costpfsh = (
+            0.0 if pfcoil_variables.i_pf_conductor == 1 else cost_variables.cconshpf
+        )
 
         #  Non-Central Solenoid coils
 
         if build_variables.iohcl == 1:
-            npf = pfcoil_variables.nohc - 1
+            npf = pfcoil_variables.n_cs_pf_coils - 1
         else:
-            npf = pfcoil_variables.nohc
+            npf = pfcoil_variables.n_cs_pf_coils
 
         self.c22221 = 0.0e0
 
         for i in range(npf):
             #  Superconductor ($/m)
             if cost_variables.supercond_cost_model == 0:
-                if pfcoil_variables.ipfres == 0:
+                if pfcoil_variables.i_pf_conductor == 0:
                     costpfsc = (
-                        cost_variables.ucsc[pfcoil_variables.isumatpf - 1]
+                        cost_variables.ucsc[pfcoil_variables.i_pf_superconductor - 1]
                         * (1.0e0 - pfcoil_variables.fcupfsu)
-                        * (1.0e0 - pfcoil_variables.vf[i])
-                        * abs(pfcoil_variables.ric[i] / pfcoil_variables.turns[i])
+                        * (1.0e0 - pfcoil_variables.f_a_pf_coil_void[i])
+                        * abs(
+                            pfcoil_variables.c_pf_cs_coils_peak_ma[i]
+                            / pfcoil_variables.n_pf_coil_turns[i]
+                        )
                         * 1.0e6
-                        / pfcoil_variables.rjconpf[i]
-                        * tfcoil_variables.dcond[pfcoil_variables.isumatpf - 1]
+                        / pfcoil_variables.j_pf_coil_wp_peak[i]
+                        * tfcoil_variables.dcond[
+                            pfcoil_variables.i_pf_superconductor - 1
+                        ]
                     )
                 else:
                     costpfsc = 0.0e0
             else:
-                if pfcoil_variables.ipfres == 0:
+                if pfcoil_variables.i_pf_conductor == 0:
                     costpfsc = (
-                        cost_variables.sc_mat_cost_0[pfcoil_variables.isumatpf - 1]
-                        * tfcoil_variables.j_crit_str_0[pfcoil_variables.isumatpf - 1]
+                        cost_variables.sc_mat_cost_0[
+                            pfcoil_variables.i_pf_superconductor - 1
+                        ]
+                        * tfcoil_variables.j_crit_str_0[
+                            pfcoil_variables.i_pf_superconductor - 1
+                        ]
                         / pfcoil_variables.j_crit_str_pf
                     )
                 else:
                     costpfsc = 0.0
 
             #  Copper ($/m)
-            if pfcoil_variables.ipfres == 0:
+            if pfcoil_variables.i_pf_conductor == 0:
                 costpfcu = (
                     cost_variables.uccu
                     * pfcoil_variables.fcupfsu
-                    * (1.0e0 - pfcoil_variables.vf[i])
-                    * abs(pfcoil_variables.ric[i] / pfcoil_variables.turns[i])
+                    * (1.0e0 - pfcoil_variables.f_a_pf_coil_void[i])
+                    * abs(
+                        pfcoil_variables.c_pf_cs_coils_peak_ma[i]
+                        / pfcoil_variables.n_pf_coil_turns[i]
+                    )
                     * 1.0e6
-                    / pfcoil_variables.rjconpf[i]
+                    / pfcoil_variables.j_pf_coil_wp_peak[i]
                     * constants.dcopper
                 )
             else:
                 costpfcu = (
                     cost_variables.uccu
-                    * (1.0e0 - pfcoil_variables.vf[i])
-                    * abs(pfcoil_variables.ric[i] / pfcoil_variables.turns[i])
+                    * (1.0e0 - pfcoil_variables.f_a_pf_coil_void[i])
+                    * abs(
+                        pfcoil_variables.c_pf_cs_coils_peak_ma[i]
+                        / pfcoil_variables.n_pf_coil_turns[i]
+                    )
                     * 1.0e6
-                    / pfcoil_variables.rjconpf[i]
+                    / pfcoil_variables.j_pf_coil_wp_peak[i]
                     * constants.dcopper
                 )
 
@@ -1635,8 +1654,8 @@ def acc2222(self):
             self.c22221 = self.c22221 + (
                 1.0e-6
                 * constants.twopi
-                * pfcoil_variables.rpf[i]
-                * pfcoil_variables.turns[i]
+                * pfcoil_variables.r_pf_coil_middle[i]
+                * pfcoil_variables.n_pf_coil_turns[i]
                 * cpfconpm
             )
 
@@ -1646,22 +1665,30 @@ def acc2222(self):
             #  Superconductor ($/m)
             if cost_variables.supercond_cost_model == 0:
                 #  Issue #328  Use CS conductor cross-sectional area (m2)
-                if pfcoil_variables.ipfres == 0:
+                if pfcoil_variables.i_pf_conductor == 0:
                     costpfsc = (
-                        cost_variables.ucsc[pfcoil_variables.isumatoh - 1]
+                        cost_variables.ucsc[pfcoil_variables.i_cs_superconductor - 1]
                         * pfcoil_variables.awpoh
-                        * (1 - pfcoil_variables.vfohc)
+                        * (1 - pfcoil_variables.f_a_cs_void)
                         * (1 - pfcoil_variables.fcuohsu)
-                        / pfcoil_variables.turns[pfcoil_variables.nohc - 1]
-                        * tfcoil_variables.dcond[pfcoil_variables.isumatoh - 1]
+                        / pfcoil_variables.n_pf_coil_turns[
+                            pfcoil_variables.n_cs_pf_coils - 1
+                        ]
+                        * tfcoil_variables.dcond[
+                            pfcoil_variables.i_cs_superconductor - 1
+                        ]
                     )
                 else:
                     costpfsc = 0.0e0
             else:
-                if pfcoil_variables.ipfres == 0:
+                if pfcoil_variables.i_pf_conductor == 0:
                     costpfsc = (
-                        cost_variables.sc_mat_cost_0[pfcoil_variables.isumatoh - 1]
-                        * tfcoil_variables.j_crit_str_0[pfcoil_variables.isumatoh - 1]
+                        cost_variables.sc_mat_cost_0[
+                            pfcoil_variables.i_cs_superconductor - 1
+                        ]
+                        * tfcoil_variables.j_crit_str_0[
+                            pfcoil_variables.i_cs_superconductor - 1
+                        ]
                         / pfcoil_variables.j_crit_str_cs
                     )
                 else:
@@ -1669,13 +1696,15 @@ def acc2222(self):
 
             #  Copper ($/m)
 
-            if pfcoil_variables.ipfres == 0:
+            if pfcoil_variables.i_pf_conductor == 0:
                 costpfcu = (
                     cost_variables.uccu
                     * pfcoil_variables.awpoh
-                    * (1 - pfcoil_variables.vfohc)
+                    * (1 - pfcoil_variables.f_a_cs_void)
                     * pfcoil_variables.fcuohsu
-                    / pfcoil_variables.turns[pfcoil_variables.nohc - 1]
+                    / pfcoil_variables.n_pf_coil_turns[
+                        pfcoil_variables.n_cs_pf_coils - 1
+                    ]
                     * constants.dcopper
                 )
             else:
@@ -1683,8 +1712,10 @@ def acc2222(self):
                 costpfcu = (
                     cost_variables.uccu
                     * pfcoil_variables.awpoh
-                    * (1 - pfcoil_variables.vfohc)
-                    / pfcoil_variables.turns[pfcoil_variables.nohc - 1]
+                    * (1 - pfcoil_variables.f_a_cs_void)
+                    / pfcoil_variables.n_pf_coil_turns[
+                        pfcoil_variables.n_cs_pf_coils - 1
+                    ]
                     * constants.dcopper
                 )
 
@@ -1701,8 +1732,8 @@ def acc2222(self):
             self.c22221 = self.c22221 + (
                 1.0e-6
                 * constants.twopi
-                * pfcoil_variables.rpf[pfcoil_variables.nohc - 1]
-                * pfcoil_variables.turns[pfcoil_variables.nohc - 1]
+                * pfcoil_variables.r_pf_coil_middle[pfcoil_variables.n_cs_pf_coils - 1]
+                * pfcoil_variables.n_pf_coil_turns[pfcoil_variables.n_cs_pf_coils - 1]
                 * cpfconpm
             )
 
@@ -1715,7 +1746,9 @@ def acc2222(self):
 
         #  Account 222.2.3 : Steel case - will be zero for resistive coils
 
-        self.c22223 = 1.0e-6 * cost_variables.uccase * pfcoil_variables.whtpfs
+        self.c22223 = (
+            1.0e-6 * cost_variables.uccase * pfcoil_variables.m_pf_coil_structure_total
+        )
         self.c22223 = cost_variables.fkind * self.c22223 * cmlsa[cost_variables.lsa - 1]
 
         #  Account 222.2.4 : Support structure
diff --git a/process/costs_2015.py b/process/costs_2015.py
index 6086fb93bc..7521a85db1 100644
--- a/process/costs_2015.py
+++ b/process/costs_2015.py
@@ -578,7 +578,7 @@ def calc_building_costs(self):
         self.s_label[4] = "PF Coil winding building"
         self.s_cref[4] = 190000.0e0 * cost_variables.light_build_cost_per_vol
         # Scale with the radius of the largest PF coil squared (m^2)
-        self.s_k[4] = pfcoil_variables.pfrmax**2
+        self.s_k[4] = pfcoil_variables.r_pf_coil_outer_max**2
         self.s_kref[4] = 12.4e0**2
         self.s_cost[4] = (
             self.s_cost_factor[4] * self.s_cref[4] * (self.s_k[4] / self.s_kref[4])
diff --git a/process/init.py b/process/init.py
index 4a47e85100..25b559c673 100644
--- a/process/init.py
+++ b/process/init.py
@@ -689,9 +689,9 @@ def check_process():
         # 2 : PF coil on top of TF coil
         # 3 : PF coil outside of TF coil
         if fortran.physics_variables.itartpf == 0:
-            fortran.pfcoil_variables.ipfloc[0] = 2
-            fortran.pfcoil_variables.ipfloc[1] = 3
-            fortran.pfcoil_variables.ipfloc[2] = 3
+            fortran.pfcoil_variables.i_pf_location[0] = 2
+            fortran.pfcoil_variables.i_pf_location[1] = 3
+            fortran.pfcoil_variables.i_pf_location[2] = 3
 
         # Water cooled copper magnets initalisation / checks
         if fortran.tfcoil_variables.i_tf_sup == 0:
@@ -821,30 +821,30 @@ def check_process():
         # Check PF coil configurations
         j = 0
         k = 0
-        for i in range(fortran.pfcoil_variables.ngrp):
+        for i in range(fortran.pfcoil_variables.n_pf_coil_groups):
             if (
-                fortran.pfcoil_variables.ipfloc[i] != 2
-                and fortran.pfcoil_variables.ncls[i] != 2
+                fortran.pfcoil_variables.i_pf_location[i] != 2
+                and fortran.pfcoil_variables.n_pf_coils_in_group[i] != 2
             ):
                 raise ProcessValidationError(
-                    "ncls(i) .ne. 2 is not a valid option except for (ipfloc = 2)"
+                    "n_pf_coils_in_group(i) .ne. 2 is not a valid option except for (i_pf_location = 2)"
                 )
 
-            if fortran.pfcoil_variables.ipfloc[i] == 2:
+            if fortran.pfcoil_variables.i_pf_location[i] == 2:
                 j = j + 1
-                k = k + fortran.pfcoil_variables.ncls[i]
+                k = k + fortran.pfcoil_variables.n_pf_coils_in_group[i]
 
         if k == 1:
             raise ProcessValidationError(
-                "Only 1 divertor coil (ipfloc = 2) is not a valid configuration"
+                "Only 1 divertor coil (i_pf_location = 2) is not a valid configuration"
             )
         if k > 2:
             raise ProcessValidationError(
-                "More than 2 divertor coils (ipfloc = 2) is not a valid configuration"
+                "More than 2 divertor coils (i_pf_location = 2) is not a valid configuration"
             )
         if fortran.physics_variables.i_single_null == 1 and j < 2:
             raise ProcessValidationError(
-                "If i_single_null=1, use 2 individual divertor coils (ipfloc = 2, 2; ncls = 1, 1)"
+                "If i_single_null=1, use 2 individual divertor coils (i_pf_location = 2, 2; n_pf_coils_in_group = 1, 1)"
             )
 
         # Constraint 10 is dedicated to ST designs with demountable joints
@@ -1143,8 +1143,8 @@ def check_process():
         )
 
     # PF coil resistivity is zero if superconducting
-    if fortran.pfcoil_variables.ipfres == 0:
-        fortran.pfcoil_variables.pfclres = 0.0
+    if fortran.pfcoil_variables.i_pf_conductor == 0:
+        fortran.pfcoil_variables.rho_pf_coil = 0.0
 
     # If there is no NBI, then hot beam density should be zero
     if fortran.current_drive_variables.irfcd == 1:
@@ -1243,7 +1243,7 @@ def check_process():
     # Cannot use temperature margin constraint with REBCO CS coils
     if (
         fortran.numerics.icc[: fortran.numerics.neqns + fortran.numerics.nineqns] == 60
-    ).any() and fortran.pfcoil_variables.isumatoh == 8:
+    ).any() and fortran.pfcoil_variables.i_cs_superconductor == 8:
         raise ProcessValidationError(
             "turn off CS temperature margin constraint icc = 60 when using REBCO"
         )
diff --git a/process/io/mfile_comparison.py b/process/io/mfile_comparison.py
index a7744711e5..b6e705ebd1 100644
--- a/process/io/mfile_comparison.py
+++ b/process/io/mfile_comparison.py
@@ -65,7 +65,7 @@
     "te",
     "dene",
     "hfact",
-    "vstot",
+    "vs_cs_pf_total_pulse",
     "bt",
     "bmaxtfrp",
     "tmarg",
@@ -182,7 +182,7 @@
     "p_plasma_loss_mw",
     "pdivt",
     "vssoft",
-    "vstot",
+    "vs_cs_pf_total_pulse",
     "t_burn",
     "bmaxtf",
     "iooic",
diff --git a/process/io/mfile_to_csv_vars.json b/process/io/mfile_to_csv_vars.json
index dc589edaef..1e089ba71c 100644
--- a/process/io/mfile_to_csv_vars.json
+++ b/process/io/mfile_to_csv_vars.json
@@ -8,7 +8,7 @@
         "alstroh",
         "sig_tf_wp_max",
         "thwcndut",
-        "fcohbop",
+        "f_j_cs_start_pulse_end_flat_top",
         "alstroh",
         "rmajor",
         "dr_tf_inboard",
diff --git a/process/io/obsolete_vars.py b/process/io/obsolete_vars.py
index 734b2b73bd..5563453846 100644
--- a/process/io/obsolete_vars.py
+++ b/process/io/obsolete_vars.py
@@ -104,7 +104,7 @@
     "bcylth": None,
     "itfmod": None,
     "jcrit_model": None,
-    "fcohbof": None,
+    "f_j_cs_start_end_flat_top": None,
     "fvolbi": "fhole",
     "fvolbo": "fhole",
     "fvolcry": None,
@@ -214,6 +214,25 @@
     "tfwmatmax": "temp_fw_max",
     "fw_channel_length": "len_fw_channel",
     "denw": None,
+    "rjconpf": "j_pf_coil_wp_peak",
+    "oh_steel_frac": "f_a_cs_steel",
+    "vf": "f_a_pf_coil_void",
+    "coheof": "j_cs_lat_top_end",
+    "ipfres": "i_pf_conductor",
+    "fvssu": "fvs_cs_pf_total_ramp",
+    "fbmaxcs": "fb_cs_limit_max",
+    "fcohbop": "f_j_cs_start_pulse_end_flat_top",
+    "ohhghf": "f_z_cs_tf_internal",
+    "vfohc": "f_a_cs_void",
+    "isumatoh": "i_cs_superconductor",
+    "ngrpmx": "n_pf+groups_max",
+    "ngrp": "n_pf_coil_groups",
+    "isumatpf": "i_pf_superconductor",
+    "pfclres": "rho_pf_coil",
+    "bmaxcs_lim": "b_cs_limit_max",
+    "ncls": "n_pf_coils_in_group",
+    "cptdin": "c_pf_coil_turn_peak_input",
+    "ipfloc": "i_pf_location",
 }
 
 OBS_VARS_HELP = {
diff --git a/process/io/plot_proc.py b/process/io/plot_proc.py
index 2bc73259af..085b14e1a2 100644
--- a/process/io/plot_proc.py
+++ b/process/io/plot_proc.py
@@ -2189,7 +2189,7 @@ def plot_pf_coils(axis, mfile_data, scan, colour_scheme):
     # Number of coils, both PF and CS
     number_of_coils = 0
     for item in mfile_data.data:
-        if "rpf[" in item:
+        if "r_pf_coil_middle[" in item:
             number_of_coils += 1
 
     # Check for Central Solenoid
@@ -2200,8 +2200,8 @@ def plot_pf_coils(axis, mfile_data, scan, colour_scheme):
     noc = number_of_coils - 1 if iohcl == 1 else number_of_coils
 
     for coil in range(noc):
-        coils_r.append(mfile_data.data[f"rpf[{coil:01}]"].get_scan(scan))
-        coils_z.append(mfile_data.data[f"zpf[{coil:01}]"].get_scan(scan))
+        coils_r.append(mfile_data.data[f"r_pf_coil_middle[{coil:01}]"].get_scan(scan))
+        coils_z.append(mfile_data.data[f"z_pf_coil_middle[{coil:01}]"].get_scan(scan))
         coils_dr.append(mfile_data.data[f"pfdr({coil:01})"].get_scan(scan))
         coils_dz.append(mfile_data.data[f"pfdz({coil:01})"].get_scan(scan))
         coil_text.append(str(coil + 1))
@@ -2583,12 +2583,12 @@ def plot_magnetics_info(axis, mfile_data, scan):
     # Number of coils (1 is OH coil)
     number_of_coils = 0
     for item in mfile_data.data:
-        if "rpf[" in item:
+        if "r_pf_coil_middle[" in item:
             number_of_coils += 1
 
     pf_info = [
         (
-            mfile_data.data[f"ric[{i:01}]"].get_scan(scan),
+            mfile_data.data[f"c_pf_cs_coils_peak_ma[{i:01}]"].get_scan(scan),
             f"PF {i}",
         )
         for i in range(1, number_of_coils)
@@ -2638,14 +2638,14 @@ def plot_magnetics_info(axis, mfile_data, scan):
             (pf_info[1][0], pf_info[1][1], "MA"),
             (pf_info_3_a, pf_info_3_b, "MA"),
             (vssoft, "Startup flux swing", "Wb"),
-            ("vstot", "Available flux swing", "Wb"),
+            ("vs_cs_pf_total_pulse", "Available flux swing", "Wb"),
             (t_burn, "Burn time", "hrs"),
             ("", "", ""),
             (f"#TF coil type is {tftype}", "", ""),
             ("bmaxtfrp", "Peak field at conductor (w. rip.)", "T"),
             ("iooic", r"I/I$_{\mathrm{crit}}$", ""),
             ("tmargtf", "TF Temperature margin", "K"),
-            ("tmargoh", "CS Temperature margin", "K"),
+            ("temp_cs_margin", "CS Temperature margin", "K"),
             (sig_cond, "TF Cond max TRESCA stress", "MPa"),
             (sig_case, "TF Case max TRESCA stress", "MPa"),
             ("whttf/n_tf_coils", "Mass per TF coil", "kg"),
@@ -2664,7 +2664,7 @@ def plot_magnetics_info(axis, mfile_data, scan):
             (pf_info[1][0], pf_info[1][1], "MA"),
             (pf_info_3_a, pf_info_3_b, "MA"),
             (vssoft, "Startup flux swing", "Wb"),
-            ("vstot", "Available flux swing", "Wb"),
+            ("vs_cs_pf_total_pulse", "Available flux swing", "Wb"),
             (t_burn, "Burn time", "hrs"),
             ("", "", ""),
             (f"#TF coil type is {tftype}", "", ""),
diff --git a/process/io/plot_radial_build.py b/process/io/plot_radial_build.py
index 3b877ee20d..dc118e75d4 100644
--- a/process/io/plot_radial_build.py
+++ b/process/io/plot_radial_build.py
@@ -209,11 +209,11 @@ def main(args=None):
         "dr_fw_plasma_gap_outboard",
         "sig_tf_wp_max",
         "copperaoh_m2_max",
-        "coheof",
+        "j_cs_flat_top_end",
         "dr_cs",
-        "ohhghf",
+        "f_z_cs_tf_internal",
         "csfv.n_cycle_min",
-        "pfv.oh_steel_frac",
+        "pfv.f_a_cs_steel",
         "csfv.t_crack_vertical",
         "",
         "",
diff --git a/process/io/plot_scans.py b/process/io/plot_scans.py
index 5415165a3d..8a4cb2cd8e 100644
--- a/process/io/plot_scans.py
+++ b/process/io/plot_scans.py
@@ -257,11 +257,11 @@ def main(args=None):
         59: "dr_fw_plasma_gap_outboard",
         60: "sig_tf_wp_max",
         61: "copperaoh_m2_max",
-        62: "coheof",
+        62: "j_cs_flat_top_end",
         63: "dr_cs",
-        64: "ohhghf",
+        64: "f_z_cs_tf_internal",
         65: "csfv.n_cycle_min",
-        66: "pfv.oh_steel_frac",
+        66: "pfv.f_a_cs_steel",
         67: "csfv.t_crack_vertical",
         68: "inlet_temp_liq",
         69: "outlet_temp_liq",
diff --git a/process/io/variable_metadata.py b/process/io/variable_metadata.py
index b125b59b7b..cbe0c197c7 100644
--- a/process/io/variable_metadata.py
+++ b/process/io/variable_metadata.py
@@ -215,12 +215,12 @@ class VariableMetadata:
         description="Copper fraction of strand in central solenoid",
         units="",
     ),
-    "coheof": VariableMetadata(
+    "j_cs_flat_top_end": VariableMetadata(
         latex=r"$J [A m^{-2}]$",
         description="central solenoid overall current density at end of flat-top",
         units="A m^{-2}",
     ),
-    "ohhghf": VariableMetadata(
+    "f_z_cs_tf_internal": VariableMetadata(
         latex=r"$Thickness_{\mathrm{CS}}[m]$",
         description="Central solenoid height / TF coil internal height",
         units="m",
@@ -289,7 +289,7 @@ class VariableMetadata:
         description="Minimum cycles for stress",
         units="",
     ),
-    "a_oh_turn": VariableMetadata(
+    "a_cs_turn": VariableMetadata(
         latex=r"$Turn_{\mathrm{area}}^{\mathrm{CS}}[$m$^{2}]$",
         description="Cross-sectional area of CS coil turns",
         units="m^2",
@@ -299,7 +299,7 @@ class VariableMetadata:
         description="Minimum burn time",
         units="s",
     ),
-    "pfv.oh_steel_frac": VariableMetadata(
+    "pfv.f_a_cs_steel": VariableMetadata(
         latex=r"$f_{\mathrm{Steel}}^{\mathrm{CS}}$",
         description="Steel fraction in CS coil",
         units="",
diff --git a/process/pfcoil.py b/process/pfcoil.py
index a15ac3553a..1f6e676135 100644
--- a/process/pfcoil.py
+++ b/process/pfcoil.py
@@ -67,54 +67,58 @@ def pfcoil(self):
         Central Solenoid coils, to determine their size, location, current waveforms,
         stresses etc.
         """
-        lrow1 = 2 * pfv.nptsmx + pfv.ngrpmx
-        lcol1 = pfv.ngrpmx
+        lrow1 = 2 * pfv.nptsmx + pfv.n_pf_groups_max
+        lcol1 = pfv.n_pf_groups_max
 
-        pcls0 = np.zeros(pfv.ngrpmx, dtype=int)
-        ncls0 = np.zeros(pfv.ngrpmx + 2, dtype=int)
+        pcls0 = np.zeros(pfv.n_pf_groups_max, dtype=int)
+        ncls0 = np.zeros(pfv.n_pf_groups_max + 2, dtype=int)
 
-        pf.rcls0, pf.zcls0 = np.zeros((2, pfv.ngrpmx, pfv.nclsmx), order="F")
-        pf.ccls0 = np.zeros(int(pfv.ngrpmx / 2))
-        sigma, work2 = np.zeros((2, pfv.ngrpmx))
-        rc, zc, cc, xc = np.zeros((4, pfv.nclsmx))
+        pf.rcls0, pf.zcls0 = np.zeros(
+            (2, pfv.n_pf_groups_max, pfv.n_pf_coils_in_group_max), order="F"
+        )
+        pf.ccls0 = np.zeros(int(pfv.n_pf_groups_max / 2))
+        sigma, work2 = np.zeros((2, pfv.n_pf_groups_max))
+        rc, zc, cc, xc = np.zeros((4, pfv.n_pf_coils_in_group_max))
         brin, bzin, rpts, zpts = np.zeros((4, pfv.nptsmx))
         bfix, bvec = np.zeros((2, lrow1))
         gmat, umat, vmat = np.zeros((3, lrow1, lcol1), order="F")
         signn = np.zeros(2)
         aturn = np.zeros(pfv.ngc2)
 
-        # Toggle switch for ipfloc()=2 coils above/below midplane
+        # Toggle switch for i_pf_location()=2 coils above/below midplane
         top_bottom = 1
 
-        # Set up the number of PF coils including the Central Solenoid (nohc),
-        # and the number of PF circuits including the plasma (ncirt)
-        if pfv.ngrp > pfv.ngrpmx:
-            eh.idiags[0] = pfv.ngrp
-            eh.idiags[1] = pfv.ngrpmx
+        # Set up the number of PF coils including the Central Solenoid (n_cs_pf_coils),
+        # and the number of PF circuits including the plasma (n_pf_cs_plasma_circuits)
+        if pfv.n_pf_coil_groups > pfv.n_pf_groups_max:
+            eh.idiags[0] = pfv.n_pf_coil_groups
+            eh.idiags[1] = pfv.n_pf_groups_max
             eh.report_error(64)
 
         # Total the number of PF coils in all groups, and check that none
         # exceeds the limit
-        pfv.nohc = 0
-        for i in range(pfv.ngrp):
-            if pfv.ncls[i] > pfv.nclsmx:
+        pfv.n_cs_pf_coils = 0
+        for i in range(pfv.n_pf_coil_groups):
+            if pfv.n_pf_coils_in_group[i] > pfv.n_pf_coils_in_group_max:
                 eh.idiags[0] = i
-                eh.idiags[1] = pfv.ncls[i]
-                eh.idiags[2] = pfv.nclsmx
+                eh.idiags[1] = pfv.n_pf_coils_in_group[i]
+                eh.idiags[2] = pfv.n_pf_coils_in_group_max
                 eh.report_error(65)
 
-            pfv.nohc = pfv.nohc + pfv.ncls[i]
+            pfv.n_cs_pf_coils = pfv.n_cs_pf_coils + pfv.n_pf_coils_in_group[i]
 
         # Add one if an Central Solenoid is present, and make an extra group
         if bv.iohcl != 0:
-            pfv.nohc = pfv.nohc + 1
-            pfv.ncls[pfv.ngrp] = 1
+            pfv.n_cs_pf_coils = pfv.n_cs_pf_coils + 1
+            pfv.n_pf_coils_in_group[pfv.n_pf_coil_groups] = 1
 
         # Add one for the plasma
-        pfv.ncirt = pfv.nohc + 1
+        pfv.n_pf_cs_plasma_circuits = pfv.n_cs_pf_coils + 1
 
         # Overall current density in the Central Solenoid at beginning of pulse
-        pfv.cohbop = pfv.coheof * pfv.fcohbop
+        pfv.j_cs_pulse_start = (
+            pfv.j_cs_flat_top_end * pfv.f_j_cs_start_pulse_end_flat_top
+        )
 
         # Set up array of times
         tv.tim[0] = 0.0e0
@@ -128,7 +132,7 @@ def pfcoil(self):
         # First break up Central Solenoid solenoid into 'filaments'
 
         # Central Solenoid mean radius
-        pfv.rohc = bv.dr_bore + 0.5e0 * bv.dr_cs
+        pfv.r_cs_middle = bv.dr_bore + 0.5e0 * bv.dr_cs
 
         # nfxf is the total no of filaments into which the Central Solenoid is split,
         # if present
@@ -139,7 +143,13 @@ def pfcoil(self):
             pf.nfxf = 2 * pfv.nfxfh
 
             # total Central Solenoid current at EOF
-            ioheof = -bv.hmax * pfv.ohhghf * bv.dr_cs * 2.0e0 * pfv.coheof
+            ioheof = (
+                -bv.hmax
+                * pfv.f_z_cs_tf_internal
+                * bv.dr_cs
+                * 2.0e0
+                * pfv.j_cs_flat_top_end
+            )
 
             if pf.nfxf > pfv.nfixmx:
                 eh.idiags[0] = pf.nfxf
@@ -149,11 +159,13 @@ def pfcoil(self):
             # Symmetric up/down Central Solenoid : Find (R,Z) and current of each filament at BOP
 
             for nng in range(pfv.nfxfh):
-                pf.rfxf[nng] = pfv.rohc
+                pf.rfxf[nng] = pfv.r_cs_middle
                 pf.rfxf[nng + pfv.nfxfh] = pf.rfxf[nng]
-                pf.zfxf[nng] = bv.hmax * pfv.ohhghf / pfv.nfxfh * ((nng + 1) - 0.5e0)
+                pf.zfxf[nng] = (
+                    bv.hmax * pfv.f_z_cs_tf_internal / pfv.nfxfh * ((nng + 1) - 0.5e0)
+                )
                 pf.zfxf[nng + pfv.nfxfh] = -pf.zfxf[nng]
-                pf.cfxf[nng] = -ioheof / pf.nfxf * pfv.fcohbop
+                pf.cfxf[nng] = -ioheof / pf.nfxf * pfv.f_j_cs_start_pulse_end_flat_top
                 pf.cfxf[nng + pfv.nfxfh] = pf.cfxf[nng]
 
         # Scale PF coil locations
@@ -163,25 +175,29 @@ def pfcoil(self):
 
         # Place the PF coils:
 
-        # N.B. Problems here if k=ncls(group) is greater than 2.
-        for j in range(pfv.ngrp):
-            if pfv.ipfloc[j] == 1:
+        # N.B. Problems here if k=n_pf_coils_in_group(group) is greater than 2.
+        for j in range(pfv.n_pf_coil_groups):
+            if pfv.i_pf_location[j] == 1:
                 # PF coil is stacked on top of the Central Solenoid
-                for k in range(pfv.ncls[j]):
-                    pf.rcls[j, k] = pfv.rohc + pfv.rpf1
+                for k in range(pfv.n_pf_coils_in_group[j]):
+                    pf.rcls[j, k] = pfv.r_cs_middle + pfv.rpf1
 
                     # Z coordinate of coil enforced so as not
                     # to occupy the same space as the Central Solenoid
                     pf.zcls[j, k] = signn[k] * (
-                        bv.hmax * pfv.ohhghf
+                        bv.hmax * pfv.f_z_cs_tf_internal
                         + 0.1e0
                         + 0.5e0
-                        * (bv.hmax * (1.0e0 - pfv.ohhghf) + bv.dr_tf_inboard + 0.1e0)
+                        * (
+                            bv.hmax * (1.0e0 - pfv.f_z_cs_tf_internal)
+                            + bv.dr_tf_inboard
+                            + 0.1e0
+                        )
                     )
 
-            elif pfv.ipfloc[j] == 2:
+            elif pfv.i_pf_location[j] == 2:
                 # PF coil is on top of the TF coil
-                for k in range(pfv.ncls[j]):
+                for k in range(pfv.n_pf_coils_in_group[j]):
                     pf.rcls[j, k] = pv.rmajor + pfv.rpf2 * pv.triang * pv.rminor
                     if pv.itart == 1 and pv.itartpf == 0:
                         pf.zcls[j, k] = (bv.hmax - pfv.zref[j]) * signn[k]
@@ -196,9 +212,9 @@ def pfcoil(self):
                             )
                             top_bottom = 1
 
-            elif pfv.ipfloc[j] == 3:
+            elif pfv.i_pf_location[j] == 3:
                 # PF coil is radially outside the TF coil
-                for k in range(pfv.ncls[j]):
+                for k in range(pfv.n_pf_coils_in_group[j]):
                     pf.zcls[j, k] = pv.rminor * pfv.zref[j] * signn[k]
                     # Coil radius follows TF coil curve for SC TF (D-shape)
                     # otherwise stacked for resistive TF (rectangle-shape)
@@ -214,17 +230,17 @@ def pfcoil(self):
                             )
                             pf.rcls[j, k] = 1e10
 
-            elif pfv.ipfloc[j] == 4:
+            elif pfv.i_pf_location[j] == 4:
                 # PF coil is in general location
                 # See issue 1418
                 # https://git.ccfe.ac.uk/process/process/-/issues/1418
-                for k in range(pfv.ncls[j]):
+                for k in range(pfv.n_pf_coils_in_group[j]):
                     pf.zcls[j, k] = pv.rminor * pfv.zref[j] * signn[k]
                     pf.rcls[j, k] = pv.rminor * pfv.rref[j] + pv.rmajor
 
             else:
                 eh.idiags[0] = j
-                eh.idiags[1] = pfv.ipfloc[j]
+                eh.idiags[1] = pfv.i_pf_location[j]
                 eh.report_error(67)
 
         # Allocate current to the PF coils:
@@ -237,7 +253,7 @@ def pfcoil(self):
         # coils.
 
         # Flux swing coils:
-        if pfv.cohbop != 0.0e0:
+        if pfv.j_cs_pulse_start != 0.0e0:
             # Find currents for plasma initiation to null field across plasma
             npts = 32  # Number of test points across plasma midplane
             if npts > pfv.nptsmx:
@@ -266,8 +282,8 @@ def pfcoil(self):
                 pf.rfxf,
                 pf.zfxf,
                 pf.cfxf,
-                pfv.ngrp,
-                pfv.ncls,
+                pfv.n_pf_coil_groups,
+                pfv.n_pf_coils_in_group,
                 pf.rcls,
                 pf.zcls,
                 pfv.alfapf,
@@ -281,24 +297,24 @@ def pfcoil(self):
             # Simple coil current scaling for STs (good only for A < about 1.8)
             # Bypasses SVD solver
             if pv.itart == 1 and pv.itartpf == 0:
-                for i in range(pfv.ngrp):
-                    if pfv.ipfloc[i] == 1:
+                for i in range(pfv.n_pf_coil_groups):
+                    if pfv.i_pf_location[i] == 1:
                         # PF coil is stacked on top of the Central Solenoid
                         pf.ccls[i] = 0.0e0
                         eh.idiags[0] = i
                         eh.report_error(69)
 
-                    elif pfv.ipfloc[i] == 2:
+                    elif pfv.i_pf_location[i] == 2:
                         # PF coil is on top of the TF coil
                         pf.ccls[i] = 0.3e0 * pv.aspect**1.6e0 * pv.plasma_current
 
-                    elif pfv.ipfloc[i] == 3:
+                    elif pfv.i_pf_location[i] == 3:
                         # PF coil is radially outside the TF coil
                         pf.ccls[i] = -0.4e0 * pv.plasma_current
 
                     else:
                         eh.idiags[0] = i
-                        eh.idiags[1] = pfv.ipfloc[i]
+                        eh.idiags[1] = pfv.i_pf_location[i]
                         eh.report_error(70)
 
                 # Vertical field (T)
@@ -319,8 +335,8 @@ def pfcoil(self):
                 nfxf0 = 0
                 ngrp0 = 0
                 nocoil = 0
-                for i in range(pfv.ngrp):
-                    if pfv.ipfloc[i] == 1:
+                for i in range(pfv.n_pf_coil_groups):
+                    if pfv.i_pf_location[i] == 1:
                         # Do not allow if no central solenoid
                         if bv.iohcl == 0:
                             eh.report_error(288)
@@ -328,14 +344,14 @@ def pfcoil(self):
                         # This coil is to balance Central Solenoid flux and should not be involved
                         # in equilibrium calculation -- RK 07/12
                         pf.ccls[i] = 0.0e0
-                        nfxf0 = nfxf0 + pfv.ncls[i]
-                        for ccount in range(pfv.ncls[i]):
+                        nfxf0 = nfxf0 + pfv.n_pf_coils_in_group[i]
+                        for ccount in range(pfv.n_pf_coils_in_group[i]):
                             pf.rfxf[nocoil] = pf.rcls[i, ccount]
                             pf.zfxf[nocoil] = pf.zcls[i, ccount]
                             pf.cfxf[nocoil] = pf.ccls[i]
                             nocoil = nocoil + 1
 
-                    elif pfv.ipfloc[i] == 2:
+                    elif pfv.i_pf_location[i] == 2:
                         # PF coil is on top of the TF coil; divertor coil
                         # This is a fixed current for this calculation -- RK 07/12
 
@@ -344,21 +360,21 @@ def pfcoil(self):
                             * 2.0e0
                             * (1.0e0 - (pv.kappa * pv.rminor) / abs(pf.zcls[i, 0]))
                         )
-                        nfxf0 = nfxf0 + pfv.ncls[i]
-                        for ccount in range(pfv.ncls[i]):
+                        nfxf0 = nfxf0 + pfv.n_pf_coils_in_group[i]
+                        for ccount in range(pfv.n_pf_coils_in_group[i]):
                             pf.rfxf[nocoil] = pf.rcls[i, ccount]
                             pf.zfxf[nocoil] = pf.zcls[i, ccount]
                             pf.cfxf[nocoil] = pf.ccls[i]
                             nocoil = nocoil + 1
 
-                    elif pfv.ipfloc[i] == 3:
+                    elif pfv.i_pf_location[i] == 3:
                         # PF coil is radially outside the TF coil
                         # This is an equilibrium coil, current must be solved for
 
                         pcls0[ngrp0] = i + 1
                         ngrp0 = ngrp0 + 1
 
-                    elif pfv.ipfloc[i] == 4:
+                    elif pfv.i_pf_location[i] == 4:
                         # PF coil is generally placed
                         # See issue 1418
                         # https://git.ccfe.ac.uk/process/process/-/issues/1418
@@ -369,7 +385,7 @@ def pfcoil(self):
 
                     else:
                         eh.idiags[0] = i
-                        eh.idiags[1] = pfv.ipfloc[i]
+                        eh.idiags[1] = pfv.i_pf_location[i]
                         eh.report_error(70)
 
                 for ccount in range(ngrp0):
@@ -426,21 +442,23 @@ def pfcoil(self):
         # Flux swing from vertical field
 
         # If this is the first visit to the routine the inductance matrix
-        # sxlg and the turns array have not yet been calculated, so we set
+        # ind_pf_cs_plasma_mutual and the turns array have not yet been calculated, so we set
         # them to (very) approximate values to avoid strange behaviour...
         if pf.first_call:
-            pfv.sxlg[:, :] = 1.0e0
-            pfv.turns[:] = 100.0e0
+            pfv.ind_pf_cs_plasma_mutual[:, :] = 1.0e0
+            pfv.n_pf_coil_turns[:] = 100.0e0
             pf.first_call = False
 
         pfflux = 0.0e0
         nocoil = 0
-        for ccount in range(pfv.ngrp):
-            for _i in range(pfv.ncls[ccount]):
+        for ccount in range(pfv.n_pf_coil_groups):
+            for _i in range(pfv.n_pf_coils_in_group[ccount]):
                 pfflux = pfflux + (
                     pf.ccls[ccount]
-                    * pfv.sxlg[nocoil, pfv.ncirt - 1]
-                    / pfv.turns[nocoil]
+                    * pfv.ind_pf_cs_plasma_mutual[
+                        nocoil, pfv.n_pf_cs_plasma_circuits - 1
+                    ]
+                    / pfv.n_pf_coil_turns[nocoil]
                 )
                 nocoil = nocoil + 1
 
@@ -451,8 +469,8 @@ def pfcoil(self):
             # Required current change in CS coil
 
             # Proposed new calculation...
-            # dics = csflux / sxlg(nohc,ncirt)
-            # BUT... sxlg(nohc,ncirt) is around 2000 times ddics below...
+            # dics = csflux / ind_pf_cs_plasma_mutual(n_cs_pf_coils,n_pf_cs_plasma_circuits)
+            # BUT... ind_pf_cs_plasma_mutual(n_cs_pf_coils,n_pf_cs_plasma_circuits) is around 2000 times ddics below...
 
             ddics = (
                 4.0e-7
@@ -463,25 +481,31 @@ def pfcoil(self):
                     + (bv.dr_cs * bv.dr_cs) / 6.0e0
                     + (bv.dr_cs * bv.dr_bore) / 2.0e0
                 )
-                / (bv.hmax * pfv.ohhghf * 2.0e0)
+                / (bv.hmax * pfv.f_z_cs_tf_internal * 2.0e0)
             )
             dics = csflux / ddics
 
-            pfv.fcohbof = ((-ioheof * pfv.fcohbop) + dics) / ioheof
-            pfv.fcohbof = min(pfv.fcohbof, 1.0e0)  # constrains abs(fcohbof) <= 1.0;
-            pfv.fcohbof = max(pfv.fcohbof, -1.0e0)  # probably un-necessary
+            pfv.f_j_cs_start_end_flat_top = (
+                (-ioheof * pfv.f_j_cs_start_pulse_end_flat_top) + dics
+            ) / ioheof
+            pfv.f_j_cs_start_end_flat_top = min(
+                pfv.f_j_cs_start_end_flat_top, 1.0e0
+            )  # constrains abs(f_j_cs_start_end_flat_top) <= 1.0;
+            pfv.f_j_cs_start_end_flat_top = max(
+                pfv.f_j_cs_start_end_flat_top, -1.0e0
+            )  # probably un-necessary
 
         else:
             dics = 0.0e0
-            pfv.fcohbof = 1.0e0
+            pfv.f_j_cs_start_end_flat_top = 1.0e0
             eh.report_error(71)
 
         # Split groups of coils into one set containing ncl coils
         ncl = 0
-        for nng in range(pfv.ngrp):
-            for ng2 in range(pfv.ncls[nng]):
-                pfv.rpf[ncl] = pf.rcls[nng, ng2]
-                pfv.zpf[ncl] = pf.zcls[nng, ng2]
+        for nng in range(pfv.n_pf_coil_groups):
+            for ng2 in range(pfv.n_pf_coils_in_group[nng]):
+                pfv.r_pf_coil_middle[ncl] = pf.rcls[nng, ng2]
+                pfv.z_pf_coil_middle[ncl] = pf.zcls[nng, ng2]
 
                 # Currents at different times:
 
@@ -496,98 +520,124 @@ def pfcoil(self):
                     pf.ccls[nng] = 1.0e6 * pfv.ccls_ma[nng]
 
                 # Beginning of pulse: t = tv.t_precharge
-                pfv.curpfb[ncl] = 1.0e-6 * pf.ccl0[nng]
+                pfv.c_pf_cs_coil_pulse_start_ma[ncl] = 1.0e-6 * pf.ccl0[nng]
 
                 # Beginning of flat-top: t = tv.t_precharge+tv.t_current_ramp_up
-                pfv.curpff[ncl] = 1.0e-6 * (
-                    pf.ccls[nng] - (pf.ccl0[nng] * pfv.fcohbof / pfv.fcohbop)
+                pfv.c_pf_cs_coil_flat_top_ma[ncl] = 1.0e-6 * (
+                    pf.ccls[nng]
+                    - (
+                        pf.ccl0[nng]
+                        * pfv.f_j_cs_start_end_flat_top
+                        / pfv.f_j_cs_start_pulse_end_flat_top
+                    )
                 )
 
                 # End of flat-top: t = tv.t_precharge+tv.t_current_ramp_up+tv.t_fusion_ramp+tv.t_burn
-                pfv.curpfs[ncl] = 1.0e-6 * (
-                    pf.ccls[nng] - (pf.ccl0[nng] * (1.0e0 / pfv.fcohbop))
+                pfv.c_pf_cs_coil_pulse_end_ma[ncl] = 1.0e-6 * (
+                    pf.ccls[nng]
+                    - (pf.ccl0[nng] * (1.0e0 / pfv.f_j_cs_start_pulse_end_flat_top))
                 )
 
                 ncl = ncl + 1
 
         # Current in Central Solenoid as a function of time
         # N.B. If the Central Solenoid is not present then ioheof is zero.
-        pfv.curpfb[ncl] = -1.0e-6 * ioheof * pfv.fcohbop
-        pfv.curpff[ncl] = 1.0e-6 * ioheof * pfv.fcohbof
-        pfv.curpfs[ncl] = 1.0e-6 * ioheof
+        pfv.c_pf_cs_coil_pulse_start_ma[ncl] = (
+            -1.0e-6 * ioheof * pfv.f_j_cs_start_pulse_end_flat_top
+        )
+        pfv.c_pf_cs_coil_flat_top_ma[ncl] = (
+            1.0e-6 * ioheof * pfv.f_j_cs_start_end_flat_top
+        )
+        pfv.c_pf_cs_coil_pulse_end_ma[ncl] = 1.0e-6 * ioheof
 
         # Set up coil current waveforms, normalised to the peak current in
         # each coil
-        self.waveform()  # sets ric(), waves()
+        self.waveform()  # sets c_pf_cs_coils_peak_ma(), waves()
 
         # Calculate PF coil geometry, current and number of turns
         # Dimensions are those of the winding pack, and exclude
         # the steel supporting case
         i = 0
-        pfv.pfrmax = 0.0e0
+        pfv.r_pf_coil_outer_max = 0.0e0
 
         dz = 0
 
-        for ii in range(pfv.ngrp):
-            for _ij in range(pfv.ncls[ii]):
-                if pfv.ipfloc[ii] == 1:
+        for ii in range(pfv.n_pf_coil_groups):
+            for _ij in range(pfv.n_pf_coils_in_group[ii]):
+                if pfv.i_pf_location[ii] == 1:
                     # PF coil is stacked on top of the Central Solenoid
                     dx = 0.5e0 * bv.dr_cs
                     dz = 0.5e0 * (
-                        bv.hmax * (1.0e0 - pfv.ohhghf) + bv.dr_tf_inboard + 0.1e0
+                        bv.hmax * (1.0e0 - pfv.f_z_cs_tf_internal)
+                        + bv.dr_tf_inboard
+                        + 0.1e0
                     )  # ???
                     area = 4.0e0 * dx * dz * pfv.pf_current_safety_factor
 
                     # Number of turns
-                    # CPTDIN[i] is the current per turn (input)
-                    pfv.turns[i] = abs((pfv.ric[i] * 1.0e6) / pfv.cptdin[i])
-                    aturn[i] = area / pfv.turns[i]
+                    # c_pf_coil_turn_peak_input[i] is the current per turn (input)
+                    pfv.n_pf_coil_turns[i] = abs(
+                        (pfv.c_pf_cs_coils_peak_ma[i] * 1.0e6)
+                        / pfv.c_pf_coil_turn_peak_input[i]
+                    )
+                    aturn[i] = area / pfv.n_pf_coil_turns[i]
 
                     # Actual winding pack current density
-                    pfv.rjconpf[i] = 1.0e6 * abs(pfv.ric[i]) / area
+                    pfv.j_pf_coil_wp_peak[i] = (
+                        1.0e6 * abs(pfv.c_pf_cs_coils_peak_ma[i]) / area
+                    )
 
                     # Location of edges of each coil:
-                    # ra = inner radius, rb = outer radius
-                    # zl = 'lower' edge z (i.e. edge nearer to midplane)
-                    # zh = 'upper' edge z (i.e. edge further from midplane)
-                    pfv.ra[i] = pfv.rpf[i] - dx
-                    pfv.rb[i] = pfv.rpf[i] + dx
+                    # r_pf_coil_inner = inner radius, r_pf_coil_outer = outer radius
+                    # z_pf_coil_lower = 'lower' edge z (i.e. edge nearer to midplane)
+                    # z_pf_coil_upper = 'upper' edge z (i.e. edge further from midplane)
+                    pfv.r_pf_coil_inner[i] = pfv.r_pf_coil_middle[i] - dx
+                    pfv.r_pf_coil_outer[i] = pfv.r_pf_coil_middle[i] + dx
 
-                    pfv.zl[i] = pfv.zpf[i] - dz
-                    if pfv.zpf[i] < 0.0e0:
-                        pfv.zl[i] = pfv.zpf[i] + dz
+                    pfv.z_pf_coil_lower[i] = pfv.z_pf_coil_middle[i] - dz
+                    if pfv.z_pf_coil_middle[i] < 0.0e0:
+                        pfv.z_pf_coil_lower[i] = pfv.z_pf_coil_middle[i] + dz
 
-                    pfv.zh[i] = pfv.zpf[i] + dz
+                    pfv.z_pf_coil_upper[i] = pfv.z_pf_coil_middle[i] + dz
 
-                    if pfv.zpf[i] < 0.0e0:
-                        pfv.zh[i] = pfv.zpf[i] - dz
+                    if pfv.z_pf_coil_middle[i] < 0.0e0:
+                        pfv.z_pf_coil_upper[i] = pfv.z_pf_coil_middle[i] - dz
 
                 else:
-                    # Other coils. N.B. Current density RJCONPF[i] is defined in
+                    # Other coils. N.B. Current density j_pf_coil_wp_peak[i] is defined in
                     # routine INITIAL for these coils.
                     area = (
-                        abs(pfv.ric[i] * 1.0e6 / pfv.rjconpf[i])
+                        abs(
+                            pfv.c_pf_cs_coils_peak_ma[i]
+                            * 1.0e6
+                            / pfv.j_pf_coil_wp_peak[i]
+                        )
                         * pfv.pf_current_safety_factor
                     )
 
-                    pfv.turns[i] = abs((pfv.ric[i] * 1.0e6) / pfv.cptdin[i])
-                    aturn[i] = area / pfv.turns[i]
+                    pfv.n_pf_coil_turns[i] = abs(
+                        (pfv.c_pf_cs_coils_peak_ma[i] * 1.0e6)
+                        / pfv.c_pf_coil_turn_peak_input[i]
+                    )
+                    aturn[i] = area / pfv.n_pf_coil_turns[i]
 
                     dx = 0.5e0 * math.sqrt(area)  # square cross-section
 
-                    pfv.ra[i] = pfv.rpf[i] - dx
-                    pfv.rb[i] = pfv.rpf[i] + dx
+                    pfv.r_pf_coil_inner[i] = pfv.r_pf_coil_middle[i] - dx
+                    pfv.r_pf_coil_outer[i] = pfv.r_pf_coil_middle[i] + dx
 
-                    pfv.zl[i] = pfv.zpf[i] - dx
-                    if pfv.zpf[i] < 0.0e0:
-                        pfv.zl[i] = pfv.zpf[i] + dx
+                    pfv.z_pf_coil_lower[i] = pfv.z_pf_coil_middle[i] - dx
+                    if pfv.z_pf_coil_middle[i] < 0.0e0:
+                        pfv.z_pf_coil_lower[i] = pfv.z_pf_coil_middle[i] + dx
 
-                    pfv.zh[i] = pfv.zpf[i] + dx
-                    if pfv.zpf[i] < 0.0e0:
-                        pfv.zh[i] = pfv.zpf[i] - dx
+                    pfv.z_pf_coil_upper[i] = pfv.z_pf_coil_middle[i] + dx
+                    if pfv.z_pf_coil_middle[i] < 0.0e0:
+                        pfv.z_pf_coil_upper[i] = pfv.z_pf_coil_middle[i] - dx
 
                 # Outside radius of largest PF coil (m)
-                pfv.pfrmax = max(pfv.pfrmax, pfv.rb[i])
+                pfv.r_pf_coil_outer_max = max(
+                    pfv.r_pf_coil_outer_max, pfv.r_pf_coil_outer[i]
+                )
 
                 i = i + 1
 
@@ -595,31 +645,31 @@ def pfcoil(self):
         # power losses and volumes and weights for each PF coil, index i
         i = 0
         it = 0
-        pfv.powpfres = 0.0e0
-        pfv.pfmmax = 0.0e0
+        pfv.p_pf_coil_resistive_total_flat_top = 0.0e0
+        pfv.m_pf_coil_max = 0.0e0
 
-        for ii in range(pfv.ngrp):
+        for ii in range(pfv.n_pf_coil_groups):
             iii = ii
-            for ij in range(pfv.ncls[ii]):
+            for ij in range(pfv.n_pf_coils_in_group[ii]):
                 # Peak field
 
                 if ij == 0:
                     # Index args +1ed
                     bri, bro, bzi, bzo = self.peakb(
                         i + 1, iii + 1, it
-                    )  # returns bpf, bpf2
+                    )  # returns b_pf_coil_peak, bpf2
 
                 # Issue 1871.  MDK
                 # Allowable current density (for superconducting coils) for each coil, index i
-                if pfv.ipfres == 0:
-                    bmax = max(abs(pfv.bpf[i]), abs(pf.bpf2[i]))
+                if pfv.i_pf_conductor == 0:
+                    bmax = max(abs(pfv.b_pf_coil_peak[i]), abs(pf.bpf2[i]))
 
-                    pfv.rjpfalw[i], jstrand, jsc, tmarg = self.superconpf(
+                    pfv.j_pf_wp_critical[i], jstrand, jsc, tmarg = self.superconpf(
                         bmax,
-                        pfv.vf[i],
+                        pfv.f_a_pf_coil_void[i],
                         pfv.fcupfsu,
-                        pfv.rjconpf[i],
-                        pfv.isumatpf,
+                        pfv.j_pf_coil_wp_peak[i],
+                        pfv.i_pf_superconductor,
                         tfv.fhts,
                         tfv.str_pf_con_res,
                         tfv.tftmp,
@@ -629,51 +679,73 @@ def pfcoil(self):
 
                     # Strand critical current calculation for costing in $/kAm
                     # = superconducting filaments jc * (1 - strand copper fraction)
-                    if pfv.isumatoh.item() in {2, 6, 8}:
+                    if pfv.i_cs_superconductor.item() in {2, 6, 8}:
                         pfv.j_crit_str_pf = jsc
                     else:
                         pfv.j_crit_str_pf = jsc * (1 - pfv.fcupfsu)
 
                 # Length of conductor
 
-                rll = 2.0e0 * constants.pi * pfv.rpf[i] * pfv.turns[i]
+                rll = (
+                    2.0e0
+                    * constants.pi
+                    * pfv.r_pf_coil_middle[i]
+                    * pfv.n_pf_coil_turns[i]
+                )
 
                 # Resistive coils
 
-                if pfv.ipfres == 1:
-                    # Coil resistance (vf is the void fraction)
+                if pfv.i_pf_conductor == 1:
+                    # Coil resistance (f_a_pf_coil_void is the void fraction)
 
-                    respf = pfv.pfclres * rll / (aturn[i] * (1.0e0 - pfv.vf[i]))
+                    respf = (
+                        pfv.rho_pf_coil
+                        * rll
+                        / (aturn[i] * (1.0e0 - pfv.f_a_pf_coil_void[i]))
+                    )
 
                     # Sum resistive power losses
 
-                    pfv.powpfres = (
-                        pfv.powpfres
-                        + respf * (1.0e6 * pfv.curpfb[i] / pfv.turns[i]) ** 2
+                    pfv.p_pf_coil_resistive_total_flat_top = (
+                        pfv.p_pf_coil_resistive_total_flat_top
+                        + respf
+                        * (
+                            1.0e6
+                            * pfv.c_pf_cs_coil_pulse_start_ma[i]
+                            / pfv.n_pf_coil_turns[i]
+                        )
+                        ** 2
                     )
 
                 # Winding pack volume
 
                 volpf = aturn[i] * rll
 
-                # Conductor weight (vf is the void fraction)
+                # Conductor weight (f_a_pf_coil_void is the void fraction)
 
-                if pfv.ipfres == 0:
-                    pfv.wtc[i] = (
-                        volpf * tfv.dcond[pfv.isumatpf - 1] * (1.0e0 - pfv.vf[i])
+                if pfv.i_pf_conductor == 0:
+                    pfv.m_pf_coil_conductor[i] = (
+                        volpf
+                        * tfv.dcond[pfv.i_pf_superconductor - 1]
+                        * (1.0e0 - pfv.f_a_pf_coil_void[i])
                     )
                 else:
-                    pfv.wtc[i] = volpf * constants.dcopper * (1.0e0 - pfv.vf[i])
+                    pfv.m_pf_coil_conductor[i] = (
+                        volpf * constants.dcopper * (1.0e0 - pfv.f_a_pf_coil_void[i])
+                    )
 
                 # (J x B) force on coil
 
                 forcepf = (
-                    0.5e6 * (pfv.bpf[i] + pf.bpf2[i]) * abs(pfv.ric[i]) * pfv.rpf[i]
+                    0.5e6
+                    * (pfv.b_pf_coil_peak[i] + pf.bpf2[i])
+                    * abs(pfv.c_pf_cs_coils_peak_ma[i])
+                    * pfv.r_pf_coil_middle[i]
                 )
 
                 # Stress ==> cross-sectional area of supporting steel to use
 
-                if pfv.ipfres == 0:
+                if pfv.i_pf_conductor == 0:
                     # Superconducting coil
                     # Updated assumptions: 500 MPa stress limit with all of the force
                     # supported in the conduit (steel) case.
@@ -688,7 +760,9 @@ def pfcoil(self):
                     # Thickness found via a simple quadratic equation
 
                     drpdz = (
-                        pfv.rb[i] - pfv.ra[i] + abs(pfv.zh[i] - pfv.zl[i])
+                        pfv.r_pf_coil_outer[i]
+                        - pfv.r_pf_coil_inner[i]
+                        + abs(pfv.z_pf_coil_upper[i] - pfv.z_pf_coil_lower[i])
                     )  # dr + dz
                     pfv.pfcaseth[i] = 0.25e0 * (
                         -drpdz + math.sqrt(drpdz * drpdz + 4.0e0 * areaspf)
@@ -700,28 +774,41 @@ def pfcoil(self):
 
                 # Weight of steel case
 
-                pfv.wts[i] = areaspf * 2.0e0 * constants.pi * pfv.rpf[i] * fwbsv.denstl
+                pfv.m_pf_coil_structure[i] = (
+                    areaspf
+                    * 2.0e0
+                    * constants.pi
+                    * pfv.r_pf_coil_middle[i]
+                    * fwbsv.denstl
+                )
 
                 # Mass of heaviest PF coil (tonnes)
 
-                pfv.pfmmax = max(
-                    pfv.pfmmax,
-                    (1.0e-3 * (pfv.wtc[i] + pfv.wts[i])),
+                pfv.m_pf_coil_max = max(
+                    pfv.m_pf_coil_max,
+                    (
+                        1.0e-3
+                        * (pfv.m_pf_coil_conductor[i] + pfv.m_pf_coil_structure[i])
+                    ),
                 )
                 i = i + 1
 
         # Find sum of current x turns x radius for all coils for 2015 costs model
         c = 0
         pfv.itr_sum = 0.0e0
-        for m in range(pfv.ngrp):
-            for _n in range(pfv.ncls[m]):
-                pfv.itr_sum = pfv.itr_sum + (pfv.rpf[c] * pfv.turns[c] * pfv.cptdin[c])
+        for m in range(pfv.n_pf_coil_groups):
+            for _n in range(pfv.n_pf_coils_in_group[m]):
+                pfv.itr_sum = pfv.itr_sum + (
+                    pfv.r_pf_coil_middle[c]
+                    * pfv.n_pf_coil_turns[c]
+                    * pfv.c_pf_coil_turn_peak_input[c]
+                )
                 c = c + 1
 
         pfv.itr_sum = pfv.itr_sum + (
             (bv.dr_bore + 0.5 * bv.dr_cs)
-            * pfv.turns[pfv.nohc - 1]
-            * pfv.cptdin[pfv.nohc - 1]
+            * pfv.n_pf_coil_turns[pfv.n_cs_pf_coils - 1]
+            * pfv.c_pf_coil_turn_peak_input[pfv.n_cs_pf_coils - 1]
         )
 
         # Find Central Solenoid information
@@ -729,37 +816,41 @@ def pfcoil(self):
             self.ohcalc()
 
         # Summation of weights and current
-        pfv.whtpf = 0.0e0
-        pfv.whtpfs = 0.0e0
+        pfv.m_pf_coil_conductor_total = 0.0e0
+        pfv.m_pf_coil_structure_total = 0.0e0
         pf.ricpf = 0.0e0
 
-        for i in range(pfv.nohc):
-            pfv.whtpf = pfv.whtpf + pfv.wtc[i]
-            pfv.whtpfs = pfv.whtpfs + pfv.wts[i]
-            pf.ricpf = pf.ricpf + abs(pfv.ric[i])
+        for i in range(pfv.n_cs_pf_coils):
+            pfv.m_pf_coil_conductor_total = (
+                pfv.m_pf_coil_conductor_total + pfv.m_pf_coil_conductor[i]
+            )
+            pfv.m_pf_coil_structure_total = (
+                pfv.m_pf_coil_structure_total + pfv.m_pf_coil_structure[i]
+            )
+            pf.ricpf = pf.ricpf + abs(pfv.c_pf_cs_coils_peak_ma[i])
 
         # Plasma size and shape
-        pfv.zh[pfv.nohc] = pv.rminor * pv.kappa
-        pfv.zl[pfv.nohc] = -pv.rminor * pv.kappa
-        pfv.ra[pfv.nohc] = pv.rmajor - pv.rminor
-        pfv.rb[pfv.nohc] = pv.rmajor + pv.rminor
-        pfv.turns[pfv.nohc] = 1.0e0
+        pfv.z_pf_coil_upper[pfv.n_cs_pf_coils] = pv.rminor * pv.kappa
+        pfv.z_pf_coil_lower[pfv.n_cs_pf_coils] = -pv.rminor * pv.kappa
+        pfv.r_pf_coil_inner[pfv.n_cs_pf_coils] = pv.rmajor - pv.rminor
+        pfv.r_pf_coil_outer[pfv.n_cs_pf_coils] = pv.rmajor + pv.rminor
+        pfv.n_pf_coil_turns[pfv.n_cs_pf_coils] = 1.0e0
 
         # Generate coil currents as a function of time using
-        # user-provided waveforms etc. (cptdin, fcohbop, fcohbof)
+        # user-provided waveforms etc. (c_pf_coil_turn_peak_input, f_j_cs_start_pulse_end_flat_top, f_j_cs_start_end_flat_top)
         for k in range(6):  # time points
-            for i in range(pfv.ncirt - 1):
-                pfv.cpt[i, k] = pfv.waves[i, k] * math.copysign(
-                    pfv.cptdin[i], pfv.ric[i]
+            for i in range(pfv.n_pf_cs_plasma_circuits - 1):
+                pfv.c_pf_coil_turn[i, k] = pfv.waves[i, k] * math.copysign(
+                    pfv.c_pf_coil_turn_peak_input[i], pfv.c_pf_cs_coils_peak_ma[i]
                 )
 
         # Plasma wave form
-        pfv.cpt[pfv.ncirt - 1, 0] = 0.0e0
-        pfv.cpt[pfv.ncirt - 1, 1] = 0.0e0
-        pfv.cpt[pfv.ncirt - 1, 2] = pv.plasma_current
-        pfv.cpt[pfv.ncirt - 1, 3] = pv.plasma_current
-        pfv.cpt[pfv.ncirt - 1, 4] = pv.plasma_current
-        pfv.cpt[pfv.ncirt - 1, 5] = 0.0e0
+        pfv.c_pf_coil_turn[pfv.n_pf_cs_plasma_circuits - 1, 0] = 0.0e0
+        pfv.c_pf_coil_turn[pfv.n_pf_cs_plasma_circuits - 1, 1] = 0.0e0
+        pfv.c_pf_coil_turn[pfv.n_pf_cs_plasma_circuits - 1, 2] = pv.plasma_current
+        pfv.c_pf_coil_turn[pfv.n_pf_cs_plasma_circuits - 1, 3] = pv.plasma_current
+        pfv.c_pf_coil_turn[pfv.n_pf_cs_plasma_circuits - 1, 4] = pv.plasma_current
+        pfv.c_pf_coil_turn[pfv.n_pf_cs_plasma_circuits - 1, 5] = 0.0e0
 
     def efc(
         self,
@@ -772,8 +863,8 @@ def efc(
         rfix,
         zfix,
         cfix,
-        ngrp,
-        ncls,
+        n_pf_coil_groups,
+        n_pf_coils_in_group,
         rcls,
         zcls,
         alfa,
@@ -811,11 +902,11 @@ def efc(
         :type zfix: np.ndarray
         :param cfix: Fixed currents (A)
         :type cfix: np.ndarray
-        :param ngrp: number of coil groups, where all coils in a group have the
-        same current, <= ngrpmx
-        :type ngrp: int
-        :param ncls: number of coils in each group, each value <= nclsmx
-        :type ncls: np.ndarray
+        :param n_pf_coil_groups: number of coil groups, where all coils in a group have the
+        same current, <= n_pf_groups_max
+        :type n_pf_coil_groups: int
+        :param n_pf_coils_in_group: number of coils in each group, each value <= n_pf_coils_in_group_max
+        :type n_pf_coils_in_group: np.ndarray
         :param rcls: coords R(i,j), Z(i,j) of coil j in group i (m)
         :type rcls: np.ndarray
         :param zcls: coords R(i,j), Z(i,j) of coil j in group i (m)
@@ -862,21 +953,21 @@ def efc(
             zpts,
             brin,
             bzin,
-            int(ngrp),
-            ncls,
+            int(n_pf_coil_groups),
+            n_pf_coils_in_group,
             rcls,
             zcls,
             alfa,
             bfix,
-            int(pfv.nclsmx),
+            int(pfv.n_pf_coils_in_group_max),
         )
 
         # Solve matrix equation
-        ccls = self.solv(pfv.ngrpmx, ngrp, nrws, gmat, bvec)
+        ccls = self.solv(pfv.n_pf_groups_max, n_pf_coil_groups, nrws, gmat, bvec)
 
         # Calculate the norm of the residual vectors
         brssq, brnrm, bzssq, bznrm, ssq = rsid(
-            npts, brin, bzin, nfix, int(ngrp), ccls, bfix, gmat
+            npts, brin, bzin, nfix, int(n_pf_coil_groups), ccls, bfix, gmat
         )
 
         return ssq, ccls
@@ -889,15 +980,15 @@ def tf_pf_collision_detector(self):
         if tfv.i_tf_shape == 2:
             pf_tf_collision = 0
 
-            for i in range(pfv.ngrp):
-                for ii in range(pfv.ngrp):
-                    for ij in range(pfv.ncls[ii]):
+            for i in range(pfv.n_pf_coil_groups):
+                for ii in range(pfv.n_pf_coil_groups):
+                    for ij in range(pfv.n_pf_coils_in_group[ii]):
                         if pf.rcls[ii, ij] <= (  # Outboard TF coil collision
-                            pf.rclsnorm - pfv.routr + pfv.rpf[i]
+                            pf.rclsnorm - pfv.routr + pfv.r_pf_coil_middle[i]
                         ) and pf.rcls[ii, ij] >= (
                             bv.r_tf_outboard_mid
                             - (0.5 * bv.dr_tf_outboard)
-                            - pfv.rpf[i]
+                            - pfv.r_pf_coil_middle[i]
                         ):
                             pf_tf_collision += 1
                         if pf.rcls[ii, ij] <= (  # Inboard TF coil collision
@@ -906,26 +997,28 @@ def tf_pf_collision_detector(self):
                             + bv.dr_cs_precomp
                             + bv.dr_cs_tf_gap
                             + bv.dr_tf_inboard
-                            + pfv.rpf[i]
+                            + pfv.r_pf_coil_middle[i]
                         ) and pf.rcls[ii, ij] >= (
                             bv.dr_bore
                             + bv.dr_cs
                             + bv.dr_cs_precomp
                             + bv.dr_cs_tf_gap
-                            - pfv.rpf[i]
+                            - pfv.r_pf_coil_middle[i]
                         ):
                             pf_tf_collision += 1
                         if (  # Vertical TF coil collision
-                            abs(pf.zcls[ii, ij]) <= bv.hpfu + pfv.rpf[i]
+                            abs(pf.zcls[ii, ij]) <= bv.hpfu + pfv.r_pf_coil_middle[i]
                             and abs(pf.zcls[ii, ij])
-                            >= bv.hpfu - (0.5 * bv.dr_tf_outboard) - pfv.rpf[i]
+                            >= bv.hpfu
+                            - (0.5 * bv.dr_tf_outboard)
+                            - pfv.r_pf_coil_middle[i]
                         ):
                             pf_tf_collision += 1
 
                         if pf_tf_collision >= 1:
                             eh.report_error(277)
 
-    def solv(self, ngrpmx, ngrp, nrws, gmat, bvec):
+    def solv(self, n_pf_groups_max, n_pf_coil_groups, nrws, gmat, bvec):
         """Solve a matrix using singular value decomposition.
 
         This routine solves the matrix equation for calculating the
@@ -935,11 +1028,11 @@ def solv(self, ngrpmx, ngrp, nrws, gmat, bvec):
         author: J Galambos, ORNL
         author: P C Shipe, ORNL
 
-        :param ngrpmx: maximum number of PF coil groups
-        :type ngrpmx: int
-        :param ngrp: number of coil groups, where all coils in a group have the
-        same current, <= ngrpmx
-        :type ngrp: int
+        :param n_pf_groups_max: maximum number of PF coil groups
+        :type n_pf_groups_max: int
+        :param n_pf_coil_groups: number of coil groups, where all coils in a group have the
+        same current, <= n_pf_groups_max
+        :type n_pf_coil_groups: int
         :param nrws: actual number of rows to use
         :type nrws: int
         :param gmat: work array
@@ -951,20 +1044,20 @@ def solv(self, ngrpmx, ngrp, nrws, gmat, bvec):
         :rtype: tuple[numpy.ndarray, numpy.ndarray, numpy.ndarray,
         numpy.ndarray, numpy.ndarray]
         """
-        ccls = np.zeros(ngrpmx)
-        work2 = np.zeros(ngrpmx)
+        ccls = np.zeros(n_pf_groups_max)
+        work2 = np.zeros(n_pf_groups_max)
 
         umat, sigma, vmat = svd(gmat)
 
-        for i in range(ngrp):
+        for i in range(n_pf_coil_groups):
             work2[i] = 0.0e0
             for j in range(nrws):
                 work2[i] = work2[i] + umat[j, i] * bvec[j]
 
         # Compute currents
-        for i in range(ngrp):
+        for i in range(n_pf_coil_groups):
             zvec = 0.0e0
-            for j in range(ngrp):
+            for j in range(n_pf_coil_groups):
                 if sigma[j] > 1.0e-10:
                     zvec = work2[j] / sigma[j]
 
@@ -977,43 +1070,53 @@ def ohcalc(self):
 
         author: P J Knight, CCFE, Culham Science Centre
         """
-        hohc = bv.hmax * pfv.ohhghf
+        hohc = bv.hmax * pfv.f_z_cs_tf_internal
 
         # Z coordinates of coil edges
-        pfv.zh[pfv.nohc - 1] = hohc
-        pfv.zl[pfv.nohc - 1] = -pfv.zh[pfv.nohc - 1]
+        pfv.z_pf_coil_upper[pfv.n_cs_pf_coils - 1] = hohc
+        pfv.z_pf_coil_lower[pfv.n_cs_pf_coils - 1] = -pfv.z_pf_coil_upper[
+            pfv.n_cs_pf_coils - 1
+        ]
 
         # (R,Z) coordinates of coil centre
-        pfv.rpf[pfv.nohc - 1] = pfv.rohc
-        pfv.zpf[pfv.nohc - 1] = 0.0e0
+        pfv.r_pf_coil_middle[pfv.n_cs_pf_coils - 1] = pfv.r_cs_middle
+        pfv.z_pf_coil_middle[pfv.n_cs_pf_coils - 1] = 0.0e0
 
         # Radius of outer edge
-        pfv.rb[pfv.nohc - 1] = pfv.rohc + 0.5e0 * bv.dr_cs
+        pfv.r_pf_coil_outer[pfv.n_cs_pf_coils - 1] = pfv.r_cs_middle + 0.5e0 * bv.dr_cs
 
         # Radius of inner edge
-        pfv.ra[pfv.nohc - 1] = pfv.rb[pfv.nohc - 1] - bv.dr_cs
+        pfv.r_pf_coil_inner[pfv.n_cs_pf_coils - 1] = (
+            pfv.r_pf_coil_outer[pfv.n_cs_pf_coils - 1] - bv.dr_cs
+        )
 
         # Total cross-sectional area
-        pfv.areaoh = 2.0e0 * hohc * bv.dr_cs
+        pfv.a_cs_poloidal = 2.0e0 * hohc * bv.dr_cs
 
         # Maximum current (MA-turns) in central Solenoid, at either BOP or EOF
-        if pfv.cohbop > pfv.coheof:
+        if pfv.j_cs_pulse_start > pfv.j_cs_flat_top_end:
             sgn = 1.0e0
-            pfv.ric[pfv.nohc - 1] = sgn * 1.0e-6 * pfv.cohbop * pfv.areaoh
+            pfv.c_pf_cs_coils_peak_ma[pfv.n_cs_pf_coils - 1] = (
+                sgn * 1.0e-6 * pfv.j_cs_pulse_start * pfv.a_cs_poloidal
+            )
         else:
             sgn = -1.0e0
-            pfv.ric[pfv.nohc - 1] = sgn * 1.0e-6 * pfv.coheof * pfv.areaoh
+            pfv.c_pf_cs_coils_peak_ma[pfv.n_cs_pf_coils - 1] = (
+                sgn * 1.0e-6 * pfv.j_cs_flat_top_end * pfv.a_cs_poloidal
+            )
 
         # Number of turns
-        pfv.turns[pfv.nohc - 1] = (
-            1.0e6 * abs(pfv.ric[pfv.nohc - 1]) / pfv.cptdin[pfv.nohc - 1]
+        pfv.n_pf_coil_turns[pfv.n_cs_pf_coils - 1] = (
+            1.0e6
+            * abs(pfv.c_pf_cs_coils_peak_ma[pfv.n_cs_pf_coils - 1])
+            / pfv.c_pf_coil_turn_peak_input[pfv.n_cs_pf_coils - 1]
         )
 
         # Turn vertical cross-sectionnal area
-        pfv.a_oh_turn = pfv.areaoh / pfv.turns[pfv.nohc - 1]
+        pfv.a_cs_turn = pfv.a_cs_poloidal / pfv.n_pf_coil_turns[pfv.n_cs_pf_coils - 1]
 
         # Depth/width of cs turn conduit
-        pfv.d_cond_cst = (pfv.a_oh_turn / pfv.ld_ratio_cst) ** 0.5
+        pfv.d_cond_cst = (pfv.a_cs_turn / pfv.ld_ratio_cst) ** 0.5
         # length of cs turn conduit
         pfv.l_cond_cst = pfv.ld_ratio_cst * pfv.d_cond_cst
         # Radius of turn space = pfv.r_in_cst
@@ -1023,7 +1126,7 @@ def ohcalc(self):
         p2_cst = (
             (pfv.l_cond_cst * pfv.d_cond_cst)
             - (4 - constants.pi) * (pfv.r_out_cst**2)
-            - (pfv.a_oh_turn * pfv.oh_steel_frac)
+            - (pfv.a_cs_turn * pfv.f_a_cs_steel)
         ) / constants.pi
         # CS coil turn geometry calculation - stadium shape
         # Literature: https://doi.org/10.1016/j.fusengdes.2017.04.052
@@ -1039,52 +1142,54 @@ def ohcalc(self):
             csfv.t_structural_radial = 1.0e-3
 
         # Non-steel area void fraction for coolant
-        pfv.vf[pfv.nohc - 1] = pfv.vfohc
+        pfv.f_a_pf_coil_void[pfv.n_cs_pf_coils - 1] = pfv.f_a_cs_void
 
         # Peak field at the End-Of-Flattop (EOF)
         # Occurs at inner edge of coil; bmaxoh2 and bzi are of opposite sign at EOF
 
         # Peak field due to central Solenoid itself
         bmaxoh2 = self.bfmax(
-            pfv.coheof,
-            pfv.ra[pfv.nohc - 1],
-            pfv.rb[pfv.nohc - 1],
+            pfv.j_cs_flat_top_end,
+            pfv.r_pf_coil_inner[pfv.n_cs_pf_coils - 1],
+            pfv.r_pf_coil_outer[pfv.n_cs_pf_coils - 1],
             hohc,
         )
 
         # Peak field due to other PF coils plus plasma
         timepoint = 5
-        bri, bro, bzi, bzo = self.peakb(pfv.nohc, 99, timepoint)
+        bri, bro, bzi, bzo = self.peakb(pfv.n_cs_pf_coils, 99, timepoint)
 
-        pfv.bmaxoh = abs(bzi - bmaxoh2)
+        pfv.b_cs_peak_flat_top_end = abs(bzi - bmaxoh2)
 
         # Peak field on outboard side of central Solenoid
         # (self-field is assumed to be zero - long solenoid approximation)
         bohco = abs(bzo)
 
         # Peak field at the Beginning-Of-Pulse (BOP)
-        # Occurs at inner edge of coil; bmaxoh0 and bzi are of same sign at BOP
-        pfv.bmaxoh0 = self.bfmax(
-            pfv.cohbop,
-            pfv.ra[pfv.nohc - 1],
-            pfv.rb[pfv.nohc - 1],
+        # Occurs at inner edge of coil; b_cs_peak_pulse_start and bzi are of same sign at BOP
+        pfv.b_cs_peak_pulse_start = self.bfmax(
+            pfv.j_cs_pulse_start,
+            pfv.r_pf_coil_inner[pfv.n_cs_pf_coils - 1],
+            pfv.r_pf_coil_outer[pfv.n_cs_pf_coils - 1],
             hohc,
         )
         timepoint = 2
-        bri, bro, bzi, bzo = self.peakb(pfv.nohc, 99, timepoint)
+        bri, bro, bzi, bzo = self.peakb(pfv.n_cs_pf_coils, 99, timepoint)
 
-        pfv.bmaxoh0 = abs(pfv.bmaxoh0 + bzi)
+        pfv.b_cs_peak_pulse_start = abs(pfv.b_cs_peak_pulse_start + bzi)
 
         # Maximum field values
-        pfv.bpf[pfv.nohc - 1] = max(pfv.bmaxoh, abs(pfv.bmaxoh0))
-        pf.bpf2[pfv.nohc - 1] = max(bohco, abs(bzo))
+        pfv.b_pf_coil_peak[pfv.n_cs_pf_coils - 1] = max(
+            pfv.b_cs_peak_flat_top_end, abs(pfv.b_cs_peak_pulse_start)
+        )
+        pf.bpf2[pfv.n_cs_pf_coils - 1] = max(bohco, abs(bzo))
 
         # Stress ==> cross-sectional area of supporting steel to use
-        if pfv.ipfres == 0:
+        if pfv.i_pf_conductor == 0:
             # Superconducting coil
 
             # New calculation from M. N. Wilson for hoop stress
-            pf.sig_hoop = self.hoop_stress(pfv.ra[pfv.nohc - 1])
+            pf.sig_hoop = self.hoop_stress(pfv.r_pf_coil_inner[pfv.n_cs_pf_coils - 1])
 
             # New calculation from Y. Iwasa for axial stress
             pf.sig_axial, pf.axial_force = self.axial_stress()
@@ -1108,7 +1213,7 @@ def ohcalc(self):
             # equation is used for Central Solenoid stress
 
             # Area of steel in Central Solenoid
-            areaspf = pfv.oh_steel_frac * pfv.areaoh
+            areaspf = pfv.f_a_cs_steel * pfv.a_cs_poloidal
 
             if pfv.i_cs_stress == 1:
                 pfv.s_tresca_oh = max(
@@ -1126,19 +1231,23 @@ def ohcalc(self):
             # Thickness of hypothetical steel cylinders assumed to encase the CS along
             # its inside and outside edges; in reality, the steel is distributed
             # throughout the conductor
-            pfv.pfcaseth[pfv.nohc - 1] = 0.25e0 * areaspf / hohc
+            pfv.pfcaseth[pfv.n_cs_pf_coils - 1] = 0.25e0 * areaspf / hohc
 
         else:
             areaspf = 0.0e0  # Resistive Central Solenoid - no steel needed
-            pfv.pfcaseth[pfv.nohc - 1] = 0.0e0
+            pfv.pfcaseth[pfv.n_cs_pf_coils - 1] = 0.0e0
 
         # Weight of steel
-        pfv.wts[pfv.nohc - 1] = (
-            areaspf * 2.0e0 * constants.pi * pfv.rpf[pfv.nohc - 1] * fwbsv.denstl
+        pfv.m_pf_coil_structure[pfv.n_cs_pf_coils - 1] = (
+            areaspf
+            * 2.0e0
+            * constants.pi
+            * pfv.r_pf_coil_middle[pfv.n_cs_pf_coils - 1]
+            * fwbsv.denstl
         )
 
         # Non-steel cross-sectional area
-        pfv.awpoh = pfv.areaoh - areaspf
+        pfv.awpoh = pfv.a_cs_poloidal - areaspf
 
         # Issue #97. Fudge to ensure awpoh is positive; result is continuous, smooth and
         # monotonically decreases
@@ -1148,35 +1257,41 @@ def ohcalc(self):
             pfv.awpoh = da * da / (2.0e0 * da - pfv.awpoh)
 
         # Weight of conductor in central Solenoid
-        if pfv.ipfres == 0:
-            pfv.wtc[pfv.nohc - 1] = (
+        if pfv.i_pf_conductor == 0:
+            pfv.m_pf_coil_conductor[pfv.n_cs_pf_coils - 1] = (
                 pfv.awpoh
-                * (1.0e0 - pfv.vfohc)
+                * (1.0e0 - pfv.f_a_cs_void)
                 * 2.0e0
                 * constants.pi
-                * pfv.rpf[pfv.nohc - 1]
-                * tfv.dcond[pfv.isumatoh - 1]
+                * pfv.r_pf_coil_middle[pfv.n_cs_pf_coils - 1]
+                * tfv.dcond[pfv.i_cs_superconductor - 1]
             )
         else:
-            pfv.wtc[pfv.nohc - 1] = (
+            pfv.m_pf_coil_conductor[pfv.n_cs_pf_coils - 1] = (
                 pfv.awpoh
-                * (1.0e0 - pfv.vfohc)
+                * (1.0e0 - pfv.f_a_cs_void)
                 * 2.0e0
                 * constants.pi
-                * pfv.rpf[pfv.nohc - 1]
+                * pfv.r_pf_coil_middle[pfv.n_cs_pf_coils - 1]
                 * constants.dcopper
             )
 
-        if pfv.ipfres == 0:
+        if pfv.i_pf_conductor == 0:
             # Allowable coil overall current density at EOF
             # (superconducting coils only)
 
-            jcritwp, pfv.jcableoh_eof, pfv.jscoh_eof, tmarg1 = self.superconpf(
-                pfv.bmaxoh,
-                pfv.vfohc,
+            (
+                jcritwp,
+                pfv.jcableoh_eof,
+                pfv.j_cs_conductor_critical_flat_top_end,
+                tmarg1,
+            ) = self.superconpf(
+                pfv.b_cs_peak_flat_top_end,
+                pfv.f_a_cs_void,
                 pfv.fcuohsu,
-                (abs(pfv.ric[pfv.nohc - 1]) / pfv.awpoh) * 1.0e6,
-                pfv.isumatoh,
+                (abs(pfv.c_pf_cs_coils_peak_ma[pfv.n_cs_pf_coils - 1]) / pfv.awpoh)
+                * 1.0e6,
+                pfv.i_cs_superconductor,
                 tfv.fhts,
                 tfv.str_cs_con_res,
                 tfv.tftmp,
@@ -1185,21 +1300,29 @@ def ohcalc(self):
             )
             # Strand critical current calculation for costing in $/kAm
             # = superconducting filaments jc * (1 - strand copper fraction)
-            if pfv.isumatoh.item() in {2, 6, 8}:
-                pfv.j_crit_str_cs = pfv.jscoh_eof
+            if pfv.i_cs_superconductor.item() in {2, 6, 8}:
+                pfv.j_crit_str_cs = pfv.j_cs_conductor_critical_flat_top_end
             else:
-                pfv.j_crit_str_cs = pfv.jscoh_eof * (1 - pfv.fcuohsu)
+                pfv.j_crit_str_cs = pfv.j_cs_conductor_critical_flat_top_end * (
+                    1 - pfv.fcuohsu
+                )
 
-            pfv.rjohc = jcritwp * pfv.awpoh / pfv.areaoh
+            pfv.j_cs_critical_flat_top_end = jcritwp * pfv.awpoh / pfv.a_cs_poloidal
 
             # Allowable coil overall current density at BOP
 
-            jcritwp, pfv.jcableoh_bop, pfv.jscoh_bop, tmarg2 = self.superconpf(
-                pfv.bmaxoh0,
-                pfv.vfohc,
+            (
+                jcritwp,
+                pfv.jcableoh_bop,
+                pfv.j_cs_conductor_critical_pulse_start,
+                tmarg2,
+            ) = self.superconpf(
+                pfv.b_cs_peak_pulse_start,
+                pfv.f_a_cs_void,
                 pfv.fcuohsu,
-                (abs(pfv.ric[pfv.nohc - 1]) / pfv.awpoh) * 1.0e6,
-                pfv.isumatoh,
+                (abs(pfv.c_pf_cs_coils_peak_ma[pfv.n_cs_pf_coils - 1]) / pfv.awpoh)
+                * 1.0e6,
+                pfv.i_cs_superconductor,
                 tfv.fhts,
                 tfv.str_cs_con_res,
                 tfv.tftmp,
@@ -1207,23 +1330,27 @@ def ohcalc(self):
                 tfv.tcritsc,
             )
 
-            pfv.rjpfalw[pfv.nohc - 1] = jcritwp * pfv.awpoh / pfv.areaoh
-            pfv.rjohc0 = pfv.rjpfalw[pfv.nohc - 1]
+            pfv.j_pf_wp_critical[pfv.n_cs_pf_coils - 1] = (
+                jcritwp * pfv.awpoh / pfv.a_cs_poloidal
+            )
+            pfv.j_cs_critical_pulse_start = pfv.j_pf_wp_critical[pfv.n_cs_pf_coils - 1]
 
-            pfv.tmargoh = min(tmarg1, tmarg2)
+            pfv.temp_cs_margin = min(tmarg1, tmarg2)
 
         else:
             # Resistive power losses (non-superconducting coil)
 
-            pfv.powohres = (
+            pfv.p_cs_resistive_flat_top = (
                 2.0e0
                 * constants.pi
-                * pfv.rohc
-                * pfv.pfclres
-                / (pfv.areaoh * (1.0e0 - pfv.vfohc))
-                * (1.0e6 * pfv.ric[pfv.nohc - 1]) ** 2
+                * pfv.r_cs_middle
+                * pfv.rho_pf_coil
+                / (pfv.a_cs_poloidal * (1.0e0 - pfv.f_a_cs_void))
+                * (1.0e6 * pfv.c_pf_cs_coils_peak_ma[pfv.n_cs_pf_coils - 1]) ** 2
+            )
+            pfv.p_pf_coil_resistive_total_flat_top = (
+                pfv.p_pf_coil_resistive_total_flat_top + pfv.p_cs_resistive_flat_top
             )
-            pfv.powpfres = pfv.powpfres + pfv.powohres
 
     def peakb(self, i, ii, it):
         """Calculates the peak field at a PF coil.
@@ -1241,18 +1368,36 @@ def peakb(self, i, ii, it):
         The calculation includes the effects from all the coils
         and the plasma.
         """
-        if bv.iohcl != 0 and i == pfv.nohc:
+        if bv.iohcl != 0 and i == pfv.n_cs_pf_coils:
             # Peak field is to be calculated at the Central Solenoid itself,
             # so exclude its own contribution; its self field is
             # dealt with externally using routine BFMAX
             kk = 0
         else:
             # Check different times for maximum current
-            if abs(pfv.curpfb[i - 1] - pfv.ric[i - 1]) < 1.0e-12:
+            if (
+                abs(
+                    pfv.c_pf_cs_coil_pulse_start_ma[i - 1]
+                    - pfv.c_pf_cs_coils_peak_ma[i - 1]
+                )
+                < 1.0e-12
+            ):
                 it = 2
-            elif abs(pfv.curpff[i - 1] - pfv.ric[i - 1]) < 1.0e-12:
+            elif (
+                abs(
+                    pfv.c_pf_cs_coil_flat_top_ma[i - 1]
+                    - pfv.c_pf_cs_coils_peak_ma[i - 1]
+                )
+                < 1.0e-12
+            ):
                 it = 4
-            elif abs(pfv.curpfs[i - 1] - pfv.ric[i - 1]) < 1.0e-12:
+            elif (
+                abs(
+                    pfv.c_pf_cs_coil_pulse_end_ma[i - 1]
+                    - pfv.c_pf_cs_coils_peak_ma[i - 1]
+                )
+                < 1.0e-12
+            ):
                 it = 5
             else:
                 eh.idiags[0] = it
@@ -1262,16 +1407,16 @@ def peakb(self, i, ii, it):
                 # No Central Solenoid
                 kk = 0
             else:
-                sgn = 1.0 if pfv.cohbop > pfv.coheof else -1.0
+                sgn = 1.0 if pfv.j_cs_pulse_start > pfv.j_cs_flat_top_end else -1.0
 
                 # Current in each filament representing part of the Central Solenoid
                 for iohc in range(pf.nfxf):
                     pf.cfxf[iohc] = (
-                        pfv.waves[pfv.nohc - 1, it - 1]
-                        * pfv.coheof
+                        pfv.waves[pfv.n_cs_pf_coils - 1, it - 1]
+                        * pfv.j_cs_flat_top_end
                         * sgn
                         * bv.dr_cs
-                        * pfv.ohhghf
+                        * pfv.f_z_cs_tf_internal
                         * bv.hmax
                         / pf.nfxf
                         * 2.0e0
@@ -1281,46 +1426,56 @@ def peakb(self, i, ii, it):
 
         # Non-Central Solenoid coils' contributions
         jj = 0
-        for iii in range(pfv.ngrp):
-            for _jjj in range(pfv.ncls[iii]):
+        for iii in range(pfv.n_pf_coil_groups):
+            for _jjj in range(pfv.n_pf_coils_in_group[iii]):
                 jj = jj + 1
                 # Radius, z-coordinate and current for each coil
                 if iii == ii - 1:
                     # Self field from coil (Lyle's Method)
                     kk = kk + 1
 
-                    dzpf = pfv.zh[jj - 1] - pfv.zl[jj - 1]
-                    pf.rfxf[kk - 1] = pfv.rpf[jj - 1]
-                    pf.zfxf[kk - 1] = pfv.zpf[jj - 1] + dzpf * 0.125e0
+                    dzpf = pfv.z_pf_coil_upper[jj - 1] - pfv.z_pf_coil_lower[jj - 1]
+                    pf.rfxf[kk - 1] = pfv.r_pf_coil_middle[jj - 1]
+                    pf.zfxf[kk - 1] = pfv.z_pf_coil_middle[jj - 1] + dzpf * 0.125e0
                     pf.cfxf[kk - 1] = (
-                        pfv.ric[jj - 1] * pfv.waves[jj - 1, it - 1] * 0.25e6
+                        pfv.c_pf_cs_coils_peak_ma[jj - 1]
+                        * pfv.waves[jj - 1, it - 1]
+                        * 0.25e6
                     )
                     kk = kk + 1
-                    pf.rfxf[kk - 1] = pfv.rpf[jj - 1]
-                    pf.zfxf[kk - 1] = pfv.zpf[jj - 1] + dzpf * 0.375e0
+                    pf.rfxf[kk - 1] = pfv.r_pf_coil_middle[jj - 1]
+                    pf.zfxf[kk - 1] = pfv.z_pf_coil_middle[jj - 1] + dzpf * 0.375e0
                     pf.cfxf[kk - 1] = (
-                        pfv.ric[jj - 1] * pfv.waves[jj - 1, it - 1] * 0.25e6
+                        pfv.c_pf_cs_coils_peak_ma[jj - 1]
+                        * pfv.waves[jj - 1, it - 1]
+                        * 0.25e6
                     )
                     kk = kk + 1
-                    pf.rfxf[kk - 1] = pfv.rpf[jj - 1]
-                    pf.zfxf[kk - 1] = pfv.zpf[jj - 1] - dzpf * 0.125e0
+                    pf.rfxf[kk - 1] = pfv.r_pf_coil_middle[jj - 1]
+                    pf.zfxf[kk - 1] = pfv.z_pf_coil_middle[jj - 1] - dzpf * 0.125e0
                     pf.cfxf[kk - 1] = (
-                        pfv.ric[jj - 1] * pfv.waves[jj - 1, it - 1] * 0.25e6
+                        pfv.c_pf_cs_coils_peak_ma[jj - 1]
+                        * pfv.waves[jj - 1, it - 1]
+                        * 0.25e6
                     )
                     kk = kk + 1
-                    pf.rfxf[kk - 1] = pfv.rpf[jj - 1]
-                    pf.zfxf[kk - 1] = pfv.zpf[jj - 1] - dzpf * 0.375e0
+                    pf.rfxf[kk - 1] = pfv.r_pf_coil_middle[jj - 1]
+                    pf.zfxf[kk - 1] = pfv.z_pf_coil_middle[jj - 1] - dzpf * 0.375e0
                     pf.cfxf[kk - 1] = (
-                        pfv.ric[jj - 1] * pfv.waves[jj - 1, it - 1] * 0.25e6
+                        pfv.c_pf_cs_coils_peak_ma[jj - 1]
+                        * pfv.waves[jj - 1, it - 1]
+                        * 0.25e6
                     )
 
                 else:
                     # Field from different coil
                     kk = kk + 1
-                    pf.rfxf[kk - 1] = pfv.rpf[jj - 1]
-                    pf.zfxf[kk - 1] = pfv.zpf[jj - 1]
+                    pf.rfxf[kk - 1] = pfv.r_pf_coil_middle[jj - 1]
+                    pf.zfxf[kk - 1] = pfv.z_pf_coil_middle[jj - 1]
                     pf.cfxf[kk - 1] = (
-                        pfv.ric[jj - 1] * pfv.waves[jj - 1, it - 1] * 1.0e6
+                        pfv.c_pf_cs_coils_peak_ma[jj - 1]
+                        * pfv.waves[jj - 1, it - 1]
+                        * 1.0e6
                     )
 
         # Plasma contribution
@@ -1336,25 +1491,25 @@ def peakb(self, i, ii, it):
             pf.rfxf[:kk],
             pf.zfxf[:kk],
             pf.cfxf[:kk],
-            pfv.ra[i - 1],
-            pfv.zpf[i - 1],
+            pfv.r_pf_coil_inner[i - 1],
+            pfv.z_pf_coil_middle[i - 1],
         )
         pf.xind[:kk], bro, bzo, psi = bfield(
             pf.rfxf[:kk],
             pf.zfxf[:kk],
             pf.cfxf[:kk],
-            pfv.rb[i - 1],
-            pfv.zpf[i - 1],
+            pfv.r_pf_coil_outer[i - 1],
+            pfv.z_pf_coil_middle[i - 1],
         )
 
-        # bpf and bpf2 for the Central Solenoid are calculated in OHCALC
-        if (bv.iohcl != 0) and (i == pfv.nohc):
+        # b_pf_coil_peak and bpf2 for the Central Solenoid are calculated in OHCALC
+        if (bv.iohcl != 0) and (i == pfv.n_cs_pf_coils):
             return bri, bro, bzi, bzo
 
         bpfin = math.sqrt(bri**2 + bzi**2)
         bpfout = math.sqrt(bro**2 + bzo**2)
-        for n in range(pfv.ncls[ii - 1]):
-            pfv.bpf[i - 1 + n] = bpfin
+        for n in range(pfv.n_pf_coils_in_group[ii - 1]):
+            pfv.b_pf_coil_peak[i - 1 + n] = bpfin
             pf.bpf2[i - 1 + n] = bpfout
 
         return bri, bro, bzi, bzo
@@ -1431,48 +1586,76 @@ def vsec(self):
         """
         if bv.iohcl == 0:
             # No Central Solenoid
-            pf.nef = pfv.ncirt - 1
+            pf.nef = pfv.n_pf_cs_plasma_circuits - 1
         else:
-            pf.nef = pfv.ncirt - 2
+            pf.nef = pfv.n_pf_cs_plasma_circuits - 2
 
-        pfv.vsefsu = 0.0e0
+        pfv.vs_pf_coils_total_ramp = 0.0e0
 
         for i in range(pf.nef):
-            pf.vsdum[i, 0] = pfv.sxlg[pfv.ncirt - 1, i] * pfv.cpt[i, 1]
-            pf.vsdum[i, 1] = pfv.sxlg[pfv.ncirt - 1, i] * pfv.cpt[i, 2]
-            pfv.vsefsu = pfv.vsefsu + (pf.vsdum[i, 1] - pf.vsdum[i, 0])
+            pf.vsdum[i, 0] = (
+                pfv.ind_pf_cs_plasma_mutual[pfv.n_pf_cs_plasma_circuits - 1, i]
+                * pfv.c_pf_coil_turn[i, 1]
+            )
+            pf.vsdum[i, 1] = (
+                pfv.ind_pf_cs_plasma_mutual[pfv.n_pf_cs_plasma_circuits - 1, i]
+                * pfv.c_pf_coil_turn[i, 2]
+            )
+            pfv.vs_pf_coils_total_ramp = pfv.vs_pf_coils_total_ramp + (
+                pf.vsdum[i, 1] - pf.vsdum[i, 0]
+            )
 
         # Central Solenoid startup volt-seconds
         if bv.iohcl != 0:
-            pf.vsdum[pfv.nohc - 1, 0] = (
-                pfv.sxlg[pfv.ncirt - 1, pfv.ncirt - 2] * pfv.cpt[pfv.ncirt - 2, 1]
+            pf.vsdum[pfv.n_cs_pf_coils - 1, 0] = (
+                pfv.ind_pf_cs_plasma_mutual[
+                    pfv.n_pf_cs_plasma_circuits - 1, pfv.n_pf_cs_plasma_circuits - 2
+                ]
+                * pfv.c_pf_coil_turn[pfv.n_pf_cs_plasma_circuits - 2, 1]
+            )
+            pf.vsdum[pfv.n_cs_pf_coils - 1, 1] = (
+                pfv.ind_pf_cs_plasma_mutual[
+                    pfv.n_pf_cs_plasma_circuits - 1, pfv.n_pf_cs_plasma_circuits - 2
+                ]
+                * pfv.c_pf_coil_turn[pfv.n_pf_cs_plasma_circuits - 2, 2]
             )
-            pf.vsdum[pfv.nohc - 1, 1] = (
-                pfv.sxlg[pfv.ncirt - 1, pfv.ncirt - 2] * pfv.cpt[pfv.ncirt - 2, 2]
+            pfv.vs_cs_ramp = (
+                pf.vsdum[pfv.n_cs_pf_coils - 1, 1] - pf.vsdum[pfv.n_cs_pf_coils - 1, 0]
             )
-            pfv.vsohsu = pf.vsdum[pfv.nohc - 1, 1] - pf.vsdum[pfv.nohc - 1, 0]
 
         # Total available volt-seconds for start-up
-        pfv.vssu = pfv.vsohsu + pfv.vsefsu
+        pfv.vs_cs_pf_total_ramp = pfv.vs_cs_ramp + pfv.vs_pf_coils_total_ramp
 
         # Burn volt-seconds
         if bv.iohcl != 0:
-            pf.vsdum[pfv.nohc - 1, 2] = (
-                pfv.sxlg[pfv.ncirt - 1, pfv.ncirt - 2] * pfv.cpt[pfv.ncirt - 2, 4]
+            pf.vsdum[pfv.n_cs_pf_coils - 1, 2] = (
+                pfv.ind_pf_cs_plasma_mutual[
+                    pfv.n_pf_cs_plasma_circuits - 1, pfv.n_pf_cs_plasma_circuits - 2
+                ]
+                * pfv.c_pf_coil_turn[pfv.n_pf_cs_plasma_circuits - 2, 4]
+            )
+            pfv.vs_cs_burn = (
+                pf.vsdum[pfv.n_cs_pf_coils - 1, 2] - pf.vsdum[pfv.n_cs_pf_coils - 1, 1]
             )
-            pfv.vsohbn = pf.vsdum[pfv.nohc - 1, 2] - pf.vsdum[pfv.nohc - 1, 1]
 
         # PF volt-seconds during burn
-        pfv.vsefbn = 0.0e0
+        pfv.vs_pf_coils_total_burn = 0.0e0
         for i in range(pf.nef):
-            pf.vsdum[i, 2] = pfv.sxlg[pfv.ncirt - 1, i] * pfv.cpt[i, 4]
-            pfv.vsefbn = pfv.vsefbn + (pf.vsdum[i, 2] - pf.vsdum[i, 1])
+            pf.vsdum[i, 2] = (
+                pfv.ind_pf_cs_plasma_mutual[pfv.n_pf_cs_plasma_circuits - 1, i]
+                * pfv.c_pf_coil_turn[i, 4]
+            )
+            pfv.vs_pf_coils_total_burn = pfv.vs_pf_coils_total_burn + (
+                pf.vsdum[i, 2] - pf.vsdum[i, 1]
+            )
 
-        pfv.vsbn = pfv.vsohbn + pfv.vsefbn
+        pfv.vs_cs_pf_total_burn = pfv.vs_cs_burn + pfv.vs_pf_coils_total_burn
 
-        pfv.vstot = pfv.vssu + pfv.vsbn
-        pfv.vseft = pfv.vsefsu + pfv.vsefbn
-        pfv.vsoh = pfv.vsohbn + pfv.vsohsu
+        pfv.vs_cs_pf_total_pulse = pfv.vs_cs_pf_total_ramp + pfv.vs_cs_pf_total_burn
+        pfv.vs_pf_coils_total_pulse = (
+            pfv.vs_pf_coils_total_ramp + pfv.vs_pf_coils_total_burn
+        )
+        pfv.vs_cs_total_pulse = pfv.vs_cs_burn + pfv.vs_cs_ramp
 
     def hoop_stress(self, r):
         """Calculation of hoop stress of central solenoid.
@@ -1486,10 +1669,10 @@ def hoop_stress(self, r):
         :return: hoop stress (MPa)
         :rtype: float
         """
-        a = pfv.ra[pfv.nohc - 1]
+        a = pfv.r_pf_coil_inner[pfv.n_cs_pf_coils - 1]
 
         # Outer radius of central Solenoid [m]
-        b = pfv.rb[pfv.nohc - 1]
+        b = pfv.r_pf_coil_outer[pfv.n_cs_pf_coils - 1]
 
         # alpha
         alpha = b / a
@@ -1498,14 +1681,14 @@ def hoop_stress(self, r):
         epsilon = r / a
 
         # Field at inner radius of coil [T]
-        b_a = pfv.bmaxoh0
+        b_a = pfv.b_cs_peak_pulse_start
 
         # Field at outer radius of coil [T]
         # Assume to be 0 for now
         b_b = 0.0e0
 
         # current density [A/m^2]
-        j = pfv.cohbop
+        j = pfv.j_cs_pulse_start
 
         # K term
         k = ((alpha * b_a - b_b) * j * a) / (alpha - 1.0e0)
@@ -1540,7 +1723,7 @@ def hoop_stress(self, r):
 
         s_hoop_nom = hp_term_1 * hp_term_2 - hp_term_3 * hp_term_4
 
-        return s_hoop_nom / pfv.oh_steel_frac
+        return s_hoop_nom / pfv.f_a_cs_steel
 
     def axial_stress(self):
         """Calculation of axial stress of central solenoid.
@@ -1552,13 +1735,13 @@ def axial_stress(self):
         :return: unsmeared axial stress [MPa], axial force [N]
         :rtype: tuple[float, float]
         """
-        b = pfv.rb[pfv.nohc - 1]
+        b = pfv.r_pf_coil_outer[pfv.n_cs_pf_coils - 1]
 
         # Half height of central Solenoid [m]
-        hl = pfv.zh[pfv.nohc - 1]
+        hl = pfv.z_pf_coil_upper[pfv.n_cs_pf_coils - 1]
 
         # Central Solenoid current [A]
-        ni = pfv.ric[pfv.nohc - 1] * 1.0e6
+        ni = pfv.c_pf_cs_coils_peak_ma[pfv.n_cs_pf_coils - 1] * 1.0e6
 
         # kb term for elliptical integrals
         # kb2 = SQRT((4.0e0*b**2)/(4.0e0*b**2 + hl**2))
@@ -1589,10 +1772,13 @@ def axial_stress(self):
         axial_force = axial_term_1 * (axial_term_2 - axial_term_3)
 
         # axial area [m2]
-        area_ax = constants.pi * (pfv.rb[pfv.nohc - 1] ** 2 - pfv.ra[pfv.nohc - 1] ** 2)
+        area_ax = constants.pi * (
+            pfv.r_pf_coil_outer[pfv.n_cs_pf_coils - 1] ** 2
+            - pfv.r_pf_coil_inner[pfv.n_cs_pf_coils - 1] ** 2
+        )
 
         # calculate unsmeared axial stress [MPa]
-        s_axial = axial_force / (pfv.oh_steel_frac * 0.5 * area_ax)
+        s_axial = axial_force / (pfv.f_a_cs_steel * 0.5 * area_ax)
 
         return s_axial, axial_force
 
@@ -1621,7 +1807,7 @@ def induct(self, output):
         rplasma = np.zeros(nplas)
         zplasma = np.zeros(nplas)
 
-        pfv.sxlg[:, :] = 0.0
+        pfv.ind_pf_cs_plasma_mutual[:, :] = 0.0
 
         # Break Central Solenoid into noh segments
         #
@@ -1632,8 +1818,11 @@ def induct(self, output):
         noh = int(
             math.ceil(
                 2.0e0
-                * pfv.zh[pfv.nohc - 1]
-                / (pfv.rb[pfv.nohc - 1] - pfv.ra[pfv.nohc - 1])
+                * pfv.z_pf_coil_upper[pfv.n_cs_pf_coils - 1]
+                / (
+                    pfv.r_pf_coil_outer[pfv.n_cs_pf_coils - 1]
+                    - pfv.r_pf_coil_inner[pfv.n_cs_pf_coils - 1]
+                )
             )
         )
 
@@ -1654,13 +1843,15 @@ def induct(self, output):
         zoh = np.zeros(noh)
 
         if bv.iohcl != 0:
-            roh[:] = pfv.rohc
+            roh[:] = pfv.r_cs_middle
 
             delzoh = (
-                2.0e0 * pfv.zh[pfv.nohc - 1] / noh
-            )  # zh(nohc) is the half-height of the coil
+                2.0e0 * pfv.z_pf_coil_upper[pfv.n_cs_pf_coils - 1] / noh
+            )  # z_pf_coil_upper(n_cs_pf_coils) is the half-height of the coil
             for i in range(noh):
-                zoh[i] = pfv.zh[pfv.nohc - 1] - delzoh * (0.5e0 + i)
+                zoh[i] = pfv.z_pf_coil_upper[pfv.n_cs_pf_coils - 1] - delzoh * (
+                    0.5e0 + i
+                )
 
         rplasma[0] = pv.rmajor  # assumes nplas==1
         zplasma[0] = 0.0
@@ -1704,45 +1895,54 @@ def induct(self, output):
                     xc[ii] = 0.5e0 * (xcin[ii] + xcout[ii])
                     xohpl = xohpl + xc[ii]
 
-            pfv.sxlg[pfv.ncirt - 1, pfv.nohc - 1] = (
-                xohpl / (nplas * noh) * pfv.turns[pfv.nohc - 1]
-            )
-            pfv.sxlg[pfv.nohc - 1, pfv.ncirt - 1] = pfv.sxlg[
-                pfv.ncirt - 1, pfv.nohc - 1
+            pfv.ind_pf_cs_plasma_mutual[
+                pfv.n_pf_cs_plasma_circuits - 1, pfv.n_cs_pf_coils - 1
+            ] = xohpl / (nplas * noh) * pfv.n_pf_coil_turns[pfv.n_cs_pf_coils - 1]
+            pfv.ind_pf_cs_plasma_mutual[
+                pfv.n_cs_pf_coils - 1, pfv.n_pf_cs_plasma_circuits - 1
+            ] = pfv.ind_pf_cs_plasma_mutual[
+                pfv.n_pf_cs_plasma_circuits - 1, pfv.n_cs_pf_coils - 1
             ]
 
         # Plasma self inductance
-        pfv.sxlg[pfv.ncirt - 1, pfv.ncirt - 1] = pv.ind_plasma
+        pfv.ind_pf_cs_plasma_mutual[
+            pfv.n_pf_cs_plasma_circuits - 1, pfv.n_pf_cs_plasma_circuits - 1
+        ] = pv.ind_plasma
 
         # PF coil / plasma mutual inductances
         ncoils = 0
 
-        for i in range(pfv.ngrp):
+        for i in range(pfv.n_pf_coil_groups):
             xpfpl = 0.0
-            ncoils = ncoils + pfv.ncls[i]
-            rp = pfv.rpf[ncoils - 1]
-            zp = pfv.zpf[ncoils - 1]
+            ncoils = ncoils + pfv.n_pf_coils_in_group[i]
+            rp = pfv.r_pf_coil_middle[ncoils - 1]
+            zp = pfv.z_pf_coil_middle[ncoils - 1]
             xc, br, bz, psi = bfield(rc, zc, cc, rp, zp)
             for ii in range(nplas):
                 xpfpl = xpfpl + xc[ii]
 
-            for j in range(pfv.ncls[i]):
+            for j in range(pfv.n_pf_coils_in_group[i]):
                 ncoilj = ncoils + 1 - (j + 1)
-                pfv.sxlg[ncoilj - 1, pfv.ncirt - 1] = (
-                    xpfpl / nplas * pfv.turns[ncoilj - 1]
-                )
-                pfv.sxlg[pfv.ncirt - 1, ncoilj - 1] = pfv.sxlg[
-                    ncoilj - 1, pfv.ncirt - 1
+                pfv.ind_pf_cs_plasma_mutual[
+                    ncoilj - 1, pfv.n_pf_cs_plasma_circuits - 1
+                ] = xpfpl / nplas * pfv.n_pf_coil_turns[ncoilj - 1]
+                pfv.ind_pf_cs_plasma_mutual[
+                    pfv.n_pf_cs_plasma_circuits - 1, ncoilj - 1
+                ] = pfv.ind_pf_cs_plasma_mutual[
+                    ncoilj - 1, pfv.n_pf_cs_plasma_circuits - 1
                 ]
 
         if bv.iohcl != 0:
             # Central Solenoid self inductance
-            a = pfv.rohc  # mean radius of coil
-            b = 2.0e0 * pfv.zh[pfv.nohc - 1]  # length of coil
-            c = pfv.rb[pfv.nohc - 1] - pfv.ra[pfv.nohc - 1]  # radial winding thickness
-            pfv.sxlg[pfv.nohc - 1, pfv.nohc - 1] = self.selfinductance(
-                a, b, c, pfv.turns[pfv.nohc - 1]
-            )
+            a = pfv.r_cs_middle  # mean radius of coil
+            b = 2.0e0 * pfv.z_pf_coil_upper[pfv.n_cs_pf_coils - 1]  # length of coil
+            c = (
+                pfv.r_pf_coil_outer[pfv.n_cs_pf_coils - 1]
+                - pfv.r_pf_coil_inner[pfv.n_cs_pf_coils - 1]
+            )  # radial winding thickness
+            pfv.ind_pf_cs_plasma_mutual[
+                pfv.n_cs_pf_coils - 1, pfv.n_cs_pf_coils - 1
+            ] = self.selfinductance(a, b, c, pfv.n_pf_coil_turns[pfv.n_cs_pf_coils - 1])
 
             # Central Solenoid / PF coil mutual inductances
             for i in range(noh):
@@ -1750,53 +1950,62 @@ def induct(self, output):
                 zc[i] = zoh[i]
 
             ncoils = 0
-            for i in range(pfv.ngrp):
+            for i in range(pfv.n_pf_coil_groups):
                 xohpf = 0.0
-                ncoils = ncoils + pfv.ncls[i]
-                rp = pfv.rpf[ncoils - 1]
-                zp = pfv.zpf[ncoils - 1]
+                ncoils = ncoils + pfv.n_pf_coils_in_group[i]
+                rp = pfv.r_pf_coil_middle[ncoils - 1]
+                zp = pfv.z_pf_coil_middle[ncoils - 1]
                 xc, br, bz, psi = bfield(rc, zc, cc, rp, zp)
                 for ii in range(noh):
                     xohpf = xohpf + xc[ii]
 
-                for j in range(pfv.ncls[i]):
+                for j in range(pfv.n_pf_coils_in_group[i]):
                     ncoilj = ncoils + 1 - (j + 1)
-                    pfv.sxlg[ncoilj - 1, pfv.nohc - 1] = (
-                        xohpf * pfv.turns[ncoilj - 1] * pfv.turns[pfv.nohc - 1] / noh
+                    pfv.ind_pf_cs_plasma_mutual[ncoilj - 1, pfv.n_cs_pf_coils - 1] = (
+                        xohpf
+                        * pfv.n_pf_coil_turns[ncoilj - 1]
+                        * pfv.n_pf_coil_turns[pfv.n_cs_pf_coils - 1]
+                        / noh
+                    )
+                    pfv.ind_pf_cs_plasma_mutual[pfv.n_cs_pf_coils - 1, ncoilj - 1] = (
+                        pfv.ind_pf_cs_plasma_mutual[ncoilj - 1, pfv.n_cs_pf_coils - 1]
                     )
-                    pfv.sxlg[pfv.nohc - 1, ncoilj - 1] = pfv.sxlg[
-                        ncoilj - 1, pfv.nohc - 1
-                    ]
 
         # PF coil - PF coil inductances
         if bv.iohcl == 0:
-            pf.nef = pfv.nohc
+            pf.nef = pfv.n_cs_pf_coils
         else:
-            pf.nef = pfv.nohc - 1
+            pf.nef = pfv.n_cs_pf_coils - 1
 
         for i in range(pf.nef):
             for j in range(pf.nef - 1):
                 jj = j + 1 + 1 if j >= i else j + 1
 
-                zc[j] = pfv.zpf[jj - 1]
-                rc[j] = pfv.rpf[jj - 1]
+                zc[j] = pfv.z_pf_coil_middle[jj - 1]
+                rc[j] = pfv.r_pf_coil_middle[jj - 1]
 
-            rp = pfv.rpf[i]
-            zp = pfv.zpf[i]
+            rp = pfv.r_pf_coil_middle[i]
+            zp = pfv.z_pf_coil_middle[i]
             xc, br, bz, psi = bfield(rc, zc, cc, rp, zp)
             for k in range(pf.nef):
                 if k < i:
-                    pfv.sxlg[i, k] = xc[k] * pfv.turns[k] * pfv.turns[i]
+                    pfv.ind_pf_cs_plasma_mutual[i, k] = (
+                        xc[k] * pfv.n_pf_coil_turns[k] * pfv.n_pf_coil_turns[i]
+                    )
                 elif k == i:
-                    rl = abs(pfv.zh[k] - pfv.zl[k]) / math.sqrt(constants.pi)
-                    pfv.sxlg[k, k] = (
+                    rl = abs(
+                        pfv.z_pf_coil_upper[k] - pfv.z_pf_coil_lower[k]
+                    ) / math.sqrt(constants.pi)
+                    pfv.ind_pf_cs_plasma_mutual[k, k] = (
                         constants.rmu0
-                        * pfv.turns[k] ** 2
-                        * pfv.rpf[k]
-                        * (math.log(8.0e0 * pfv.rpf[k] / rl) - 1.75e0)
+                        * pfv.n_pf_coil_turns[k] ** 2
+                        * pfv.r_pf_coil_middle[k]
+                        * (math.log(8.0e0 * pfv.r_pf_coil_middle[k] / rl) - 1.75e0)
                     )
                 else:
-                    pfv.sxlg[i, k] = xc[k - 1] * pfv.turns[k] * pfv.turns[i]
+                    pfv.ind_pf_cs_plasma_mutual[i, k] = (
+                        xc[k - 1] * pfv.n_pf_coil_turns[k] * pfv.n_pf_coil_turns[i]
+                    )
 
         # Output section
         if not output:
@@ -1810,18 +2019,18 @@ def induct(self, output):
             for ig in range(pf.nef):
                 op.write(
                     self.outfile,
-                    f"{ig}\t{pfv.sxlg[: pfv.ncirt, ig]}",
+                    f"{ig}\t{pfv.ind_pf_cs_plasma_mutual[: pfv.n_pf_cs_plasma_circuits, ig]}",
                 )
 
             if bv.iohcl != 0:
                 op.write(
                     self.outfile,
-                    f"CS\t\t\t{pfv.sxlg[: pfv.ncirt, pfv.ncirt - 2]}",
+                    f"CS\t\t\t{pfv.ind_pf_cs_plasma_mutual[: pfv.n_pf_cs_plasma_circuits, pfv.n_pf_cs_plasma_circuits - 2]}",
                 )
 
             op.write(
                 self.outfile,
-                f"Plasma\t{pfv.sxlg[: pfv.ncirt, pfv.ncirt - 1]}",
+                f"Plasma\t{pfv.ind_pf_cs_plasma_mutual[: pfv.n_pf_cs_plasma_circuits, pfv.n_pf_cs_plasma_circuits - 1]}",
             )
 
     def outpf(self):
@@ -1837,44 +2046,44 @@ def outpf(self):
             op.oblnkl(self.outfile)
             op.ovarin(self.mfile, "Existence_of_central_solenoid", "(iohcl)", bv.iohcl)
         else:
-            if pfv.ipfres == 0:
+            if pfv.i_pf_conductor == 0:
                 op.ocmmnt(self.outfile, "Superconducting central solenoid")
 
                 op.ovarin(
                     self.outfile,
                     "Central solenoid superconductor material",
-                    "(isumatoh)",
-                    pfv.isumatoh,
+                    "(i_cs_superconductor)",
+                    pfv.i_cs_superconductor,
                 )
 
-                if pfv.isumatoh == 1:
+                if pfv.i_cs_superconductor == 1:
                     op.ocmmnt(self.outfile, "  (ITER Nb3Sn critical surface model)")
-                elif pfv.isumatoh == 2:
+                elif pfv.i_cs_superconductor == 2:
                     op.ocmmnt(
                         self.outfile, "  (Bi-2212 high temperature superconductor)"
                     )
-                elif pfv.isumatoh == 3:
+                elif pfv.i_cs_superconductor == 3:
                     op.ocmmnt(self.outfile, "  (NbTi)")
-                elif pfv.isumatoh == 4:
+                elif pfv.i_cs_superconductor == 4:
                     op.ocmmnt(
                         self.outfile,
                         "  (ITER Nb3Sn critical surface model, user-defined parameters)",
                     )
-                elif pfv.isumatoh == 5:
+                elif pfv.i_cs_superconductor == 5:
                     op.ocmmnt(self.outfile, " (WST Nb3Sn critical surface model)")
-                elif pfv.isumatoh == 6:
+                elif pfv.i_cs_superconductor == 6:
                     op.ocmmnt(self.outfile, " (REBCO HTS)")
-                elif pfv.isumatoh == 7:
+                elif pfv.i_cs_superconductor == 7:
                     op.ocmmnt(
                         self.outfile,
                         " (Durham Ginzburg-Landau critical surface model for Nb-Ti)",
                     )
-                elif pfv.isumatoh == 8:
+                elif pfv.i_cs_superconductor == 8:
                     op.ocmmnt(
                         self.outfile,
                         " (Durham Ginzburg-Landau critical surface model for REBCO)",
                     )
-                elif pfv.isumatoh == 9:
+                elif pfv.i_cs_superconductor == 9:
                     op.ocmmnt(
                         self.outfile,
                         " (Hazelton experimental data + Zhai conceptual model for REBCO)",
@@ -1884,15 +2093,15 @@ def outpf(self):
                 op.ovarre(
                     self.outfile,
                     "Maximum field at Beginning Of Pulse (T)",
-                    "(bmaxoh0)",
-                    pfv.bmaxoh0,
+                    "(b_cs_peak_pulse_start)",
+                    pfv.b_cs_peak_pulse_start,
                     "OP ",
                 )
                 op.ovarre(
                     self.outfile,
                     "Critical superconductor current density at BOP (A/m2)",
-                    "(jscoh_bop)",
-                    pfv.jscoh_bop,
+                    "(j_cs_conductor_critical_pulse_start)",
+                    pfv.j_cs_conductor_critical_pulse_start,
                     "OP ",
                 )
                 op.ovarre(
@@ -1905,30 +2114,30 @@ def outpf(self):
                 op.ovarre(
                     self.outfile,
                     "Allowable overall current density at BOP (A/m2)",
-                    "(rjohc0)",
-                    pfv.rjohc0,
+                    "(j_cs_critical_pulse_start)",
+                    pfv.j_cs_critical_pulse_start,
                     "OP ",
                 )
                 op.ovarre(
                     self.outfile,
                     "Actual overall current density at BOP (A/m2)",
-                    "(cohbop)",
-                    pfv.cohbop,
+                    "(j_cs_pulse_start)",
+                    pfv.j_cs_pulse_start,
                     "OP ",
                 )
                 op.oblnkl(self.outfile)
                 op.ovarre(
                     self.outfile,
                     "Maximum field at End Of Flattop (T)",
-                    "(bmaxoh)",
-                    pfv.bmaxoh,
+                    "(b_cs_peak_flat_top_end)",
+                    pfv.b_cs_peak_flat_top_end,
                     "OP ",
                 )
                 op.ovarre(
                     self.outfile,
                     "Critical superconductor current density at EOF (A/m2)",
-                    "(jscoh_eof)",
-                    pfv.jscoh_eof,
+                    "(j_cs_conductor_critical_flat_top_end)",
+                    pfv.j_cs_conductor_critical_flat_top_end,
                     "OP ",
                 )
                 op.ovarre(
@@ -1941,15 +2150,15 @@ def outpf(self):
                 op.ovarre(
                     self.outfile,
                     "Allowable overall current density at EOF (A/m2)",
-                    "(rjohc)",
-                    pfv.rjohc,
+                    "(j_cs_critical_flat_top_end)",
+                    pfv.j_cs_critical_flat_top_end,
                     "OP ",
                 )
                 op.ovarre(
                     self.outfile,
                     "Actual overall current density at EOF (A/m2)",
-                    "(coheof)",
-                    pfv.coheof,
+                    "(j_cs_flat_top_end)",
+                    pfv.j_cs_flat_top_end,
                 )
                 op.oblnkl(self.outfile)
                 # MDK add bv.dr_cs, bv.dr_bore and bv.dr_cs_tf_gap as they can be iteration variables
@@ -1964,8 +2173,8 @@ def outpf(self):
                 op.ovarre(
                     self.outfile,
                     "CS overall cross-sectional area (m2)",
-                    "(areaoh)",
-                    pfv.areaoh,
+                    "(a_cs_poloidal)",
+                    pfv.a_cs_poloidal,
                     "OP ",
                 )
                 op.ovarre(
@@ -1978,29 +2187,29 @@ def outpf(self):
                 op.ovarre(
                     self.outfile,
                     "   CS conductor cross-sectional area (m2)",
-                    "(awpoh*(1-vfohc))",
-                    pfv.awpoh * (1.0e0 - pfv.vfohc),
+                    "(awpoh*(1-f_a_cs_void))",
+                    pfv.awpoh * (1.0e0 - pfv.f_a_cs_void),
                     "OP ",
                 )
                 op.ovarre(
                     self.outfile,
                     "   CS void cross-sectional area (m2)",
-                    "(awpoh*vfohc)",
-                    pfv.awpoh * pfv.vfohc,
+                    "(awpoh*f_a_cs_void)",
+                    pfv.awpoh * pfv.f_a_cs_void,
                     "OP ",
                 )
                 op.ovarre(
                     self.outfile,
                     "CS steel cross-sectional area (m2)",
-                    "(areaoh-awpoh)",
-                    pfv.areaoh - pfv.awpoh,
+                    "(a_cs_poloidal-awpoh)",
+                    pfv.a_cs_poloidal - pfv.awpoh,
                     "OP ",
                 )
                 op.ovarre(
                     self.outfile,
                     "CS steel area fraction",
-                    "(oh_steel_frac)",
-                    pfv.oh_steel_frac,
+                    "(f_a_cs_steel)",
+                    pfv.f_a_cs_steel,
                 )
                 if pfv.i_cs_stress == 1:
                     op.ocmmnt(self.outfile, "Hoop + axial stress considered")
@@ -2060,7 +2269,11 @@ def outpf(self):
                     pfv.fcuohsu,
                 )
                 # If REBCO material is used, print copperaoh_m2
-                if pfv.isumatoh == 6 or pfv.isumatoh == 8 or pfv.isumatoh == 9:
+                if (
+                    pfv.i_cs_superconductor == 6
+                    or pfv.i_cs_superconductor == 8
+                    or pfv.i_cs_superconductor == 9
+                ):
                     op.ovarre(
                         self.outfile,
                         "CS current/copper area (A/m2)",
@@ -2077,8 +2290,8 @@ def outpf(self):
                 op.ovarre(
                     self.outfile,
                     "Void (coolant) fraction in conductor",
-                    "(vfohc)",
-                    pfv.vfohc,
+                    "(f_a_cs_void)",
+                    pfv.f_a_cs_void,
                 )
                 op.ovarre(
                     self.outfile,
@@ -2089,8 +2302,8 @@ def outpf(self):
                 op.ovarre(
                     self.outfile,
                     "CS temperature margin (K)",
-                    "(tmargoh)",
-                    pfv.tmargoh,
+                    "(temp_cs_margin)",
+                    pfv.temp_cs_margin,
                     "OP ",
                 )
                 op.ovarre(
@@ -2128,8 +2341,8 @@ def outpf(self):
                     op.ovarre(
                         self.outfile,
                         "CS turn area (m)",
-                        "(a_oh_turn)",
-                        pfv.a_oh_turn,
+                        "(a_cs_turn)",
+                        pfv.a_cs_turn,
                     )
                     op.ovarre(
                         self.outfile,
@@ -2179,10 +2392,14 @@ def outpf(self):
                 # iteration variable (39) fjohc0
                 # iteration variable(38) fjohc
                 if (
-                    abs(pfv.coheof) > 0.99e0 * abs(numerics.boundu[37] * pfv.rjohc)
-                ) or (abs(pfv.cohbop) > 0.99e0 * abs(numerics.boundu[38] * pfv.rjohc0)):
+                    abs(pfv.j_cs_flat_top_end)
+                    > 0.99e0 * abs(numerics.boundu[37] * pfv.j_cs_critical_flat_top_end)
+                ) or (
+                    abs(pfv.j_cs_pulse_start)
+                    > 0.99e0 * abs(numerics.boundu[38] * pfv.j_cs_critical_pulse_start)
+                ):
                     pf.cslimit = True
-                if pfv.tmargoh < 1.01e0 * tfv.tmargmin_cs:
+                if pfv.temp_cs_margin < 1.01e0 * tfv.tmargmin_cs:
                     pf.cslimit = True
                 if not pf.cslimit:
                     eh.report_error(135)
@@ -2195,58 +2412,62 @@ def outpf(self):
 
                 # REBCO fractures in strains above ~+/- 0.7%
                 if (
-                    pfv.isumatoh == 6 or pfv.isumatoh == 8 or pfv.isumatoh == 9
+                    pfv.i_cs_superconductor == 6
+                    or pfv.i_cs_superconductor == 8
+                    or pfv.i_cs_superconductor == 9
                 ) and abs(tfv.str_cs_con_res) > 0.7e-2:
                     eh.report_error(262)
 
                 if (
-                    pfv.isumatpf == 6 or pfv.isumatpf == 8 or pfv.isumatpf == 9
+                    pfv.i_pf_superconductor == 6
+                    or pfv.i_pf_superconductor == 8
+                    or pfv.i_pf_superconductor == 9
                 ) and abs(tfv.str_pf_con_res) > 0.7e-2:
                     eh.report_error(263)
 
             else:
                 op.ocmmnt(self.outfile, "Resistive central solenoid")
 
-        if pfv.ipfres == 0:
+        if pfv.i_pf_conductor == 0:
             op.oblnkl(self.outfile)
             op.ocmmnt(self.outfile, "Superconducting PF coils")
 
             op.ovarin(
                 self.outfile,
                 "PF coil superconductor material",
-                "(isumatpf)",
-                pfv.isumatpf,
+                "(i_pf_superconductor)",
+                pfv.i_pf_superconductor,
             )
 
-            if pfv.isumatpf == 1:
+            if pfv.i_pf_superconductor == 1:
                 op.ocmmnt(self.outfile, "  (ITER Nb3Sn critical surface model)")
-            elif pfv.isumatpf == 2:
+            elif pfv.i_pf_superconductor == 2:
                 op.ocmmnt(self.outfile, "  (Bi-2212 high temperature superconductor)")
-            elif pfv.isumatpf == 3:
+            elif pfv.i_pf_superconductor == 3:
                 op.ocmmnt(self.outfile, "  (NbTi)")
-            elif pfv.isumatpf == 4:
+            elif pfv.i_pf_superconductor == 4:
                 op.ocmmnt(
                     self.outfile,
                     "  (ITER Nb3Sn critical surface model, user-defined parameters)",
                 )
-            elif pfv.isumatpf == 5:
+            elif pfv.i_pf_superconductor == 5:
                 op.ocmmnt(self.outfile, " (WST Nb3Sn critical surface model)")
-            elif pfv.isumatpf == 6:
+            elif pfv.i_pf_superconductor == 6:
                 op.ocmmnt(
                     self.outfile,
                     " (REBCO 2nd generation HTS superconductor in CrCo strand)",
                 )
-            elif pfv.isumatpf == 7:
+            elif pfv.i_pf_superconductor == 7:
                 op.ocmmnt(
                     self.outfile,
                     " (Durham Ginzburg-Landau critical surface model for Nb-Ti)",
                 )
-            elif pfv.isumatpf == 8:
+            elif pfv.i_pf_superconductor == 8:
                 op.ocmmnt(
                     self.outfile,
                     " (Durham Ginzburg-Landau critical surface model for REBCO)",
                 )
-            elif pfv.isumatpf == 9:
+            elif pfv.i_pf_superconductor == 9:
                 op.ocmmnt(
                     self.outfile,
                     " (Hazelton experimental data + Zhai conceptual model for REBCO)",
@@ -2281,21 +2502,21 @@ def outpf(self):
             op.ovarre(
                 self.outfile,
                 "PF coil resistive power (W)",
-                "(powpfres)",
-                pfv.powpfres,
+                "(p_pf_coil_resistive_total_flat_top)",
+                pfv.p_pf_coil_resistive_total_flat_top,
                 "OP ",
             )
             if bv.iohcl != 0:
                 op.ovarre(
                     self.outfile,
                     "Central solenoid resistive power (W)",
-                    "(powohres)",
-                    pfv.powohres,
+                    "(p_cs_resistive_flat_top)",
+                    pfv.p_cs_resistive_flat_top,
                     "OP ",
                 )
 
         # pf.nef is the number of coils excluding the Central Solenoid
-        pf.nef = pfv.nohc
+        pf.nef = pfv.n_cs_pf_coils
         if bv.iohcl != 0:
             pf.nef = pf.nef - 1
 
@@ -2310,51 +2531,51 @@ def outpf(self):
         for k in range(pf.nef):
             op.write(
                 self.outfile,
-                f"PF {k}\t\t\t{pfv.rpf[k]:.2e}\t{pfv.zpf[k]:.2e}\t{pfv.rb[k] - pfv.ra[k]:.2e}\t{abs(pfv.zh[k] - pfv.zl[k]):.2e}\t{pfv.turns[k]:.2e}",
+                f"PF {k}\t\t\t{pfv.r_pf_coil_middle[k]:.2e}\t{pfv.z_pf_coil_middle[k]:.2e}\t{pfv.r_pf_coil_outer[k] - pfv.r_pf_coil_inner[k]:.2e}\t{abs(pfv.z_pf_coil_upper[k] - pfv.z_pf_coil_lower[k]):.2e}\t{pfv.n_pf_coil_turns[k]:.2e}",
             )
 
         for k in range(pf.nef):
             op.ovarre(
                 self.mfile,
                 f"PF coil {k} radius (m)",
-                f"(rpf[{k}])",
-                pfv.rpf[k],
+                f"(r_pf_coil_middle[{k}])",
+                pfv.r_pf_coil_middle[k],
             )
             op.ovarre(
                 self.mfile,
                 f"PF coil {k} vertical position (m)",
-                f"(zpf[{k}])",
-                pfv.zpf[k],
+                f"(z_pf_coil_middle[{k}])",
+                pfv.z_pf_coil_middle[k],
             )
             op.ovarre(
                 self.mfile,
                 f"PF coil {k} radial thickness (m)",
                 f"(pfdr({k}))",
-                pfv.rb[k] - pfv.ra[k],
+                pfv.r_pf_coil_outer[k] - pfv.r_pf_coil_inner[k],
             )
             op.ovarre(
                 self.mfile,
                 f"PF coil {k} vertical thickness (m)",
                 f"(pfdz({k}))",
-                pfv.zh[k] - pfv.zl[k],
+                pfv.z_pf_coil_upper[k] - pfv.z_pf_coil_lower[k],
             )
             op.ovarre(
                 self.mfile,
                 f"PF coil {k} turns",
-                f"(turns[{k}])",
-                pfv.turns[k],
+                f"(n_pf_coil_turns[{k}])",
+                pfv.n_pf_coil_turns[k],
             )
             op.ovarre(
                 self.mfile,
                 f"PF coil {k} current (MA)",
-                f"(ric[{k}])",
-                pfv.ric[k],
+                f"(c_pf_cs_coils_peak_ma[{k}])",
+                pfv.c_pf_cs_coils_peak_ma[k],
             )
             op.ovarre(
                 self.mfile,
                 f"PF coil {k} field (T)",
-                f"(bpf[{k}])",
-                pfv.bpf[k],
+                f"(b_pf_coil_peak[{k}])",
+                pfv.b_pf_coil_peak[k],
             )
         self.tf_pf_collision_detector()
 
@@ -2362,49 +2583,55 @@ def outpf(self):
         if bv.iohcl != 0:
             op.write(
                 self.outfile,
-                f"CS\t\t\t\t{pfv.rpf[pfv.nohc - 1]:.2e}\t{pfv.zpf[pfv.nohc - 1]:.2e}\t{pfv.rb[pfv.nohc - 1] - pfv.ra[pfv.nohc - 1]:.2e}\t{abs(pfv.zh[pfv.nohc - 1] - pfv.zl[pfv.nohc - 1]):.2e}\t{pfv.turns[pfv.nohc - 1]:.2e}\t{pfv.pfcaseth[pfv.nohc - 1]:.2e}",
+                f"CS\t\t\t\t{pfv.r_pf_coil_middle[pfv.n_cs_pf_coils - 1]:.2e}\t{pfv.z_pf_coil_middle[pfv.n_cs_pf_coils - 1]:.2e}\t{pfv.r_pf_coil_outer[pfv.n_cs_pf_coils - 1] - pfv.r_pf_coil_inner[pfv.n_cs_pf_coils - 1]:.2e}\t{abs(pfv.z_pf_coil_upper[pfv.n_cs_pf_coils - 1] - pfv.z_pf_coil_lower[pfv.n_cs_pf_coils - 1]):.2e}\t{pfv.n_pf_coil_turns[pfv.n_cs_pf_coils - 1]:.2e}\t{pfv.pfcaseth[pfv.n_cs_pf_coils - 1]:.2e}",
             )
             op.ovarre(
                 self.mfile,
                 "Central solenoid radius (m)",
-                "(rpf[nohc-1])",
-                pfv.rpf[pfv.nohc - 1],
+                "(r_pf_coil_middle[n_cs_pf_coils-1])",
+                pfv.r_pf_coil_middle[pfv.n_cs_pf_coils - 1],
             )
             op.ovarre(
                 self.mfile,
                 "Central solenoid vertical position (m)",
-                "(zpf[nohc-1])",
-                pfv.zpf[pfv.nohc - 1],
+                "(z_pf_coil_middle[n_cs_pf_coils-1])",
+                pfv.z_pf_coil_middle[pfv.n_cs_pf_coils - 1],
             )
             op.ovarre(
                 self.mfile,
                 "Central solenoid radial thickness (m)",
                 "(ohdr)",
-                (pfv.rb[pfv.nohc - 1] - pfv.ra[pfv.nohc - 1]),
+                (
+                    pfv.r_pf_coil_outer[pfv.n_cs_pf_coils - 1]
+                    - pfv.r_pf_coil_inner[pfv.n_cs_pf_coils - 1]
+                ),
             )
             op.ovarre(
                 self.mfile,
                 "Central solenoid vertical thickness (m)",
                 "(ohdz)",
-                (pfv.zh[pfv.nohc - 1] - pfv.zl[pfv.nohc - 1]),
+                (
+                    pfv.z_pf_coil_upper[pfv.n_cs_pf_coils - 1]
+                    - pfv.z_pf_coil_lower[pfv.n_cs_pf_coils - 1]
+                ),
             )
             op.ovarre(
                 self.mfile,
                 "Central solenoid turns",
-                "(turns[nohc-1])",
-                pfv.turns[pfv.nohc - 1],
+                "(n_pf_coil_turns[n_cs_pf_coils-1])",
+                pfv.n_pf_coil_turns[pfv.n_cs_pf_coils - 1],
             )
             op.ovarre(
                 self.mfile,
                 "Central solenoid current (MA)",
-                "(ric[nohc-1])",
-                pfv.ric[pfv.nohc - 1],
+                "(c_pf_cs_coils_peak_ma[n_cs_pf_coils-1])",
+                pfv.c_pf_cs_coils_peak_ma[pfv.n_cs_pf_coils - 1],
             )
             op.ovarre(
                 self.mfile,
                 "Central solenoid field (T)",
-                "(bpf[nohc-1])",
-                pfv.bpf[pfv.nohc - 1],
+                "(b_pf_coil_peak[n_cs_pf_coils-1])",
+                pfv.b_pf_coil_peak[pfv.n_cs_pf_coils - 1],
             )
 
         # Plasma
@@ -2428,29 +2655,29 @@ def outpf(self):
 
         # PF coils
         for k in range(pf.nef):
-            if pfv.ipfres == 0:
+            if pfv.i_pf_conductor == 0:
                 op.write(
                     self.outfile,
-                    f"PF {k}\t{pfv.ric[k]:.2e}\t{pfv.rjpfalw[k]:.2e}\t{pfv.rjconpf[k]:.2e}\t{pfv.rjconpf[k] / pfv.rjpfalw[k]:.2e}\t{pfv.wtc[k]:.2e}\t{pfv.wts[k]:.2e}\t{pfv.bpf[k]:.2e}",
+                    f"PF {k}\t{pfv.c_pf_cs_coils_peak_ma[k]:.2e}\t{pfv.j_pf_wp_critical[k]:.2e}\t{pfv.j_pf_coil_wp_peak[k]:.2e}\t{pfv.j_pf_coil_wp_peak[k] / pfv.j_pf_wp_critical[k]:.2e}\t{pfv.m_pf_coil_conductor[k]:.2e}\t{pfv.m_pf_coil_structure[k]:.2e}\t{pfv.b_pf_coil_peak[k]:.2e}",
                 )
             else:
                 op.write(
                     self.outfile,
-                    f"PF {k}\t{pfv.ric[k]:.2e}\t-1.0e0\t{pfv.rjconpf[k]:.2e}\t1.0e0\t{pfv.wtc[k]:.2e}\t{pfv.wts[k]:.2e}\t{pfv.bpf[k]:.2e}\t",
+                    f"PF {k}\t{pfv.c_pf_cs_coils_peak_ma[k]:.2e}\t-1.0e0\t{pfv.j_pf_coil_wp_peak[k]:.2e}\t1.0e0\t{pfv.m_pf_coil_conductor[k]:.2e}\t{pfv.m_pf_coil_structure[k]:.2e}\t{pfv.b_pf_coil_peak[k]:.2e}\t",
                 )
 
         # Central Solenoid, if present
         if bv.iohcl != 0:
-            if pfv.ipfres == 0:
+            if pfv.i_pf_conductor == 0:
                 # Issue #328
                 op.write(
                     self.outfile,
-                    f"CS\t\t{pfv.ric[pfv.nohc - 1]:.2e}\t{pfv.rjpfalw[pfv.nohc - 1]:.2e}\t{max(abs(pfv.cohbop), abs(pfv.coheof)):.2e}\t{max(abs(pfv.cohbop), abs(pfv.coheof)) / pfv.rjpfalw[pfv.nohc - 1]:.2e}\t{pfv.wtc[pfv.nohc - 1]:.2e}\t{pfv.wts[pfv.nohc - 1]:.2e}\t{pfv.bpf[pfv.nohc - 1]:.2e}",
+                    f"CS\t\t{pfv.c_pf_cs_coils_peak_ma[pfv.n_cs_pf_coils - 1]:.2e}\t{pfv.j_pf_wp_critical[pfv.n_cs_pf_coils - 1]:.2e}\t{max(abs(pfv.j_cs_pulse_start), abs(pfv.j_cs_flat_top_end)):.2e}\t{max(abs(pfv.j_cs_pulse_start), abs(pfv.j_cs_flat_top_end)) / pfv.j_pf_wp_critical[pfv.n_cs_pf_coils - 1]:.2e}\t{pfv.m_pf_coil_conductor[pfv.n_cs_pf_coils - 1]:.2e}\t{pfv.m_pf_coil_structure[pfv.n_cs_pf_coils - 1]:.2e}\t{pfv.b_pf_coil_peak[pfv.n_cs_pf_coils - 1]:.2e}",
                 )
             else:
                 op.write(
                     self.outfile,
-                    f"CS\t\t{pfv.ric[pfv.nohc - 1]:.2e}\t-1.0e0\t{max(abs(pfv.cohbop)):.2e}\t{abs(pfv.coheof):.2e}\t1.0e0\t{pfv.wtc[pfv.nohc - 1]:.2e}\t{pfv.wts[pfv.nohc - 1]:.2e}\t{pfv.bpf[pfv.nohc - 1]:.2e}",
+                    f"CS\t\t{pfv.c_pf_cs_coils_peak_ma[pfv.n_cs_pf_coils - 1]:.2e}\t-1.0e0\t{max(abs(pfv.j_cs_pulse_start)):.2e}\t{abs(pfv.j_cs_flat_top_end):.2e}\t1.0e0\t{pfv.m_pf_coil_conductor[pfv.n_cs_pf_coils - 1]:.2e}\t{pfv.m_pf_coil_structure[pfv.n_cs_pf_coils - 1]:.2e}\t{pfv.b_pf_coil_peak[pfv.n_cs_pf_coils - 1]:.2e}",
                 )
 
         # Miscellaneous totals
@@ -2464,7 +2691,7 @@ def outpf(self):
             "\t" * 1
             + f"{pf.ricpf:.2e}"
             + "\t" * 7
-            + f"{pfv.whtpf:.2e}\t{pfv.whtpfs:.2e}",
+            + f"{pfv.m_pf_coil_conductor_total:.2e}\t{pfv.m_pf_coil_structure_total:.2e}",
         )
 
         op.osubhd(self.outfile, "PF coil current scaling information :")
@@ -2487,26 +2714,26 @@ def outvolt(self):
         op.write(self.outfile, "\t" * 3 + "start-up\t\t\t_burn\t\t\ttotal")
         op.write(
             self.outfile,
-            f"PF coils:\t\t{pfv.vsefsu:.2f}\t\t\t\t{pfv.vsefbn:.2f}\t\t\t{pfv.vseft:.2f}",
+            f"PF coils:\t\t{pfv.vs_pf_coils_total_ramp:.2f}\t\t\t\t{pfv.vs_pf_coils_total_burn:.2f}\t\t\t{pfv.vs_pf_coils_total_pulse:.2f}",
         )
         op.write(
             self.outfile,
-            f"CS coil:\t\t{pfv.vsohsu:.2f}\t\t\t\t{pfv.vsohbn:.2f}\t\t\t{pfv.vsoh:.2f}",
+            f"CS coil:\t\t{pfv.vs_cs_ramp:.2f}\t\t\t\t{pfv.vs_cs_burn:.2f}\t\t\t{pfv.vs_cs_total_pulse:.2f}",
         )
         op.write(
             self.outfile, "\t" * 3 + "-" * 7 + "\t" * 4 + "-" * 7 + "\t" * 3 + "-" * 7
         )
         op.write(
             self.outfile,
-            f"Total:\t\t\t{pfv.vssu:.2f}\t\t\t\t{pfv.vsbn:.2f}\t\t\t{pfv.vstot:.2f}",
+            f"Total:\t\t\t{pfv.vs_cs_pf_total_ramp:.2f}\t\t\t\t{pfv.vs_cs_pf_total_burn:.2f}\t\t\t{pfv.vs_cs_pf_total_pulse:.2f}",
         )
 
         op.oblnkl(self.outfile)
         op.ovarre(
             self.outfile,
             "Total volt-second consumption by coils (Wb)",
-            "(vstot)",
-            f"{pfv.vstot:.2}",
+            "(vs_cs_pf_total_pulse)",
+            f"{pfv.vs_cs_pf_total_pulse:.2}",
             "OP",
         )
 
@@ -2523,7 +2750,7 @@ def outvolt(self):
 
         op.write(
             self.outfile,
-            f"\tCS coil\t\t\t{pf.vsdum[pfv.nohc - 1, 0]:.3f}\t\t\t{pf.vsdum[pfv.nohc - 1, 1]:.3f}\t\t{pf.vsdum[pfv.nohc - 1, 2]:.3f}",
+            f"\tCS coil\t\t\t{pf.vsdum[pfv.n_cs_pf_coils - 1, 0]:.3f}\t\t\t{pf.vsdum[pfv.n_cs_pf_coils - 1, 1]:.3f}\t\t{pf.vsdum[pfv.n_cs_pf_coils - 1, 2]:.3f}",
         )
 
         op.oshead(self.outfile, "Waveforms")
@@ -2544,43 +2771,43 @@ def outvolt(self):
 
         op.ocmmnt(self.outfile, "circuit")
 
-        for k in range(pfv.ncirt - 1):
+        for k in range(pfv.n_pf_cs_plasma_circuits - 1):
             line = f"\t{k}\t\t"
             for jj in range(6):
-                line += f"\t{pfv.cpt[k, jj] * pfv.turns[k]:.3e}"
+                line += f"\t{pfv.c_pf_coil_turn[k, jj] * pfv.n_pf_coil_turns[k]:.3e}"
             op.write(self.outfile, line)
 
         line = "Plasma (A)\t\t"
         for jj in range(6):
-            line += f"\t{pfv.cpt[pfv.ncirt - 1, jj]:.3e}"
+            line += f"\t{pfv.c_pf_coil_turn[pfv.n_pf_cs_plasma_circuits - 1, jj]:.3e}"
 
         op.write(self.outfile, line)
 
         op.oblnkl(self.outfile)
         op.ocmmnt(self.outfile, "This consists of: CS coil field balancing:")
-        for k in range(pfv.ncirt - 1):
+        for k in range(pfv.n_pf_cs_plasma_circuits - 1):
             op.write(
                 self.outfile,
                 (
-                    f"{k}\t\t\t{pfv.cpt[k, 0] * pfv.turns[k]:.3e}\t"
-                    f"{pfv.cpt[k, 1] * pfv.turns[k]:.3e}\t"
-                    f"{-pfv.cpt[k, 1] * pfv.turns[k] * (pfv.fcohbof / pfv.fcohbop):.3e}\t"
-                    f"{-pfv.cpt[k, 1] * pfv.turns[k] * (pfv.fcohbof / pfv.fcohbop):.3e}\t"
-                    f"{-pfv.cpt[k, 1] * pfv.turns[k] * (1.0e0 / pfv.fcohbop):.3e}\t"
-                    f"{pfv.cpt[k, 5] * pfv.turns[k]:.3e}"
+                    f"{k}\t\t\t{pfv.c_pf_coil_turn[k, 0] * pfv.n_pf_coil_turns[k]:.3e}\t"
+                    f"{pfv.c_pf_coil_turn[k, 1] * pfv.n_pf_coil_turns[k]:.3e}\t"
+                    f"{-pfv.c_pf_coil_turn[k, 1] * pfv.n_pf_coil_turns[k] * (pfv.f_j_cs_start_end_flat_top / pfv.f_j_cs_start_pulse_end_flat_top):.3e}\t"
+                    f"{-pfv.c_pf_coil_turn[k, 1] * pfv.n_pf_coil_turns[k] * (pfv.f_j_cs_start_end_flat_top / pfv.f_j_cs_start_pulse_end_flat_top):.3e}\t"
+                    f"{-pfv.c_pf_coil_turn[k, 1] * pfv.n_pf_coil_turns[k] * (1.0e0 / pfv.f_j_cs_start_pulse_end_flat_top):.3e}\t"
+                    f"{pfv.c_pf_coil_turn[k, 5] * pfv.n_pf_coil_turns[k]:.3e}"
                 ),
             )
 
         op.oblnkl(self.outfile)
         op.ocmmnt(self.outfile, "And: equilibrium field:")
-        for k in range(pfv.ncirt - 1):
+        for k in range(pfv.n_pf_cs_plasma_circuits - 1):
             op.write(
                 self.outfile,
                 (
                     f"{k}\t\t\t{0.0:.3e}\t{0.0:.3e}\t"
-                    f"{(pfv.cpt[k, 2] + pfv.cpt[k, 1] * pfv.fcohbof / pfv.fcohbop) * pfv.turns[k]:.3e}\t"
-                    f"{(pfv.cpt[k, 3] + pfv.cpt[k, 1] * pfv.fcohbof / pfv.fcohbop) * pfv.turns[k]:.3e}\t"
-                    f"{(pfv.cpt[k, 4] + pfv.cpt[k, 1] * 1.0e0 / pfv.fcohbop) * pfv.turns[k]:.3e}\t"
+                    f"{(pfv.c_pf_coil_turn[k, 2] + pfv.c_pf_coil_turn[k, 1] * pfv.f_j_cs_start_end_flat_top / pfv.f_j_cs_start_pulse_end_flat_top) * pfv.n_pf_coil_turns[k]:.3e}\t"
+                    f"{(pfv.c_pf_coil_turn[k, 3] + pfv.c_pf_coil_turn[k, 1] * pfv.f_j_cs_start_end_flat_top / pfv.f_j_cs_start_pulse_end_flat_top) * pfv.n_pf_coil_turns[k]:.3e}\t"
+                    f"{(pfv.c_pf_coil_turn[k, 4] + pfv.c_pf_coil_turn[k, 1] * 1.0e0 / pfv.f_j_cs_start_pulse_end_flat_top) * pfv.n_pf_coil_turns[k]:.3e}\t"
                     "0.0e0"
                 ),
             )
@@ -2589,14 +2816,14 @@ def outvolt(self):
         op.ovarre(
             self.outfile,
             "Ratio of central solenoid current at beginning of Pulse / end of flat-top",
-            "(fcohbop)",
-            pfv.fcohbop,
+            "(f_j_cs_start_pulse_end_flat_top)",
+            pfv.f_j_cs_start_pulse_end_flat_top,
         )
         op.ovarre(
             self.outfile,
             "Ratio of central solenoid current at beginning of Flat-top / end of flat-top",
-            "(fcohbof)",
-            pfv.fcohbof,
+            "(f_j_cs_start_end_flat_top)",
+            pfv.f_j_cs_start_end_flat_top,
             "OP ",
         )
 
@@ -2604,15 +2831,15 @@ def outvolt(self):
         op.ovarin(
             self.outfile,
             "Number of PF circuits including CS and plasma",
-            "(ncirt)",
-            pfv.ncirt,
+            "(n_pf_cs_plasma_circuits)",
+            pfv.n_pf_cs_plasma_circuits,
         )
-        for k in range(pfv.ncirt):
+        for k in range(pfv.n_pf_cs_plasma_circuits):
             for jjj in range(6):
-                if k == pfv.ncirt - 1:
+                if k == pfv.n_pf_cs_plasma_circuits - 1:
                     circuit_name = f"Plasma Time point {jjj} (A)"
                     circuit_var_name = f"(plasmat{jjj})"
-                elif k == pfv.ncirt - 2:
+                elif k == pfv.n_pf_cs_plasma_circuits - 2:
                     circuit_name = f"CS Circuit Time point {jjj} (A)"
                     circuit_var_name = f"(cs t{jjj})"
                 else:
@@ -2623,7 +2850,7 @@ def outvolt(self):
                     self.outfile,
                     circuit_name,
                     circuit_var_name,
-                    pfv.cpt[k, jjj] * pfv.turns[k],
+                    pfv.c_pf_coil_turn[k, jjj] * pfv.n_pf_coil_turns[k],
                 )
 
     def selfinductance(self, a, b, c, n):
@@ -2659,36 +2886,56 @@ def waveform(self):
         waves[i,j] is the current in coil i, at time j,
         normalized to the peak current in that coil at any time.
         """
-        nplas = pfv.nohc + 1
+        nplas = pfv.n_cs_pf_coils + 1
         for it in range(6):
             pfv.waves[nplas - 1, it] = 1.0e0
 
-        for ic in range(pfv.nohc):
+        for ic in range(pfv.n_cs_pf_coils):
             # Find where the peak current occurs
             # Beginning of pulse, t = t_precharge
-            if (abs(pfv.curpfb[ic]) >= abs(pfv.curpfs[ic])) and (
-                abs(pfv.curpfb[ic]) >= abs(pfv.curpff[ic])
+            if (
+                abs(pfv.c_pf_cs_coil_pulse_start_ma[ic])
+                >= abs(pfv.c_pf_cs_coil_pulse_end_ma[ic])
+            ) and (
+                abs(pfv.c_pf_cs_coil_pulse_start_ma[ic])
+                >= abs(pfv.c_pf_cs_coil_flat_top_ma[ic])
             ):
-                pfv.ric[ic] = pfv.curpfb[ic]
+                pfv.c_pf_cs_coils_peak_ma[ic] = pfv.c_pf_cs_coil_pulse_start_ma[ic]
 
             # Beginning of flat-top, t = t_precharge + t_current_ramp_up
-            if (abs(pfv.curpff[ic]) >= abs(pfv.curpfb[ic])) and (
-                abs(pfv.curpff[ic]) >= abs(pfv.curpfs[ic])
+            if (
+                abs(pfv.c_pf_cs_coil_flat_top_ma[ic])
+                >= abs(pfv.c_pf_cs_coil_pulse_start_ma[ic])
+            ) and (
+                abs(pfv.c_pf_cs_coil_flat_top_ma[ic])
+                >= abs(pfv.c_pf_cs_coil_pulse_end_ma[ic])
             ):
-                pfv.ric[ic] = pfv.curpff[ic]
+                pfv.c_pf_cs_coils_peak_ma[ic] = pfv.c_pf_cs_coil_flat_top_ma[ic]
 
             # End of flat-top, t = t_precharge + t_current_ramp_up + t_fusion_ramp + t_burn
-            if (abs(pfv.curpfs[ic]) >= abs(pfv.curpfs[ic])) and (
-                abs(pfv.curpfs[ic]) >= abs(pfv.curpff[ic])
+            if (
+                abs(pfv.c_pf_cs_coil_pulse_end_ma[ic])
+                >= abs(pfv.c_pf_cs_coil_pulse_end_ma[ic])
+            ) and (
+                abs(pfv.c_pf_cs_coil_pulse_end_ma[ic])
+                >= abs(pfv.c_pf_cs_coil_flat_top_ma[ic])
             ):
-                pfv.ric[ic] = pfv.curpfs[ic]
+                pfv.c_pf_cs_coils_peak_ma[ic] = pfv.c_pf_cs_coil_pulse_end_ma[ic]
 
             # Set normalized current waveforms
             pfv.waves[ic, 0] = 0.0e0
-            pfv.waves[ic, 1] = pfv.curpfb[ic] / pfv.ric[ic]
-            pfv.waves[ic, 2] = pfv.curpff[ic] / pfv.ric[ic]
-            pfv.waves[ic, 3] = pfv.curpff[ic] / pfv.ric[ic]
-            pfv.waves[ic, 4] = pfv.curpfs[ic] / pfv.ric[ic]
+            pfv.waves[ic, 1] = (
+                pfv.c_pf_cs_coil_pulse_start_ma[ic] / pfv.c_pf_cs_coils_peak_ma[ic]
+            )
+            pfv.waves[ic, 2] = (
+                pfv.c_pf_cs_coil_flat_top_ma[ic] / pfv.c_pf_cs_coils_peak_ma[ic]
+            )
+            pfv.waves[ic, 3] = (
+                pfv.c_pf_cs_coil_flat_top_ma[ic] / pfv.c_pf_cs_coils_peak_ma[ic]
+            )
+            pfv.waves[ic, 4] = (
+                pfv.c_pf_cs_coil_pulse_end_ma[ic] / pfv.c_pf_cs_coils_peak_ma[ic]
+            )
             pfv.waves[ic, 5] = 0.0e0
 
     def superconpf(
@@ -2808,11 +3055,11 @@ def superconpf(
             j_crit_cable = j_crit_sc * (1.0e0 - fcu) * (1.0e0 - fhe)
 
             # The CS coil current at EOF
-            # ioheof = bv.hmax * pfv.ohhghf * bv.dr_cs * 2.0 * pfv.coheof
+            # ioheof = bv.hmax * pfv.f_z_cs_tf_internal * bv.dr_cs * 2.0 * pfv.j_cs_flat_top_end
             # The CS coil current/copper area calculation for quench protection
             # Copper area = (area of coil - area of steel)*(1- void fraction)*
             # (fraction of copper in strands)
-            # rcv.copperaoh_m2 = ioheof / (pfv.awpoh * (1.0 - pfv.vfohc) * pfv.fcuohsu)
+            # rcv.copperaoh_m2 = ioheof / (pfv.awpoh * (1.0 - pfv.f_a_cs_void) * pfv.fcuohsu)
 
         elif isumat == 7:
             # Durham Ginzburg-Landau critical surface model for Nb-Ti
@@ -2825,7 +3072,7 @@ def superconpf(
             j_crit_cable = j_crit_sc * (1.0e0 - fcu) * (1.0e0 - fhe)
 
             # The CS coil current at EOF
-            # ioheof = bv.hmax * pfv.ohhghf * bv.dr_cs * 2.0 * pfv.coheof
+            # ioheof = bv.hmax * pfv.f_z_cs_tf_internal * bv.dr_cs * 2.0 * pfv.j_cs_flat_top_end
 
         elif isumat == 8:
             # Durham Ginzburg-Landau critical surface model for REBCO
@@ -2839,9 +3086,9 @@ def superconpf(
             j_crit_cable = j_crit_sc * (1.0e0 - fcu) * (1.0e0 - fhe)
 
             # The CS coil current at EOF
-            # ioheof = bv.hmax * pfv.ohhghf * bv.dr_cs * 2.0 * pfv.coheof
+            # ioheof = bv.hmax * pfv.f_z_cs_tf_internal * bv.dr_cs * 2.0 * pfv.j_cs_flat_top_end
             # The CS coil current/copper area calculation for quench protection
-            # rcv.copperaoh_m2 = ioheof / (pfv.awpoh * (1.0 - pfv.vfohc) * pfv.fcuohsu)
+            # rcv.copperaoh_m2 = ioheof / (pfv.awpoh * (1.0 - pfv.f_a_cs_void) * pfv.fcuohsu)
 
         elif isumat == 9:
             # Hazelton experimental data + Zhai conceptual model for REBCO
@@ -2855,9 +3102,9 @@ def superconpf(
             j_crit_cable = j_crit_sc * (1.0e0 - fcu) * (1.0e0 - fhe)
 
             # The CS coil current at EOF
-            # ioheof = bv.hmax * pfv.ohhghf * bv.dr_cs * 2.0 * pfv.coheof
+            # ioheof = bv.hmax * pfv.f_z_cs_tf_internal * bv.dr_cs * 2.0 * pfv.j_cs_flat_top_end
             # The CS coil current/copper area calculation for quench protection
-            # rcv.copperaoh_m2 = ioheof / (pfv.awpoh * (1.0 - pfv.vfohc) * pfv.fcuohsu)
+            # rcv.copperaoh_m2 = ioheof / (pfv.awpoh * (1.0 - pfv.f_a_cs_void) * pfv.fcuohsu)
 
         else:
             # Error condition
@@ -2868,10 +3115,16 @@ def superconpf(
             # and only calculated if the CS properties are needed.
             if bv.iohcl != 0:
                 # CS coil current at EOF
-                ioheof = bv.hmax * pfv.ohhghf * bv.dr_cs * 2.0 * pfv.coheof
+                ioheof = (
+                    bv.hmax
+                    * pfv.f_z_cs_tf_internal
+                    * bv.dr_cs
+                    * 2.0
+                    * pfv.j_cs_flat_top_end
+                )
                 # CS coil current/copper area calculation for quench protection
                 rcv.copperaoh_m2 = ioheof / (
-                    pfv.awpoh * (1.0 - pfv.vfohc) * pfv.fcuohsu
+                    pfv.awpoh * (1.0 - pfv.f_a_cs_void) * pfv.fcuohsu
                 )
 
         #  Critical current density in winding pack
@@ -3029,7 +3282,7 @@ def bfield(rc, zc, cc, rp, zp):
 
 
 @numba.njit(cache=True)
-def rsid(npts, brin, bzin, nfix, ngrp, ccls, bfix, gmat):
+def rsid(npts, brin, bzin, nfix, n_pf_coil_groups, ccls, bfix, gmat):
     """Computes the norm of the residual vectors.
 
     author: P J Knight, CCFE, Culham Science Centre
@@ -3048,9 +3301,9 @@ def rsid(npts, brin, bzin, nfix, ngrp, ccls, bfix, gmat):
     :type bzin: numpy.ndarray
     :param nfix: number of coils with fixed currents, <= nfixmx
     :type nfix: int
-    :param ngrp: number of coil groups, where all coils in a group have the
-    same current, <= ngrpmx
-    :type ngrp: int
+    :param n_pf_coil_groups: number of coil groups, where all coils in a group have the
+    same current, <= n_pf_groups_max
+    :type n_pf_coil_groups: int
     :param ccls: coil currents in each group (A)
     :type ccls: numpy.ndarray
     :param bfix: work array
@@ -3071,7 +3324,7 @@ def rsid(npts, brin, bzin, nfix, ngrp, ccls, bfix, gmat):
         if nfix > 0:
             svec = bfix[i]
 
-        for j in range(ngrp):
+        for j in range(n_pf_coil_groups):
             svec = svec + gmat[i, j] * ccls[j]
 
         rvec = svec - brin[i]
@@ -3085,7 +3338,7 @@ def rsid(npts, brin, bzin, nfix, ngrp, ccls, bfix, gmat):
         svec = 0.0e0
         if nfix > 0:
             svec = bfix[i + npts]
-        for j in range(ngrp):
+        for j in range(n_pf_coil_groups):
             svec = svec + gmat[i + npts, j] * ccls[j]
 
         rvec = svec - bzin[i]
@@ -3151,13 +3404,13 @@ def mtrx(
     zpts,
     brin,
     bzin,
-    ngrp,
-    ncls,
+    n_pf_coil_groups,
+    n_pf_coils_in_group,
     rcls,
     zcls,
     alfa,
     bfix,
-    nclsmx,
+    n_pf_coils_in_group_max,
 ):
     """Calculate the currents in a group of ring coils.
 
@@ -3168,10 +3421,10 @@ def mtrx(
     author: J Galambos, ORNL
 
     :param lrow1: row length of arrays bfix, bvec, gmat, umat, vmat; should
-    be >= (2*nptsmx + ngrpmx)
+    be >= (2*nptsmx + n_pf_groups_max)
     :type lrow1: int
     :param lcol1: column length of arrays gmat, umat, vmat; should be >=
-    ngrpmx
+    n_pf_groups_max
     :type lcol1: int
     :param npts: number of data points at which field is to be fixed; should
     be <= nptsmx
@@ -3184,11 +3437,11 @@ def mtrx(
     :type brin: numpy.ndarray
     :param bzin: field components at data points (T)
     :type bzin: numpy.ndarray
-    :param ngrp: number of coil groups, where all coils in a group have the
-    same current, <= ngrpmx
-    :type ngrp: int
-    :param ncls: number of coils in each group, each value <= nclsmx
-    :type ncls: numpy.ndarray
+    :param n_pf_coil_groups: number of coil groups, where all coils in a group have the
+    same current, <= n_pf_groups_max
+    :type n_pf_coil_groups: int
+    :param n_pf_coils_in_group: number of coils in each group, each value <= n_pf_coils_in_group_max
+    :type n_pf_coils_in_group: numpy.ndarray
     :param rcls: coords R(i,j), Z(i,j) of coil j in group i (m)
     :type rcls: numpy.ndarray
     :param zcls: coords R(i,j), Z(i,j) of coil j in group i (m)
@@ -3206,14 +3459,14 @@ def mtrx(
     """
     bvec = np.zeros(lrow1)
     gmat = np.zeros((lrow1, lcol1))
-    cc = np.ones(nclsmx)
+    cc = np.ones(n_pf_coils_in_group_max)
 
     for i in range(npts):
         bvec[i] = brin[i] - bfix[i]
         bvec[i + npts] = bzin[i] - bfix[i + npts]
 
-        for j in range(ngrp):
-            nc = ncls[j]
+        for j in range(n_pf_coil_groups):
+            nc = n_pf_coils_in_group[j]
 
             _, gmat[i, j], gmat[i + npts, j], _ = bfield(
                 rcls[j, :nc], zcls[j, :nc], cc[:nc], rpts[i], zpts[i]
@@ -3222,10 +3475,13 @@ def mtrx(
     # Add constraint equations
     nrws = 2 * npts
 
-    bvec[nrws : nrws + ngrp] = 0.0
-    np.fill_diagonal(gmat[nrws : nrws + ngrp, :ngrp], ncls[:ngrp] * alfa)
+    bvec[nrws : nrws + n_pf_coil_groups] = 0.0
+    np.fill_diagonal(
+        gmat[nrws : nrws + n_pf_coil_groups, :n_pf_coil_groups],
+        n_pf_coils_in_group[:n_pf_coil_groups] * alfa,
+    )
 
-    nrws = 2 * npts + ngrp
+    nrws = 2 * npts + n_pf_coil_groups
 
     # numba doesnt like np.zeros(..., order="F") so this acts as a work
     # around to that missing signature
diff --git a/process/power.py b/process/power.py
index 51ec94bc9a..1be7434c42 100644
--- a/process/power.py
+++ b/process/power.py
@@ -92,7 +92,7 @@ def pfpwr(self, output: bool):
         #  PF coil resistive power requirements
         #  Bussing losses assume aluminium bussing with 100 A/cm**2
         ic = -1
-        ngrpt = pfcoil_variables.ngrp
+        ngrpt = pfcoil_variables.n_pf_coil_groups
         if build_variables.iohcl != 0:
             ngrpt = ngrpt + 1
 
@@ -100,11 +100,11 @@ def pfpwr(self, output: bool):
         pfbuspwr = 0.0e0
 
         for ig in range(ngrpt):
-            ic = ic + pfcoil_variables.ncls[ig]
+            ic = ic + pfcoil_variables.n_pf_coils_in_group[ig]
 
             #  Section area of aluminium bussing for circuit (cm**2)
-            #  pfcoil_variables.cptdin : max current per turn of coil (A)
-            albusa[ig] = abs(pfcoil_variables.cptdin[ic]) / 100.0e0
+            #  pfcoil_variables.c_pf_coil_turn_peak_input : max current per turn of coil (A)
+            albusa[ig] = abs(pfcoil_variables.c_pf_coil_turn_peak_input[ic]) / 100.0e0
 
             #  Resistance of bussing for circuit (ohm)
             #  pfbusl : bus length for each PF circuit (m)
@@ -113,29 +113,29 @@ def pfpwr(self, output: bool):
             pfbusr[ig] = pfcoil_variables.rhopfbus * pfbusl / (albusa[ig] / 10000)
 
             #  Total PF coil resistance (during burn)
-            #  pfcoil_variables.ric : maximum current in coil (A)
+            #  pfcoil_variables.c_pf_cs_coils_peak_ma : maximum current in coil (A)
             pfcr[ig] = (
-                pfcoil_variables.pfclres
+                pfcoil_variables.rho_pf_coil
                 * 2.0e0
                 * np.pi
-                * pfcoil_variables.rpf[ic]
+                * pfcoil_variables.r_pf_coil_middle[ic]
                 * abs(
-                    pfcoil_variables.rjconpf[ic]
+                    pfcoil_variables.j_pf_coil_wp_peak[ic]
                     / (
-                        (1.0e0 - pfcoil_variables.vf[ic])
+                        (1.0e0 - pfcoil_variables.f_a_pf_coil_void[ic])
                         * 1.0e6
-                        * pfcoil_variables.ric[ic]
+                        * pfcoil_variables.c_pf_cs_coils_peak_ma[ic]
                     )
                 )
-                * pfcoil_variables.turns[ic] ** 2
-                * pfcoil_variables.ncls[ig]
+                * pfcoil_variables.n_pf_coil_turns[ic] ** 2
+                * pfcoil_variables.n_pf_coils_in_group[ig]
             )
 
             cktr[ig] = pfcr[ig] + pfbusr[ig]  # total resistance of circuit (ohms)
             cptburn = (
-                pfcoil_variables.cptdin[ic]
-                * pfcoil_variables.curpfs[ic]
-                / pfcoil_variables.ric[ic]
+                pfcoil_variables.c_pf_coil_turn_peak_input[ic]
+                * pfcoil_variables.c_pf_cs_coil_pulse_end_ma[ic]
+                / pfcoil_variables.c_pf_cs_coils_peak_ma[ic]
             )
             rcktvm[ig] = abs(cptburn) * cktr[ig]  # peak resistive voltage (V)
             rcktpm[ig] = 1.0e-6 * rcktvm[ig] * abs(cptburn)  # peak resistive power (MW)
@@ -148,15 +148,15 @@ def pfpwr(self, output: bool):
         delktim = times_variables.t_current_ramp_up
 
         #  PF system (including Central Solenoid solenoid) inductive MVA requirements
-        #  pfcoil_variables.cpt(i,j) : current per turn of coil i at (end) time period j (A)
+        #  pfcoil_variables.c_pf_coil_turn(i,j) : current per turn of coil i at (end) time period j (A)
         powpfi = 0.0e0
         powpfr = 0.0e0
         powpfr2 = 0.0e0
 
-        #  pfcoil_variables.ncirt : total number of PF coils (including Central Solenoid and plasma)
-        #          plasma is #ncirt, and Central Solenoid is #(pfcoil_variables.ncirt-1)
-        #  pfcoil_variables.sxlg(i,j) : mutual inductance between coil i and j
-        for i in range(pfcoil_variables.ncirt):
+        #  pfcoil_variables.n_pf_cs_plasma_circuits : total number of PF coils (including Central Solenoid and plasma)
+        #          plasma is #n_pf_cs_plasma_circuits, and Central Solenoid is #(pfcoil_variables.n_pf_cs_plasma_circuits-1)
+        #  pfcoil_variables.ind_pf_cs_plasma_mutual(i,j) : mutual inductance between coil i and j
+        for i in range(pfcoil_variables.n_pf_cs_plasma_circuits):
             powpfii[i] = 0.0e0
             vpfi[i] = 0.0e0
 
@@ -164,15 +164,18 @@ def pfpwr(self, output: bool):
         poloidalenergy[:] = 0.0e0
         for jjpf in range(ngrpt):  # Loop over all groups of PF coils.
             for _jjpf2 in range(
-                pfcoil_variables.ncls[jjpf]
+                pfcoil_variables.n_pf_coils_in_group[jjpf]
             ):  # Loop over all coils in each group
                 jpf = jpf + 1
                 inductxcurrent[:] = 0.0e0
-                for ipf in range(pfcoil_variables.ncirt):
+                for ipf in range(pfcoil_variables.n_pf_cs_plasma_circuits):
                     #  Voltage in circuit jpf due to change in current from circuit ipf
                     vpfij = (
-                        pfcoil_variables.sxlg[jpf, ipf]
-                        * (pfcoil_variables.cpt[ipf, 2] - pfcoil_variables.cpt[ipf, 1])
+                        pfcoil_variables.ind_pf_cs_plasma_mutual[jpf, ipf]
+                        * (
+                            pfcoil_variables.c_pf_coil_turn[ipf, 2]
+                            - pfcoil_variables.c_pf_coil_turn[ipf, 1]
+                        )
                         / delktim
                     )
 
@@ -181,25 +184,28 @@ def pfpwr(self, output: bool):
 
                     #  MVA in circuit jpf at time, times_variables.tim(3) due to changes in current
                     powpfii[jpf] = (
-                        powpfii[jpf] + vpfij * pfcoil_variables.cpt[jpf, 2] / 1.0e6
+                        powpfii[jpf]
+                        + vpfij * pfcoil_variables.c_pf_coil_turn[jpf, 2] / 1.0e6
                     )
 
                     # Term used for calculating stored energy at each time
                     for time in range(6):
                         inductxcurrent[time] = (
                             inductxcurrent[time]
-                            + pfcoil_variables.sxlg[jpf, ipf]
-                            * pfcoil_variables.cpt[ipf, time]
+                            + pfcoil_variables.ind_pf_cs_plasma_mutual[jpf, ipf]
+                            * pfcoil_variables.c_pf_coil_turn[ipf, time]
                         )
 
-                    # engx = engx + pfcoil_variables.sxlg(jpf,ipf)*pfcoil_variables.cpt(ipf,5)
+                    # engx = engx + pfcoil_variables.ind_pf_cs_plasma_mutual(jpf,ipf)*pfcoil_variables.c_pf_coil_turn(ipf,5)
 
                 #  Stored magnetic energy of the poloidal field at each time
                 # 'time' is the time INDEX.  'tim' is the time.
                 for time in range(6):
                     poloidalenergy[time] = (
                         poloidalenergy[time]
-                        + 0.5e0 * inductxcurrent[time] * pfcoil_variables.cpt[jpf, time]
+                        + 0.5e0
+                        * inductxcurrent[time]
+                        * pfcoil_variables.c_pf_coil_turn[jpf, time]
                     )
 
                 #   do time = 1,5
@@ -212,21 +218,21 @@ def pfpwr(self, output: bool):
                 #
 
                 #   end do
-                #   #engxpc = 0.5e0 * engx * pfcoil_variables.cpt(jpf,5)
+                #   #engxpc = 0.5e0 * engx * pfcoil_variables.c_pf_coil_turn(jpf,5)
                 #   #ensxpf = ensxpf + engxpc
 
                 #  Resistive power in circuits at times times_variables.tim(3) and times_variables.tim(5) respectively (MW)
                 powpfr = (
                     powpfr
-                    + pfcoil_variables.turns[jpf]
-                    * pfcoil_variables.cpt[jpf, 2]
+                    + pfcoil_variables.n_pf_coil_turns[jpf]
+                    * pfcoil_variables.c_pf_coil_turn[jpf, 2]
                     * cktr[jjpf]
                     / 1.0e6
                 )
                 powpfr2 = (
                     powpfr2
-                    + pfcoil_variables.turns[jpf]
-                    * pfcoil_variables.cpt[jpf, 4]
+                    + pfcoil_variables.n_pf_coil_turns[jpf]
+                    * pfcoil_variables.c_pf_coil_turn[jpf, 4]
                     * cktr[jjpf]
                     / 1.0e6
                 )
@@ -278,14 +284,18 @@ def pfpwr(self, output: bool):
         heat_transport_variables.peakmva = max((powpfr + powpfi), powpfr2)
 
         pf_power_variables.vpfskv = 20.0e0
-        pf_power_variables.pfckts = (pfcoil_variables.ncirt - 2) + 6.0e0
+        pf_power_variables.pfckts = (
+            pfcoil_variables.n_pf_cs_plasma_circuits - 2
+        ) + 6.0e0
         pf_power_variables.spfbusl = pfbusl * pf_power_variables.pfckts
         pf_power_variables.acptmax = 0.0e0
         pf_power_variables.spsmva = 0.0e0
 
-        for jpf in range(pfcoil_variables.ncirt - 1):
+        for jpf in range(pfcoil_variables.n_pf_cs_plasma_circuits - 1):
             #  Power supply MVA for each PF circuit
-            psmva[jpf] = 1.0e-6 * abs(vpfi[jpf] * pfcoil_variables.cptdin[jpf])
+            psmva[jpf] = 1.0e-6 * abs(
+                vpfi[jpf] * pfcoil_variables.c_pf_coil_turn_peak_input[jpf]
+            )
 
             #  Sum of the power supply MVA of the PF circuits
             pf_power_variables.spsmva = pf_power_variables.spsmva + psmva[jpf]
@@ -293,7 +303,9 @@ def pfpwr(self, output: bool):
             #  Average of the maximum currents in the PF circuits, kA
             pf_power_variables.acptmax = (
                 pf_power_variables.acptmax
-                + 1.0e-3 * abs(pfcoil_variables.cptdin[jpf]) / pf_power_variables.pfckts
+                + 1.0e-3
+                * abs(pfcoil_variables.c_pf_coil_turn_peak_input[jpf])
+                / pf_power_variables.pfckts
             )
 
         #  PF wall plug power dissipated in power supply for ohmic heating (MW)
@@ -781,7 +793,7 @@ def power1(self):
         tfcoil_variables.cryo_cool_req = 0.0e0
 
         # Superconductors TF/PF cryogenic cooling
-        if tfcoil_variables.i_tf_sup == 1 or pfcoil_variables.ipfres == 0:
+        if tfcoil_variables.i_tf_sup == 1 or pfcoil_variables.i_pf_conductor == 0:
             # heat_transport_variables.helpow calculation
             heat_transport_variables.helpow = self.cryo(
                 tfcoil_variables.i_tf_sup,
diff --git a/process/pulse.py b/process/pulse.py
index 77105d9b30..687fd75561 100644
--- a/process/pulse.py
+++ b/process/pulse.py
@@ -51,27 +51,40 @@ def tohswg(self, output: bool) -> None:
 
         #  Current/turn in Central Solenoid at beginning of pulse (A/turn)
 
-        ioht1 = pfcoil_variables.cpt[pfcoil_variables.nohc - 1, 1]
+        ioht1 = pfcoil_variables.c_pf_coil_turn[pfcoil_variables.n_cs_pf_coils - 1, 1]
 
         #  Current/turn in Central Solenoid at start of flat-top (A/turn)
 
-        ioht2 = pfcoil_variables.cpt[pfcoil_variables.nohc - 1, 2]
+        ioht2 = pfcoil_variables.c_pf_coil_turn[pfcoil_variables.n_cs_pf_coils - 1, 2]
 
         #  Central Solenoid resistance (ohms)
 
-        if pfcoil_variables.ipfres == 0:
+        if pfcoil_variables.i_pf_conductor == 0:
             r = 0.0e0
         else:
             r = (
-                pfcoil_variables.powohres
-                / (1.0e6 * pfcoil_variables.ric[pfcoil_variables.nohc - 1]) ** 2
+                pfcoil_variables.p_cs_resistive_flat_top
+                / (
+                    1.0e6
+                    * pfcoil_variables.c_pf_cs_coils_peak_ma[
+                        pfcoil_variables.n_cs_pf_coils - 1
+                    ]
+                )
+                ** 2
             )
 
         #  Central Solenoid bus resistance (ohms) (assumed to include power supply)
         #  Bus parameters taken from routine PFPWR.
 
         pfbusl = 8.0e0 * physics_variables.rmajor + 140.0e0
-        albusa = abs(pfcoil_variables.cptdin[pfcoil_variables.nohc - 1]) / 100.0e0
+        albusa = (
+            abs(
+                pfcoil_variables.c_pf_coil_turn_peak_input[
+                    pfcoil_variables.n_cs_pf_coils - 1
+                ]
+            )
+            / 100.0e0
+        )
 
         # rho = 1.5e0 * 2.62e-4 * pfbusl / albusa
         #  I have removed the fudge factor of 1.5 but included it in the value of rhopfbus
@@ -83,12 +96,15 @@ def tohswg(self, output: bool) -> None:
 
         #  Mutual inductance between Central Solenoid and plasma (H)
 
-        m = pfcoil_variables.sxlg[pfcoil_variables.nohc - 1, pfcoil_variables.ncirt - 1]
+        m = pfcoil_variables.ind_pf_cs_plasma_mutual[
+            pfcoil_variables.n_cs_pf_coils - 1,
+            pfcoil_variables.n_pf_cs_plasma_circuits - 1,
+        ]
 
         #  Self inductance of Central Solenoid (H)
 
-        loh = pfcoil_variables.sxlg[
-            pfcoil_variables.nohc - 1, pfcoil_variables.nohc - 1
+        loh = pfcoil_variables.ind_pf_cs_plasma_mutual[
+            pfcoil_variables.n_cs_pf_coils - 1, pfcoil_variables.n_cs_pf_coils - 1
         ]
 
         #  Maximum rate of change of plasma current (A/s)
@@ -103,7 +119,14 @@ def tohswg(self, output: bool) -> None:
             loh
             * (ioht2 - ioht1)
             / (
-                ioht2 * (r * pfcoil_variables.turns[pfcoil_variables.nohc - 1] + rho)
+                ioht2
+                * (
+                    r
+                    * pfcoil_variables.n_pf_coil_turns[
+                        pfcoil_variables.n_cs_pf_coils - 1
+                    ]
+                    + rho
+                )
                 - v
                 + m * ipdot
             )
@@ -143,11 +166,11 @@ def burn(self, output: bool):
         )
 
         #  Total volt-seconds available during flat-top (heat + burn)
-        #  (Previously calculated as (abs(pfcoil_variables.vstot) - vssoft) )
+        #  (Previously calculated as (abs(pfcoil_variables.vs_cs_pf_total_pulse) - vssoft) )
 
         vsmax = (
-            -pfcoil_variables.vsbn
-        )  # pfcoil_variables.vsbn is (or should be...) negative
+            -pfcoil_variables.vs_cs_pf_total_burn
+        )  # pfcoil_variables.vs_cs_pf_total_burn is (or should be...) negative
 
         #  Loop voltage during flat-top (including MHD sawtooth enhancement)
 
@@ -178,8 +201,8 @@ def burn(self, output: bool):
             po.ovarre(
                 self.outfile,
                 "Total V-s capability of Central Solenoid/PF coils (Wb)",
-                "(abs(vstot))",
-                abs(pfcoil_variables.vstot),
+                "(abs(vs_cs_pf_total_pulse))",
+                abs(pfcoil_variables.vs_cs_pf_total_pulse),
             )
             po.ovarre(
                 self.outfile,
diff --git a/process/sctfcoil.py b/process/sctfcoil.py
index e96ac06c30..ede2f40984 100644
--- a/process/sctfcoil.py
+++ b/process/sctfcoil.py
@@ -1266,19 +1266,19 @@ def sctfcoil(self, output: bool):
                 float(build_variables.r_tf_inboard_in),
                 build_variables.dr_bore,
                 build_variables.hmax,
-                pfcoil_variables.ohhghf,
+                pfcoil_variables.f_z_cs_tf_internal,
                 build_variables.dr_cs,
                 build_variables.tf_in_cs,
                 build_variables.dr_tf_inboard,
                 build_variables.dr_cs_tf_gap,
-                pfcoil_variables.ipfres,
-                pfcoil_variables.coheof,
-                pfcoil_variables.cohbop,
-                pfcoil_variables.cptdin,
-                pfcoil_variables.ncls,
+                pfcoil_variables.i_pf_conductor,
+                pfcoil_variables.j_cs_flat_top_end,
+                pfcoil_variables.j_cs_pulse_start,
+                pfcoil_variables.c_pf_coil_turn_peak_input,
+                pfcoil_variables.n_pf_coils_in_group,
                 pfcoil_variables.ld_ratio_cst,
                 pfcoil_variables.r_out_cst,
-                pfcoil_variables.oh_steel_frac,
+                pfcoil_variables.f_a_cs_steel,
                 tfcoil_variables.eyoung_steel,
                 tfcoil_variables.poisson_steel,
                 tfcoil_variables.eyoung_cond_axial,
@@ -3581,19 +3581,19 @@ def stresscl(
         r_tf_inboard_in,
         dr_bore,
         hmax,
-        ohhghf,
+        f_z_cs_tf_internal,
         dr_cs,
         tf_in_cs,
         dr_tf_inboard,
         dr_cs_tf_gap,
-        ipfres,
-        coheof,
-        cohbop,
-        cptdin,
-        ncls,
+        i_pf_conductor,
+        j_cs_flat_top_end,
+        j_cs_pulse_start,
+        c_pf_coil_turn_peak_input,
+        n_pf_coils_in_group,
         ld_ratio_cst,
         r_out_cst,
-        oh_steel_frac,
+        f_a_cs_steel,
         eyoung_steel,
         poisson_steel,
         eyoung_cond_axial,
@@ -3772,31 +3772,37 @@ def stresscl(
                 radtf[0] = dr_bore
 
             # Superconducting CS
-            if ipfres == 0:
+            if i_pf_conductor == 0:
                 # Getting the turn dimention from scratch
                 # as the TF is called before CS in caller.f90
                 # -#
 
                 # CS vertical cross-section area [m2]
                 if tf_in_cs == 1:
-                    a_oh = 2.0e0 * hmax * ohhghf * (dr_bore - dr_tf_inboard)
+                    a_oh = 2.0e0 * hmax * f_z_cs_tf_internal * (dr_bore - dr_tf_inboard)
                 else:
-                    a_oh = 2.0e0 * hmax * ohhghf * dr_cs
+                    a_oh = 2.0e0 * hmax * f_z_cs_tf_internal * dr_cs
 
                 # Maximum current in Central Solenoid, at either BOP or EOF [MA-turns]
                 # Absolute value
-                curr_oh_max = 1.0e-6 * np.maximum(coheof, cohbop) * a_oh
+                curr_oh_max = (
+                    1.0e-6 * np.maximum(j_cs_flat_top_end, j_cs_pulse_start) * a_oh
+                )
 
                 #  Number of turns
-                n_oh_turns = 1.0e6 * curr_oh_max / cptdin[sum(ncls)]
+                n_oh_turns = (
+                    1.0e6
+                    * curr_oh_max
+                    / c_pf_coil_turn_peak_input[sum(n_pf_coils_in_group)]
+                )
 
                 # CS Turn vertical cross-sectionnal area
-                a_oh_turn = a_oh / n_oh_turns
+                a_cs_turn = a_oh / n_oh_turns
 
                 # CS coil turn geometry calculation - stadium shape
                 # Literature: https://doi.org/10.1016/j.fusengdes.2017.04.052
                 d_cond_cst = (
-                    a_oh_turn / ld_ratio_cst
+                    a_cs_turn / ld_ratio_cst
                 ) ** 0.5  # width of cs turn conduit
                 l_cond_cst = ld_ratio_cst * d_cond_cst  # length of cs turn conduit
                 # Radius of turn space = r_in_cst
@@ -3806,7 +3812,7 @@ def stresscl(
                 p2 = (
                     (l_cond_cst * d_cond_cst)
                     - (4 - np.pi) * (r_out_cst**2)
-                    - (a_oh_turn * oh_steel_frac)
+                    - (a_cs_turn * f_a_cs_steel)
                 ) / np.pi
                 r_in_cst = -((l_cond_cst - d_cond_cst) / np.pi) + np.sqrt(p1 + p2)
                 t_cond_oh = (
@@ -3831,10 +3837,10 @@ def stresscl(
                 # Get transverse properties
                 (eyoung_trans[0], a_working, poisson_trans[0]) = eyoung_parallel(
                     eyoung_steel,
-                    oh_steel_frac,
+                    f_a_cs_steel,
                     poisson_steel,
                     eyoung_cond_axial,
-                    1e0 - oh_steel_frac,
+                    1e0 - f_a_cs_steel,
                     poisson_cond_axial,
                 )
 
@@ -4241,7 +4247,7 @@ def stresscl(
         # --------------------------------
         # SC central solenoid coil stress unsmearing (bucked and wedged only)
         # ---
-        if i_tf_bucking >= 2 and ipfres == 0:
+        if i_tf_bucking >= 2 and i_pf_conductor == 0:
             # Central Solenoid (OH) steel conduit stress unsmearing factors
             for ii in range(n_radial_array):
                 sig_tf_r[ii] = sig_tf_r[ii] * eyoung_cs_stiffest_leg / eyoung_axial[0]
diff --git a/process/structure.py b/process/structure.py
index fab2aa1c6a..6b5b0cad0c 100644
--- a/process/structure.py
+++ b/process/structure.py
@@ -39,7 +39,7 @@ def run(self, output: bool = False) -> None:
         """
 
         # Total weight of the PF coil conductor and its structure
-        total_weight_pf = pfv.whtpf + pfv.whtpfs
+        total_weight_pf = pfv.m_pf_coil_conductor_total + pfv.m_pf_coil_structure_total
 
         (
             stv.fncmass,
@@ -54,7 +54,7 @@ def run(self, output: bool = False) -> None:
             pv.kappa,
             pv.bt,
             tfv.i_tf_sup,
-            pfv.ipfres,
+            pfv.i_pf_conductor,
             bv.dr_tf_inner_bore + bv.dr_tf_outboard + bv.dr_tf_inboard,
             bv.hmax,
             fwbsv.whtshld,
@@ -76,7 +76,7 @@ def structure(
         akappa,
         b0,
         i_tf_sup,
-        ipfres,
+        i_pf_conductor,
         tf_h_width,
         tfhmax,
         shldmass,
@@ -112,8 +112,8 @@ def structure(
         :param itfsup: switch denoting whether TF coils are superconducting
         :type itfsup: integer
 
-        :param ipfres: switch denoting whether PF & CS coils are resistive
-        :type ipfres: integer
+        :param i_pf_conductor: switch denoting whether PF & CS coils are resistive
+        :type i_pf_conductor: integer
 
         :param tf_h_width: TF coil horizontal dr_bore (m)
         :type tf_h_width: float
@@ -175,7 +175,7 @@ def structure(
         coldmass = 0.0e0
         if i_tf_sup == 1:
             coldmass = coldmass + tfmass + aintmass + dewmass
-        if ipfres != 1:
+        if i_pf_conductor != 1:
             coldmass = coldmass + pfmass
 
         #  Coil gravity support mass
diff --git a/process/utilities/errorlist.json b/process/utilities/errorlist.json
index 016a086fdd..2dd809addb 100644
--- a/process/utilities/errorlist.json
+++ b/process/utilities/errorlist.json
@@ -213,22 +213,22 @@
     {
       "no": 41,
       "level": 3,
-      "message": "CHECK: ncls(i) .ne. 2 is not a valid option except for (ipfloc = 2)"
+      "message": "CHECK: n_pf_coils_in_group(i) .ne. 2 is not a valid option except for (i_pf_location = 2)"
     },
     {
       "no": 42,
       "level": 3,
-      "message": "CHECK: Only 1 divertor coil (ipfloc = 2) is not a valid configuration"
+      "message": "CHECK: Only 1 divertor coil (i_pf_location = 2) is not a valid configuration"
     },
     {
       "no": 43,
       "level": 3,
-      "message": "CHECK: More than 2 divertor coils (ipfloc = 2) is not a valid configuration"
+      "message": "CHECK: More than 2 divertor coils (i_pf_location = 2) is not a valid configuration"
     },
     {
       "no": 44,
       "level": 3,
-      "message": "CHECK: If i_single_null=1, use 2 individual divertor coils (ipfloc = 2, 2; ncls = 1, 1)"
+      "message": "CHECK: If i_single_null=1, use 2 individual divertor coils (i_pf_location = 2, 2; n_pf_coils_in_group = 1, 1)"
     },
     {
       "no": 45,
@@ -328,7 +328,7 @@
     {
       "no": 64,
       "level": 3,
-      "message": "PFCOIL: ngrp is larger than ngrpmx"
+      "message": "PFCOIL: n_pf_coil_groups is larger than n_pf_groups_max"
     },
     {
       "no": 65,
@@ -343,7 +343,7 @@
     {
       "no": 67,
       "level": 3,
-      "message": "PFCOIL: Illegal ipfloc value"
+      "message": "PFCOIL: Illegal i_pf_location value"
     },
     {
       "no": 68,
@@ -353,12 +353,12 @@
     {
       "no": 69,
       "level": 3,
-      "message": "PFCOIL: ipfloc(i) should not be 1 if itart=1"
+      "message": "PFCOIL: i_pf_location(i) should not be 1 if itart=1"
     },
     {
       "no": 70,
       "level": 3,
-      "message": "PFCOIL: Illegal value of ipfloc(i)"
+      "message": "PFCOIL: Illegal value of i_pf_location(i)"
     },
     {
       "no": 71,
@@ -788,7 +788,7 @@
     {
       "no": 156,
       "level": 3,
-      "message": "SUPERCONPF: Illegal value for isumatpf"
+      "message": "SUPERCONPF: Illegal value for i_pf_superconductor"
     },
     {
       "no": 157,
@@ -1448,7 +1448,7 @@
     {
       "no": 288,
       "level": 3,
-      "message": "PFCOIL: ipfloc(i) should not be 1 if iohcl=0"
+      "message": "PFCOIL: i_pf_location(i) should not be 1 if iohcl=0"
     }
   ]
 }
diff --git a/scripts/create_dicts_config.py b/scripts/create_dicts_config.py
index 50f6c7ab51..7bf42251ba 100644
--- a/scripts/create_dicts_config.py
+++ b/scripts/create_dicts_config.py
@@ -1,2 +1,2 @@
 # parameters that start with f, but are not f-values
-NON_F_VALUES = ["fcohbop", "fvsbrnni", "feffcd", "fcutfsu"]
+NON_F_VALUES = ["f_j_cs_start_pulse_end_flat_top", "fvsbrnni", "feffcd", "fcutfsu"]
diff --git a/source/fortran/constraint_equations.f90 b/source/fortran/constraint_equations.f90
index 5cf3816860..a473ae3f0d 100755
--- a/source/fortran/constraint_equations.f90
+++ b/source/fortran/constraint_equations.f90
@@ -872,12 +872,12 @@ subroutine constraint_eqn_012(tmp_cc, tmp_con, tmp_err, tmp_symbol, tmp_units)
       !! and hence also optional here.
       !! Logic change during pre-factoring: err, symbol, units will be assigned only if present.
       !! vs_plasma_total_required : input real : total V-s needed (Wb)
-      !! vs_plasma_total_required (lower limit) is positive; vstot (available) is negative
+      !! vs_plasma_total_required (lower limit) is positive; vs_cs_pf_total_pulse (available) is negative
       !! fvs : input real : f-value for flux-swing (V-s) requirement (STEADY STATE)
-      !! vstot : input real :   total flux swing for pulse (Wb)
+      !! vs_cs_pf_total_pulse : input real :   total flux swing for pulse (Wb)
       use physics_variables, only: vs_plasma_total_required
       use constraint_variables, only: fvs
-      use pfcoil_variables, only: vstot
+      use pfcoil_variables, only: vs_cs_pf_total_pulse
       implicit none
             real(dp), intent(out) :: tmp_cc
       real(dp), intent(out) :: tmp_con
@@ -885,7 +885,7 @@ subroutine constraint_eqn_012(tmp_cc, tmp_con, tmp_err, tmp_symbol, tmp_units)
       character(len=1), intent(out) :: tmp_symbol
       character(len=10), intent(out) :: tmp_units
 
-      tmp_cc =  1.0D0 + fvs * vstot/vs_plasma_total_required
+      tmp_cc =  1.0D0 + fvs * vs_cs_pf_total_pulse/vs_plasma_total_required
       tmp_con = vs_plasma_total_required * (1.0D0 - tmp_cc)
       tmp_err = vs_plasma_total_required * tmp_cc
       tmp_symbol = '>'
@@ -1352,14 +1352,14 @@ subroutine constraint_eqn_026(tmp_cc, tmp_con, tmp_err, tmp_symbol, tmp_units)
       !! residual error in physical units; output string; units string
       !! Equation for Central Solenoid current density upper limit at EOF
       !! #=# pfcoil
-      !! #=#=# fjohc, rjohc
+      !! #=#=# fjohc, j_cs_critical_flat_top_end
       !! and hence also optional here.
       !! Logic change during pre-factoring: err, symbol, units will be assigned only if present.
       !! fjohc : input real : f-value for central solenoid current at end-of-flattop
-      !! rjohc : input real : allowable central solenoid current density at end of flat-top (A/m2)
-      !! coheof : input real : central solenoid overall current density at end of flat-top (A/m2)
+      !! j_cs_critical_flat_top_end : input real : allowable central solenoid current density at end of flat-top (A/m2)
+      !! j_cs_flat_top_end : input real : central solenoid overall current density at end of flat-top (A/m2)
       use constraint_variables, only: fjohc
-      use pfcoil_variables, only: rjohc, coheof
+      use pfcoil_variables, only: j_cs_critical_flat_top_end, j_cs_flat_top_end
       implicit none
             real(dp), intent(out) :: tmp_cc
       real(dp), intent(out) :: tmp_con
@@ -1367,9 +1367,9 @@ subroutine constraint_eqn_026(tmp_cc, tmp_con, tmp_err, tmp_symbol, tmp_units)
       character(len=1), intent(out) :: tmp_symbol
       character(len=10), intent(out) :: tmp_units
 
-      tmp_cc =  1.0D0 - fjohc * rjohc/coheof
-      tmp_con = rjohc
-      tmp_err = rjohc - coheof / fjohc
+      tmp_cc =  1.0D0 - fjohc * j_cs_critical_flat_top_end/j_cs_flat_top_end
+      tmp_con = j_cs_critical_flat_top_end
+      tmp_err = j_cs_critical_flat_top_end - j_cs_flat_top_end / fjohc
       tmp_symbol = '<'
       tmp_units = 'A/m2'
 
@@ -1382,14 +1382,14 @@ subroutine constraint_eqn_027(tmp_cc, tmp_con, tmp_err, tmp_symbol, tmp_units)
       !! residual error in physical units; output string; units string
       !! Equation for Central Solenoid current density upper limit at BOP
       !! #=# pfcoil
-      !! #=#=# fjohc0, rjohc0
+      !! #=#=# fjohc0, j_cs_critical_pulse_start
       !! and hence also optional here.
       !! Logic change during pre-factoring: err, symbol, units will be assigned only if present.
       !! fjohc0 : input real : f-value for central solenoid current at beginning of pulse
-      !! rjohc0 : input real : allowable central solenoid current density at beginning of pulse (A/m2)
-      !! cohbop : input real : central solenoid overall current density at beginning of pulse (A/m2)
+      !! j_cs_critical_pulse_start : input real : allowable central solenoid current density at beginning of pulse (A/m2)
+      !! j_cs_pulse_start : input real : central solenoid overall current density at beginning of pulse (A/m2)
       use constraint_variables, only: fjohc0
-      use pfcoil_variables, only: rjohc0, cohbop
+      use pfcoil_variables, only: j_cs_critical_pulse_start, j_cs_pulse_start
       implicit none
             real(dp), intent(out) :: tmp_cc
       real(dp), intent(out) :: tmp_con
@@ -1397,9 +1397,9 @@ subroutine constraint_eqn_027(tmp_cc, tmp_con, tmp_err, tmp_symbol, tmp_units)
       character(len=1), intent(out) :: tmp_symbol
       character(len=10), intent(out) :: tmp_units
 
-      tmp_cc =  1.0D0 - fjohc0 * rjohc0/cohbop
-      tmp_con = rjohc0
-      tmp_err = rjohc0 - cohbop / fjohc0
+      tmp_cc =  1.0D0 - fjohc0 * j_cs_critical_pulse_start/j_cs_pulse_start
+      tmp_con = j_cs_critical_pulse_start
+      tmp_err = j_cs_critical_pulse_start - j_cs_pulse_start / fjohc0
       tmp_symbol = '<'
       tmp_units = 'A/m2'
 
@@ -2161,9 +2161,9 @@ subroutine constraint_eqn_051(tmp_cc, tmp_con, tmp_err, tmp_symbol, tmp_units)
       !! Logic change during pre-factoring: err, symbol, units will be assigned only if present.
       !! vs_plasma_res_ramp : input real : resistive losses in startup V-s (Wb)
       !! vs_plasma_ind_ramp : input real :  internal and external plasma inductance V-s (Wb))
-      !! vssu : input real :  total flux swing for startup (Wb)
+      !! vs_cs_pf_total_ramp : input real :  total flux swing for startup (Wb)
       use physics_variables, only: vs_plasma_res_ramp, vs_plasma_ind_ramp
-      use pfcoil_variables, only: vssu, fvssu
+      use pfcoil_variables, only: vs_cs_pf_total_ramp, fvs_cs_pf_total_ramp
       implicit none
             real(dp), intent(out) :: tmp_cc
       real(dp), intent(out) :: tmp_con
@@ -2171,9 +2171,9 @@ subroutine constraint_eqn_051(tmp_cc, tmp_con, tmp_err, tmp_symbol, tmp_units)
       character(len=1), intent(out) :: tmp_symbol
       character(len=10), intent(out) :: tmp_units
 
-      tmp_cc =  1.0D0 - fvssu * abs((vs_plasma_res_ramp+vs_plasma_ind_ramp) / vssu)
-      tmp_con = vssu * (1.0D0 - tmp_cc)
-      tmp_err = vssu * tmp_cc
+      tmp_cc =  1.0D0 - fvs_cs_pf_total_ramp * abs((vs_plasma_res_ramp+vs_plasma_ind_ramp) / vs_cs_pf_total_ramp)
+      tmp_con = vs_cs_pf_total_ramp * (1.0D0 - tmp_cc)
+      tmp_err = vs_cs_pf_total_ramp * tmp_cc
       tmp_symbol = '='
       tmp_units = 'V.s'
 
@@ -2395,10 +2395,10 @@ subroutine constraint_eqn_060(tmp_cc, tmp_con, tmp_err, tmp_symbol, tmp_units)
       !! and hence also optional here.
       !! Logic change during pre-factoring: err, symbol, units will be assigned only if present.
       !! ftmargoh : input real :  f-value for central solenoid temperature margin
-      !! tmargoh : input real :  Central solenoid temperature margin (K)
+      !! temp_cs_margin : input real :  Central solenoid temperature margin (K)
       !! tmargmin_cs : input real :  Minimum allowable temperature margin : CS (K)
       use constraint_variables, only: ftmargoh
-      use pfcoil_variables, only: tmargoh
+      use pfcoil_variables, only: temp_cs_margin
       use tfcoil_variables, only: tmargmin_cs
       implicit none
             real(dp), intent(out) :: tmp_cc
@@ -2407,9 +2407,9 @@ subroutine constraint_eqn_060(tmp_cc, tmp_con, tmp_err, tmp_symbol, tmp_units)
       character(len=1), intent(out) :: tmp_symbol
       character(len=10), intent(out) :: tmp_units
 
-      tmp_cc = 1.0D0 - ftmargoh * tmargoh/tmargmin_cs
+      tmp_cc = 1.0D0 - ftmargoh * temp_cs_margin/tmargmin_cs
       tmp_con = tmargmin_cs
-      tmp_err = tmargmin_cs - tmargoh
+      tmp_err = tmargmin_cs - temp_cs_margin
       tmp_symbol = '>'
       tmp_units = 'K'
 
@@ -2987,15 +2987,15 @@ subroutine constraint_eqn_079(tmp_cc, tmp_con, tmp_err, tmp_symbol, tmp_units)
       !! args : output structure : residual error; constraint value; residual error in physical units; output string; units string
       !! Equation for maximum CS field
       !! #=# pfcoil
-      !! #=#=# fbmaxcs, bmaxoh, bmaxoh0, bmaxcs_lim
+      !! #=#=# fb_cs_limit_max, b_cs_peak_flat_top_end, b_cs_peak_pulse_start, b_cs_limit_max
       !! and hence also optional here.
       !! Logic change during pre-factoring: err, symbol, units will be assigned only if present.
-      !! fbmaxcs : input : F-value for CS mmax field (cons. 79, itvar 149)
-      !! bmaxcs_lim : input : Central solenoid max field limit [T]
-      !! bmaxoh0 : input : maximum field in central solenoid at beginning of pulse (T)
-      !! bmaxoh : input real : maximum field in central solenoid at end of flat-top (EoF) (T)
-      !! (Note: original code has "bmaxoh/bmaxoh0 |  peak CS field [T]".)
-      use pfcoil_variables, only: fbmaxcs, bmaxcs_lim, bmaxoh0, bmaxoh
+      !! fb_cs_limit_max : input : F-value for CS mmax field (cons. 79, itvar 149)
+      !! b_cs_limit_max : input : Central solenoid max field limit [T]
+      !! b_cs_peak_pulse_start : input : maximum field in central solenoid at beginning of pulse (T)
+      !! b_cs_peak_flat_top_end : input real : maximum field in central solenoid at end of flat-top (EoF) (T)
+      !! (Note: original code has "b_cs_peak_flat_top_end/b_cs_peak_pulse_start |  peak CS field [T]".)
+      use pfcoil_variables, only: fb_cs_limit_max, b_cs_limit_max, b_cs_peak_pulse_start, b_cs_peak_flat_top_end
       implicit none
             real(dp), intent(out) :: tmp_cc
       real(dp), intent(out) :: tmp_con
@@ -3003,9 +3003,9 @@ subroutine constraint_eqn_079(tmp_cc, tmp_con, tmp_err, tmp_symbol, tmp_units)
       character(len=1), intent(out) :: tmp_symbol
       character(len=10), intent(out) :: tmp_units
 
-      tmp_cc     = 1.0D0 - fbmaxcs * bmaxcs_lim/max(bmaxoh, bmaxoh0)
-      tmp_con    = bmaxcs_lim
-      tmp_err    = max(bmaxoh, bmaxoh0) * tmp_cc
+      tmp_cc     = 1.0D0 - fb_cs_limit_max * b_cs_limit_max/max(b_cs_peak_flat_top_end, b_cs_peak_pulse_start)
+      tmp_con    = b_cs_limit_max
+      tmp_err    = max(b_cs_peak_flat_top_end, b_cs_peak_pulse_start) * tmp_cc
       tmp_symbol = '<'
       tmp_units  = 'A/turn'
 
diff --git a/source/fortran/input.f90 b/source/fortran/input.f90
index fbd69fe1aa..90ad844640 100644
--- a/source/fortran/input.f90
+++ b/source/fortran/input.f90
@@ -295,11 +295,11 @@ subroutine parse_input_file(in_file,out_file,show_changes)
       coreradiationfraction, fimp
     use numerics, only: factor, boundl, minmax, neqns, nvar, epsfcn, ixc, &
       epsvmc, ftol, ipnvars, ioptimz, nineqns, ipeqns, boundu, icc, ipnfoms, name_xc
-    use pfcoil_variables, only: rhopfbus, rjconpf, zref, fcuohsu, oh_steel_frac, vf, &
-      coheof, sigpfcalw, alstroh, ipfres, fcupfsu, fvssu, etapsu, i_cs_stress, &
-      fbmaxcs, ngc, rpf2, fcohbop, ohhghf, vfohc, isumatoh, ngrpmx, ngc2, rpf1, &
-      ngrp, isumatpf, nfxfh, alfapf, routr, sigpfcf, pfclres, bmaxcs_lim, &
-      ncls, nfixmx, cptdin, ipfloc, i_sup_pf_shape, rref, i_pf_current, &
+    use pfcoil_variables, only: rhopfbus, j_pf_coil_wp_peak, zref, fcuohsu, f_a_cs_steel, f_a_pf_coil_void, &
+      j_cs_flat_top_end, sigpfcalw, alstroh, i_pf_conductor, fcupfsu, fvs_cs_pf_total_ramp, etapsu, i_cs_stress, &
+      fb_cs_limit_max, ngc, rpf2, f_j_cs_start_pulse_end_flat_top, f_z_cs_tf_internal, f_a_cs_void, i_cs_superconductor, n_pf_groups_max, ngc2, rpf1, &
+      n_pf_coil_groups, i_pf_superconductor, nfxfh, alfapf, routr, sigpfcf, rho_pf_coil, b_cs_limit_max, &
+      n_pf_coils_in_group, nfixmx, c_pf_coil_turn_peak_input, i_pf_location, i_sup_pf_shape, rref, i_pf_current, &
       ccl0_ma, ccls_ma, ld_ratio_cst
     use physics_variables, only: ipedestal, taumax, i_single_null, fvsbrnni, &
       rhopedt, f_vol_plasma, f_deuterium, ffwal, i_beta_component, itartpf, i_l_h_threshold, &
@@ -951,8 +951,8 @@ subroutine parse_input_file(in_file,out_file,show_changes)
        case ('fvs')
           call parse_real_variable('fvs', fvs, 0.001D0, 10.0D0, &
                'F-value for startup V-s requirement')
-       case ('fvssu')
-         call parse_real_variable('fvssu', fvssu, 0.001D0, 10.0D0, &
+       case ('fvs_cs_pf_total_ramp')
+         call parse_real_variable('fvs_cs_pf_total_ramp', fvs_cs_pf_total_ramp, 0.001D0, 10.0D0, &
                'F-value for start up V-s requirement and availability equality')
        case ('fvvhe')
           call parse_real_variable('fvvhe', fvvhe, 0.001D0, 10.0D0, &
@@ -1332,8 +1332,8 @@ subroutine parse_input_file(in_file,out_file,show_changes)
        case ('fseppc')
           call parse_real_variable('fseppc', fseppc, 1.0D6, 1.0D9, &
                'CS separation force held by CS pre-comp structure')
-       case ('oh_steel_frac')
-          call parse_real_variable('oh_steel_frac', oh_steel_frac, 1.0D-3, 0.999D0, &
+       case ('f_a_cs_steel')
+          call parse_real_variable('f_a_cs_steel', f_a_cs_steel, 1.0D-3, 0.999D0, &
                'Central solenoid steel fraction')
        case ('foh_stress')
           call parse_real_variable('foh_stress', foh_stress, 1.0D-3, 1.0D0, &
@@ -1816,11 +1816,11 @@ subroutine parse_input_file(in_file,out_file,show_changes)
        case ('rhopfbus')
           call parse_real_variable('rhopfbus', rhopfbus, 0.0D0, 1.0D-5, &
                'CS and PF coil bus (feeders) resistivity (ohm-m)')
-       case ('bmaxcs_lim')
-         call parse_real_variable('bmaxcs_lim', bmaxcs_lim, 0.01D0, 100.0D0, &
+       case ('b_cs_limit_max')
+         call parse_real_variable('b_cs_limit_max', b_cs_limit_max, 0.01D0, 100.0D0, &
                'Maximum allowed peak field on central solenoid')
-       case ('fbmaxcs')
-         call parse_real_variable('fbmaxcs', fbmaxcs, 0.01D0, 1.0D0, &
+       case ('fb_cs_limit_max')
+         call parse_real_variable('fb_cs_limit_max', fb_cs_limit_max, 0.01D0, 1.0D0, &
                'F-value for max peak CS field (con. 79, itvar 149)')
        case ('alstroh')
                call parse_real_variable('alstroh', alstroh, 1.0D6, 1.0D11, &
@@ -1831,17 +1831,17 @@ subroutine parse_input_file(in_file,out_file,show_changes)
        case ('alfapf')
           call parse_real_variable('alfapf', alfapf, 1.0D-12, 1.0D0, &
                'PF coil current smoothing parameter')
-       case ('coheof')
-          call parse_real_variable('coheof', coheof, 1.0D4, 5.0D8, &
+       case ('j_cs_flat_top_end')
+          call parse_real_variable('j_cs_flat_top_end', j_cs_flat_top_end, 1.0D4, 5.0D8, &
                'Central Solenoid current density at EOF')
-       case ('cptdin')
-          call parse_real_array('cptdin', cptdin, isub1, ngc2, &
+       case ('c_pf_coil_turn_peak_input')
+          call parse_real_array('c_pf_coil_turn_peak_input', c_pf_coil_turn_peak_input, isub1, ngc2, &
                'Current per turn for PF coil', icode)
        case ('etapsu')
           call parse_real_variable('etapsu', etapsu, 0.0D0, 1.0D0, &
                'Efficiency of ohmic heating')
-       case ('fcohbop')
-          call parse_real_variable('fcohbop', fcohbop, 0.0D0, 1.0D0, &
+       case ('f_j_cs_start_pulse_end_flat_top')
+          call parse_real_variable('f_j_cs_start_pulse_end_flat_top', f_j_cs_start_pulse_end_flat_top, 0.0D0, 1.0D0, &
                'Central Solenoid J ratio : BOP/EOF')
        case ('fcuohsu')
           call parse_real_variable('fcuohsu', fcuohsu, 0.0D0, 1.0D0, &
@@ -1849,17 +1849,17 @@ subroutine parse_input_file(in_file,out_file,show_changes)
        case ('fcupfsu')
           call parse_real_variable('fcupfsu', fcupfsu, 0.0D0, 1.0D0, &
                'Cu fraction of PF cable conductor')
-       case ('ipfloc')
-          call parse_int_array('ipfloc', ipfloc, isub1, ngrpmx, &
+       case ('i_pf_location')
+          call parse_int_array('i_pf_location', i_pf_location, isub1, n_pf_groups_max, &
                'PF coil location', icode)
-       case ('ipfres')
-          call parse_int_variable('ipfres', ipfres, 0, 1, &
+       case ('i_pf_conductor')
+          call parse_int_variable('i_pf_conductor', i_pf_conductor, 0, 1, &
                'Switch for supercond / resist PF coils')
-       case ('isumatoh')
-          call parse_int_variable('isumatoh', isumatoh, 1, 9, &
+       case ('i_cs_superconductor')
+          call parse_int_variable('i_cs_superconductor', i_cs_superconductor, 1, 9, &
                'Central Solenoid superconductor material')
-       case ('isumatpf')
-          call parse_int_variable('isumatpf', isumatpf, 1, 9, &
+       case ('i_pf_superconductor')
+          call parse_int_variable('i_pf_superconductor', i_pf_superconductor, 1, 9, &
                'PF coil superconductor material')
        case ('supercond_cost_model')
           call parse_int_variable('supercond_cost_model', supercond_cost_model, 0, 1, &
@@ -1870,23 +1870,23 @@ subroutine parse_input_file(in_file,out_file,show_changes)
        case ('i_sup_pf_shape')
           call parse_int_variable('i_sup_pf_shape', i_sup_pf_shape, 0, 1, &
                'Switch to place outboard PF coils when TF superconducting')
-       case ('ncls')
-          call parse_int_array('ncls', ncls, isub1, ngrpmx+2, &
+       case ('n_pf_coils_in_group')
+          call parse_int_array('n_pf_coils_in_group', n_pf_coils_in_group, isub1, n_pf_groups_max+2, &
                'No of coils in PF group', icode)
        case ('nfxfh')
           call parse_int_variable('nfxfh', nfxfh, 1, nfixmx/2, &
                'Central Solenoid splitting parameter')
-       case ('ngrp')
-          call parse_int_variable('ngrp', ngrp, 0, ngrpmx, &
+       case ('n_pf_coil_groups')
+          call parse_int_variable('n_pf_coil_groups', n_pf_coil_groups, 0, n_pf_groups_max, &
                'No of groups of PF coils')
-       case ('ohhghf')
-          call parse_real_variable('ohhghf', ohhghf, 0.0D0, 2.0D0, &
+       case ('f_z_cs_tf_internal')
+          call parse_real_variable('f_z_cs_tf_internal', f_z_cs_tf_internal, 0.0D0, 2.0D0, &
                'Central Solenoid height / TF coil height')
-       case ('pfclres')
-          call parse_real_variable('pfclres', pfclres, 0.0D0, 1.0D-4, &
+       case ('rho_pf_coil')
+          call parse_real_variable('rho_pf_coil', rho_pf_coil, 0.0D0, 1.0D-4, &
                'PF coil resistivity (ohm-m)')
-       case ('rjconpf')
-          call parse_real_array('rjconpf', rjconpf, isub1, ngc2, &
+       case ('j_pf_coil_wp_peak')
+          call parse_real_array('j_pf_coil_wp_peak', j_pf_coil_wp_peak, isub1, ngc2, &
                'Average J of PF coil (A/m2)', icode)
        case ('routr')
           call parse_real_variable('routr', routr, -3.0D0, 3.0D0, &
@@ -1898,13 +1898,13 @@ subroutine parse_input_file(in_file,out_file,show_changes)
           call parse_real_variable('rpf2', rpf2, -3.0D0, 3.0D0, &
                'Radial offset for location 2 PF coils')
        case ('rref')
-          call parse_real_array('rref', rref, isub1, ngrpmx, &
+          call parse_real_array('rref', rref, isub1, n_pf_groups_max, &
                'radius of location 4 coil groups, minor radii from major radius', icode)
        case ('ccl0_ma')
-          call parse_real_array('ccl0_ma', ccl0_ma, isub1, ngrpmx, &
+          call parse_real_array('ccl0_ma', ccl0_ma, isub1, n_pf_groups_max, &
                'Flux-swing cancel current of PF coil groups, MA', icode)
        case ('ccls_ma')
-          call parse_real_array('ccls_ma', ccls_ma, isub1, ngrpmx, &
+          call parse_real_array('ccls_ma', ccls_ma, isub1, n_pf_groups_max, &
                'Equilibrium current of PF coil groups, MA', icode)
        case ('sigpfcalw')
           call parse_real_variable('sigpfcalw', sigpfcalw, 1.0D0, 1.0D3, &
@@ -1912,14 +1912,14 @@ subroutine parse_input_file(in_file,out_file,show_changes)
        case ('sigpfcf')
           call parse_real_variable('sigpfcf', sigpfcf, 0.1D0, 1.0D0, &
                'Fraction of JxB force supported by PF coil case')
-       case ('vf')
-          call parse_real_array('vf', vf, isub1, ngc2, &
+       case ('f_a_pf_coil_void')
+          call parse_real_array('f_a_pf_coil_void', f_a_pf_coil_void, isub1, ngc2, &
                'Void fraction of PF coil', icode)
-       case ('vfohc')
-          call parse_real_variable('vfohc', vfohc, 0.0D0, 1.0D0, &
+       case ('f_a_cs_void')
+          call parse_real_variable('f_a_cs_void', f_a_cs_void, 0.0D0, 1.0D0, &
                'Central Solenoid void fraction for coolant')
        case ('zref')
-          call parse_real_array('zref', zref, isub1, ngrpmx, &
+          call parse_real_array('zref', zref, isub1, n_pf_groups_max, &
                'height of location 3 and 4 coil groups / minor radius', icode)
 
        case ('radius_fw_channel')
diff --git a/source/fortran/iteration_variables.f90 b/source/fortran/iteration_variables.f90
index 5ed451636c..c48d440383 100755
--- a/source/fortran/iteration_variables.f90
+++ b/source/fortran/iteration_variables.f90
@@ -861,25 +861,25 @@ end subroutine set_itv_36
   !---------------------------------
 
   subroutine init_itv_37
-    !! <LI> (37) coheof
+    !! <LI> (37) j_cs_flat_top_end
     use numerics, only: lablxc, boundl, boundu
     implicit none
-    lablxc(37) = 'coheof        '
+    lablxc(37) = 'j_cs_flat_top_end        '
     boundl(37) = 1.000D5
     boundu(37) = 1.000D8
   end subroutine init_itv_37
 
   real(kind(1.d0)) function itv_37()
-    use pfcoil_variables, only: coheof
+    use pfcoil_variables, only: j_cs_flat_top_end
     implicit none
-    itv_37 = coheof
+    itv_37 = j_cs_flat_top_end
   end function itv_37
 
   subroutine set_itv_37(ratio)
-    use pfcoil_variables, only: coheof
+    use pfcoil_variables, only: j_cs_flat_top_end
     implicit none
     real(kind(1.d0)) :: ratio
-    coheof = ratio
+    j_cs_flat_top_end = ratio
   end subroutine set_itv_37
 
   !---------------------------------
@@ -957,25 +957,25 @@ end subroutine set_itv_40
   !---------------------------------
 
   subroutine init_itv_41
-    !! <LI> (41) fcohbop
+    !! <LI> (41) f_j_cs_start_pulse_end_flat_top
     use numerics, only: lablxc, boundl, boundu
     implicit none
-    lablxc(41) = 'fcohbop       '
+    lablxc(41) = 'f_j_cs_start_pulse_end_flat_top       '
     boundl(41) = 0.001D0
     boundu(41) = 1.000D0
   end subroutine init_itv_41
 
   real(kind(1.d0)) function itv_41()
-    use pfcoil_variables, only: fcohbop
+    use pfcoil_variables, only: f_j_cs_start_pulse_end_flat_top
     implicit none
-    itv_41 = fcohbop
+    itv_41 = f_j_cs_start_pulse_end_flat_top
   end function itv_41
 
   subroutine set_itv_41(ratio)
-    use pfcoil_variables, only: fcohbop
+    use pfcoil_variables, only: f_j_cs_start_pulse_end_flat_top
     implicit none
     real(kind(1.d0)) :: ratio
-    fcohbop = ratio
+    f_j_cs_start_pulse_end_flat_top = ratio
   end subroutine set_itv_41
 
   !---------------------------------
@@ -2673,25 +2673,25 @@ end subroutine set_itv_121
   !---------------------------------
 
   subroutine init_itv_122
-    !! <LI> (122) oh_steel_frac : streel fraction of Central Solenoid
+    !! <LI> (122) f_a_cs_steel : streel fraction of Central Solenoid
     use numerics, only: lablxc, boundl, boundu
     implicit none
-    lablxc(122) = 'oh_steel_frac '
+    lablxc(122) = 'f_a_cs_steel '
     boundl(122) = 0.001D0
     boundu(122) = 0.950D0
   end subroutine init_itv_122
 
   real(kind(1.d0)) function itv_122()
-    use pfcoil_variables, only: oh_steel_frac
+    use pfcoil_variables, only: f_a_cs_steel
     implicit none
-    itv_122 = oh_steel_frac
+    itv_122 = f_a_cs_steel
   end function itv_122
 
   subroutine set_itv_122(ratio)
-    use pfcoil_variables, only: oh_steel_frac
+    use pfcoil_variables, only: f_a_cs_steel
     implicit none
     real(kind(1.d0)) :: ratio
-    oh_steel_frac = ratio
+    f_a_cs_steel = ratio
   end subroutine set_itv_122
 
   !---------------------------------
@@ -3318,25 +3318,25 @@ end subroutine set_itv_148
   !---------------------------------
 
   subroutine init_itv_149
-    !! <LI> (149) fbmaxcs : F-value for max peak CS field (con. 79, itvar 149)
+    !! <LI> (149) fb_cs_limit_max : F-value for max peak CS field (con. 79, itvar 149)
     use numerics, only: lablxc, boundl, boundu
     implicit none
-    lablxc(149) = 'fbmaxcs       '
+    lablxc(149) = 'fb_cs_limit_max       '
     boundl(149) = 0.001D0
     boundu(149) = 1.000D0
   end subroutine init_itv_149
 
   real(kind(1.d0)) function itv_149()
-    use pfcoil_variables, only: fbmaxcs
+    use pfcoil_variables, only: fb_cs_limit_max
     implicit none
-    itv_149 = fbmaxcs
+    itv_149 = fb_cs_limit_max
   end function itv_149
 
   subroutine set_itv_149(ratio)
-    use pfcoil_variables, only: fbmaxcs
+    use pfcoil_variables, only: fb_cs_limit_max
     implicit none
     real(kind(1.d0)) :: ratio
-    fbmaxcs = ratio
+    fb_cs_limit_max = ratio
   end subroutine set_itv_149
 
   !---------------------------------
@@ -3476,25 +3476,25 @@ end subroutine set_itv_156
   !---------------------------------
 
   subroutine init_itv_157
-    !! <LI> (157) fvssu : F-value for available to required start up flux (con. 51)
+    !! <LI> (157) fvs_cs_pf_total_ramp : F-value for available to required start up flux (con. 51)
     use numerics, only: lablxc, boundl, boundu
     implicit none
-    lablxc(157) = 'fvssu         '
+    lablxc(157) = 'fvs_cs_pf_total_ramp         '
     boundl(157) = 1.00d-3
     boundu(157) = 1.000d1
   end subroutine init_itv_157
 
   real(kind(1.d0)) function itv_157()
-    use pfcoil_variables, only: fvssu
+    use pfcoil_variables, only: fvs_cs_pf_total_ramp
     implicit none
-    itv_157 = fvssu
+    itv_157 = fvs_cs_pf_total_ramp
   end function itv_157
 
   subroutine set_itv_157(ratio)
-    use pfcoil_variables, only: fvssu
+    use pfcoil_variables, only: fvs_cs_pf_total_ramp
     implicit none
     real(kind(1.d0)) :: ratio
-    fvssu = ratio
+    fvs_cs_pf_total_ramp = ratio
   end subroutine set_itv_157
 
   !---------------------------------
diff --git a/source/fortran/numerics.f90 b/source/fortran/numerics.f90
index e534bc6bf5..94d7ae6a6a 100755
--- a/source/fortran/numerics.f90
+++ b/source/fortran/numerics.f90
@@ -123,9 +123,9 @@ module numerics
   !!            (itv 104,1,74)
   !!  <LI> (24) Beta upper limit (itv 36,1,2,3,4,6,18)
   !!  <LI> (25) Peak toroidal field upper limit (itv 35,3,13,29)
-  !!  <LI> (26) Central solenoid EOF current density upper limit (ipfres=0)
+  !!  <LI> (26) Central solenoid EOF current density upper limit (i_pf_conductor=0)
   !!            (itv 38,37,41,12)
-  !!  <LI> (27) Central solenoid BOP current density upper limit (ipfres=0)
+  !!  <LI> (27) Central solenoid BOP current density upper limit (i_pf_conductor=0)
   !!            (itv 39,37,41,12)
   !!  <LI> (28) Fusion gain Q lower limit (itv 45,47,40)
   !!  <LI> (29) Inboard radial build consistency (itv 3,1,13,16,29,42,61)
@@ -181,7 +181,7 @@ module numerics
   !!  <LI> (76) Eich critical separatrix density
   !!  <LI> (77) TF coil current per turn upper limit
   !!  <LI> (78) Reinke criterion impurity fraction lower limit (itv  147 freinke)
-  !!  <LI> (79) Peak CS field upper limit (itv  149 fbmaxcs)
+  !!  <LI> (79) Peak CS field upper limit (itv  149 fb_cs_limit_max)
   !!  <LI> (80) Divertor power lower limit pdivt (itv  153 fpdivlim)
   !!  <LI> (81) Ne(0) > ne(ped) constraint (itv  154 fne0)
   !!  <LI> (82) toroidalgap >  tftort constraint (itv  171 ftoroidalgap)
@@ -202,7 +202,7 @@ module numerics
   !!               array defining which iteration variables to activate
   !!               (see lablxc for descriptions)
 
-  character*30, dimension(ipnvars) :: lablxc
+  character*50, dimension(ipnvars) :: lablxc
   !! lablxc(ipnvars) : labels describing iteration variables<UL>
   !!  <LI> ( 1) aspect
   !!  <LI> ( 2) bt
@@ -240,11 +240,11 @@ module numerics
   !! <LI> (34) fdivcol (f-value for equation 22)
   !! <LI> (35) fpeakb (f-value for equation 25)
   !! <LI> (36) fbeta_max (f-value for equation 24)
-  !! <LI> (37) coheof
+  !! <LI> (37) j_cs_flat_top_end
   !! <LI> (38) fjohc (f-value for equation 26)
   !! <LI> (39) fjohc0 (f-value for equation 27)
   !! <LI> (40) fgamcd (f-value for equation 37)
-  !! <LI> (41) fcohbop
+  !! <LI> (41) f_j_cs_start_pulse_end_flat_top
   !! <LI> (42) dr_cs_tf_gap
   !! <LI> (43) NOT USED
   !! <LI> (44) fvsbrnni
@@ -325,7 +325,7 @@ module numerics
   !! <LI> (119) tesep:  separatrix temperature calculated by the Kallenbach divertor model
   !! <LI> (120) ttarget: Plasma temperature adjacent to divertor sheath [eV]
   !! <LI> (121) neratio: ratio of mean SOL density at OMP to separatrix density at OMP
-  !! <LI> (122) oh_steel_frac : streel fraction of Central Solenoid
+  !! <LI> (122) f_a_cs_steel : streel fraction of Central Solenoid
   !! <LI> (123) foh_stress : f-value for CS coil Tresca yield criterion (f-value for eq. 72)
   !! <LI> (124) qtargettotal : Power density on target including surface recombination [W/m2]
   !! <LI> (125) fimp(3) :  Beryllium density fraction relative to electron density
@@ -352,7 +352,7 @@ module numerics
   !! <LI> (146) fcpttf : F-value for TF coil current per turn limit (constraint equation 77)
   !! <LI> (147) freinke : F-value for Reinke detachment criterion (constraint equation 78)
   !! <LI> (148) fzactual : fraction of impurity at SOL with Reinke detachment criterion
-  !! <LI> (149) fbmaxcs : F-value for max peak CS field (con. 79, itvar 149)
+  !! <LI> (149) fb_cs_limit_max : F-value for max peak CS field (con. 79, itvar 149)
   !! <LI> (150) REMOVED
   !! <LI> (151) REMOVED
   !! <LI> (152) fgwsep : Ratio of separatrix density to Greenwald density
@@ -360,7 +360,7 @@ module numerics
   !! <LI> (154) fne0 : F-value for ne(0) > ne(ped) (con. 81)
   !! <LI> (155) pfusife : IFE input fusion power (MW) (ifedrv=3 only)
   !! <LI> (156) rrin : Input IFE repetition rate (Hz) (ifedrv=3 only)
-  !! <LI> (157) fvssu : F-value for available to required start up flux (con. 51)
+  !! <LI> (157) fvs_cs_pf_total_ramp : F-value for available to required start up flux (con. 51)
   !! <LI> (158) croco_thick : Thickness of CroCo copper tube (m)
   !! <LI> (159) ftoroidalgap : F-value for toroidalgap >  tftort constraint (con. 82)
   !! <LI> (160) f_avspace (f-value for equation 83)
diff --git a/source/fortran/output.f90 b/source/fortran/output.f90
index 0365da0edd..9c7d0f8926 100755
--- a/source/fortran/output.f90
+++ b/source/fortran/output.f90
@@ -381,7 +381,7 @@ subroutine ovarre(file,descr,varnam,value,output_flag)
     ! Remove the "(" and ")" from the varnam
     stripped = varnam(2:len(varnam)-1)
 
-    ! May need to strip Python module name (e.g. the pfv. from pfv.coheof)
+    ! May need to strip Python module name (e.g. the pfv. from pfv.j_cs_flat_top_end)
     ! This ensures the ITV flag is still added when required in output files
     dotindex = scan(stripped,".")
     stripped = stripped(dotindex+1:)
diff --git a/source/fortran/pfcoil.f90 b/source/fortran/pfcoil.f90
index ec87282344..1fda860f45 100644
--- a/source/fortran/pfcoil.f90
+++ b/source/fortran/pfcoil.f90
@@ -13,7 +13,7 @@ module pfcoil_module
   use, intrinsic :: iso_fortran_env, only: dp=>real64
 #endif
    use resistive_materials, only: volume_fractions, supercon_strand
-   use pfcoil_variables, only: nfixmx, ngrpmx, nclsmx, ngc2
+   use pfcoil_variables, only: nfixmx, n_pf_groups_max, n_pf_coils_in_group_max, ngc2
    implicit none
 
    public
@@ -27,8 +27,8 @@ module pfcoil_module
    ! with f2py if made public
    ! #TODO Temporarily hardcode dimensions in order to make public and wrap
    ! real(dp), dimension(nfixmx), private :: rfxf,zfxf,cfxf,xind
-   ! real(dp), dimension(ngrpmx,nclsmx), private :: rcls,zcls
-   ! real(dp), dimension(ngrpmx), private :: ccls,ccl0
+   ! real(dp), dimension(n_pf_groups_max,n_pf_coils_in_group_max), private :: rcls,zcls
+   ! real(dp), dimension(n_pf_groups_max), private :: ccls,ccl0
    ! real(dp), dimension(ngc2), private :: bpf2
    ! real(dp), dimension(ngc2,3), private :: vsdum
    real(dp), dimension(64) :: rfxf,zfxf,cfxf,xind
diff --git a/source/fortran/pfcoil_variables.f90 b/source/fortran/pfcoil_variables.f90
index 8dc543b8ee..01312fc6e1 100644
--- a/source/fortran/pfcoil_variables.f90
+++ b/source/fortran/pfcoil_variables.f90
@@ -14,10 +14,10 @@ module pfcoil_variables
 
   public
 
-  integer, parameter :: ngrpmx = 10
+  integer, parameter :: n_pf_groups_max = 10
   !! maximum number of groups of PF coils
 
-  integer, parameter :: nclsmx = 2
+  integer, parameter :: n_pf_coils_in_group_max = 2
   !! maximum number of PF coils in a given group
 
   integer, parameter :: nptsmx = 32
@@ -27,7 +27,7 @@ module pfcoil_variables
   integer, parameter :: nfixmx = 64
   !! maximum number of fixed current PF coils
 
-  integer, parameter :: ngc = ngrpmx*nclsmx
+  integer, parameter :: ngc = n_pf_groups_max*n_pf_coils_in_group_max
   !! maximum total number of coils across all groups
 
   integer, parameter :: ngc2 = ngc+2
@@ -45,63 +45,63 @@ module pfcoil_variables
   !! - =0 Hoop stress only
   !! - =1 Hoop + Axial stress
 
-  real(dp) :: areaoh
+  real(dp) :: a_cs_poloidal
   !! Central solenoid vertical cross-sectional area (m2)
 
-  real(dp) :: a_oh_turn
+  real(dp) :: a_cs_turn
   !! Central solenoid (OH) trun cross-sectional area (m2)
 
   real(dp) :: awpoh
   !! central solenoid conductor+void area with area of steel subtracted (m2)
 
-  real(dp) :: bmaxoh
+  real(dp) :: b_cs_peak_flat_top_end
   !! maximum field in central solenoid at end of flat-top (EoF) (T)
 
-  real(dp) :: bmaxoh0
+  real(dp) :: b_cs_peak_pulse_start
   !! maximum field in central solenoid at beginning of pulse (T)
 
-  real(dp), dimension(ngc2) :: bpf
+  real(dp), dimension(ngc2) :: b_pf_coil_peak
   !! peak field at coil i (T)
 
-  real(dp), dimension(ngrpmx) :: ccl0_ma
+  real(dp), dimension(n_pf_groups_max) :: ccl0_ma
   !! PF group current array, flux-swing cancellation current (MA)
   !! Input if i_pf_current=0, computed otherwise
 
-  real(dp), dimension(ngrpmx) :: ccls_ma
+  real(dp), dimension(n_pf_groups_max) :: ccls_ma
   !! PF group current array, equilibrium current (MA)
   !! Input if i_pf_current=0, computed otherwise
 
-  real(dp) :: cohbop
+  real(dp) :: j_cs_pulse_start
   !! Central solenoid overall current density at beginning of pulse (A/m2)
 
-  real(dp) :: coheof
+  real(dp) :: j_cs_flat_top_end
   !! Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`)
 
-  real(dp), dimension(ngc2,6) :: cpt
+  real(dp), dimension(ngc2,6) :: c_pf_coil_turn
   !! current per turn in coil i at time j (A)
 
-  real(dp), dimension(ngc2) :: cptdin
+  real(dp), dimension(ngc2) :: c_pf_coil_turn_peak_input
   !! peak current per turn input for PF coil i (A)
 
-  real(dp), dimension(ngc2) :: curpfb
+  real(dp), dimension(ngc2) :: c_pf_cs_coil_pulse_start_ma
   !! PF coil current array, at beginning of pulse (MA)
   !! Indexed by coil number, not group number
 
-  real(dp), dimension(ngc2) :: curpff
+  real(dp), dimension(ngc2) :: c_pf_cs_coil_flat_top_ma
   !! PF coil current array, at flat top (MA)
   !! Indexed by coil number, not group number
 
-  real(dp), dimension(ngc2) :: curpfs
+  real(dp), dimension(ngc2) :: c_pf_cs_coil_pulse_end_ma
   !! PF coil current array, at end of pulse (MA)
   !! Indexed by coil number, not group number
 
   real(dp) :: etapsu
   !! Efficiency of transfer of PF stored energy into or out of storage.
 
-  real(dp) :: fcohbof
+  real(dp) :: f_j_cs_start_end_flat_top
   !! ratio of central solenoid overall current density at beginning of flat-top / end of flat-top
 
-  real(dp) :: fcohbop
+  real(dp) :: f_j_cs_start_pulse_end_flat_top
   !! ratio of central solenoid overall current density at beginning of pulse / end of flat-top
   !! (`iteration variable 41`)
 
@@ -111,10 +111,10 @@ module pfcoil_variables
   real(dp) :: fcupfsu
   !! copper fraction of cable conductor (PF coils)
 
-  real(dp) :: fvssu
+  real(dp) :: fvs_cs_pf_total_ramp
   !! F-value for `constraint equation 51`
 
-  integer, dimension(ngrpmx) :: ipfloc
+  integer, dimension(n_pf_groups_max) :: i_pf_location
   !! Switch for location of PF coil group i:
   !!
   !! - =1 PF coil on top of central solenoid (flux ramp only)
@@ -122,7 +122,7 @@ module pfcoil_variables
   !! - =3 PF coil outside of TF coil (equilibrium coil)
   !! - =4 PF coil, general location (equilibrium coil)
 
-  integer :: ipfres
+  integer :: i_pf_conductor
   !! switch for PF & CS coil conductor type:
   !!
   !! - =0 superconducting PF coils
@@ -131,7 +131,7 @@ module pfcoil_variables
   real(dp) :: itr_sum
   !! total sum of I x turns x radius for all PF coils and CS (Am)
 
-  integer :: isumatoh
+  integer :: i_cs_superconductor
   !! switch for superconductor material in central solenoid:
   !!
   !! - =1 ITER Nb3Sn critical surface model with standard
@@ -146,7 +146,7 @@ module pfcoil_variables
   !! - =8 Durham Ginzburg-Landau critical surface model for REBCO
   !! - =9 Hazelton experimental data + Zhai conceptual model for REBCO
 
-  integer :: isumatpf
+  integer :: i_pf_superconductor
   !! switch for superconductor material in PF coils:
   !!
   !! - =1 ITER Nb3Sn critical surface model with standard
@@ -172,7 +172,7 @@ module pfcoil_variables
   integer :: i_pf_current
   !! Switch for controlling the current of the PF coils:
   !!
-  !! - =0 Input via the variables curpfb, curpff, curpfs
+  !! - =0 Input via the variables c_pf_cs_coil_pulse_start_ma, c_pf_cs_coil_flat_top_ma, c_pf_cs_coil_pulse_end_ma
   !! - =1 SVD targets zero field across midplane (flux swing
   !!   coils) and the correct vertical field at the plasma
   !!   center (equilibrium coils)
@@ -186,10 +186,10 @@ module pfcoil_variables
   !! - =1 Outboard PF coils all have same radius, cylindrical
   !!   winding surface
 
-  real(dp) :: jscoh_bop
+  real(dp) :: j_cs_conductor_critical_pulse_start
   !! central solenoid superconductor critical current density (A/m2) at beginning-of-pulse
 
-  real(dp) :: jscoh_eof
+  real(dp) :: j_cs_conductor_critical_flat_top_end
   !! central solenoid superconductor critical current density (A/m2) at end-of-flattop
 
   real(dp) :: jcableoh_bop
@@ -198,26 +198,26 @@ module pfcoil_variables
   real(dp) :: jcableoh_eof
   !! central solenoid cable critical current density (A/m2) at end-of-flattop
 
-  integer :: ncirt
+  integer :: n_pf_cs_plasma_circuits
   !! number of PF circuits (including central solenoid and plasma)
 
-  integer, dimension(ngrpmx+2) :: ncls
+  integer, dimension(n_pf_groups_max+2) :: n_pf_coils_in_group
   !! number of PF coils in group j
 
   integer :: nfxfh
   !! number of filaments the top and bottom of the central solenoid should be broken
   !! into during scaling (5 - 10 is good)
 
-  integer :: ngrp
+  integer :: n_pf_coil_groups
   !! number of groups of PF coils. Symmetric coil pairs should all be in the same group
 
-  integer :: nohc
+  integer :: n_cs_pf_coils
   !! number of PF coils (excluding the central solenoid) + 1
 
-  real(dp) :: ohhghf
+  real(dp) :: f_z_cs_tf_internal
   !! Central solenoid height / TF coil internal height
 
-  real(dp) :: oh_steel_frac
+  real(dp) :: f_a_cs_steel
   !! central solenoid steel fraction (`iteration variable 122`)
 
   real(dp) :: pf_current_safety_factor
@@ -227,74 +227,74 @@ module pfcoil_variables
   real(dp), dimension(ngc2) :: pfcaseth
   !! steel case thickness for PF coil i (m)
 
-  real(dp) :: pfclres
-  !! PF coil resistivity (if ipfres=1) (Ohm-m)
+  real(dp) :: rho_pf_coil
+  !! PF coil resistivity (if i_pf_conductor=1) (Ohm-m)
 
   real(dp) :: rhopfbus
   !! Resistivity of CS and PF coil bus bars (irrespective of
   !! whether the coils themselves are superconducting or resistive) (Ohm-m)
 
-  real(dp) :: pfmmax
+  real(dp) :: m_pf_coil_max
   !! mass of heaviest PF coil (tonnes)
 
-  real(dp) :: pfrmax
+  real(dp) :: r_pf_coil_outer_max
   !! radius of largest PF coil (m)
 
   real(dp) :: pfwpmw
   !! Total mean wall plug power dissipated in PFC and CS power supplies (MW) (issue #713)
 
-  real(dp) :: powohres
+  real(dp) :: p_cs_resistive_flat_top
   !! central solenoid resistive power during flattop (W)
 
-  real(dp) :: powpfres
+  real(dp) :: p_pf_coil_resistive_total_flat_top
   !! total PF coil resistive losses during flattop (W)
 
-  real(dp), dimension(ngc2) :: ra
+  real(dp), dimension(ngc2) :: r_pf_coil_inner
   !! inner radius of coil i (m)
 
-  real(dp), dimension(ngc2) :: rb
+  real(dp), dimension(ngc2) :: r_pf_coil_outer
   !! outer radius of coil i (m)
 
-  real(dp), dimension(ngc2) :: ric
+  real(dp), dimension(ngc2) :: c_pf_cs_coils_peak_ma
   !! peak current in coil i (MA-turns)
 
-  real(dp), dimension(ngc2) :: rjconpf
+  real(dp), dimension(ngc2) :: j_pf_coil_wp_peak
   !! average winding pack current density of PF coil i (A/m2) at time of peak
-  !! current in that coil (calculated for `ipfloc=1` coils)
+  !! current in that coil (calculated for `i_pf_location=1` coils)
 
-  real(dp) :: rjohc
+  real(dp) :: j_cs_critical_flat_top_end
   !! allowable central solenoid current density at end of flat-top (A/m2)
 
-  real(dp) :: rjohc0
+  real(dp) :: j_cs_critical_pulse_start
   !! allowable central solenoid current density at beginning of pulse (A/m2)
 
-  real(dp), dimension(ngc2) :: rjpfalw
+  real(dp), dimension(ngc2) :: j_pf_wp_critical
   !! allowable winding pack current density of PF coil i (A/m2)
 
-  real(dp) :: rohc
+  real(dp) :: r_cs_middle
   !! radius to the centre of the central solenoid (m)
 
   real(dp) :: routr
-  !! radial distance (m) from outboard TF coil leg to centre of `ipfloc=3` PF coils
+  !! radial distance (m) from outboard TF coil leg to centre of `i_pf_location=3` PF coils
 
-  real(dp), dimension(ngc2) :: rpf
+  real(dp), dimension(ngc2) :: r_pf_coil_middle
   !! radius of PF coil i (m)
 
   real(dp) :: rpf1
-  !! offset (m) of radial position of `ipfloc=1` PF coils from being directly above
+  !! offset (m) of radial position of `i_pf_location=1` PF coils from being directly above
   !! the central solenoid
 
   real(dp) :: rpf2
-  !! offset (m) of radial position of `ipfloc=2` PF coils from being at
+  !! offset (m) of radial position of `i_pf_location=2` PF coils from being at
   !! rmajor (offset = rpf2*triang*rminor)
 
-  real(dp), dimension(ngrpmx) :: rref
+  real(dp), dimension(n_pf_groups_max) :: rref
   !! PF coil radial positioning adjuster:
   !!
-  !! - for groups j with ipfloc(j) = 1; rref(j) is ignored
-  !! - for groups j with ipfloc(j) = 2; rref(j) is ignored
-  !! - for groups j with ipfloc(j) = 3; rref(j) is ignored
-  !! - for groups j with ipfloc(j) = 4; rref(j) is radius of
+  !! - for groups j with i_pf_location(j) = 1; rref(j) is ignored
+  !! - for groups j with i_pf_location(j) = 2; rref(j) is ignored
+  !! - for groups j with i_pf_location(j) = 3; rref(j) is ignored
+  !! - for groups j with i_pf_location(j) = 4; rref(j) is radius of
   !!   the coil in units of minor radii from the major radius
   !!   (r = rmajor + rref*rminor)
 
@@ -303,94 +303,94 @@ module pfcoil_variables
 
   real(dp) :: sigpfcalw
   !! maximum permissible tensile stress (MPa) in steel coil cases for superconducting
-  !! PF coils (`ipfres=0`)
+  !! PF coils (`i_pf_conductor=0`)
 
   real(dp) :: sigpfcf
-  !! fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`)
+  !! fraction of JxB hoop force supported by steel case for superconducting PF coils (`i_pf_conductor=0`)
 
-  real(dp), dimension(ngc2,ngc2) :: sxlg
+  real(dp), dimension(ngc2,ngc2) :: ind_pf_cs_plasma_mutual
   !! mutual inductance matrix (H)
 
-  real(dp) :: tmargoh
+  real(dp) :: temp_cs_margin
   !! Central solenoid temperature margin (K)
 
-  real(dp), dimension(ngc2) :: turns
+  real(dp), dimension(ngc2) :: n_pf_coil_turns
   !! number of turns in PF coil i
 
-  real(dp), dimension(ngc2) :: vf
+  real(dp), dimension(ngc2) :: f_a_pf_coil_void
   !! winding pack void fraction of PF coil i for coolant
 
-  real(dp) :: vfohc
+  real(dp) :: f_a_cs_void
   !! void fraction of central solenoid conductor for coolant
 
-  real(dp) :: vsbn
+  real(dp) :: vs_cs_pf_total_burn
   !! total flux swing available for burn (Wb)
 
-  real(dp) :: vsefbn
+  real(dp) :: vs_pf_coils_total_burn
   !! flux swing from PF coils for burn (Wb)
 
-  real(dp) :: vsefsu
+  real(dp) :: vs_pf_coils_total_ramp
   !! flux swing from PF coils for startup (Wb)
 
-  real(dp) :: vseft
+  real(dp) :: vs_pf_coils_total_pulse
   !! total flux swing from PF coils (Wb)
 
-  real(dp) :: vsoh
+  real(dp) :: vs_cs_total_pulse
   !! total flux swing from the central solenoid (Wb)
 
-  real(dp) :: vsohbn
+  real(dp) :: vs_cs_burn
   !! central solenoid flux swing for burn (Wb)
 
-  real(dp) :: vsohsu
+  real(dp) :: vs_cs_ramp
   !! central solenoid flux swing for startup (Wb)
 
-  real(dp) :: vssu
-  !! total flux swing for startup (`constraint eqn 51` to enforce vssu=vs_plasma_res_ramp+vs_plasma_ind_ramp) (Wb)
+  real(dp) :: vs_cs_pf_total_ramp
+  !! total flux swing for startup (`constraint eqn 51` to enforce vs_cs_pf_total_ramp=vs_plasma_res_ramp+vs_plasma_ind_ramp) (Wb)
 
-  real(dp) :: vstot
+  real(dp) :: vs_cs_pf_total_pulse
   !! total flux swing for pulse (Wb)
 
   real(dp), dimension(ngc2,6) :: waves
   !! used in current waveform of PF coils/central solenoid
 
-  real(dp) :: whtpf
+  real(dp) :: m_pf_coil_conductor_total
   !! total mass of the PF coil conductor (kg)
 
-  real(dp) :: whtpfs
+  real(dp) :: m_pf_coil_structure_total
   !! total mass of the PF coil structure (kg)
 
-  real(dp), dimension(ngc2) :: wtc
+  real(dp), dimension(ngc2) :: m_pf_coil_conductor
   !! conductor mass for PF coil i (kg)
 
-  real(dp), dimension(ngc2) :: wts
+  real(dp), dimension(ngc2) :: m_pf_coil_structure
   !! structure mass for PF coil i (kg)
 
-  real(dp), dimension(ngc2) :: zh
+  real(dp), dimension(ngc2) :: z_pf_coil_upper
   !! upper point of PF coil i (m)
 
-  real(dp), dimension(ngc2) :: zl
+  real(dp), dimension(ngc2) :: z_pf_coil_lower
   !! lower point of PF coil i (m)
 
-  real(dp), dimension(ngc2) :: zpf
+  real(dp), dimension(ngc2) :: z_pf_coil_middle
   !! z (height) location of PF coil i (m)
 
-  real(dp), dimension(ngrpmx) :: zref
+  real(dp), dimension(n_pf_groups_max) :: zref
   !! PF coil vertical positioning adjuster:
   !!
-  !! - for groups j with ipfloc(j) = 1; zref(j) is ignored
-  !! - for groups j with ipfloc(j) = 2 AND itart=1 (only);
+  !! - for groups j with i_pf_location(j) = 1; zref(j) is ignored
+  !! - for groups j with i_pf_location(j) = 2 AND itart=1 (only);
   !!   zref(j) is distance of centre of PF coil from inside
   !!   edge of TF coil (remember that PF coils for STs lie
   !!   within the TF coil)
-  !! - for groups j with ipfloc(j) = 3; zref(j) = ratio of
+  !! - for groups j with i_pf_location(j) = 3; zref(j) = ratio of
   !!   height of coil group j to plasma minor radius</UL>
-  !! - for groups j with ipfloc(j) = 4; zref(j) = ratio of
+  !! - for groups j with i_pf_location(j) = 4; zref(j) = ratio of
   !!   height of coil group j to plasma minor radius</UL>
 
-  real(dp) :: bmaxcs_lim
+  real(dp) :: b_cs_limit_max
   !! Central solenoid max field limit [T]
 
-  real(dp) :: fbmaxcs
+  real(dp) :: fb_cs_limit_max
   !! F-value for CS mmax field (`cons. 79`, `itvar 149`)
 
   real(dp) :: ld_ratio_cst
@@ -417,74 +417,74 @@ subroutine init_pfcoil_variables
     alfapf = 5.0D-10
     alstroh = 4.0D8
     i_cs_stress = 0
-    areaoh = 0.0D0
-    a_oh_turn = 0.0D0
+    a_cs_poloidal = 0.0D0
+    a_cs_turn = 0.0D0
     awpoh = 0.0D0
-    bmaxoh = 0.0D0
-    bmaxoh0 = 0.0D0
-    bpf = 0.0D0
+    b_cs_peak_flat_top_end = 0.0D0
+    b_cs_peak_pulse_start = 0.0D0
+    b_pf_coil_peak = 0.0D0
     ccl0_ma = (/0.0D0, 0.0D0, 0.0D0, &
       0.0D0, 0.0D0, 0.0D0, 0.0D0, 0.0D0, 0.0D0, 0.0D0/)
     ccls_ma = (/0.0D0, 0.0D0, 0.0D0, &
       0.0D0, 0.0D0, 0.0D0, 0.0D0, 0.0D0, 0.0D0, 0.0D0/)
-    cohbop = 0.0D0
-    coheof = 1.85D7
-    cpt = 0.0D0
-    cptdin = (/4.0D4, 4.0D4, 4.0D4, &
+    j_cs_pulse_start = 0.0D0
+    j_cs_flat_top_end = 1.85D7
+    c_pf_coil_turn = 0.0D0
+    c_pf_coil_turn_peak_input = (/4.0D4, 4.0D4, 4.0D4, &
     4.0D4, 4.0D4, 4.0D4, 4.0D4, 4.0D4, 4.0D4, 4.0D4, &
     4.0D4, 4.0D4, 4.0D4, 4.0D4, 4.0D4, 4.0D4, 4.0D4, &
     4.0D4, 4.0D4, 4.0D4, 4.0D4, 4.0D4/)
-    curpfb = 0.0D0
-    curpff = 0.0D0
-    curpfs = 0.0D0
+    c_pf_cs_coil_pulse_start_ma = 0.0D0
+    c_pf_cs_coil_flat_top_ma = 0.0D0
+    c_pf_cs_coil_pulse_end_ma = 0.0D0
     etapsu = 0.9D0
-    fcohbof = 0.0D0
-    fcohbop = 0.9D0
+    f_j_cs_start_end_flat_top = 0.0D0
+    f_j_cs_start_pulse_end_flat_top = 0.9D0
     fcuohsu = 0.7D0
     fcupfsu = 0.69D0
-    fvssu = 1.0
-    ipfloc = (/2,2,3,0,0,0,0,0,0,0/)
-    ipfres = 0
+    fvs_cs_pf_total_ramp = 1.0
+    i_pf_location = (/2,2,3,0,0,0,0,0,0,0/)
+    i_pf_conductor = 0
     itr_sum = 0.0D0
-    isumatoh = 1
-    isumatpf = 1
+    i_cs_superconductor = 1
+    i_pf_superconductor = 1
     j_crit_str_cs = 0.0D0
     j_crit_str_pf = 0.0D0
     i_pf_current = 1
     i_sup_pf_shape = 0
-    jscoh_bop = 0.0D0
-    jscoh_eof = 0.0D0
+    j_cs_conductor_critical_pulse_start = 0.0D0
+    j_cs_conductor_critical_flat_top_end = 0.0D0
     jcableoh_bop = 0.0D0
     jcableoh_eof = 0.0D0
-    ncirt = 0
-    ncls = (/1,1,2,0,0,0,0,0,0,0,0,0/)
+    n_pf_cs_plasma_circuits = 0
+    n_pf_coils_in_group = (/1,1,2,0,0,0,0,0,0,0,0,0/)
     nfxfh = 7
-    ngrp = 3
-    nohc = 0
-    ohhghf = 0.71D0
-    oh_steel_frac = 0.5D0
+    n_pf_coil_groups = 3
+    n_cs_pf_coils = 0
+    f_z_cs_tf_internal = 0.71D0
+    f_a_cs_steel = 0.5D0
     pf_current_safety_factor = 1.0D0
     pfcaseth = 0.0D0
-    pfclres = 2.5D-8
+    rho_pf_coil = 2.5D-8
     rhopfbus = 3.93D-8
-    pfmmax = 0.0D0
-    pfrmax = 0.0D0
+    m_pf_coil_max = 0.0D0
+    r_pf_coil_outer_max = 0.0D0
     pfwpmw = 0.0D0
-    powohres = 0.0D0
-    powpfres = 0.0D0
-    ra = 0.0D0
-    rb = 0.0D0
-    ric = 0.0D0
-    rjconpf = (/3.0D7, 3.0D7, 3.0D7, &
+    p_cs_resistive_flat_top = 0.0D0
+    p_pf_coil_resistive_total_flat_top = 0.0D0
+    r_pf_coil_inner = 0.0D0
+    r_pf_coil_outer = 0.0D0
+    c_pf_cs_coils_peak_ma = 0.0D0
+    j_pf_coil_wp_peak = (/3.0D7, 3.0D7, 3.0D7, &
       3.0D7, 3.0D7, 3.0D7, 3.0D7, 3.0D7, 3.0D7, 3.0D7, &
       3.0D7, 3.0D7, 3.0D7, 3.0D7, 3.0D7, 3.0D7, 3.0D7, &
       3.0D7, 3.0D7, 3.0D7, 3.0D7, 3.0D7/)
-    rjohc = 0.0D0
-    rjohc0 = 0.0D0
-    rjpfalw = 0.0D0
-    rohc = 0.0D0
+    j_cs_critical_flat_top_end = 0.0D0
+    j_cs_critical_pulse_start = 0.0D0
+    j_pf_wp_critical = 0.0D0
+    r_cs_middle = 0.0D0
     routr = 1.5D0
-    rpf = 0.0D0
+    r_pf_coil_middle = 0.0D0
     rpf1 = 0.0D0
     rpf2 = -1.63D0
     rref = (/7.0D0, 7.0D0, 7.0D0, &
@@ -492,32 +492,32 @@ subroutine init_pfcoil_variables
     s_tresca_oh = 0.0D0
     sigpfcalw = 500.0D0
     sigpfcf = 1.0D0
-    sxlg = 0.0D0
-    tmargoh = 0.0D0
-    turns = 0.0D0
-    vf = 0.3D0
-    vfohc = 0.3D0
-    vsbn = 0.0D0
-    vsefbn = 0.0D0
-    vsefsu = 0.0D0
-    vseft = 0.0D0
-    vsoh = 0.0D0
-    vsohbn = 0.0D0
-    vsohsu = 0.0D0
-    vssu = 0.0D0
-    vstot = 0.0D0
+    ind_pf_cs_plasma_mutual = 0.0D0
+    temp_cs_margin = 0.0D0
+    n_pf_coil_turns = 0.0D0
+    f_a_pf_coil_void = 0.3D0
+    f_a_cs_void = 0.3D0
+    vs_cs_pf_total_burn = 0.0D0
+    vs_pf_coils_total_burn = 0.0D0
+    vs_pf_coils_total_ramp = 0.0D0
+    vs_pf_coils_total_pulse = 0.0D0
+    vs_cs_total_pulse = 0.0D0
+    vs_cs_burn = 0.0D0
+    vs_cs_ramp = 0.0D0
+    vs_cs_pf_total_ramp = 0.0D0
+    vs_cs_pf_total_pulse = 0.0D0
     waves = 0.0D0
-    whtpf = 0.0D0
-    whtpfs = 0.0D0
-    wtc = 0.0D0
-    wts = 0.0D0
-    zh = 0.0D0
-    zl = 0.0D0
-    zpf = 0.0D0
+    m_pf_coil_conductor_total = 0.0D0
+    m_pf_coil_structure_total = 0.0D0
+    m_pf_coil_conductor = 0.0D0
+    m_pf_coil_structure = 0.0D0
+    z_pf_coil_upper = 0.0D0
+    z_pf_coil_lower = 0.0D0
+    z_pf_coil_middle = 0.0D0
     zref = (/3.6D0, 1.2D0, 2.5D0, &
       1.0D0, 1.0D0, 1.0D0, 1.0D0, 1.0D0, 1.0D0, 1.0D0/)
-    bmaxcs_lim = 13.0
-    fbmaxcs = 1.0
+    b_cs_limit_max = 13.0
+    fb_cs_limit_max = 1.0
     ld_ratio_cst = 70/22
     l_cond_cst = 0.0D0
     d_cond_cst = 0.0D0
diff --git a/source/fortran/scan.f90 b/source/fortran/scan.f90
index 957befaf45..c80fbf56ce 100644
--- a/source/fortran/scan.f90
+++ b/source/fortran/scan.f90
@@ -97,11 +97,11 @@ module scan_module
   !!         <LI> 59 `dr_fw_plasma_gap_outboard` : Outboard plasma-first wall gap
   !!         <LI> 60 sig_tf_wp_max: Allowable stress in TF Coil conduit (Tresca)
   !!         <LI> 61 copperaoh_m2_max : CS coil current / copper area
-  !!         <LI> 62 coheof : CS coil current density at EOF
+  !!         <LI> 62 j_cs_flat_top_end : CS coil current density at EOF
   !!         <LI> 63 dr_cs : CS thickness (m)
-  !!         <LI> 64 ohhghf : CS height (m)
+  !!         <LI> 64 f_z_cs_tf_internal : CS height (m)
   !!         <LI> 65 n_cycle_min : Minimum cycles for CS stress model constraint 90
-  !!         <LI> 66 oh_steel_frac: Steel fraction in CS coil
+  !!         <LI> 66 f_a_cs_steel: Steel fraction in CS coil
   !!         <LI> 67 t_crack_vertical: Initial crack vertical dimension (m) </UL>
   !!         <LI> 68 `inlet_temp_liq' : Inlet temperature of blanket liquid metal coolant/breeder (K)
   !!         <LI> 69 `outlet_temp_liq' : Outlet temperature of blanket liquid metal coolant/breeder (K)
diff --git a/source/fortran/stellarator.f90 b/source/fortran/stellarator.f90
index 73b493717b..0cea8f82dc 100644
--- a/source/fortran/stellarator.f90
+++ b/source/fortran/stellarator.f90
@@ -53,7 +53,7 @@ subroutine stinit
 
     use build_variables, only: dr_cs_tf_gap, iohcl, dr_cs, tfootfi
     use current_drive_variables, only: irfcd
-    use pfcoil_variables, only: ohhghf
+    use pfcoil_variables, only: f_z_cs_tf_internal
     use physics_variables, only: aspect, beta_norm_max, kappa, kappa95, q95, rmajor, &
       triang, hfac, labels_confinement_scalings
     use numerics, only: boundl, boundu
@@ -92,7 +92,7 @@ subroutine stinit
 
     dr_cs = 0.0D0
     iohcl = 0
-    ohhghf = 0.0D0
+    f_z_cs_tf_internal = 0.0D0
     dr_cs_tf_gap = 0.0D0
     tfootfi = 1.0D0
 
diff --git a/source/fortran/tfcoil_variables.f90 b/source/fortran/tfcoil_variables.f90
index 7a081cb487..bd967508ab 100644
--- a/source/fortran/tfcoil_variables.f90
+++ b/source/fortran/tfcoil_variables.f90
@@ -151,7 +151,7 @@ module tfcoil_variables
   !! density of coil case (kg/m3)
 
   real(dp), dimension(9) :: dcond
-  !! density of superconductor type given by i_tf_sc_mat/isumatoh/isumatpf (kg/m3)
+  !! density of superconductor type given by i_tf_sc_mat/i_cs_superconductor/i_pf_superconductor (kg/m3)
 
   real(dp) :: dcondins
   !! density of conduit + ground-wall insulation (kg/m3)
@@ -430,8 +430,8 @@ module tfcoil_variables
   ! real(dp) :: strtf0
   !! Maximum shear stress (Tresca criterion) in CS structures at CS flux swing [Pa]:
   !!
-  !!  - If superconducting CS (ipfres = 0): turn steel conduits stress
-  !!  - If resistive       CS (ipfres = 1): copper conductor stress
+  !!  - If superconducting CS (i_pf_conductor = 0): turn steel conduits stress
+  !!  - If resistive       CS (i_pf_conductor = 1): copper conductor stress
   !!
   !! Quantity only computed for bucked and wedged design (`i_tf_bucking >= 2`)
   !! Def : CS Flux swing, instant when the current changes sign in CS (null current)
diff --git a/tests/integration/data/large_tokamak_1_MFILE.DAT b/tests/integration/data/large_tokamak_1_MFILE.DAT
index 747eaeeb15..69aa4555d7 100644
--- a/tests/integration/data/large_tokamak_1_MFILE.DAT
+++ b/tests/integration/data/large_tokamak_1_MFILE.DAT
@@ -61,9 +61,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.4190E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      9.0316E-01    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.4144E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.4380E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0487E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.4374E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.4380E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0487E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.4374E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.1737E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      1.1036E+00    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      7.1709E-01    
@@ -550,7 +550,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.6029E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      5.7728E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      5.7728E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8601E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.7014E+02    
  # Times #
@@ -601,7 +601,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -767,26 +767,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.9795E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.1737E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.4050E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.4918E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.4050E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.4918E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0475E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.5294E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.9126E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.3920E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.6097E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.5294E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.9126E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.3920E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.6097E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0829E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.6485E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.0264E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.6485E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.0264E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      1.9854E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.7587E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      9.1407E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      9.1407E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.3996E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.0797E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3199E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.7411E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      5.1868E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.0797E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3199E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.7411E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      5.1868E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.7569E+08 OP 
@@ -795,15 +795,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.6256E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5052E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5052E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.9739E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.9739E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.6953E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.4740E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.5651E-02    
@@ -811,68 +811,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      5.3514E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      1.3378E+02 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.3603E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.3603E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.2727E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.2727E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.4541E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.4541E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.7816E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.2280E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0594E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.2280E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0594E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.3651E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.3651E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.1248E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.1248E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.0499E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      6.6990E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6731E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      6.6990E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6731E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1332E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1332E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9262E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9262E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.7049E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6389E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6731E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6389E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6731E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1332E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1332E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9262E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9262E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.7049E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6389E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5209E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6389E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5209E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.0773E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.0773E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.3049E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.3049E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.2194E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5737E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5209E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5737E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5209E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.0773E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.0773E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.3049E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.3049E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.2194E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5737E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.2734E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5737E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.2734E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.7587E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6308E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8523E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.4050E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6308E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8523E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.4050E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      3.5207E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -5.8000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -5.8000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.4380E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -1.4083E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.4380E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -1.4083E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.3971E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.7816E+07    
@@ -1290,20 +1290,20 @@ bmxlim = 14.0
 * Central solenoid EOF current density upper limit *
 *--------------------------------------------------*
 icc = 26
-ixc = 37 * coheof [A/m2]
+ixc = 37 * j_cs_flat_top_end [A/m2]
 ixc = 38 * fjohc
 boundu(38) = 1.0
-coheof = 1.5E7
+j_cs_flat_top_end = 1.5E7
 fjohc = 0.6
 
 * Central solenoid BOP current density upper limit *
 *--------------------------------------------------*
 icc = 27
 ixc = 39 * fjohc0
-ixc = 41 * fcohbop
+ixc = 41 * f_j_cs_start_pulse_end_flat_top
 boundu(39) = 1.0
 fjohc0 = 0.6
-fcohbop = 0.9
+f_j_cs_start_pulse_end_flat_top = 0.9
 
 * I_op/I_Crit TF coil limit *
 *---------------------------*
@@ -1458,9 +1458,9 @@ cpttf = 65000.0
 ixc = 109
 boundu(109) = 0.1
 
-* CS steel fraction, oh_steel_frac
+* CS steel fraction, f_a_cs_steel
 ixc = 122
-oh_steel_frac = 0.8
+f_a_cs_steel = 0.8
 
 * core impurity fraction, Xenon
 ixc = 135
@@ -1727,27 +1727,27 @@ iavail = 0
 ************
 
 * Peak current per turn input for PF coil i [A]
-cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
+c_pf_coil_turn_peak_input = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
 
 * Switch for locating scheme of pf coil group i
-ipfloc = 2,2,3,3
+i_pf_location = 2,2,3,3
 
 * Switch for superconductor material in pf coils
-isumatpf = 3
+i_pf_superconductor = 3
 
 * Number of pf coils in group j
-ncls = 1,1,2,2
+n_pf_coils_in_group = 1,1,2,2
 
 * Number of groups of PF coils
-ngrp = 4
+n_pf_coil_groups = 4
 
 * Central solenoid height / TF coil internal height
-ohhghf = 0.9
+f_z_cs_tf_internal = 0.9
 
 * Average winding pack current density of PF coil i [A/m2]
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
 
-* Offset of radial position of ipfloc=2 pf coils [m]
+* Offset of radial position of i_pf_location=2 pf coils [m]
 rpf2 = -1.825 
 
 zref(1) = 3.6
@@ -1763,7 +1763,7 @@ zref(8) = 1.0
 fcuohsu = 0.70
 
 * ITER Nb3Sn parameterisation
-isumatoh = 1
+i_cs_superconductor = 1
 
 * TF Coil *
 ***********
diff --git a/tests/integration/data/large_tokamak_2_MFILE.DAT b/tests/integration/data/large_tokamak_2_MFILE.DAT
index ac23368142..c5d9624dc5 100644
--- a/tests/integration/data/large_tokamak_2_MFILE.DAT
+++ b/tests/integration/data/large_tokamak_2_MFILE.DAT
@@ -62,9 +62,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.4190E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      9.0316E-01    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.4144E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.4380E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0487E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.4374E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.4380E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0487E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.4374E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.1737E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      1.1036E+00    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      7.1709E-01    
@@ -551,7 +551,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.6029E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      5.7728E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      5.7728E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8601E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.7014E+02    
  # Times #
@@ -602,7 +602,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -768,26 +768,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.9795E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.1737E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.4050E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.4918E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.4050E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.4918E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0475E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.5294E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.9126E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.3920E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.6097E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.5294E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.9126E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.3920E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.6097E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0829E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.6485E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.0264E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.6485E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.0264E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      1.9854E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.7587E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      9.1407E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      9.1407E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.3996E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.0797E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3199E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.7411E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      5.1868E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.0797E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3199E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.7411E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      5.1868E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.7569E+08 OP 
@@ -796,15 +796,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.6256E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5052E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5052E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.9739E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.9739E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.6953E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.4740E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.5651E-02    
@@ -812,68 +812,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      5.3514E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      1.3378E+02 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.3603E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.3603E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.2727E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.2727E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.4541E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.4541E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.7816E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.2280E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0594E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.2280E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0594E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.3651E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.3651E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.1248E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.1248E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.0499E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      6.6990E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6731E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      6.6990E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6731E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1332E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1332E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9262E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9262E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.7049E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6389E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6731E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6389E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6731E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1332E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1332E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9262E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9262E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.7049E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6389E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5209E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6389E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5209E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.0773E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.0773E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.3049E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.3049E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.2194E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5737E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5209E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5737E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5209E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.0773E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.0773E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.3049E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.3049E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.2194E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5737E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.2734E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5737E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.2734E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.7587E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6308E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8523E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.4050E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6308E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8523E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.4050E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      3.5207E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -5.8000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -5.8000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.4380E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -1.4083E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.4380E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -1.4083E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.3971E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.7816E+07    
@@ -1291,20 +1291,20 @@ bmxlim = 14.0
 * Central solenoid EOF current density upper limit *
 *--------------------------------------------------*
 icc = 26
-ixc = 37 * coheof [A/m2]
+ixc = 37 * j_cs_flat_top_end [A/m2]
 ixc = 38 * fjohc
 boundu(38) = 1.0
-coheof = 1.5E7
+j_cs_flat_top_end = 1.5E7
 fjohc = 0.6
 
 * Central solenoid BOP current density upper limit *
 *--------------------------------------------------*
 icc = 27
 ixc = 39 * fjohc0
-ixc = 41 * fcohbop
+ixc = 41 * f_j_cs_start_pulse_end_flat_top
 boundu(39) = 1.0
 fjohc0 = 0.6
-fcohbop = 0.9
+f_j_cs_start_pulse_end_flat_top = 0.9
 
 * I_op/I_Crit TF coil limit *
 *---------------------------*
@@ -1459,9 +1459,9 @@ cpttf = 65000.0
 ixc = 109
 boundu(109) = 0.1
 
-* CS steel fraction, oh_steel_frac
+* CS steel fraction, f_a_cs_steel
 ixc = 122
-oh_steel_frac = 0.8
+f_a_cs_steel = 0.8
 
 * core impurity fraction, Xenon
 ixc = 135
@@ -1728,27 +1728,27 @@ iavail = 0
 ************
 
 * Peak current per turn input for PF coil i [A]
-cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
+c_pf_coil_turn_peak_input = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
 
 * Switch for locating scheme of pf coil group i
-ipfloc = 2,2,3,3
+i_pf_location = 2,2,3,3
 
 * Switch for superconductor material in pf coils
-isumatpf = 3
+i_pf_superconductor = 3
 
 * Number of pf coils in group j
-ncls = 1,1,2,2
+n_pf_coils_in_group = 1,1,2,2
 
 * Number of groups of PF coils
-ngrp = 4
+n_pf_coil_groups = 4
 
 * Central solenoid height / TF coil internal height
-ohhghf = 0.9
+f_z_cs_tf_internal = 0.9
 
 * Average winding pack current density of PF coil i [A/m2]
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
 
-* Offset of radial position of ipfloc=2 pf coils [m]
+* Offset of radial position of i_pf_location=2 pf coils [m]
 rpf2 = -1.825 
 
 zref(1) = 3.6
@@ -1764,7 +1764,7 @@ zref(8) = 1.0
 fcuohsu = 0.70
 
 * ITER Nb3Sn parameterisation
-isumatoh = 1
+i_cs_superconductor = 1
 
 * TF Coil *
 ***********
diff --git a/tests/integration/data/large_tokamak_3_MFILE.DAT b/tests/integration/data/large_tokamak_3_MFILE.DAT
index 2c12638313..ab5512a4e0 100644
--- a/tests/integration/data/large_tokamak_3_MFILE.DAT
+++ b/tests/integration/data/large_tokamak_3_MFILE.DAT
@@ -62,9 +62,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.4190E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      9.0316E-01    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.4144E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.4380E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0487E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.4374E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.4380E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0487E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.4374E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.1737E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      1.1036E+00    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      6.1709E-01    
@@ -551,7 +551,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.6029E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      5.7728E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      5.7728E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8601E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.7014E+02    
  # Times #
@@ -602,7 +602,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -768,26 +768,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.9795E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.1737E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.4050E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.4918E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.4050E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.4918E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0475E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.5294E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.9126E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.3920E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.6097E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.5294E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.9126E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.3920E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.6097E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0829E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.6485E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.0264E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.6485E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.0264E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      1.9854E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.7587E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      9.1407E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      9.1407E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.3996E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.0797E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3199E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.7411E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      5.1868E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.0797E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3199E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.7411E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      5.1868E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.7569E+08 OP 
@@ -796,15 +796,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.6256E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5052E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5052E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.9739E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.9739E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.6953E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.4740E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.5651E-02    
@@ -812,68 +812,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      5.3514E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      1.3378E+02 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.3603E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.3603E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.2727E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.2727E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.4541E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.4541E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.7816E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.2280E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0594E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.2280E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0594E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.3651E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.3651E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.1248E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.1248E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.0499E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      6.6990E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6731E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      6.6990E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6731E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1332E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1332E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9262E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9262E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.7049E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6389E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6731E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6389E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6731E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1332E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1332E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9262E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9262E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.7049E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6389E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5209E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6389E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5209E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.0773E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.0773E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.3049E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.3049E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.2194E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5737E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5209E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5737E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5209E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.0773E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.0773E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.3049E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.3049E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.2194E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5737E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.2734E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5737E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.2734E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.7587E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6308E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8523E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.4050E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6308E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8523E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.4050E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      3.5207E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -5.8000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -5.8000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.4380E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -1.4083E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.4380E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -1.4083E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.3971E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.7816E+07    
@@ -1291,20 +1291,20 @@ bmxlim = 14.0
 * Central solenoid EOF current density upper limit *
 *--------------------------------------------------*
 icc = 26
-ixc = 37 * coheof [A/m2]
+ixc = 37 * j_cs_flat_top_end [A/m2]
 ixc = 38 * fjohc
 boundu(38) = 1.0
-coheof = 1.5E7
+j_cs_flat_top_end = 1.5E7
 fjohc = 0.6
 
 * Central solenoid BOP current density upper limit *
 *--------------------------------------------------*
 icc = 27
 ixc = 39 * fjohc0
-ixc = 41 * fcohbop
+ixc = 41 * f_j_cs_start_pulse_end_flat_top
 boundu(39) = 1.0
 fjohc0 = 0.6
-fcohbop = 0.9
+f_j_cs_start_pulse_end_flat_top = 0.9
 
 * I_op/I_Crit TF coil limit *
 *---------------------------*
@@ -1459,9 +1459,9 @@ cpttf = 65000.0
 ixc = 109
 boundu(109) = 0.1
 
-* CS steel fraction, oh_steel_frac
+* CS steel fraction, f_a_cs_steel
 ixc = 122
-oh_steel_frac = 0.8
+f_a_cs_steel = 0.8
 
 * core impurity fraction, Xenon
 ixc = 135
@@ -1728,27 +1728,27 @@ iavail = 0
 ************
 
 * Peak current per turn input for PF coil i [A]
-cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
+c_pf_coil_turn_peak_input = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
 
 * Switch for locating scheme of pf coil group i
-ipfloc = 2,2,3,3
+i_pf_location = 2,2,3,3
 
 * Switch for superconductor material in pf coils
-isumatpf = 3
+i_pf_superconductor = 3
 
 * Number of pf coils in group j
-ncls = 1,1,2,2
+n_pf_coils_in_group = 1,1,2,2
 
 * Number of groups of PF coils
-ngrp = 4
+n_pf_coil_groups = 4
 
 * Central solenoid height / TF coil internal height
-ohhghf = 0.9
+f_z_cs_tf_internal = 0.9
 
 * Average winding pack current density of PF coil i [A/m2]
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
 
-* Offset of radial position of ipfloc=2 pf coils [m]
+* Offset of radial position of i_pf_location=2 pf coils [m]
 rpf2 = -1.825 
 
 zref(1) = 3.6
@@ -1764,7 +1764,7 @@ zref(8) = 1.0
 fcuohsu = 0.70
 
 * ITER Nb3Sn parameterisation
-isumatoh = 1
+i_cs_superconductor = 1
 
 * TF Coil *
 ***********
diff --git a/tests/integration/data/large_tokamak_4_MFILE.DAT b/tests/integration/data/large_tokamak_4_MFILE.DAT
index 76d46c3c62..ee13b45f9d 100644
--- a/tests/integration/data/large_tokamak_4_MFILE.DAT
+++ b/tests/integration/data/large_tokamak_4_MFILE.DAT
@@ -62,9 +62,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.4190E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      9.0316E-01    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.4144E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.4380E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0487E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.8374E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.4380E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0487E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.8374E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.1737E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      1.1036E+00    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      7.1709E-01    
@@ -551,7 +551,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.6029E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      5.7728E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      5.7728E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8601E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.7014E+02    
  # Times #
@@ -602,7 +602,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -768,26 +768,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.9795E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.1737E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.4050E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.4918E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.4050E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.4918E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0475E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.5294E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.9126E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.3920E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.6097E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.5294E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.9126E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.3920E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.6097E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0829E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.6485E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.0264E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.6485E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.0264E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      1.9854E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.7587E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      9.1407E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      9.1407E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.3996E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.0797E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3199E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.7411E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      5.1868E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.0797E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3199E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.7411E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      5.1868E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.7569E+08 OP 
@@ -796,15 +796,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.6256E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5052E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5052E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.9739E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.9739E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.6953E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.4740E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.5651E-02    
@@ -812,68 +812,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      5.3514E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      1.3378E+02 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.3603E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.3603E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.2727E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.2727E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.4541E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.4541E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.7816E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.2280E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0594E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.2280E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0594E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.3651E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.3651E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.1248E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.1248E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.0499E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      6.6990E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6731E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      6.6990E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6731E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1332E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1332E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9262E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9262E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.7049E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6389E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6731E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6389E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6731E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1332E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1332E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9262E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9262E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.7049E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6389E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5209E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6389E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5209E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.0773E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.0773E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.3049E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.3049E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.2194E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5737E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5209E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5737E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5209E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.0773E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.0773E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.3049E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.3049E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.2194E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5737E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.2734E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5737E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.2734E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.7587E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6308E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8523E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.4050E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6308E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8523E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.4050E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      3.5207E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -5.8000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -5.8000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.4380E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -1.4083E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.4380E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -1.4083E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.3971E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.7816E+07    
@@ -1291,20 +1291,20 @@ bmxlim = 14.0
 * Central solenoid EOF current density upper limit *
 *--------------------------------------------------*
 icc = 26
-ixc = 37 * coheof [A/m2]
+ixc = 37 * j_cs_flat_top_end [A/m2]
 ixc = 38 * fjohc
 boundu(38) = 1.0
-coheof = 1.5E7
+j_cs_flat_top_end = 1.5E7
 fjohc = 0.6
 
 * Central solenoid BOP current density upper limit *
 *--------------------------------------------------*
 icc = 27
 ixc = 39 * fjohc0
-ixc = 41 * fcohbop
+ixc = 41 * f_j_cs_start_pulse_end_flat_top
 boundu(39) = 1.0
 fjohc0 = 0.6
-fcohbop = 0.9
+f_j_cs_start_pulse_end_flat_top = 0.9
 
 * I_op/I_Crit TF coil limit *
 *---------------------------*
@@ -1459,9 +1459,9 @@ cpttf = 65000.0
 ixc = 109
 boundu(109) = 0.1
 
-* CS steel fraction, oh_steel_frac
+* CS steel fraction, f_a_cs_steel
 ixc = 122
-oh_steel_frac = 0.8
+f_a_cs_steel = 0.8
 
 * core impurity fraction, Xenon
 ixc = 135
@@ -1728,27 +1728,27 @@ iavail = 0
 ************
 
 * Peak current per turn input for PF coil i [A]
-cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
+c_pf_coil_turn_peak_input = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
 
 * Switch for locating scheme of pf coil group i
-ipfloc = 2,2,3,3
+i_pf_location = 2,2,3,3
 
 * Switch for superconductor material in pf coils
-isumatpf = 3
+i_pf_superconductor = 3
 
 * Number of pf coils in group j
-ncls = 1,1,2,2
+n_pf_coils_in_group = 1,1,2,2
 
 * Number of groups of PF coils
-ngrp = 4
+n_pf_coil_groups = 4
 
 * Central solenoid height / TF coil internal height
-ohhghf = 0.9
+f_z_cs_tf_internal = 0.9
 
 * Average winding pack current density of PF coil i [A/m2]
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
 
-* Offset of radial position of ipfloc=2 pf coils [m]
+* Offset of radial position of i_pf_location=2 pf coils [m]
 rpf2 = -1.825 
 
 zref(1) = 3.6
@@ -1764,7 +1764,7 @@ zref(8) = 1.0
 fcuohsu = 0.70
 
 * ITER Nb3Sn parameterisation
-isumatoh = 1
+i_cs_superconductor = 1
 
 * TF Coil *
 ***********
diff --git a/tests/integration/data/large_tokamak_IN.DAT b/tests/integration/data/large_tokamak_IN.DAT
index 4a080f53c0..be8c6b964f 100644
--- a/tests/integration/data/large_tokamak_IN.DAT
+++ b/tests/integration/data/large_tokamak_IN.DAT
@@ -103,20 +103,20 @@ bmxlim = 14.0
 * Central solenoid EOF current density upper limit *
 *--------------------------------------------------*
 icc = 26
-ixc = 37 * coheof [A/m2]
+ixc = 37 * j_cs_flat_top_end [A/m2]
 ixc = 38 * fjohc
 boundu(38) = 1.0
-coheof = 1.5E7
+j_cs_flat_top_end = 1.5E7
 fjohc = 0.6
 
 * Central solenoid BOP current density upper limit *
 *--------------------------------------------------*
 icc = 27
 ixc = 39 * fjohc0
-ixc = 41 * fcohbop
+ixc = 41 * f_j_cs_start_pulse_end_flat_top
 boundu(39) = 1.0
 fjohc0 = 0.6
-fcohbop = 0.9
+f_j_cs_start_pulse_end_flat_top = 0.9
 
 * I_op/I_Crit TF coil limit *
 *---------------------------*
@@ -269,9 +269,9 @@ cpttf = 65000.0
 ixc = 109
 boundu(109) = 0.1
 
-* CS steel fraction, oh_steel_frac
+* CS steel fraction, f_a_cs_steel
 ixc = 122
-oh_steel_frac = 0.8
+f_a_cs_steel = 0.8
 
 * core impurity fraction, Xenon
 ixc = 135
@@ -538,27 +538,27 @@ iavail = 0
 ************
 
 * Peak current per turn input for PF coil i [A]
-cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
+c_pf_coil_turn_peak_input = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
 
 * Switch for locating scheme of pf coil group i
-ipfloc = 2,2,3,3
+i_pf_location = 2,2,3,3
 
 * Switch for superconductor material in pf coils
-isumatpf = 3
+i_pf_superconductor = 3
 
 * Number of pf coils in group j
-ncls = 1,1,2,2
+n_pf_coils_in_group = 1,1,2,2
 
 * Number of groups of PF coils
-ngrp = 4
+n_pf_coil_groups = 4
 
 * Central solenoid height / TF coil internal height
-ohhghf = 0.9
+f_z_cs_tf_internal = 0.9
 
 * Average winding pack current density of PF coil i [A/m2]
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
 
-* Offset of radial position of ipfloc=2 pf coils [m]
+* Offset of radial position of i_pf_location=2 pf coils [m]
 rpf2 = -1.825 
 
 zref(1) = 3.6
@@ -574,7 +574,7 @@ zref(8) = 1.0
 fcuohsu = 0.70
 
 * ITER Nb3Sn parameterisation
-isumatoh = 1
+i_cs_superconductor = 1
 
 * TF Coil *
 ***********
diff --git a/tests/integration/data/large_tokamak_MFILE.DAT b/tests/integration/data/large_tokamak_MFILE.DAT
index 7b1ee38b4a..d8c0c6aef6 100644
--- a/tests/integration/data/large_tokamak_MFILE.DAT
+++ b/tests/integration/data/large_tokamak_MFILE.DAT
@@ -61,9 +61,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.4340E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      9.0567E-01    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.4294E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.4577E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0509E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.4572E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.4577E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0509E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.4572E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.1458E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0993E+00    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      7.1429E-01    
@@ -548,7 +548,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.5942E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      5.7129E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      5.7129E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8516E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.6494E+02    
  # Times #
@@ -600,7 +600,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(excludes_structure)_(m)____________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_Solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_Solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -771,26 +771,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.7930E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.1458E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.4055E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.4872E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.4055E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.4872E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0462E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.5137E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.9094E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.3907E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.6220E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.5137E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.9094E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.3907E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.6220E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0866E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.6495E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.0188E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.6495E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.0188E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      1.9704E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.7696E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      9.1580E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      9.1580E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.3942E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.0759E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3182E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.7639E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      5.2019E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.0759E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3182E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.7639E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      5.2019E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.6933E+08 OP 
@@ -799,15 +799,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.6032E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5029E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5029E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.9813E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.9813E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.7097E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.4684E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.5699E-02    
@@ -815,68 +815,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      5.3812E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      1.3795E+02 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      1.0000E+00    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.3738E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.3738E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.2662E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.2662E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.4091E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.4091E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.7637E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.1628E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0608E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.1628E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0608E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.3575E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.3575E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.0673E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.0673E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.0269E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      6.6276E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6738E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      6.6276E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6738E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1326E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1326E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9242E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9242E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.6968E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6370E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6738E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6370E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6738E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1326E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1326E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9242E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9242E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.6968E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6370E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5216E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6370E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5216E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.0591E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.0591E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.2990E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.2990E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.1960E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5683E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5216E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5683E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5216E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.0591E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.0591E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.2990E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.2990E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.1960E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5683E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.2588E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5683E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.2588E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.7696E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6221E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8489E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.4055E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6221E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8489E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.4055E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      3.4358E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -5.7000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -5.7000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.4577E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -1.3540E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.4577E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -1.3540E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.3862E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.7637E+07    
@@ -1294,20 +1294,20 @@ bmxlim = 14.0
 * Central solenoid EOF current density upper limit *
 *--------------------------------------------------*
 icc = 26
-ixc = 37 * coheof [A/m2]
+ixc = 37 * j_cs_flat_top_end [A/m2]
 ixc = 38 * fjohc
 boundu(38) = 1.0
-coheof = 1.5E7
+j_cs_flat_top_end = 1.5E7
 fjohc = 0.6
 
 * Central solenoid BOP current density upper limit *
 *--------------------------------------------------*
 icc = 27
 ixc = 39 * fjohc0
-ixc = 41 * fcohbop
+ixc = 41 * f_j_cs_start_pulse_end_flat_top
 boundu(39) = 1.0
 fjohc0 = 0.6
-fcohbop = 0.9
+f_j_cs_start_pulse_end_flat_top = 0.9
 
 * I_op/I_Crit TF coil limit *
 *---------------------------*
@@ -1460,9 +1460,9 @@ cpttf = 65000.0
 ixc = 109
 boundu(109) = 0.1
 
-* CS steel fraction, oh_steel_frac
+* CS steel fraction, f_a_cs_steel
 ixc = 122
-oh_steel_frac = 0.8
+f_a_cs_steel = 0.8
 
 * core impurity fraction, Xenon
 ixc = 135
@@ -1729,27 +1729,27 @@ iavail = 0
 ************
 
 * Peak current per turn input for PF coil i [A]
-cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
+c_pf_coil_turn_peak_input = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
 
 * Switch for locating scheme of pf coil group i
-ipfloc = 2,2,3,3
+i_pf_location = 2,2,3,3
 
 * Switch for superconductor material in pf coils
-isumatpf = 3
+i_pf_superconductor = 3
 
 * Number of pf coils in group j
-ncls = 1,1,2,2
+n_pf_coils_in_group = 1,1,2,2
 
 * Number of groups of PF coils
-ngrp = 4
+n_pf_coil_groups = 4
 
 * Central solenoid height / TF coil internal height
-ohhghf = 0.9
+f_z_cs_tf_internal = 0.9
 
 * Average winding pack current density of PF coil i [A/m2]
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
 
-* Offset of radial position of ipfloc=2 pf coils [m]
+* Offset of radial position of i_pf_location=2 pf coils [m]
 rpf2 = -1.825 
 
 zref(1) = 3.6
@@ -1765,7 +1765,7 @@ zref(8) = 1.0
 fcuohsu = 0.70
 
 * ITER Nb3Sn parameterisation
-isumatoh = 1
+i_cs_superconductor = 1
 
 * TF Coil *
 ***********
diff --git a/tests/integration/data/large_tokamak_once_through.IN.DAT b/tests/integration/data/large_tokamak_once_through.IN.DAT
index 87297a64d4..540d2aa62a 100644
--- a/tests/integration/data/large_tokamak_once_through.IN.DAT
+++ b/tests/integration/data/large_tokamak_once_through.IN.DAT
@@ -56,8 +56,8 @@ ixc = 18 * q
 boundl(18) = 3.0
 ixc = 29 * dr_bore
 boundl(29) = 0.1
-ixc = 37 * coheof
-ixc = 41 * fcohbop
+ixc = 37 * j_cs_flat_top_end
+ixc = 41 * f_j_cs_start_pulse_end_flat_top
 ixc = 44 * fvsbrnni
 ixc = 56 * tdmptf
 ixc = 57 * thkcas
@@ -71,7 +71,7 @@ boundl(60) = 65000.0
 boundu(60) = 90000.0
 ixc = 109 * f_nd_alpha_electron
 boundu(109) = 0.1
-ixc = 122 * oh_steel_frac
+ixc = 122 * f_a_cs_steel
 ixc = 135 * fimp(13)
 ixc = 140 * dr_tf_wp
 boundl(140) = 0.4
@@ -279,19 +279,19 @@ epsvmc   = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON
 *-----------------Pfcoil Variables-----------------*
 
 alstroh  = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa)
-coheof   = 21443595.371072624 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`)
-cptdin   = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A)
-fcohbop  = 0.93491189654662 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top
+j_cs_flat_top_end   = 21443595.371072624 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`)
+c_pf_coil_turn_peak_input   = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A)
+f_j_cs_start_pulse_end_flat_top  = 0.93491189654662 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top
 fcuohsu  = 0.70 * copper fraction of strand in central solenoid
-ipfloc   = 2,2,3,3 * Switch for location of PF coil group i;
-isumatoh = 1 * switch for superconductor material in central solenoid;
-isumatpf = 3 * switch for superconductor material in PF coils;
-ncls     = 1,1,2,2 * number of PF coils in group j
-ngrp     = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group
-ohhghf   = 0.9 * Central solenoid height / TF coil internal height
-oh_steel_frac = 0.4856940627014451 * central solenoid steel fraction (`iteration variable 122`)
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak
-rpf2     = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at
+i_pf_location   = 2,2,3,3 * Switch for location of PF coil group i;
+i_cs_superconductor = 1 * switch for superconductor material in central solenoid;
+i_pf_superconductor = 3 * switch for superconductor material in PF coils;
+n_pf_coils_in_group     = 1,1,2,2 * number of PF coils in group j
+n_pf_coil_groups     = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group
+f_z_cs_tf_internal   = 0.9 * Central solenoid height / TF coil internal height
+f_a_cs_steel = 0.4856940627014451 * central solenoid steel fraction (`iteration variable 122`)
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak
+rpf2     = -1.825 * offset (m) of radial position of `i_pf_location=2` PF coils from being at
 sigpfcf  = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`)
 zref(1) = 3.6
 zref(2) = 1.2
diff --git a/tests/integration/data/ref_IN.DAT b/tests/integration/data/ref_IN.DAT
index 82429c74bd..a89c66b28f 100644
--- a/tests/integration/data/ref_IN.DAT
+++ b/tests/integration/data/ref_IN.DAT
@@ -47,12 +47,12 @@ boundl(18) = 3.5
 ixc = 29 * dr_bore
 boundl(29) = 0.1
 ixc = 36 * fbeta_max
-ixc = 37 * coheof
+ixc = 37 * j_cs_flat_top_end
 ixc = 38 * fjohc
 boundu(38) = 1.0
 ixc = 39 * fjohc0
 boundu(39) = 1.0
-ixc = 41 * fcohbop
+ixc = 41 * f_j_cs_start_pulse_end_flat_top
 ixc = 42 * dr_cs_tf_gap
 boundl(42) = 0.05
 boundu(42) = 0.1
@@ -87,7 +87,7 @@ boundl(59) = 0.50
 boundu(59) = 0.94
 ixc = 54 * ftmargtf
 ixc = 106 * ftmargoh
-ixc = 122 * oh_steel_frac
+ixc = 122 * f_a_cs_steel
 ixc = 123 * foh_stress
 ixc = 109 * f_nd_alpha_electron
 ixc = 110 * falpha_energy_confinement
@@ -223,16 +223,16 @@ epsvmc   = 1.0e-8 * Error tolerance for vmcon
 
 *-----------------Pfcoil Variables-----------------*
 
-coheof   = 13540000.0 * Central solenoid overall current density at end of flat-top (a/m2)
-cptdin   = 4.22d4, 4.22d4, 4.22d4, 4.22d4, 4.3d4, 4.3d4,  4.3d4, 4.3d4, * Peak current per turn input for pf coil i (a)
-fcohbop  = 0.9362 * Ratio of central solenoid overall current density at
-ipfloc   = 2,2,3,3 * Switch for locating scheme of pf coil group i;
-isumatpf = 3 * Switch for superconductor material in pf coils;
-ncls     = 1,1,2,2, * Number of pf coils in group j
-ngrp     = 4 * Number of groups of pf coils;
-ohhghf   = 0.9 * Central solenoid height / tf coil internal height
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6, * Average winding pack current density of pf coil i (a/m2)
-rpf2     = -1.825 * Offset (m) of radial position of ipfloc=2 pf coils
+j_cs_flat_top_end   = 13540000.0 * Central solenoid overall current density at end of flat-top (a/m2)
+c_pf_coil_turn_peak_input   = 4.22d4, 4.22d4, 4.22d4, 4.22d4, 4.3d4, 4.3d4,  4.3d4, 4.3d4, * Peak current per turn input for pf coil i (a)
+f_j_cs_start_pulse_end_flat_top  = 0.9362 * Ratio of central solenoid overall current density at
+i_pf_location   = 2,2,3,3 * Switch for locating scheme of pf coil group i;
+i_pf_superconductor = 3 * Switch for superconductor material in pf coils;
+n_pf_coils_in_group     = 1,1,2,2, * Number of pf coils in group j
+n_pf_coil_groups     = 4 * Number of groups of pf coils;
+f_z_cs_tf_internal   = 0.9 * Central solenoid height / tf coil internal height
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6, * Average winding pack current density of pf coil i (a/m2)
+rpf2     = -1.825 * Offset (m) of radial position of i_pf_location=2 pf coils
 
 zref(1) = 3.6
 zref(2) = 1.2
@@ -245,8 +245,8 @@ zref(8) = 1.0
 
 alstroh = 6.6D8 * allowable hoop stress in Central Solenoid structural material (Pa)
 fcuohsu = 0.70 * copper fraction of strand in central solenoid cable
-isumatoh = 5 * WST Nb3Sn parameterisation
-oh_steel_frac = 0.8
+i_cs_superconductor = 5 * WST Nb3Sn parameterisation
+f_a_cs_steel = 0.8
 
 *----------------Physics Variables-----------------*
 
@@ -346,10 +346,10 @@ t_burn    = 1.0d4 * Burn time (s) (calculated if i_pulsed_plant=1)
                      q95              =  3.5000E+00
                      dr_bore           =  2.3322E+00
                      fbeta_max       =  4.8251E-01
-                     coheof         =  2.0726E+07
+                     j_cs_flat_top_end         =  2.0726E+07
                      fjohc          =  5.7941E-01
                      fjohc0         =  5.3923E-01
-                     fcohbop        =  9.3176E-01
+                     f_j_cs_start_pulse_end_flat_top        =  9.3176E-01
                      dr_cs_tf_gap          =  5.0000E-02
                      fvsbrnni       =  3.9566E-01
                      fstrcase       =  1.0000E+00
@@ -369,7 +369,7 @@ t_burn    = 1.0d4 * Burn time (s) (calculated if i_pulsed_plant=1)
                      fcutfsu        =  8.0884E-01
                      ftmargtf       =  1.0000E+00
                      ftmargoh       =  1.0000E+00
-                     oh_steel_frac  =  5.7875E-01
+                     f_a_cs_steel  =  5.7875E-01
                      foh_stress     =  1.0000E+00
                      f_nd_alpha_electron         =  6.8940E-02
                      falpha_energy_confinement      =  1.0000E+00
\ No newline at end of file
diff --git a/tests/integration/data/scan_2D_MFILE.DAT b/tests/integration/data/scan_2D_MFILE.DAT
index deeab76ab0..74c4f99f64 100644
--- a/tests/integration/data/scan_2D_MFILE.DAT
+++ b/tests/integration/data/scan_2D_MFILE.DAT
@@ -69,9 +69,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.3792E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      8.9653E-01    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.3746E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.3618E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0402E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.3612E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.3618E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0402E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.3612E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.2414E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      1.1141E+00    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      7.2387E-01    
@@ -552,7 +552,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.5000E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      5.9996E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      5.9996E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8403E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.9617E+02    
  # Times #
@@ -603,7 +603,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -769,26 +769,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.8267E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.2414E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.4070E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.4743E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.4070E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.4743E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0423E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.6946E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.9874E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.4055E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.4875E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.6946E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.9874E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.4055E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.4875E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0463E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.7086E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.1229E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.7086E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.1229E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      2.0486E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.5540E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      8.8157E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      8.8157E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.4641E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.1249E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3392E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.3516E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      4.9362E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.1249E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3392E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.3516E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      4.9362E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      7.5000E+08 OP 
@@ -797,15 +797,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.7111E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5002E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5002E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.8842E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.8842E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.5184E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.6208E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.5061E-02    
@@ -813,68 +813,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      4.9098E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      0.0000E+00 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.3191E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.3191E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.2937E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.2937E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.6029E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.6029E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.8411E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.5784E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0553E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.5784E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0553E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.3925E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.3925E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.3326E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.3326E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.1330E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      7.0768E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6710E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      7.0768E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6710E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1276E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1276E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9072E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9072E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.6289E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6218E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6710E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6218E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6710E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1276E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1276E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9072E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9072E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.6289E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6218E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5185E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6218E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5185E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.0862E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.0862E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.3077E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.3077E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.2309E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5692E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5185E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5692E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5185E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.0862E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.0862E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.3077E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.3077E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.2309E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5692E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.3263E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5692E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.3263E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.5540E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6787E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8715E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.4070E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6787E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8715E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.4070E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      3.8645E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.0000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.0000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.3618E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -1.8251E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.3618E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -1.8251E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.4444E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.8411E+07    
@@ -1232,9 +1232,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.3833E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      1.0008E+00    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.3787E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.3607E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      9.9988E-01    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.3601E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.3607E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      9.9988E-01    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.3601E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.2925E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0071E+00    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      7.2898E-01    
@@ -1715,7 +1715,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.5000E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.0647E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.0647E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8362E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      3.0338E+02    
  # Times #
@@ -1766,7 +1766,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -1932,26 +1932,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.8260E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.2925E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.4035E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.5050E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.4035E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.5050E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0515E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.7013E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.9925E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.4012E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.5259E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.7013E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.9925E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.4012E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.5259E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0578E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.7235E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.1286E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.7235E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.1286E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      2.0684E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.5277E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      8.7740E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      8.7740E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.4122E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.0885E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3236E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.3618E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      4.9713E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.0885E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3236E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.3618E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      4.9713E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      7.4948E+08 OP 
@@ -1960,15 +1960,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.7249E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5045E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5045E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.8791E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.8791E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.5083E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.5657E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.5028E-02    
@@ -1976,68 +1976,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      4.9481E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      0.0000E+00 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.3025E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.3025E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.3022E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.3022E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.6633E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.6633E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.8653E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.6865E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0536E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.6865E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0536E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.4030E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.4030E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.4133E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.4133E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.1653E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      7.1946E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6702E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      7.1946E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6702E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1278E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1278E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9080E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9080E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.6320E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6226E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6702E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6226E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6702E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1278E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1278E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9080E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9080E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.6320E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6226E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5176E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6226E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5176E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.1075E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.1075E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.3146E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.3146E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.2585E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5753E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5176E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5753E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5176E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.1075E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.1075E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.3146E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.3146E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.2585E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5753E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.3448E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5753E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.3448E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.5277E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6691E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8677E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.4035E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6691E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8677E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.4035E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      3.9674E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.1000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.1000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.3607E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -1.9479E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.3607E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -1.9479E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.4556E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.8653E+07    
@@ -2395,9 +2395,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.3818E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      9.9972E-01    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.3772E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.3661E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0006E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.3654E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.3661E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0006E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.3654E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.3450E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0072E+00    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      7.3424E-01    
@@ -2878,7 +2878,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.5112E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.1163E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.1163E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8300E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      3.0929E+02    
  # Times #
@@ -2929,7 +2929,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -3095,26 +3095,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.7563E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.3450E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.4029E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.5107E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.4029E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.5107E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0532E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.6963E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.9893E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.3990E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.5459E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.6963E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.9893E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.3990E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.5459E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0638E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.7334E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.1239E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.7334E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.1239E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      2.0815E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.5352E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      8.7859E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      8.7859E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.4050E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.0835E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3215E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.3809E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      4.9863E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.0835E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3215E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.3809E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      4.9863E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      7.4954E+08 OP 
@@ -3123,15 +3123,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.7388E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5074E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5074E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.8833E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.8833E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.5166E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.5551E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.5055E-02    
@@ -3139,68 +3139,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      4.9725E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      0.0000E+00 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.2890E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.2890E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.3092E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.3092E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.7137E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.7137E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.8855E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.7779E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0523E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.7779E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0523E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.4117E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.4117E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.4806E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.4806E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.1923E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      7.2939E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6695E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      7.2939E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6695E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1277E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1277E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9075E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9075E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.6299E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6223E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6695E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6223E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6695E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1277E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1277E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9075E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9075E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.6299E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6223E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5168E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6223E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5168E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.1222E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.1222E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.3194E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.3194E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.2776E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5793E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5168E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5793E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5168E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.1222E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.1222E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.3194E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.3194E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.2776E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5793E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.3583E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5793E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.3583E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.5352E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6652E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8661E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.4029E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6652E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8661E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.4029E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      4.0546E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.1000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.1000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.3661E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -2.0517E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.3661E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -2.0517E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.4650E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.8855E+07    
@@ -3558,9 +3558,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.3828E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      1.0002E+00    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.3781E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.3720E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0006E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.3714E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.3720E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0006E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.3714E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.3452E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0000E+00    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      7.3425E-01    
@@ -4041,7 +4041,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.5000E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.1107E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.1107E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8204E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      3.0982E+02    
  # Times #
@@ -4092,7 +4092,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -4258,26 +4258,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.7532E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.3452E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.4028E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.5119E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.4028E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.5119E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0536E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.6955E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.9892E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.3987E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.5486E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.6955E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.9892E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.3987E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.5486E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0646E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.7341E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.1225E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.7341E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.1225E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      2.0802E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.5349E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      8.7854E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      8.7854E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.4021E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.0815E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3206E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.3832E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      4.9892E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.0815E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3206E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.3832E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      4.9892E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      7.4860E+08 OP 
@@ -4286,15 +4286,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.7345E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5086E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5086E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.8846E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.8846E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.5192E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.5540E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.5064E-02    
@@ -4302,68 +4302,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      4.9779E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      0.0000E+00 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.2904E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.2904E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.3091E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.3091E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.7129E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.7129E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.8852E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.7987E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0524E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.7987E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0524E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.4119E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.4119E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.4823E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.4823E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.1929E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      7.3157E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6695E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      7.3157E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6695E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1276E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1276E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9072E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9072E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.6289E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6217E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6695E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6217E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6695E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1276E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1276E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9072E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9072E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.6289E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6217E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5169E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6217E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5169E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.1200E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.1200E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.3187E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.3187E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.2748E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5786E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5169E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5786E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5169E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.1200E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.1200E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.3187E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.3187E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.2748E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5786E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.3569E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5786E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.3569E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.5349E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6617E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8647E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.4028E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6617E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8647E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.4028E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      4.0446E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.1000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.1000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.3720E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -2.0952E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.3720E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -2.0952E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.4639E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.8852E+07    
@@ -4721,9 +4721,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.3598E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      9.9573E-01    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.3552E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.3460E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      9.9722E-01    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.3453E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.3460E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      9.9722E-01    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.3453E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.2904E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      9.9255E-01    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      7.2877E-01    
@@ -5204,7 +5204,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.5000E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.0691E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.0691E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8323E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      3.0430E+02    
  # Times #
@@ -5255,7 +5255,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -5421,26 +5421,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.8601E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.2904E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.4026E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.5139E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.4026E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.5139E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0542E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.7157E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.9915E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.4030E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.5102E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.7157E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.9915E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.4030E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.5102E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0531E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.7118E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.1309E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.7118E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.1309E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      2.0685E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.5266E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      8.7723E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      8.7723E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.4171E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.0920E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3251E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.3552E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      4.9647E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.0920E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3251E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.3552E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      4.9647E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      7.4957E+08 OP 
@@ -5449,15 +5449,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.7279E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5092E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5092E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.8772E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.8772E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.5043E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.5701E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.5014E-02    
@@ -5465,68 +5465,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      4.9371E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      0.0000E+00 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.3025E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.3025E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.3027E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.3027E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.6670E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.6670E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.8668E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.7021E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0536E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.7021E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0536E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.4038E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.4038E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.4193E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.4193E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.1677E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      7.2112E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6702E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      7.2112E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6702E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1287E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1287E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9110E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9110E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.6438E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6247E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6702E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6247E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6702E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1287E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1287E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9110E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9110E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.6438E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6247E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5176E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6247E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5176E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.1138E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.1138E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.3167E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.3167E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.2667E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5777E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5176E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5777E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5176E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.1138E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.1138E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.3167E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.3167E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.2667E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5777E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.3448E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5777E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.3448E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.5266E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6732E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8693E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.4030E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6732E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8693E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.4030E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      3.9622E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.1000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.1000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.3460E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -1.9731E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.3460E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -1.9731E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.4547E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.8668E+07    
@@ -5884,9 +5884,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.3255E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      9.9360E-01    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.3208E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.3261E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      9.9787E-01    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.3254E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.3261E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      9.9787E-01    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.3254E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.2344E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      9.9232E-01    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      7.2316E-01    
@@ -6367,7 +6367,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.5000E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      5.9993E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      5.9993E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8374E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.9690E+02    
  # Times #
@@ -6418,7 +6418,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -6584,26 +6584,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.9844E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.2344E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.3979E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.5564E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.3979E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.5564E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0669E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.7694E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      2.0074E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.4019E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.5201E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.7694E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      2.0074E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.4019E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.5201E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0560E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.7309E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.1525E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.7309E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.1525E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      2.0572E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.4639E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      8.6728E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      8.6728E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.3772E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.0641E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3132E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.2955E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      4.9529E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.0641E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3132E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.2955E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      4.9529E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      7.4964E+08 OP 
@@ -6612,15 +6612,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.7019E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5008E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5008E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.8583E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.8583E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.4666E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.5465E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.4889E-02    
@@ -6628,68 +6628,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      4.8979E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      0.0000E+00 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.3197E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.3197E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.2942E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.2942E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.6062E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.6062E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.8425E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.5872E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0554E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.5872E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0554E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.3932E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.3932E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.3377E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.3377E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.1351E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      7.0866E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6710E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      7.0866E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6710E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1288E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1288E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9112E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9112E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.6450E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6249E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6710E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6249E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6710E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1288E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1288E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9112E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9112E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.6450E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6249E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5185E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6249E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5185E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.0957E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.0957E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.3108E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.3108E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.2432E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5729E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5185E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5729E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5185E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.0957E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.0957E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.3108E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.3108E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.2432E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5729E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.3304E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5729E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.3304E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.4639E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6670E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8668E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.4019E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6670E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8668E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.4019E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      3.8404E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.0000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.0000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.3261E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -1.8444E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.3261E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -1.8444E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.4403E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.8425E+07    
@@ -7047,9 +7047,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.3207E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      9.9910E-01    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.3161E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.3271E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0001E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.3264E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.3271E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0001E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.3264E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.2345E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0000E+00    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      7.2318E-01    
@@ -7530,7 +7530,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.5000E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      5.9926E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      5.9926E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8284E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.9732E+02    
  # Times #
@@ -7581,7 +7581,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -7747,26 +7747,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.9757E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.2345E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.3965E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.5690E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.3965E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.5690E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0707E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.7792E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      2.0108E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.4010E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.5281E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.7792E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      2.0108E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.4010E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.5281E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0584E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.7359E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.1559E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.7359E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.1559E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      2.0569E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.4494E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      8.6497E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      8.6497E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.3615E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.0530E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3084E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.2882E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      4.9576E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.0530E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3084E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.2882E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      4.9576E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      7.4892E+08 OP 
@@ -7775,15 +7775,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.6962E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5019E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5019E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.8554E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.8554E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.4607E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.5344E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.4869E-02    
@@ -7791,68 +7791,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      4.9001E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      0.0000E+00 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.3214E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.3214E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.2941E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.2941E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.6053E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.6053E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.8421E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.6058E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0555E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.6058E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0555E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.3933E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.3933E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.3389E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.3389E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.1356E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      7.1061E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6711E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      7.1061E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6711E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1288E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1288E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9113E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9113E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.6453E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6246E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6711E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6246E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6711E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1288E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1288E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9113E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9113E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.6453E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6246E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5186E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6246E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5186E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.0942E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.0942E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.3103E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.3103E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.2413E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5724E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5186E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5724E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5186E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.0942E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.0942E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.3103E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.3103E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.2413E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5724E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.3294E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5724E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.3294E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.4494E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6619E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8648E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.4010E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6619E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8648E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.4010E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      3.8266E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.0000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.0000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.3271E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -1.8841E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.3271E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -1.8841E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.4385E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.8421E+07    
@@ -8210,9 +8210,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.3216E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      1.0002E+00    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.3170E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.3278E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0001E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.3271E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.3278E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0001E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.3271E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.2870E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0073E+00    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      7.2843E-01    
@@ -8693,7 +8693,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.5000E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.0503E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.0503E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8182E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      3.0426E+02    
  # Times #
@@ -8744,7 +8744,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -8910,26 +8910,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.9068E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.2870E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.3964E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.5698E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.3964E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.5698E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0709E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.7701E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      2.0063E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.4004E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.5337E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.7701E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      2.0063E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.4004E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.5337E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0601E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.7320E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.1509E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.7320E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.1509E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      2.0708E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.4622E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      8.6700E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      8.6700E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.3602E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.0522E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3081E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.3098E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      4.9709E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.0522E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3081E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.3098E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      4.9709E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      7.4948E+08 OP 
@@ -8938,15 +8938,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.7147E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5057E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5057E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.8597E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.8597E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.4693E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.5265E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.4898E-02    
@@ -8954,68 +8954,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      4.9224E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      0.0000E+00 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.3066E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.3066E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.3013E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.3013E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.6568E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.6568E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.8627E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.7117E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0541E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.7117E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0541E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.4025E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.4025E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.4094E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.4094E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.1638E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      7.2208E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6704E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      7.2208E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6704E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1281E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1281E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9089E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9089E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.6357E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6226E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6704E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6226E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6704E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1281E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1281E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9089E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9089E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.6357E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6226E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5178E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6226E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5178E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.1059E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.1059E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.3141E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.3141E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.2565E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5749E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5178E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5749E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5178E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.1059E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.1059E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.3141E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.3141E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.2565E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5749E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.3439E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5749E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.3439E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.4622E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6621E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8648E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.4004E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6621E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8648E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.4004E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      3.9210E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.1000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.1000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.3278E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -2.0105E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.3278E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -2.0105E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.4491E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.8627E+07    
@@ -9373,9 +9373,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.3112E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      9.9805E-01    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.3066E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.3240E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      9.9959E-01    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.3233E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.3240E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      9.9959E-01    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.3233E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.3351E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0066E+00    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      7.3324E-01    
@@ -9856,7 +9856,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.5000E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.1023E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.1023E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8018E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      3.1131E+02    
  # Times #
@@ -9907,7 +9907,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -10073,26 +10073,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.8260E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.3353E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.3954E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.5786E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.3954E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.5786E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0736E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.7684E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      2.0015E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.3999E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.5380E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.7684E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      2.0015E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.3999E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.5380E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0614E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.7257E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.1466E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.7257E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.1466E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      2.0841E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.4724E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      8.6862E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      8.6862E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.3557E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.0490E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3067E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.3305E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      4.9855E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.0490E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3067E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.3305E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      4.9855E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      7.4900E+08 OP 
@@ -10101,15 +10101,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.7317E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5072E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5072E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.8634E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.8634E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.4767E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.5155E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.4922E-02    
@@ -10117,68 +10117,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      4.9457E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      0.0000E+00 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.2927E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.2927E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.3076E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.3076E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.7019E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.7019E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.8808E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.8179E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0527E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.8179E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0527E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.4108E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.4108E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.4731E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.4731E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.1892E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      7.3356E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6696E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      7.3356E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6696E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1265E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1265E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9035E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9035E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.6140E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6179E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6696E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6179E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6696E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1265E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1265E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9035E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9035E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.6140E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6179E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5170E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6179E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5170E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.1109E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.1109E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.3157E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.3157E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.2629E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5747E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5170E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5747E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5170E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.1109E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.1109E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.3157E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.3157E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.2629E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5747E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.3578E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5747E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.3578E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.4724E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6615E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8646E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.3999E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6615E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8646E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.3999E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      4.0077E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.1000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.1000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.3240E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -2.1463E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.3240E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -2.1463E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.4583E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.8808E+07    
@@ -10536,9 +10536,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.3087E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      9.9951E-01    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.3040E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.3251E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0001E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.3244E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.3251E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0001E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.3244E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.3353E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0000E+00    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      7.3327E-01    
@@ -11019,7 +11019,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.5000E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.1014E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.1014E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.7989E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      3.1157E+02    
  # Times #
@@ -11070,7 +11070,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -11236,26 +11236,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.8265E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.3353E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.3952E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.5809E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.3952E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.5809E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0743E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.7698E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      2.0013E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.3998E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.5386E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.7698E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      2.0013E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.3998E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.5386E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0616E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.7254E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.1461E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.7254E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.1461E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      2.0834E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.4720E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      8.6857E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      8.6857E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.3543E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.0480E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3063E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.3314E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      4.9868E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.0480E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3063E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.3314E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      4.9868E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      7.4836E+08 OP 
@@ -11264,15 +11264,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.7296E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5076E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5076E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.8638E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.8638E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.4776E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.5148E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.4925E-02    
@@ -11280,68 +11280,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      4.9479E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      0.0000E+00 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.2934E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.2934E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.3081E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.3081E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.7053E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.7053E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.8821E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.8302E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0527E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.8302E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0527E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.4114E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.4114E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.4783E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.4783E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.1913E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      7.3487E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6697E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      7.3487E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6697E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1274E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1274E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9066E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9066E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.6263E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6202E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6697E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6202E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6697E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1274E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1274E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9066E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9066E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.6263E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6202E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5171E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6202E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5171E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.1164E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.1164E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.3175E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.3175E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.2700E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5770E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5171E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5770E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5171E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.1164E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.1164E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.3175E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.3175E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.2700E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5770E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.3570E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5770E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.3570E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.4720E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6601E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8640E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.3998E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6601E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8640E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.3998E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      4.0009E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.1000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.1000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.3251E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -2.1684E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.3251E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -2.1684E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.4575E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.8821E+07    
@@ -11699,9 +11699,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.3425E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      1.0064E+00    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.3378E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.3398E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0016E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.3392E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.3398E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0016E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.3392E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.2788E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      9.9229E-01    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      7.2760E-01    
@@ -12182,7 +12182,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.5000E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.0509E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.0509E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8184E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      3.0431E+02    
  # Times #
@@ -12233,7 +12233,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -12399,26 +12399,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.9124E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.2788E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.3979E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.5563E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.3979E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.5563E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0669E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.7541E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      2.0056E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.4002E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.5351E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.7541E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      2.0056E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.4002E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.5351E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0605E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.7316E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.1474E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.7316E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.1474E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      2.0691E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.4697E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      8.6819E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      8.6819E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.3642E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.0549E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3092E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.3178E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      4.9733E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.0549E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3092E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.3178E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      4.9733E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      7.4943E+08 OP 
@@ -12427,15 +12427,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.7126E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5092E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5092E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.8627E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.8627E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.4754E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.5297E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.4918E-02    
@@ -12443,68 +12443,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      4.9294E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      0.0000E+00 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.3075E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.3075E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.3023E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.3023E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.6640E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.6640E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.8656E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.7247E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0541E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.7247E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0541E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.4037E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.4037E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.4184E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.4184E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.1674E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      7.2346E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6704E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      7.2346E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6704E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1294E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1294E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9134E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9134E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.6535E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6262E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6704E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6262E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6704E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1294E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1294E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9134E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9134E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.6535E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6262E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5179E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6262E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5179E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.1140E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.1140E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.3167E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.3167E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.2670E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5783E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5179E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5783E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5179E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.1140E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.1140E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.3167E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.3167E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.2670E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5783E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.3426E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5783E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.3426E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.4697E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6609E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8643E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.4002E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6609E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8643E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.4002E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      3.9208E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.1000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.1000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.3398E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -2.0290E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.3398E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -2.0290E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.4495E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.8656E+07    
@@ -12862,9 +12862,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.3867E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      1.0083E+00    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.3821E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.3669E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0029E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.3662E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.3669E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0029E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.3662E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.2215E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      9.9214E-01    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      7.2188E-01    
@@ -13345,7 +13345,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.5000E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      5.9941E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      5.9941E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8291E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.9741E+02    
  # Times #
@@ -13396,7 +13396,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -13562,26 +13562,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.9989E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.2215E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.3997E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.5397E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.3997E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.5397E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0619E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.7385E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      2.0138E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.3982E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.5531E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.7385E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      2.0138E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.3982E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.5531E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0659E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.7526E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.1499E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.7526E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.1499E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      2.0559E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.4537E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      8.6566E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      8.6566E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.3537E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.0476E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3061E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.3029E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      4.9706E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.0476E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3061E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.3029E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      4.9706E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      7.4965E+08 OP 
@@ -13590,15 +13590,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.6888E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5115E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5115E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.8605E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.8605E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.4710E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.5285E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.4903E-02    
@@ -13606,68 +13606,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      4.9232E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      0.0000E+00 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.3220E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.3220E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.2960E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.2960E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.6187E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.6187E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.8475E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.6307E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0556E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.6307E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0556E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.3956E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.3956E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.3561E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.3561E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.1424E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      7.1325E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6712E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      7.1325E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6712E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1302E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1302E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9159E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9159E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.6635E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6284E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6712E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6284E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6712E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1302E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1302E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9159E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9159E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.6635E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6284E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5187E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6284E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5187E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.1029E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.1029E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.3131E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.3131E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.2525E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5762E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5187E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5762E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5187E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.1029E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.1029E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.3131E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.3131E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.2525E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5762E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.3286E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5762E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.3286E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.4537E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6527E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8611E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.3997E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6527E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8611E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.3997E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      3.8389E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.0000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.0000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.3669E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -1.9196E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.3669E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -1.9196E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.4411E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.8475E+07    
@@ -14025,9 +14025,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.3871E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      1.0001E+00    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.3825E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.3704E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0004E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.3697E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.3704E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0004E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.3697E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.2217E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0000E+00    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      7.2189E-01    
@@ -14508,7 +14508,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.5000E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      5.9920E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      5.9920E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8251E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.9768E+02    
  # Times #
@@ -14559,7 +14559,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -14725,26 +14725,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.9982E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.2217E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.3996E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.5406E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.3996E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.5406E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0622E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.7380E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      2.0137E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.3980E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.5550E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.7380E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      2.0137E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.3980E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.5550E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0665E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.7533E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.1490E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.7533E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.1490E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      2.0549E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.4535E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      8.6562E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      8.6562E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.3519E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.0463E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3056E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.3043E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      4.9725E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.0463E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3056E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.3043E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      4.9725E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      7.4900E+08 OP 
@@ -14753,15 +14753,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.6861E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5123E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5123E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.8613E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.8613E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.4725E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.5277E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.4908E-02    
@@ -14769,68 +14769,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      4.9265E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      0.0000E+00 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.3230E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.3230E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.2964E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.2964E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.6216E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.6216E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.8486E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.6451E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0557E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.6451E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0557E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.3962E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.3962E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.3608E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.3608E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.1443E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      7.1478E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6712E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      7.1478E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6712E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1309E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1309E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9184E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9184E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.6735E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6303E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6712E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6303E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6712E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1309E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1309E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9184E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9184E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.6735E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6303E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5187E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6303E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5187E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.1069E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.1069E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.3145E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.3145E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.2578E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5780E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5187E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5780E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5187E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.1069E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.1069E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.3145E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.3145E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.2578E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5780E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.3276E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5780E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.3276E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.4535E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6506E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8602E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.3996E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6506E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8602E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.3996E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      3.8318E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.0000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.0000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.3704E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -1.9463E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.3704E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -1.9463E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.4402E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.8486E+07    
@@ -15188,9 +15188,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.3761E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      9.9794E-01    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.3714E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.3585E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      9.9874E-01    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.3579E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.3585E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      9.9874E-01    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.3579E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.2710E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0068E+00    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      7.2682E-01    
@@ -15671,7 +15671,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.5000E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.0529E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.0529E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8208E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      3.0430E+02    
  # Times #
@@ -15722,7 +15722,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -15888,26 +15888,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.9278E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.2711E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.3991E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.5452E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.3991E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.5452E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0636E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.7355E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      2.0082E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.3986E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.5498E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.7355E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      2.0082E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.3986E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.5498E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0649E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.7403E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.1459E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.7403E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.1459E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      2.0688E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.4673E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      8.6782E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      8.6782E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.3542E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.0480E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3063E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.3239E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      4.9826E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.0480E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3063E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.3239E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      4.9826E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      7.4949E+08 OP 
@@ -15916,15 +15916,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.7081E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5149E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5149E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.8640E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.8640E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.4780E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.5206E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.4927E-02    
@@ -15932,68 +15932,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      4.9428E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      0.0000E+00 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.3081E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.3081E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.3038E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.3038E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.6745E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.6745E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.8698E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.7386E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0542E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.7386E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0542E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.4053E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.4053E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.4312E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.4312E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.1725E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      7.2496E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6704E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      7.2496E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6704E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1310E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1310E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9188E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9188E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.6753E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6307E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6704E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6307E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6704E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1310E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1310E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9188E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9188E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.6753E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6307E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5179E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6307E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5179E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.1247E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.1247E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.3202E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.3202E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.2808E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5828E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5179E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5828E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5179E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.1247E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.1247E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.3202E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.3202E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.2808E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5828E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.3422E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5828E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.3422E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.4673E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6556E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8622E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.3991E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6556E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8622E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.3991E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      3.9246E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.1000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.1000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.3585E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -2.0470E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.3585E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -2.0470E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.4505E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.8698E+07    
@@ -16351,9 +16351,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.3692E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      9.9872E-01    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.3645E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.3499E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      9.9908E-01    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.3493E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.3499E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      9.9908E-01    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.3493E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.3193E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0066E+00    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      7.3166E-01    
@@ -16834,7 +16834,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.5000E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.1139E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.1139E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8166E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      3.1092E+02    
  # Times #
@@ -16885,7 +16885,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -17051,26 +17051,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.8545E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.3194E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.3986E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.5494E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.3986E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.5494E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0648E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.7312E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      2.0034E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.3987E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.5491E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.7312E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      2.0034E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.3987E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.5491E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0647E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.7308E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.1426E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.7308E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.1426E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      2.0828E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.4798E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      8.6980E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      8.6980E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.3540E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.0478E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3062E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.3439E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      4.9942E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.0478E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3062E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.3439E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      4.9942E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      7.4997E+08 OP 
@@ -17079,15 +17079,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.7292E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5162E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5162E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.8669E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.8669E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.4837E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.5116E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.4946E-02    
@@ -17095,68 +17095,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      4.9612E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      0.0000E+00 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.2932E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.2932E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.3112E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.3112E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.7279E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.7279E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.8912E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.8313E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0527E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.8313E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0527E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.4145E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.4145E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.5024E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.5024E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.2010E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      7.3506E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6697E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      7.3506E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6697E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1312E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1312E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9193E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9193E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.6773E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6312E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6697E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6312E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6697E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1312E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1312E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9193E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9193E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.6773E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6312E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5170E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6312E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5170E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.1430E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.1430E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.3262E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.3262E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.3046E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5879E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5170E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5879E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5170E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.1430E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.1430E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.3262E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.3262E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.3046E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5879E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.3568E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5879E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.3568E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.4798E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6592E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8637E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.3987E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6592E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8637E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.3987E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      4.0197E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.1000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.1000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.3499E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -2.1467E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.3499E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -2.1467E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.4608E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.8912E+07    
@@ -17586,20 +17586,20 @@ bmxlim = 14.0
 * Central solenoid EOF current density upper limit *
 *--------------------------------------------------*
 icc = 26
-ixc = 37 * coheof [A/m2]
+ixc = 37 * j_cs_flat_top_end [A/m2]
 ixc = 38 * fjohc
 boundu(38) = 1.0
-coheof = 1.5E7
+j_cs_flat_top_end = 1.5E7
 fjohc = 0.6
 
 * Central solenoid BOP current density upper limit *
 *--------------------------------------------------*
 icc = 27
 ixc = 39 * fjohc0
-ixc = 41 * fcohbop
+ixc = 41 * f_j_cs_start_pulse_end_flat_top
 boundu(39) = 1.0
 fjohc0 = 0.6
-fcohbop = 0.9
+f_j_cs_start_pulse_end_flat_top = 0.9
 
 * I_op/I_Crit TF coil limit *
 *---------------------------*
@@ -17745,9 +17745,9 @@ cpttf = 65000.0
 ixc = 109
 boundu(109) = 0.1
 
-* CS steel fraction, oh_steel_frac
+* CS steel fraction, f_a_cs_steel
 ixc = 122
-oh_steel_frac = 0.8
+f_a_cs_steel = 0.8
 
 * core impurity fraction, Xenon
 ixc = 135
@@ -18015,27 +18015,27 @@ iavail = 0
 ************
 
 * Peak current per turn input for PF coil i [A]
-cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
+c_pf_coil_turn_peak_input = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
 
 * Switch for locating scheme of pf coil group i
-ipfloc = 2,2,3,3
+i_pf_location = 2,2,3,3
 
 * Switch for superconductor material in pf coils
-isumatpf = 3
+i_pf_superconductor = 3
 
 * Number of pf coils in group j
-ncls = 1,1,2,2
+n_pf_coils_in_group = 1,1,2,2
 
 * Number of groups of PF coils
-ngrp = 4
+n_pf_coil_groups = 4
 
 * Central solenoid height / TF coil internal height
-ohhghf = 0.9
+f_z_cs_tf_internal = 0.9
 
 * Average winding pack current density of PF coil i [A/m2]
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
 
-* Offset of radial position of ipfloc=2 pf coils [m]
+* Offset of radial position of i_pf_location=2 pf coils [m]
 rpf2 = -1.825 
 
 zref(1) = 3.6
@@ -18051,7 +18051,7 @@ zref(8) = 1.0
 fcuohsu = 0.70
 
 * ITER Nb3Sn parameterisation
-isumatoh = 1
+i_cs_superconductor = 1
 
 * TF Coil *
 ***********
diff --git a/tests/integration/data/scan_MFILE.DAT b/tests/integration/data/scan_MFILE.DAT
index f758965959..ebd14858dc 100644
--- a/tests/integration/data/scan_MFILE.DAT
+++ b/tests/integration/data/scan_MFILE.DAT
@@ -68,9 +68,9 @@
  fjohc0__________________________________________________________________ (itvar015)____________________      1.3899E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm015)______________________      2.5776E-01    
  fjohc0_(range_normalised)_______________________________________________ (nitvar015)___________________      1.3813E-01    
- fcohbop_________________________________________________________________ (itvar016)____________________      1.0000E+00    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0732E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar016)____________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0732E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
  gapoh___________________________________________________________________ (itvar017)____________________      5.0000E-02    
  gapoh_(final_value/initial_value)_______________________________________ (xcm017)______________________      1.0000E+00    
  gapoh_(range_normalised)________________________________________________ (nitvar017)___________________      0.0000E+00    
@@ -406,7 +406,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      5.1000E+01    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      4.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.2750E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.2115E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.2115E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      3.6189E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.3054E+02    
  # Times #
@@ -455,7 +455,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      7.6976E+00    
@@ -616,26 +616,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      7.5516E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      6.4527E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              5    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.1499E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      6.6143E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              5    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.1499E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      6.6143E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.9843E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      9.2008E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.2788E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.0525E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      8.1933E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      9.2008E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.2788E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.0525E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      8.1933E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      2.4580E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      1.1397E+08 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      1.2788E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      1.1397E+08 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      1.2788E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore.)_______________________      2.2626E+00    
  CS_thickness_(m)________________________________________________________ (dr_cs.)______________________      7.0754E-01    
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      5.0000E-02 ITV
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      1.1774E+01 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      1.1774E+01 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      7.7989E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      5.4592E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      2.3397E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      3.9748E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      3.3760E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      5.4592E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      2.3397E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      3.9748E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      3.3760E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      6.6000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.6000E+08 OP 
@@ -644,72 +644,72 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.2933E+09 OP 
  Strain_on_CS_superconductor_____________________________________________ (strncon_cs)__________________     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      4.1259E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      4.1259E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_01_radius_(m)___________________________________________________ (rpf(01))_____________________      6.4763E+00    
- PF_coil_01_vertical_position_(m)________________________________________ (zpf(01))_____________________      9.9877E+00    
+ PF_coil_01_radius_(m)___________________________________________________ (r_pf_coil_middle(01))_____________________      6.4763E+00    
+ PF_coil_01_vertical_position_(m)________________________________________ (z_pf_coil_middle(01))_____________________      9.9877E+00    
  PF_coil_01_radial_thickness_(m)_________________________________________ (pfdr01)______________________      1.1966E+00    
  PF_coil_01_vertical_thickness_(m)_______________________________________ (pfdz01)______________________      1.1966E+00    
- PF_coil_01_turns________________________________________________________ (turns(01))___________________      3.7322E+02    
+ PF_coil_01_turns________________________________________________________ (n_pf_coil_turns(01))___________________      3.7322E+02    
  PF_coil_01_current_(MA)_________________________________________________ (ric(01))_____________________      1.5750E+01    
- PF_coil_01_field_(T)____________________________________________________ (bpf(01))_____________________      4.7287E+00    
- PF_coil_02_radius_(m)___________________________________________________ (rpf(02))_____________________      6.4763E+00    
- PF_coil_02_vertical_position_(m)________________________________________ (zpf(02))_____________________     -1.1505E+01    
+ PF_coil_01_field_(T)____________________________________________________ (b_pf_coil_peak(01))_____________________      4.7287E+00    
+ PF_coil_02_radius_(m)___________________________________________________ (r_pf_coil_middle(02))_____________________      6.4763E+00    
+ PF_coil_02_vertical_position_(m)________________________________________ (z_pf_coil_middle(02))_____________________     -1.1505E+01    
  PF_coil_02_radial_thickness_(m)_________________________________________ (pfdr02)______________________      1.2848E+00    
  PF_coil_02_vertical_thickness_(m)_______________________________________ (pfdz02)______________________     -1.2848E+00    
- PF_coil_02_turns________________________________________________________ (turns(02))___________________      4.3026E+02    
+ PF_coil_02_turns________________________________________________________ (n_pf_coil_turns(02))___________________      4.3026E+02    
  PF_coil_02_current_(MA)_________________________________________________ (ric(02))_____________________      1.8157E+01    
- PF_coil_02_field_(T)____________________________________________________ (bpf(02))_____________________      5.1781E+00    
- PF_coil_03_radius_(m)___________________________________________________ (rpf(03))_____________________      1.9032E+01    
- PF_coil_03_vertical_position_(m)________________________________________ (zpf(03))_____________________      2.9606E+00    
+ PF_coil_02_field_(T)____________________________________________________ (b_pf_coil_peak(02))_____________________      5.1781E+00    
+ PF_coil_03_radius_(m)___________________________________________________ (r_pf_coil_middle(03))_____________________      1.9032E+01    
+ PF_coil_03_vertical_position_(m)________________________________________ (z_pf_coil_middle(03))_____________________      2.9606E+00    
  PF_coil_03_radial_thickness_(m)_________________________________________ (pfdr03)______________________      1.1659E+00    
  PF_coil_03_vertical_thickness_(m)_______________________________________ (pfdz03)______________________      1.1659E+00    
- PF_coil_03_turns________________________________________________________ (turns(03))___________________      1.9327E+02    
+ PF_coil_03_turns________________________________________________________ (n_pf_coil_turns(03))___________________      1.9327E+02    
  PF_coil_03_current_(MA)_________________________________________________ (ric(03))_____________________     -8.1561E+00    
- PF_coil_03_field_(T)____________________________________________________ (bpf(03))_____________________      2.6808E+00    
- PF_coil_04_radius_(m)___________________________________________________ (rpf(04))_____________________      1.9032E+01    
- PF_coil_04_vertical_position_(m)________________________________________ (zpf(04))_____________________     -2.9606E+00    
+ PF_coil_03_field_(T)____________________________________________________ (b_pf_coil_peak(03))_____________________      2.6808E+00    
+ PF_coil_04_radius_(m)___________________________________________________ (r_pf_coil_middle(04))_____________________      1.9032E+01    
+ PF_coil_04_vertical_position_(m)________________________________________ (z_pf_coil_middle(04))_____________________     -2.9606E+00    
  PF_coil_04_radial_thickness_(m)_________________________________________ (pfdr04)______________________      1.1659E+00    
  PF_coil_04_vertical_thickness_(m)_______________________________________ (pfdz04)______________________     -1.1659E+00    
- PF_coil_04_turns________________________________________________________ (turns(04))___________________      1.9327E+02    
+ PF_coil_04_turns________________________________________________________ (n_pf_coil_turns(04))___________________      1.9327E+02    
  PF_coil_04_current_(MA)_________________________________________________ (ric(04))_____________________     -8.1561E+00    
- PF_coil_04_field_(T)____________________________________________________ (bpf(04))_____________________      2.6808E+00    
- PF_coil_05_radius_(m)___________________________________________________ (rpf(05))_____________________      1.7386E+01    
- PF_coil_05_vertical_position_(m)________________________________________ (zpf(05))_____________________      8.2897E+00    
+ PF_coil_04_field_(T)____________________________________________________ (b_pf_coil_peak(04))_____________________      2.6808E+00    
+ PF_coil_05_radius_(m)___________________________________________________ (r_pf_coil_middle(05))_____________________      1.7386E+01    
+ PF_coil_05_vertical_position_(m)________________________________________ (z_pf_coil_middle(05))_____________________      8.2897E+00    
  PF_coil_05_radial_thickness_(m)_________________________________________ (pfdr05)______________________      8.2067E-01    
  PF_coil_05_vertical_thickness_(m)_______________________________________ (pfdz05)______________________      8.2067E-01    
- PF_coil_05_turns________________________________________________________ (turns(05))___________________      1.2530E+02    
+ PF_coil_05_turns________________________________________________________ (n_pf_coil_turns(05))___________________      1.2530E+02    
  PF_coil_05_current_(MA)_________________________________________________ (ric(05))_____________________     -5.3879E+00    
- PF_coil_05_field_(T)____________________________________________________ (bpf(05))_____________________      2.5876E+00    
- PF_coil_06_radius_(m)___________________________________________________ (rpf(06))_____________________      1.7386E+01    
- PF_coil_06_vertical_position_(m)________________________________________ (zpf(06))_____________________     -8.2897E+00    
+ PF_coil_05_field_(T)____________________________________________________ (b_pf_coil_peak(05))_____________________      2.5876E+00    
+ PF_coil_06_radius_(m)___________________________________________________ (r_pf_coil_middle(06))_____________________      1.7386E+01    
+ PF_coil_06_vertical_position_(m)________________________________________ (z_pf_coil_middle(06))_____________________     -8.2897E+00    
  PF_coil_06_radial_thickness_(m)_________________________________________ (pfdr06)______________________      8.2067E-01    
  PF_coil_06_vertical_thickness_(m)_______________________________________ (pfdz06)______________________     -8.2067E-01    
- PF_coil_06_turns________________________________________________________ (turns(06))___________________      1.2530E+02    
+ PF_coil_06_turns________________________________________________________ (n_pf_coil_turns(06))___________________      1.2530E+02    
  PF_coil_06_current_(MA)_________________________________________________ (ric(06))_____________________     -5.3879E+00    
- PF_coil_06_field_(T)____________________________________________________ (bpf(06))_____________________      2.5876E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf(nohc))___________________      2.6164E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf(nohc))___________________      0.0000E+00    
+ PF_coil_06_field_(T)____________________________________________________ (b_pf_coil_peak(06))_____________________      2.5876E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle(n_cs_pf_coils))___________________      2.6164E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle(n_cs_pf_coils))___________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      7.0754E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.6640E+01    
- Central_solenoid_turns__________________________________________________ (turns(nohc))_________________      3.5015E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric(nohc))___________________     -1.5057E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf(nohc))___________________      1.1499E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns(n_cs_pf_coils))_________________      3.5015E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric(n_cs_pf_coils))___________________     -1.5057E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak(n_cs_pf_coils))___________________      1.1499E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      4.0453E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.2115E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.2115E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      1.0000E+00 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________      4.6908E-02 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      1.0000E+00 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________      4.6908E-02 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_01_-_Time_point_01_(A)_______________________________________ (pfc01t01)____________________      0.0000E+00    
  PF_Circuit_01_-_Time_point_02_(A)_______________________________________ (pfc01t02)____________________      1.2790E+07    
  PF_Circuit_01_-_Time_point_03_(A)_______________________________________ (pfc01t03)____________________      1.5750E+07    
@@ -1063,9 +1063,9 @@
  fjohc0__________________________________________________________________ (itvar015)____________________      1.3899E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0000E+00    
  fjohc0_(range_normalised)_______________________________________________ (nitvar015)___________________      1.3813E-01    
- fcohbop_________________________________________________________________ (itvar016)____________________      1.0000E+00    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar016)____________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
  gapoh___________________________________________________________________ (itvar017)____________________      5.0000E-02    
  gapoh_(final_value/initial_value)_______________________________________ (xcm017)______________________      1.0000E+00    
  gapoh_(range_normalised)________________________________________________ (nitvar017)___________________      0.0000E+00    
@@ -1401,7 +1401,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      5.1000E+01    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      4.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.2750E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.2115E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.2115E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      3.6189E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.3054E+02    
  # Times #
@@ -1450,7 +1450,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      7.6976E+00    
@@ -1611,26 +1611,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      7.5516E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      6.4527E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              5    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.1499E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      6.6143E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              5    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.1499E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      6.6143E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.9843E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      9.2008E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.2788E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.0525E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      8.1933E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      9.2008E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.2788E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.0525E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      8.1933E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      2.4580E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      1.1397E+08 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      1.2788E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      1.1397E+08 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      1.2788E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore.)_______________________      2.2626E+00    
  CS_thickness_(m)________________________________________________________ (dr_cs.)______________________      7.0754E-01    
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      5.0000E-02 ITV
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      1.1774E+01 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      1.1774E+01 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      7.7989E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      5.4592E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      2.3397E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      3.9748E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      3.3760E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      5.4592E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      2.3397E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      3.9748E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      3.3760E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      6.6000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.6000E+08 OP 
@@ -1639,72 +1639,72 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.2933E+09 OP 
  Strain_on_CS_superconductor_____________________________________________ (strncon_cs)__________________     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      4.1259E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      4.1259E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_01_radius_(m)___________________________________________________ (rpf(01))_____________________      6.4763E+00    
- PF_coil_01_vertical_position_(m)________________________________________ (zpf(01))_____________________      9.9877E+00    
+ PF_coil_01_radius_(m)___________________________________________________ (r_pf_coil_middle(01))_____________________      6.4763E+00    
+ PF_coil_01_vertical_position_(m)________________________________________ (z_pf_coil_middle(01))_____________________      9.9877E+00    
  PF_coil_01_radial_thickness_(m)_________________________________________ (pfdr01)______________________      1.1966E+00    
  PF_coil_01_vertical_thickness_(m)_______________________________________ (pfdz01)______________________      1.1966E+00    
- PF_coil_01_turns________________________________________________________ (turns(01))___________________      3.7322E+02    
+ PF_coil_01_turns________________________________________________________ (n_pf_coil_turns(01))___________________      3.7322E+02    
  PF_coil_01_current_(MA)_________________________________________________ (ric(01))_____________________      1.5750E+01    
- PF_coil_01_field_(T)____________________________________________________ (bpf(01))_____________________      4.7287E+00    
- PF_coil_02_radius_(m)___________________________________________________ (rpf(02))_____________________      6.4763E+00    
- PF_coil_02_vertical_position_(m)________________________________________ (zpf(02))_____________________     -1.1505E+01    
+ PF_coil_01_field_(T)____________________________________________________ (b_pf_coil_peak(01))_____________________      4.7287E+00    
+ PF_coil_02_radius_(m)___________________________________________________ (r_pf_coil_middle(02))_____________________      6.4763E+00    
+ PF_coil_02_vertical_position_(m)________________________________________ (z_pf_coil_middle(02))_____________________     -1.1505E+01    
  PF_coil_02_radial_thickness_(m)_________________________________________ (pfdr02)______________________      1.2848E+00    
  PF_coil_02_vertical_thickness_(m)_______________________________________ (pfdz02)______________________     -1.2848E+00    
- PF_coil_02_turns________________________________________________________ (turns(02))___________________      4.3026E+02    
+ PF_coil_02_turns________________________________________________________ (n_pf_coil_turns(02))___________________      4.3026E+02    
  PF_coil_02_current_(MA)_________________________________________________ (ric(02))_____________________      1.8157E+01    
- PF_coil_02_field_(T)____________________________________________________ (bpf(02))_____________________      5.1781E+00    
- PF_coil_03_radius_(m)___________________________________________________ (rpf(03))_____________________      1.9032E+01    
- PF_coil_03_vertical_position_(m)________________________________________ (zpf(03))_____________________      2.9606E+00    
+ PF_coil_02_field_(T)____________________________________________________ (b_pf_coil_peak(02))_____________________      5.1781E+00    
+ PF_coil_03_radius_(m)___________________________________________________ (r_pf_coil_middle(03))_____________________      1.9032E+01    
+ PF_coil_03_vertical_position_(m)________________________________________ (z_pf_coil_middle(03))_____________________      2.9606E+00    
  PF_coil_03_radial_thickness_(m)_________________________________________ (pfdr03)______________________      1.1659E+00    
  PF_coil_03_vertical_thickness_(m)_______________________________________ (pfdz03)______________________      1.1659E+00    
- PF_coil_03_turns________________________________________________________ (turns(03))___________________      1.9327E+02    
+ PF_coil_03_turns________________________________________________________ (n_pf_coil_turns(03))___________________      1.9327E+02    
  PF_coil_03_current_(MA)_________________________________________________ (ric(03))_____________________     -8.1561E+00    
- PF_coil_03_field_(T)____________________________________________________ (bpf(03))_____________________      2.6808E+00    
- PF_coil_04_radius_(m)___________________________________________________ (rpf(04))_____________________      1.9032E+01    
- PF_coil_04_vertical_position_(m)________________________________________ (zpf(04))_____________________     -2.9606E+00    
+ PF_coil_03_field_(T)____________________________________________________ (b_pf_coil_peak(03))_____________________      2.6808E+00    
+ PF_coil_04_radius_(m)___________________________________________________ (r_pf_coil_middle(04))_____________________      1.9032E+01    
+ PF_coil_04_vertical_position_(m)________________________________________ (z_pf_coil_middle(04))_____________________     -2.9606E+00    
  PF_coil_04_radial_thickness_(m)_________________________________________ (pfdr04)______________________      1.1659E+00    
  PF_coil_04_vertical_thickness_(m)_______________________________________ (pfdz04)______________________     -1.1659E+00    
- PF_coil_04_turns________________________________________________________ (turns(04))___________________      1.9327E+02    
+ PF_coil_04_turns________________________________________________________ (n_pf_coil_turns(04))___________________      1.9327E+02    
  PF_coil_04_current_(MA)_________________________________________________ (ric(04))_____________________     -8.1561E+00    
- PF_coil_04_field_(T)____________________________________________________ (bpf(04))_____________________      2.6808E+00    
- PF_coil_05_radius_(m)___________________________________________________ (rpf(05))_____________________      1.7386E+01    
- PF_coil_05_vertical_position_(m)________________________________________ (zpf(05))_____________________      8.2897E+00    
+ PF_coil_04_field_(T)____________________________________________________ (b_pf_coil_peak(04))_____________________      2.6808E+00    
+ PF_coil_05_radius_(m)___________________________________________________ (r_pf_coil_middle(05))_____________________      1.7386E+01    
+ PF_coil_05_vertical_position_(m)________________________________________ (z_pf_coil_middle(05))_____________________      8.2897E+00    
  PF_coil_05_radial_thickness_(m)_________________________________________ (pfdr05)______________________      8.2067E-01    
  PF_coil_05_vertical_thickness_(m)_______________________________________ (pfdz05)______________________      8.2067E-01    
- PF_coil_05_turns________________________________________________________ (turns(05))___________________      1.2530E+02    
+ PF_coil_05_turns________________________________________________________ (n_pf_coil_turns(05))___________________      1.2530E+02    
  PF_coil_05_current_(MA)_________________________________________________ (ric(05))_____________________     -5.3879E+00    
- PF_coil_05_field_(T)____________________________________________________ (bpf(05))_____________________      2.5876E+00    
- PF_coil_06_radius_(m)___________________________________________________ (rpf(06))_____________________      1.7386E+01    
- PF_coil_06_vertical_position_(m)________________________________________ (zpf(06))_____________________     -8.2897E+00    
+ PF_coil_05_field_(T)____________________________________________________ (b_pf_coil_peak(05))_____________________      2.5876E+00    
+ PF_coil_06_radius_(m)___________________________________________________ (r_pf_coil_middle(06))_____________________      1.7386E+01    
+ PF_coil_06_vertical_position_(m)________________________________________ (z_pf_coil_middle(06))_____________________     -8.2897E+00    
  PF_coil_06_radial_thickness_(m)_________________________________________ (pfdr06)______________________      8.2067E-01    
  PF_coil_06_vertical_thickness_(m)_______________________________________ (pfdz06)______________________     -8.2067E-01    
- PF_coil_06_turns________________________________________________________ (turns(06))___________________      1.2530E+02    
+ PF_coil_06_turns________________________________________________________ (n_pf_coil_turns(06))___________________      1.2530E+02    
  PF_coil_06_current_(MA)_________________________________________________ (ric(06))_____________________     -5.3879E+00    
- PF_coil_06_field_(T)____________________________________________________ (bpf(06))_____________________      2.5876E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf(nohc))___________________      2.6164E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf(nohc))___________________      0.0000E+00    
+ PF_coil_06_field_(T)____________________________________________________ (b_pf_coil_peak(06))_____________________      2.5876E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle(n_cs_pf_coils))___________________      2.6164E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle(n_cs_pf_coils))___________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      7.0754E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.6640E+01    
- Central_solenoid_turns__________________________________________________ (turns(nohc))_________________      3.5015E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric(nohc))___________________     -1.5057E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf(nohc))___________________      1.1499E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns(n_cs_pf_coils))_________________      3.5015E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric(n_cs_pf_coils))___________________     -1.5057E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak(n_cs_pf_coils))___________________      1.1499E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      4.0453E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.2115E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.2115E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      1.0000E+00 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________      4.6908E-02 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      1.0000E+00 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________      4.6908E-02 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_01_-_Time_point_01_(A)_______________________________________ (pfc01t01)____________________      0.0000E+00    
  PF_Circuit_01_-_Time_point_02_(A)_______________________________________ (pfc01t02)____________________      1.2790E+07    
  PF_Circuit_01_-_Time_point_03_(A)_______________________________________ (pfc01t03)____________________      1.5750E+07    
@@ -2058,9 +2058,9 @@
  fjohc0__________________________________________________________________ (itvar015)____________________      1.3899E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0000E+00    
  fjohc0_(range_normalised)_______________________________________________ (nitvar015)___________________      1.3813E-01    
- fcohbop_________________________________________________________________ (itvar016)____________________      1.0000E+00    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar016)____________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
  gapoh___________________________________________________________________ (itvar017)____________________      5.0000E-02    
  gapoh_(final_value/initial_value)_______________________________________ (xcm017)______________________      1.0000E+00    
  gapoh_(range_normalised)________________________________________________ (nitvar017)___________________      0.0000E+00    
@@ -2396,7 +2396,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      5.1000E+01    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      4.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.2750E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.2115E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.2115E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      3.6189E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.3054E+02    
  # Times #
@@ -2445,7 +2445,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      7.6976E+00    
@@ -2606,26 +2606,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      7.5516E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      6.4527E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              5    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.1499E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      6.6143E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              5    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.1499E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      6.6143E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.9843E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      9.2008E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.2788E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.0525E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      8.1933E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      9.2008E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.2788E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.0525E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      8.1933E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      2.4580E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      1.1397E+08 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      1.2788E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      1.1397E+08 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      1.2788E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore.)_______________________      2.2626E+00    
  CS_thickness_(m)________________________________________________________ (dr_cs.)______________________      7.0754E-01    
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      5.0000E-02 ITV
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      1.1774E+01 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      1.1774E+01 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      7.7989E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      5.4592E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      2.3397E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      3.9748E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      3.3760E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      5.4592E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      2.3397E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      3.9748E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      3.3760E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      6.6000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.6000E+08 OP 
@@ -2634,72 +2634,72 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.2933E+09 OP 
  Strain_on_CS_superconductor_____________________________________________ (strncon_cs)__________________     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      4.1259E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      4.1259E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_01_radius_(m)___________________________________________________ (rpf(01))_____________________      6.4763E+00    
- PF_coil_01_vertical_position_(m)________________________________________ (zpf(01))_____________________      9.9877E+00    
+ PF_coil_01_radius_(m)___________________________________________________ (r_pf_coil_middle(01))_____________________      6.4763E+00    
+ PF_coil_01_vertical_position_(m)________________________________________ (z_pf_coil_middle(01))_____________________      9.9877E+00    
  PF_coil_01_radial_thickness_(m)_________________________________________ (pfdr01)______________________      1.1966E+00    
  PF_coil_01_vertical_thickness_(m)_______________________________________ (pfdz01)______________________      1.1966E+00    
- PF_coil_01_turns________________________________________________________ (turns(01))___________________      3.7322E+02    
+ PF_coil_01_turns________________________________________________________ (n_pf_coil_turns(01))___________________      3.7322E+02    
  PF_coil_01_current_(MA)_________________________________________________ (ric(01))_____________________      1.5750E+01    
- PF_coil_01_field_(T)____________________________________________________ (bpf(01))_____________________      4.7287E+00    
- PF_coil_02_radius_(m)___________________________________________________ (rpf(02))_____________________      6.4763E+00    
- PF_coil_02_vertical_position_(m)________________________________________ (zpf(02))_____________________     -1.1505E+01    
+ PF_coil_01_field_(T)____________________________________________________ (b_pf_coil_peak(01))_____________________      4.7287E+00    
+ PF_coil_02_radius_(m)___________________________________________________ (r_pf_coil_middle(02))_____________________      6.4763E+00    
+ PF_coil_02_vertical_position_(m)________________________________________ (z_pf_coil_middle(02))_____________________     -1.1505E+01    
  PF_coil_02_radial_thickness_(m)_________________________________________ (pfdr02)______________________      1.2848E+00    
  PF_coil_02_vertical_thickness_(m)_______________________________________ (pfdz02)______________________     -1.2848E+00    
- PF_coil_02_turns________________________________________________________ (turns(02))___________________      4.3026E+02    
+ PF_coil_02_turns________________________________________________________ (n_pf_coil_turns(02))___________________      4.3026E+02    
  PF_coil_02_current_(MA)_________________________________________________ (ric(02))_____________________      1.8157E+01    
- PF_coil_02_field_(T)____________________________________________________ (bpf(02))_____________________      5.1781E+00    
- PF_coil_03_radius_(m)___________________________________________________ (rpf(03))_____________________      1.9032E+01    
- PF_coil_03_vertical_position_(m)________________________________________ (zpf(03))_____________________      2.9606E+00    
+ PF_coil_02_field_(T)____________________________________________________ (b_pf_coil_peak(02))_____________________      5.1781E+00    
+ PF_coil_03_radius_(m)___________________________________________________ (r_pf_coil_middle(03))_____________________      1.9032E+01    
+ PF_coil_03_vertical_position_(m)________________________________________ (z_pf_coil_middle(03))_____________________      2.9606E+00    
  PF_coil_03_radial_thickness_(m)_________________________________________ (pfdr03)______________________      1.1659E+00    
  PF_coil_03_vertical_thickness_(m)_______________________________________ (pfdz03)______________________      1.1659E+00    
- PF_coil_03_turns________________________________________________________ (turns(03))___________________      1.9327E+02    
+ PF_coil_03_turns________________________________________________________ (n_pf_coil_turns(03))___________________      1.9327E+02    
  PF_coil_03_current_(MA)_________________________________________________ (ric(03))_____________________     -8.1561E+00    
- PF_coil_03_field_(T)____________________________________________________ (bpf(03))_____________________      2.6808E+00    
- PF_coil_04_radius_(m)___________________________________________________ (rpf(04))_____________________      1.9032E+01    
- PF_coil_04_vertical_position_(m)________________________________________ (zpf(04))_____________________     -2.9606E+00    
+ PF_coil_03_field_(T)____________________________________________________ (b_pf_coil_peak(03))_____________________      2.6808E+00    
+ PF_coil_04_radius_(m)___________________________________________________ (r_pf_coil_middle(04))_____________________      1.9032E+01    
+ PF_coil_04_vertical_position_(m)________________________________________ (z_pf_coil_middle(04))_____________________     -2.9606E+00    
  PF_coil_04_radial_thickness_(m)_________________________________________ (pfdr04)______________________      1.1659E+00    
  PF_coil_04_vertical_thickness_(m)_______________________________________ (pfdz04)______________________     -1.1659E+00    
- PF_coil_04_turns________________________________________________________ (turns(04))___________________      1.9327E+02    
+ PF_coil_04_turns________________________________________________________ (n_pf_coil_turns(04))___________________      1.9327E+02    
  PF_coil_04_current_(MA)_________________________________________________ (ric(04))_____________________     -8.1561E+00    
- PF_coil_04_field_(T)____________________________________________________ (bpf(04))_____________________      2.6808E+00    
- PF_coil_05_radius_(m)___________________________________________________ (rpf(05))_____________________      1.7386E+01    
- PF_coil_05_vertical_position_(m)________________________________________ (zpf(05))_____________________      8.2897E+00    
+ PF_coil_04_field_(T)____________________________________________________ (b_pf_coil_peak(04))_____________________      2.6808E+00    
+ PF_coil_05_radius_(m)___________________________________________________ (r_pf_coil_middle(05))_____________________      1.7386E+01    
+ PF_coil_05_vertical_position_(m)________________________________________ (z_pf_coil_middle(05))_____________________      8.2897E+00    
  PF_coil_05_radial_thickness_(m)_________________________________________ (pfdr05)______________________      8.2067E-01    
  PF_coil_05_vertical_thickness_(m)_______________________________________ (pfdz05)______________________      8.2067E-01    
- PF_coil_05_turns________________________________________________________ (turns(05))___________________      1.2530E+02    
+ PF_coil_05_turns________________________________________________________ (n_pf_coil_turns(05))___________________      1.2530E+02    
  PF_coil_05_current_(MA)_________________________________________________ (ric(05))_____________________     -5.3879E+00    
- PF_coil_05_field_(T)____________________________________________________ (bpf(05))_____________________      2.5876E+00    
- PF_coil_06_radius_(m)___________________________________________________ (rpf(06))_____________________      1.7386E+01    
- PF_coil_06_vertical_position_(m)________________________________________ (zpf(06))_____________________     -8.2897E+00    
+ PF_coil_05_field_(T)____________________________________________________ (b_pf_coil_peak(05))_____________________      2.5876E+00    
+ PF_coil_06_radius_(m)___________________________________________________ (r_pf_coil_middle(06))_____________________      1.7386E+01    
+ PF_coil_06_vertical_position_(m)________________________________________ (z_pf_coil_middle(06))_____________________     -8.2897E+00    
  PF_coil_06_radial_thickness_(m)_________________________________________ (pfdr06)______________________      8.2067E-01    
  PF_coil_06_vertical_thickness_(m)_______________________________________ (pfdz06)______________________     -8.2067E-01    
- PF_coil_06_turns________________________________________________________ (turns(06))___________________      1.2530E+02    
+ PF_coil_06_turns________________________________________________________ (n_pf_coil_turns(06))___________________      1.2530E+02    
  PF_coil_06_current_(MA)_________________________________________________ (ric(06))_____________________     -5.3879E+00    
- PF_coil_06_field_(T)____________________________________________________ (bpf(06))_____________________      2.5876E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf(nohc))___________________      2.6164E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf(nohc))___________________      0.0000E+00    
+ PF_coil_06_field_(T)____________________________________________________ (b_pf_coil_peak(06))_____________________      2.5876E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle(n_cs_pf_coils))___________________      2.6164E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle(n_cs_pf_coils))___________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      7.0754E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.6640E+01    
- Central_solenoid_turns__________________________________________________ (turns(nohc))_________________      3.5015E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric(nohc))___________________     -1.5057E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf(nohc))___________________      1.1499E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns(n_cs_pf_coils))_________________      3.5015E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric(n_cs_pf_coils))___________________     -1.5057E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak(n_cs_pf_coils))___________________      1.1499E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      4.0453E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.2115E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.2115E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      1.0000E+00 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________      4.6908E-02 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      1.0000E+00 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________      4.6908E-02 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_01_-_Time_point_01_(A)_______________________________________ (pfc01t01)____________________      0.0000E+00    
  PF_Circuit_01_-_Time_point_02_(A)_______________________________________ (pfc01t02)____________________      1.2790E+07    
  PF_Circuit_01_-_Time_point_03_(A)_______________________________________ (pfc01t03)____________________      1.5750E+07    
@@ -3053,9 +3053,9 @@
  fjohc0__________________________________________________________________ (itvar015)____________________      1.3899E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0000E+00    
  fjohc0_(range_normalised)_______________________________________________ (nitvar015)___________________      1.3813E-01    
- fcohbop_________________________________________________________________ (itvar016)____________________      1.0000E+00    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar016)____________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
  gapoh___________________________________________________________________ (itvar017)____________________      5.0000E-02    
  gapoh_(final_value/initial_value)_______________________________________ (xcm017)______________________      1.0000E+00    
  gapoh_(range_normalised)________________________________________________ (nitvar017)___________________      0.0000E+00    
@@ -3391,7 +3391,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      5.1000E+01    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      4.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.2750E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.2115E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.2115E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      3.6189E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.3054E+02    
  # Times #
@@ -3440,7 +3440,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      7.6976E+00    
@@ -3601,26 +3601,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      7.5516E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      6.4527E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              5    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.1499E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      6.6143E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              5    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.1499E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      6.6143E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.9843E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      9.2008E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.2788E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.0525E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      8.1933E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      9.2008E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.2788E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.0525E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      8.1933E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      2.4580E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      1.1397E+08 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      1.2788E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      1.1397E+08 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      1.2788E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore.)_______________________      2.2626E+00    
  CS_thickness_(m)________________________________________________________ (dr_cs.)______________________      7.0754E-01    
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      5.0000E-02 ITV
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      1.1774E+01 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      1.1774E+01 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      7.7989E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      5.4592E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      2.3397E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      3.9748E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      3.3760E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      5.4592E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      2.3397E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      3.9748E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      3.3760E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      6.6000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.6000E+08 OP 
@@ -3629,72 +3629,72 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.2933E+09 OP 
  Strain_on_CS_superconductor_____________________________________________ (strncon_cs)__________________     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      4.1259E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      4.1259E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_01_radius_(m)___________________________________________________ (rpf(01))_____________________      6.4763E+00    
- PF_coil_01_vertical_position_(m)________________________________________ (zpf(01))_____________________      9.9877E+00    
+ PF_coil_01_radius_(m)___________________________________________________ (r_pf_coil_middle(01))_____________________      6.4763E+00    
+ PF_coil_01_vertical_position_(m)________________________________________ (z_pf_coil_middle(01))_____________________      9.9877E+00    
  PF_coil_01_radial_thickness_(m)_________________________________________ (pfdr01)______________________      1.1966E+00    
  PF_coil_01_vertical_thickness_(m)_______________________________________ (pfdz01)______________________      1.1966E+00    
- PF_coil_01_turns________________________________________________________ (turns(01))___________________      3.7322E+02    
+ PF_coil_01_turns________________________________________________________ (n_pf_coil_turns(01))___________________      3.7322E+02    
  PF_coil_01_current_(MA)_________________________________________________ (ric(01))_____________________      1.5750E+01    
- PF_coil_01_field_(T)____________________________________________________ (bpf(01))_____________________      4.7287E+00    
- PF_coil_02_radius_(m)___________________________________________________ (rpf(02))_____________________      6.4763E+00    
- PF_coil_02_vertical_position_(m)________________________________________ (zpf(02))_____________________     -1.1505E+01    
+ PF_coil_01_field_(T)____________________________________________________ (b_pf_coil_peak(01))_____________________      4.7287E+00    
+ PF_coil_02_radius_(m)___________________________________________________ (r_pf_coil_middle(02))_____________________      6.4763E+00    
+ PF_coil_02_vertical_position_(m)________________________________________ (z_pf_coil_middle(02))_____________________     -1.1505E+01    
  PF_coil_02_radial_thickness_(m)_________________________________________ (pfdr02)______________________      1.2848E+00    
  PF_coil_02_vertical_thickness_(m)_______________________________________ (pfdz02)______________________     -1.2848E+00    
- PF_coil_02_turns________________________________________________________ (turns(02))___________________      4.3026E+02    
+ PF_coil_02_turns________________________________________________________ (n_pf_coil_turns(02))___________________      4.3026E+02    
  PF_coil_02_current_(MA)_________________________________________________ (ric(02))_____________________      1.8157E+01    
- PF_coil_02_field_(T)____________________________________________________ (bpf(02))_____________________      5.1781E+00    
- PF_coil_03_radius_(m)___________________________________________________ (rpf(03))_____________________      1.9032E+01    
- PF_coil_03_vertical_position_(m)________________________________________ (zpf(03))_____________________      2.9606E+00    
+ PF_coil_02_field_(T)____________________________________________________ (b_pf_coil_peak(02))_____________________      5.1781E+00    
+ PF_coil_03_radius_(m)___________________________________________________ (r_pf_coil_middle(03))_____________________      1.9032E+01    
+ PF_coil_03_vertical_position_(m)________________________________________ (z_pf_coil_middle(03))_____________________      2.9606E+00    
  PF_coil_03_radial_thickness_(m)_________________________________________ (pfdr03)______________________      1.1659E+00    
  PF_coil_03_vertical_thickness_(m)_______________________________________ (pfdz03)______________________      1.1659E+00    
- PF_coil_03_turns________________________________________________________ (turns(03))___________________      1.9327E+02    
+ PF_coil_03_turns________________________________________________________ (n_pf_coil_turns(03))___________________      1.9327E+02    
  PF_coil_03_current_(MA)_________________________________________________ (ric(03))_____________________     -8.1561E+00    
- PF_coil_03_field_(T)____________________________________________________ (bpf(03))_____________________      2.6808E+00    
- PF_coil_04_radius_(m)___________________________________________________ (rpf(04))_____________________      1.9032E+01    
- PF_coil_04_vertical_position_(m)________________________________________ (zpf(04))_____________________     -2.9606E+00    
+ PF_coil_03_field_(T)____________________________________________________ (b_pf_coil_peak(03))_____________________      2.6808E+00    
+ PF_coil_04_radius_(m)___________________________________________________ (r_pf_coil_middle(04))_____________________      1.9032E+01    
+ PF_coil_04_vertical_position_(m)________________________________________ (z_pf_coil_middle(04))_____________________     -2.9606E+00    
  PF_coil_04_radial_thickness_(m)_________________________________________ (pfdr04)______________________      1.1659E+00    
  PF_coil_04_vertical_thickness_(m)_______________________________________ (pfdz04)______________________     -1.1659E+00    
- PF_coil_04_turns________________________________________________________ (turns(04))___________________      1.9327E+02    
+ PF_coil_04_turns________________________________________________________ (n_pf_coil_turns(04))___________________      1.9327E+02    
  PF_coil_04_current_(MA)_________________________________________________ (ric(04))_____________________     -8.1561E+00    
- PF_coil_04_field_(T)____________________________________________________ (bpf(04))_____________________      2.6808E+00    
- PF_coil_05_radius_(m)___________________________________________________ (rpf(05))_____________________      1.7386E+01    
- PF_coil_05_vertical_position_(m)________________________________________ (zpf(05))_____________________      8.2897E+00    
+ PF_coil_04_field_(T)____________________________________________________ (b_pf_coil_peak(04))_____________________      2.6808E+00    
+ PF_coil_05_radius_(m)___________________________________________________ (r_pf_coil_middle(05))_____________________      1.7386E+01    
+ PF_coil_05_vertical_position_(m)________________________________________ (z_pf_coil_middle(05))_____________________      8.2897E+00    
  PF_coil_05_radial_thickness_(m)_________________________________________ (pfdr05)______________________      8.2067E-01    
  PF_coil_05_vertical_thickness_(m)_______________________________________ (pfdz05)______________________      8.2067E-01    
- PF_coil_05_turns________________________________________________________ (turns(05))___________________      1.2530E+02    
+ PF_coil_05_turns________________________________________________________ (n_pf_coil_turns(05))___________________      1.2530E+02    
  PF_coil_05_current_(MA)_________________________________________________ (ric(05))_____________________     -5.3879E+00    
- PF_coil_05_field_(T)____________________________________________________ (bpf(05))_____________________      2.5876E+00    
- PF_coil_06_radius_(m)___________________________________________________ (rpf(06))_____________________      1.7386E+01    
- PF_coil_06_vertical_position_(m)________________________________________ (zpf(06))_____________________     -8.2897E+00    
+ PF_coil_05_field_(T)____________________________________________________ (b_pf_coil_peak(05))_____________________      2.5876E+00    
+ PF_coil_06_radius_(m)___________________________________________________ (r_pf_coil_middle(06))_____________________      1.7386E+01    
+ PF_coil_06_vertical_position_(m)________________________________________ (z_pf_coil_middle(06))_____________________     -8.2897E+00    
  PF_coil_06_radial_thickness_(m)_________________________________________ (pfdr06)______________________      8.2067E-01    
  PF_coil_06_vertical_thickness_(m)_______________________________________ (pfdz06)______________________     -8.2067E-01    
- PF_coil_06_turns________________________________________________________ (turns(06))___________________      1.2530E+02    
+ PF_coil_06_turns________________________________________________________ (n_pf_coil_turns(06))___________________      1.2530E+02    
  PF_coil_06_current_(MA)_________________________________________________ (ric(06))_____________________     -5.3879E+00    
- PF_coil_06_field_(T)____________________________________________________ (bpf(06))_____________________      2.5876E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf(nohc))___________________      2.6164E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf(nohc))___________________      0.0000E+00    
+ PF_coil_06_field_(T)____________________________________________________ (b_pf_coil_peak(06))_____________________      2.5876E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle(n_cs_pf_coils))___________________      2.6164E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle(n_cs_pf_coils))___________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      7.0754E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.6640E+01    
- Central_solenoid_turns__________________________________________________ (turns(nohc))_________________      3.5015E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric(nohc))___________________     -1.5057E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf(nohc))___________________      1.1499E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns(n_cs_pf_coils))_________________      3.5015E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric(n_cs_pf_coils))___________________     -1.5057E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak(n_cs_pf_coils))___________________      1.1499E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      4.0453E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.2115E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.2115E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      1.0000E+00 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________      4.6908E-02 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      1.0000E+00 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________      4.6908E-02 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_01_-_Time_point_01_(A)_______________________________________ (pfc01t01)____________________      0.0000E+00    
  PF_Circuit_01_-_Time_point_02_(A)_______________________________________ (pfc01t02)____________________      1.2790E+07    
  PF_Circuit_01_-_Time_point_03_(A)_______________________________________ (pfc01t03)____________________      1.5750E+07    
@@ -4048,9 +4048,9 @@
  fjohc0__________________________________________________________________ (itvar015)____________________      1.3899E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0000E+00    
  fjohc0_(range_normalised)_______________________________________________ (nitvar015)___________________      1.3813E-01    
- fcohbop_________________________________________________________________ (itvar016)____________________      1.0000E+00    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar016)____________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
  gapoh___________________________________________________________________ (itvar017)____________________      5.0000E-02    
  gapoh_(final_value/initial_value)_______________________________________ (xcm017)______________________      1.0000E+00    
  gapoh_(range_normalised)________________________________________________ (nitvar017)___________________      0.0000E+00    
@@ -4386,7 +4386,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      5.1000E+01    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      4.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.2750E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.2115E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.2115E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      3.6189E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.3054E+02    
  # Times #
@@ -4435,7 +4435,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      7.6976E+00    
@@ -4596,26 +4596,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      7.5516E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      6.4527E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              5    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.1499E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      6.6143E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              5    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.1499E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      6.6143E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.9843E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      9.2008E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.2788E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.0525E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      8.1933E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      9.2008E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.2788E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.0525E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      8.1933E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      2.4580E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      1.1397E+08 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      1.2788E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      1.1397E+08 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      1.2788E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore.)_______________________      2.2626E+00    
  CS_thickness_(m)________________________________________________________ (dr_cs.)______________________      7.0754E-01    
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      5.0000E-02 ITV
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      1.1774E+01 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      1.1774E+01 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      7.7989E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      5.4592E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      2.3397E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      3.9748E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      3.3760E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      5.4592E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      2.3397E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      3.9748E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      3.3760E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      6.6000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.6000E+08 OP 
@@ -4624,72 +4624,72 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.2933E+09 OP 
  Strain_on_CS_superconductor_____________________________________________ (strncon_cs)__________________     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      4.1259E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      4.1259E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_01_radius_(m)___________________________________________________ (rpf(01))_____________________      6.4763E+00    
- PF_coil_01_vertical_position_(m)________________________________________ (zpf(01))_____________________      9.9877E+00    
+ PF_coil_01_radius_(m)___________________________________________________ (r_pf_coil_middle(01))_____________________      6.4763E+00    
+ PF_coil_01_vertical_position_(m)________________________________________ (z_pf_coil_middle(01))_____________________      9.9877E+00    
  PF_coil_01_radial_thickness_(m)_________________________________________ (pfdr01)______________________      1.1966E+00    
  PF_coil_01_vertical_thickness_(m)_______________________________________ (pfdz01)______________________      1.1966E+00    
- PF_coil_01_turns________________________________________________________ (turns(01))___________________      3.7322E+02    
+ PF_coil_01_turns________________________________________________________ (n_pf_coil_turns(01))___________________      3.7322E+02    
  PF_coil_01_current_(MA)_________________________________________________ (ric(01))_____________________      1.5750E+01    
- PF_coil_01_field_(T)____________________________________________________ (bpf(01))_____________________      4.7287E+00    
- PF_coil_02_radius_(m)___________________________________________________ (rpf(02))_____________________      6.4763E+00    
- PF_coil_02_vertical_position_(m)________________________________________ (zpf(02))_____________________     -1.1505E+01    
+ PF_coil_01_field_(T)____________________________________________________ (b_pf_coil_peak(01))_____________________      4.7287E+00    
+ PF_coil_02_radius_(m)___________________________________________________ (r_pf_coil_middle(02))_____________________      6.4763E+00    
+ PF_coil_02_vertical_position_(m)________________________________________ (z_pf_coil_middle(02))_____________________     -1.1505E+01    
  PF_coil_02_radial_thickness_(m)_________________________________________ (pfdr02)______________________      1.2848E+00    
  PF_coil_02_vertical_thickness_(m)_______________________________________ (pfdz02)______________________     -1.2848E+00    
- PF_coil_02_turns________________________________________________________ (turns(02))___________________      4.3026E+02    
+ PF_coil_02_turns________________________________________________________ (n_pf_coil_turns(02))___________________      4.3026E+02    
  PF_coil_02_current_(MA)_________________________________________________ (ric(02))_____________________      1.8157E+01    
- PF_coil_02_field_(T)____________________________________________________ (bpf(02))_____________________      5.1781E+00    
- PF_coil_03_radius_(m)___________________________________________________ (rpf(03))_____________________      1.9032E+01    
- PF_coil_03_vertical_position_(m)________________________________________ (zpf(03))_____________________      2.9606E+00    
+ PF_coil_02_field_(T)____________________________________________________ (b_pf_coil_peak(02))_____________________      5.1781E+00    
+ PF_coil_03_radius_(m)___________________________________________________ (r_pf_coil_middle(03))_____________________      1.9032E+01    
+ PF_coil_03_vertical_position_(m)________________________________________ (z_pf_coil_middle(03))_____________________      2.9606E+00    
  PF_coil_03_radial_thickness_(m)_________________________________________ (pfdr03)______________________      1.1659E+00    
  PF_coil_03_vertical_thickness_(m)_______________________________________ (pfdz03)______________________      1.1659E+00    
- PF_coil_03_turns________________________________________________________ (turns(03))___________________      1.9327E+02    
+ PF_coil_03_turns________________________________________________________ (n_pf_coil_turns(03))___________________      1.9327E+02    
  PF_coil_03_current_(MA)_________________________________________________ (ric(03))_____________________     -8.1561E+00    
- PF_coil_03_field_(T)____________________________________________________ (bpf(03))_____________________      2.6808E+00    
- PF_coil_04_radius_(m)___________________________________________________ (rpf(04))_____________________      1.9032E+01    
- PF_coil_04_vertical_position_(m)________________________________________ (zpf(04))_____________________     -2.9606E+00    
+ PF_coil_03_field_(T)____________________________________________________ (b_pf_coil_peak(03))_____________________      2.6808E+00    
+ PF_coil_04_radius_(m)___________________________________________________ (r_pf_coil_middle(04))_____________________      1.9032E+01    
+ PF_coil_04_vertical_position_(m)________________________________________ (z_pf_coil_middle(04))_____________________     -2.9606E+00    
  PF_coil_04_radial_thickness_(m)_________________________________________ (pfdr04)______________________      1.1659E+00    
  PF_coil_04_vertical_thickness_(m)_______________________________________ (pfdz04)______________________     -1.1659E+00    
- PF_coil_04_turns________________________________________________________ (turns(04))___________________      1.9327E+02    
+ PF_coil_04_turns________________________________________________________ (n_pf_coil_turns(04))___________________      1.9327E+02    
  PF_coil_04_current_(MA)_________________________________________________ (ric(04))_____________________     -8.1561E+00    
- PF_coil_04_field_(T)____________________________________________________ (bpf(04))_____________________      2.6808E+00    
- PF_coil_05_radius_(m)___________________________________________________ (rpf(05))_____________________      1.7386E+01    
- PF_coil_05_vertical_position_(m)________________________________________ (zpf(05))_____________________      8.2897E+00    
+ PF_coil_04_field_(T)____________________________________________________ (b_pf_coil_peak(04))_____________________      2.6808E+00    
+ PF_coil_05_radius_(m)___________________________________________________ (r_pf_coil_middle(05))_____________________      1.7386E+01    
+ PF_coil_05_vertical_position_(m)________________________________________ (z_pf_coil_middle(05))_____________________      8.2897E+00    
  PF_coil_05_radial_thickness_(m)_________________________________________ (pfdr05)______________________      8.2067E-01    
  PF_coil_05_vertical_thickness_(m)_______________________________________ (pfdz05)______________________      8.2067E-01    
- PF_coil_05_turns________________________________________________________ (turns(05))___________________      1.2530E+02    
+ PF_coil_05_turns________________________________________________________ (n_pf_coil_turns(05))___________________      1.2530E+02    
  PF_coil_05_current_(MA)_________________________________________________ (ric(05))_____________________     -5.3879E+00    
- PF_coil_05_field_(T)____________________________________________________ (bpf(05))_____________________      2.5876E+00    
- PF_coil_06_radius_(m)___________________________________________________ (rpf(06))_____________________      1.7386E+01    
- PF_coil_06_vertical_position_(m)________________________________________ (zpf(06))_____________________     -8.2897E+00    
+ PF_coil_05_field_(T)____________________________________________________ (b_pf_coil_peak(05))_____________________      2.5876E+00    
+ PF_coil_06_radius_(m)___________________________________________________ (r_pf_coil_middle(06))_____________________      1.7386E+01    
+ PF_coil_06_vertical_position_(m)________________________________________ (z_pf_coil_middle(06))_____________________     -8.2897E+00    
  PF_coil_06_radial_thickness_(m)_________________________________________ (pfdr06)______________________      8.2067E-01    
  PF_coil_06_vertical_thickness_(m)_______________________________________ (pfdz06)______________________     -8.2067E-01    
- PF_coil_06_turns________________________________________________________ (turns(06))___________________      1.2530E+02    
+ PF_coil_06_turns________________________________________________________ (n_pf_coil_turns(06))___________________      1.2530E+02    
  PF_coil_06_current_(MA)_________________________________________________ (ric(06))_____________________     -5.3879E+00    
- PF_coil_06_field_(T)____________________________________________________ (bpf(06))_____________________      2.5876E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf(nohc))___________________      2.6164E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf(nohc))___________________      0.0000E+00    
+ PF_coil_06_field_(T)____________________________________________________ (b_pf_coil_peak(06))_____________________      2.5876E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle(n_cs_pf_coils))___________________      2.6164E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle(n_cs_pf_coils))___________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      7.0754E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.6640E+01    
- Central_solenoid_turns__________________________________________________ (turns(nohc))_________________      3.5015E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric(nohc))___________________     -1.5057E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf(nohc))___________________      1.1499E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns(n_cs_pf_coils))_________________      3.5015E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric(n_cs_pf_coils))___________________     -1.5057E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak(n_cs_pf_coils))___________________      1.1499E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      4.0453E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.2115E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.2115E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      1.0000E+00 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________      4.6908E-02 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      1.0000E+00 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________      4.6908E-02 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_01_-_Time_point_01_(A)_______________________________________ (pfc01t01)____________________      0.0000E+00    
  PF_Circuit_01_-_Time_point_02_(A)_______________________________________ (pfc01t02)____________________      1.2790E+07    
  PF_Circuit_01_-_Time_point_03_(A)_______________________________________ (pfc01t03)____________________      1.5750E+07    
@@ -5043,9 +5043,9 @@
  fjohc0__________________________________________________________________ (itvar015)____________________      1.3899E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0000E+00    
  fjohc0_(range_normalised)_______________________________________________ (nitvar015)___________________      1.3813E-01    
- fcohbop_________________________________________________________________ (itvar016)____________________      1.0000E+00    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar016)____________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
  gapoh___________________________________________________________________ (itvar017)____________________      5.0000E-02    
  gapoh_(final_value/initial_value)_______________________________________ (xcm017)______________________      1.0000E+00    
  gapoh_(range_normalised)________________________________________________ (nitvar017)___________________      0.0000E+00    
@@ -5381,7 +5381,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      5.1000E+01    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      4.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.2750E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.2115E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.2115E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      3.6189E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.3054E+02    
  # Times #
@@ -5430,7 +5430,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      7.6976E+00    
@@ -5591,26 +5591,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      7.5516E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      6.4527E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              5    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.1499E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      6.6143E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              5    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.1499E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      6.6143E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.9843E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      9.2008E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.2788E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.0525E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      8.1933E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      9.2008E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.2788E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.0525E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      8.1933E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      2.4580E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      1.1397E+08 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      1.2788E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      1.1397E+08 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      1.2788E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore.)_______________________      2.2626E+00    
  CS_thickness_(m)________________________________________________________ (dr_cs.)______________________      7.0754E-01    
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      5.0000E-02 ITV
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      1.1774E+01 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      1.1774E+01 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      7.7989E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      5.4592E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      2.3397E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      3.9748E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      3.3760E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      5.4592E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      2.3397E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      3.9748E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      3.3760E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      6.6000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.6000E+08 OP 
@@ -5619,72 +5619,72 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.2933E+09 OP 
  Strain_on_CS_superconductor_____________________________________________ (strncon_cs)__________________     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      4.1259E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      4.1259E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_01_radius_(m)___________________________________________________ (rpf(01))_____________________      6.4763E+00    
- PF_coil_01_vertical_position_(m)________________________________________ (zpf(01))_____________________      9.9877E+00    
+ PF_coil_01_radius_(m)___________________________________________________ (r_pf_coil_middle(01))_____________________      6.4763E+00    
+ PF_coil_01_vertical_position_(m)________________________________________ (z_pf_coil_middle(01))_____________________      9.9877E+00    
  PF_coil_01_radial_thickness_(m)_________________________________________ (pfdr01)______________________      1.1966E+00    
  PF_coil_01_vertical_thickness_(m)_______________________________________ (pfdz01)______________________      1.1966E+00    
- PF_coil_01_turns________________________________________________________ (turns(01))___________________      3.7322E+02    
+ PF_coil_01_turns________________________________________________________ (n_pf_coil_turns(01))___________________      3.7322E+02    
  PF_coil_01_current_(MA)_________________________________________________ (ric(01))_____________________      1.5750E+01    
- PF_coil_01_field_(T)____________________________________________________ (bpf(01))_____________________      4.7287E+00    
- PF_coil_02_radius_(m)___________________________________________________ (rpf(02))_____________________      6.4763E+00    
- PF_coil_02_vertical_position_(m)________________________________________ (zpf(02))_____________________     -1.1505E+01    
+ PF_coil_01_field_(T)____________________________________________________ (b_pf_coil_peak(01))_____________________      4.7287E+00    
+ PF_coil_02_radius_(m)___________________________________________________ (r_pf_coil_middle(02))_____________________      6.4763E+00    
+ PF_coil_02_vertical_position_(m)________________________________________ (z_pf_coil_middle(02))_____________________     -1.1505E+01    
  PF_coil_02_radial_thickness_(m)_________________________________________ (pfdr02)______________________      1.2848E+00    
  PF_coil_02_vertical_thickness_(m)_______________________________________ (pfdz02)______________________     -1.2848E+00    
- PF_coil_02_turns________________________________________________________ (turns(02))___________________      4.3026E+02    
+ PF_coil_02_turns________________________________________________________ (n_pf_coil_turns(02))___________________      4.3026E+02    
  PF_coil_02_current_(MA)_________________________________________________ (ric(02))_____________________      1.8157E+01    
- PF_coil_02_field_(T)____________________________________________________ (bpf(02))_____________________      5.1781E+00    
- PF_coil_03_radius_(m)___________________________________________________ (rpf(03))_____________________      1.9032E+01    
- PF_coil_03_vertical_position_(m)________________________________________ (zpf(03))_____________________      2.9606E+00    
+ PF_coil_02_field_(T)____________________________________________________ (b_pf_coil_peak(02))_____________________      5.1781E+00    
+ PF_coil_03_radius_(m)___________________________________________________ (r_pf_coil_middle(03))_____________________      1.9032E+01    
+ PF_coil_03_vertical_position_(m)________________________________________ (z_pf_coil_middle(03))_____________________      2.9606E+00    
  PF_coil_03_radial_thickness_(m)_________________________________________ (pfdr03)______________________      1.1659E+00    
  PF_coil_03_vertical_thickness_(m)_______________________________________ (pfdz03)______________________      1.1659E+00    
- PF_coil_03_turns________________________________________________________ (turns(03))___________________      1.9327E+02    
+ PF_coil_03_turns________________________________________________________ (n_pf_coil_turns(03))___________________      1.9327E+02    
  PF_coil_03_current_(MA)_________________________________________________ (ric(03))_____________________     -8.1561E+00    
- PF_coil_03_field_(T)____________________________________________________ (bpf(03))_____________________      2.6808E+00    
- PF_coil_04_radius_(m)___________________________________________________ (rpf(04))_____________________      1.9032E+01    
- PF_coil_04_vertical_position_(m)________________________________________ (zpf(04))_____________________     -2.9606E+00    
+ PF_coil_03_field_(T)____________________________________________________ (b_pf_coil_peak(03))_____________________      2.6808E+00    
+ PF_coil_04_radius_(m)___________________________________________________ (r_pf_coil_middle(04))_____________________      1.9032E+01    
+ PF_coil_04_vertical_position_(m)________________________________________ (z_pf_coil_middle(04))_____________________     -2.9606E+00    
  PF_coil_04_radial_thickness_(m)_________________________________________ (pfdr04)______________________      1.1659E+00    
  PF_coil_04_vertical_thickness_(m)_______________________________________ (pfdz04)______________________     -1.1659E+00    
- PF_coil_04_turns________________________________________________________ (turns(04))___________________      1.9327E+02    
+ PF_coil_04_turns________________________________________________________ (n_pf_coil_turns(04))___________________      1.9327E+02    
  PF_coil_04_current_(MA)_________________________________________________ (ric(04))_____________________     -8.1561E+00    
- PF_coil_04_field_(T)____________________________________________________ (bpf(04))_____________________      2.6808E+00    
- PF_coil_05_radius_(m)___________________________________________________ (rpf(05))_____________________      1.7386E+01    
- PF_coil_05_vertical_position_(m)________________________________________ (zpf(05))_____________________      8.2897E+00    
+ PF_coil_04_field_(T)____________________________________________________ (b_pf_coil_peak(04))_____________________      2.6808E+00    
+ PF_coil_05_radius_(m)___________________________________________________ (r_pf_coil_middle(05))_____________________      1.7386E+01    
+ PF_coil_05_vertical_position_(m)________________________________________ (z_pf_coil_middle(05))_____________________      8.2897E+00    
  PF_coil_05_radial_thickness_(m)_________________________________________ (pfdr05)______________________      8.2067E-01    
  PF_coil_05_vertical_thickness_(m)_______________________________________ (pfdz05)______________________      8.2067E-01    
- PF_coil_05_turns________________________________________________________ (turns(05))___________________      1.2530E+02    
+ PF_coil_05_turns________________________________________________________ (n_pf_coil_turns(05))___________________      1.2530E+02    
  PF_coil_05_current_(MA)_________________________________________________ (ric(05))_____________________     -5.3879E+00    
- PF_coil_05_field_(T)____________________________________________________ (bpf(05))_____________________      2.5876E+00    
- PF_coil_06_radius_(m)___________________________________________________ (rpf(06))_____________________      1.7386E+01    
- PF_coil_06_vertical_position_(m)________________________________________ (zpf(06))_____________________     -8.2897E+00    
+ PF_coil_05_field_(T)____________________________________________________ (b_pf_coil_peak(05))_____________________      2.5876E+00    
+ PF_coil_06_radius_(m)___________________________________________________ (r_pf_coil_middle(06))_____________________      1.7386E+01    
+ PF_coil_06_vertical_position_(m)________________________________________ (z_pf_coil_middle(06))_____________________     -8.2897E+00    
  PF_coil_06_radial_thickness_(m)_________________________________________ (pfdr06)______________________      8.2067E-01    
  PF_coil_06_vertical_thickness_(m)_______________________________________ (pfdz06)______________________     -8.2067E-01    
- PF_coil_06_turns________________________________________________________ (turns(06))___________________      1.2530E+02    
+ PF_coil_06_turns________________________________________________________ (n_pf_coil_turns(06))___________________      1.2530E+02    
  PF_coil_06_current_(MA)_________________________________________________ (ric(06))_____________________     -5.3879E+00    
- PF_coil_06_field_(T)____________________________________________________ (bpf(06))_____________________      2.5876E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf(nohc))___________________      2.6164E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf(nohc))___________________      0.0000E+00    
+ PF_coil_06_field_(T)____________________________________________________ (b_pf_coil_peak(06))_____________________      2.5876E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle(n_cs_pf_coils))___________________      2.6164E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle(n_cs_pf_coils))___________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      7.0754E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.6640E+01    
- Central_solenoid_turns__________________________________________________ (turns(nohc))_________________      3.5015E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric(nohc))___________________     -1.5057E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf(nohc))___________________      1.1499E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns(n_cs_pf_coils))_________________      3.5015E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric(n_cs_pf_coils))___________________     -1.5057E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak(n_cs_pf_coils))___________________      1.1499E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      4.0453E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.2115E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.2115E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      1.0000E+00 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________      4.6908E-02 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      1.0000E+00 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________      4.6908E-02 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_01_-_Time_point_01_(A)_______________________________________ (pfc01t01)____________________      0.0000E+00    
  PF_Circuit_01_-_Time_point_02_(A)_______________________________________ (pfc01t02)____________________      1.2790E+07    
  PF_Circuit_01_-_Time_point_03_(A)_______________________________________ (pfc01t03)____________________      1.5750E+07    
@@ -6038,9 +6038,9 @@
  fjohc0__________________________________________________________________ (itvar015)____________________      1.3899E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0000E+00    
  fjohc0_(range_normalised)_______________________________________________ (nitvar015)___________________      1.3813E-01    
- fcohbop_________________________________________________________________ (itvar016)____________________      1.0000E+00    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar016)____________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
  gapoh___________________________________________________________________ (itvar017)____________________      5.0000E-02    
  gapoh_(final_value/initial_value)_______________________________________ (xcm017)______________________      1.0000E+00    
  gapoh_(range_normalised)________________________________________________ (nitvar017)___________________      0.0000E+00    
@@ -6376,7 +6376,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      5.1000E+01    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      4.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.2750E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.2115E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.2115E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      3.6189E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.3054E+02    
  # Times #
@@ -6425,7 +6425,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      7.6976E+00    
@@ -6586,26 +6586,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      7.5516E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      6.4527E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              5    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.1499E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      6.6143E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              5    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.1499E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      6.6143E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.9843E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      9.2008E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.2788E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.0525E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      8.1933E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      9.2008E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.2788E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.0525E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      8.1933E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      2.4580E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      1.1397E+08 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      1.2788E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      1.1397E+08 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      1.2788E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore.)_______________________      2.2626E+00    
  CS_thickness_(m)________________________________________________________ (dr_cs.)______________________      7.0754E-01    
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      5.0000E-02 ITV
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      1.1774E+01 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      1.1774E+01 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      7.7989E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      5.4592E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      2.3397E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      3.9748E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      3.3760E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      5.4592E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      2.3397E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      3.9748E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      3.3760E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      6.6000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.6000E+08 OP 
@@ -6614,72 +6614,72 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.2933E+09 OP 
  Strain_on_CS_superconductor_____________________________________________ (strncon_cs)__________________     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      4.1259E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      4.1259E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_01_radius_(m)___________________________________________________ (rpf(01))_____________________      6.4763E+00    
- PF_coil_01_vertical_position_(m)________________________________________ (zpf(01))_____________________      9.9877E+00    
+ PF_coil_01_radius_(m)___________________________________________________ (r_pf_coil_middle(01))_____________________      6.4763E+00    
+ PF_coil_01_vertical_position_(m)________________________________________ (z_pf_coil_middle(01))_____________________      9.9877E+00    
  PF_coil_01_radial_thickness_(m)_________________________________________ (pfdr01)______________________      1.1966E+00    
  PF_coil_01_vertical_thickness_(m)_______________________________________ (pfdz01)______________________      1.1966E+00    
- PF_coil_01_turns________________________________________________________ (turns(01))___________________      3.7322E+02    
+ PF_coil_01_turns________________________________________________________ (n_pf_coil_turns(01))___________________      3.7322E+02    
  PF_coil_01_current_(MA)_________________________________________________ (ric(01))_____________________      1.5750E+01    
- PF_coil_01_field_(T)____________________________________________________ (bpf(01))_____________________      4.7287E+00    
- PF_coil_02_radius_(m)___________________________________________________ (rpf(02))_____________________      6.4763E+00    
- PF_coil_02_vertical_position_(m)________________________________________ (zpf(02))_____________________     -1.1505E+01    
+ PF_coil_01_field_(T)____________________________________________________ (b_pf_coil_peak(01))_____________________      4.7287E+00    
+ PF_coil_02_radius_(m)___________________________________________________ (r_pf_coil_middle(02))_____________________      6.4763E+00    
+ PF_coil_02_vertical_position_(m)________________________________________ (z_pf_coil_middle(02))_____________________     -1.1505E+01    
  PF_coil_02_radial_thickness_(m)_________________________________________ (pfdr02)______________________      1.2848E+00    
  PF_coil_02_vertical_thickness_(m)_______________________________________ (pfdz02)______________________     -1.2848E+00    
- PF_coil_02_turns________________________________________________________ (turns(02))___________________      4.3026E+02    
+ PF_coil_02_turns________________________________________________________ (n_pf_coil_turns(02))___________________      4.3026E+02    
  PF_coil_02_current_(MA)_________________________________________________ (ric(02))_____________________      1.8157E+01    
- PF_coil_02_field_(T)____________________________________________________ (bpf(02))_____________________      5.1781E+00    
- PF_coil_03_radius_(m)___________________________________________________ (rpf(03))_____________________      1.9032E+01    
- PF_coil_03_vertical_position_(m)________________________________________ (zpf(03))_____________________      2.9606E+00    
+ PF_coil_02_field_(T)____________________________________________________ (b_pf_coil_peak(02))_____________________      5.1781E+00    
+ PF_coil_03_radius_(m)___________________________________________________ (r_pf_coil_middle(03))_____________________      1.9032E+01    
+ PF_coil_03_vertical_position_(m)________________________________________ (z_pf_coil_middle(03))_____________________      2.9606E+00    
  PF_coil_03_radial_thickness_(m)_________________________________________ (pfdr03)______________________      1.1659E+00    
  PF_coil_03_vertical_thickness_(m)_______________________________________ (pfdz03)______________________      1.1659E+00    
- PF_coil_03_turns________________________________________________________ (turns(03))___________________      1.9327E+02    
+ PF_coil_03_turns________________________________________________________ (n_pf_coil_turns(03))___________________      1.9327E+02    
  PF_coil_03_current_(MA)_________________________________________________ (ric(03))_____________________     -8.1561E+00    
- PF_coil_03_field_(T)____________________________________________________ (bpf(03))_____________________      2.6808E+00    
- PF_coil_04_radius_(m)___________________________________________________ (rpf(04))_____________________      1.9032E+01    
- PF_coil_04_vertical_position_(m)________________________________________ (zpf(04))_____________________     -2.9606E+00    
+ PF_coil_03_field_(T)____________________________________________________ (b_pf_coil_peak(03))_____________________      2.6808E+00    
+ PF_coil_04_radius_(m)___________________________________________________ (r_pf_coil_middle(04))_____________________      1.9032E+01    
+ PF_coil_04_vertical_position_(m)________________________________________ (z_pf_coil_middle(04))_____________________     -2.9606E+00    
  PF_coil_04_radial_thickness_(m)_________________________________________ (pfdr04)______________________      1.1659E+00    
  PF_coil_04_vertical_thickness_(m)_______________________________________ (pfdz04)______________________     -1.1659E+00    
- PF_coil_04_turns________________________________________________________ (turns(04))___________________      1.9327E+02    
+ PF_coil_04_turns________________________________________________________ (n_pf_coil_turns(04))___________________      1.9327E+02    
  PF_coil_04_current_(MA)_________________________________________________ (ric(04))_____________________     -8.1561E+00    
- PF_coil_04_field_(T)____________________________________________________ (bpf(04))_____________________      2.6808E+00    
- PF_coil_05_radius_(m)___________________________________________________ (rpf(05))_____________________      1.7386E+01    
- PF_coil_05_vertical_position_(m)________________________________________ (zpf(05))_____________________      8.2897E+00    
+ PF_coil_04_field_(T)____________________________________________________ (b_pf_coil_peak(04))_____________________      2.6808E+00    
+ PF_coil_05_radius_(m)___________________________________________________ (r_pf_coil_middle(05))_____________________      1.7386E+01    
+ PF_coil_05_vertical_position_(m)________________________________________ (z_pf_coil_middle(05))_____________________      8.2897E+00    
  PF_coil_05_radial_thickness_(m)_________________________________________ (pfdr05)______________________      8.2067E-01    
  PF_coil_05_vertical_thickness_(m)_______________________________________ (pfdz05)______________________      8.2067E-01    
- PF_coil_05_turns________________________________________________________ (turns(05))___________________      1.2530E+02    
+ PF_coil_05_turns________________________________________________________ (n_pf_coil_turns(05))___________________      1.2530E+02    
  PF_coil_05_current_(MA)_________________________________________________ (ric(05))_____________________     -5.3879E+00    
- PF_coil_05_field_(T)____________________________________________________ (bpf(05))_____________________      2.5876E+00    
- PF_coil_06_radius_(m)___________________________________________________ (rpf(06))_____________________      1.7386E+01    
- PF_coil_06_vertical_position_(m)________________________________________ (zpf(06))_____________________     -8.2897E+00    
+ PF_coil_05_field_(T)____________________________________________________ (b_pf_coil_peak(05))_____________________      2.5876E+00    
+ PF_coil_06_radius_(m)___________________________________________________ (r_pf_coil_middle(06))_____________________      1.7386E+01    
+ PF_coil_06_vertical_position_(m)________________________________________ (z_pf_coil_middle(06))_____________________     -8.2897E+00    
  PF_coil_06_radial_thickness_(m)_________________________________________ (pfdr06)______________________      8.2067E-01    
  PF_coil_06_vertical_thickness_(m)_______________________________________ (pfdz06)______________________     -8.2067E-01    
- PF_coil_06_turns________________________________________________________ (turns(06))___________________      1.2530E+02    
+ PF_coil_06_turns________________________________________________________ (n_pf_coil_turns(06))___________________      1.2530E+02    
  PF_coil_06_current_(MA)_________________________________________________ (ric(06))_____________________     -5.3879E+00    
- PF_coil_06_field_(T)____________________________________________________ (bpf(06))_____________________      2.5876E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf(nohc))___________________      2.6164E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf(nohc))___________________      0.0000E+00    
+ PF_coil_06_field_(T)____________________________________________________ (b_pf_coil_peak(06))_____________________      2.5876E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle(n_cs_pf_coils))___________________      2.6164E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle(n_cs_pf_coils))___________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      7.0754E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.6640E+01    
- Central_solenoid_turns__________________________________________________ (turns(nohc))_________________      3.5015E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric(nohc))___________________     -1.5057E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf(nohc))___________________      1.1499E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns(n_cs_pf_coils))_________________      3.5015E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric(n_cs_pf_coils))___________________     -1.5057E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak(n_cs_pf_coils))___________________      1.1499E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      4.0453E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.2115E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.2115E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      1.0000E+00 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________      4.6908E-02 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      1.0000E+00 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________      4.6908E-02 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_01_-_Time_point_01_(A)_______________________________________ (pfc01t01)____________________      0.0000E+00    
  PF_Circuit_01_-_Time_point_02_(A)_______________________________________ (pfc01t02)____________________      1.2790E+07    
  PF_Circuit_01_-_Time_point_03_(A)_______________________________________ (pfc01t03)____________________      1.5750E+07    
@@ -7033,9 +7033,9 @@
  fjohc0__________________________________________________________________ (itvar015)____________________      1.3899E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0000E+00    
  fjohc0_(range_normalised)_______________________________________________ (nitvar015)___________________      1.3813E-01    
- fcohbop_________________________________________________________________ (itvar016)____________________      1.0000E+00    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar016)____________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
  gapoh___________________________________________________________________ (itvar017)____________________      5.0000E-02    
  gapoh_(final_value/initial_value)_______________________________________ (xcm017)______________________      1.0000E+00    
  gapoh_(range_normalised)________________________________________________ (nitvar017)___________________      0.0000E+00    
@@ -7371,7 +7371,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      5.1000E+01    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      4.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.2750E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.2115E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.2115E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      3.6189E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.3054E+02    
  # Times #
@@ -7420,7 +7420,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      7.6976E+00    
@@ -7581,26 +7581,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      7.5516E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      6.4527E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              5    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.1499E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      6.6143E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              5    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.1499E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      6.6143E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.9843E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      9.2008E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.2788E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.0525E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      8.1933E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      9.2008E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.2788E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.0525E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      8.1933E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      2.4580E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      1.1397E+08 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      1.2788E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      1.1397E+08 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      1.2788E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore.)_______________________      2.2626E+00    
  CS_thickness_(m)________________________________________________________ (dr_cs.)______________________      7.0754E-01    
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      5.0000E-02 ITV
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      1.1774E+01 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      1.1774E+01 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      7.7989E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      5.4592E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      2.3397E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      3.9748E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      3.3760E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      5.4592E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      2.3397E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      3.9748E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      3.3760E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      6.6000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.6000E+08 OP 
@@ -7609,72 +7609,72 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.2933E+09 OP 
  Strain_on_CS_superconductor_____________________________________________ (strncon_cs)__________________     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      4.1259E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      4.1259E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_01_radius_(m)___________________________________________________ (rpf(01))_____________________      6.4763E+00    
- PF_coil_01_vertical_position_(m)________________________________________ (zpf(01))_____________________      9.9877E+00    
+ PF_coil_01_radius_(m)___________________________________________________ (r_pf_coil_middle(01))_____________________      6.4763E+00    
+ PF_coil_01_vertical_position_(m)________________________________________ (z_pf_coil_middle(01))_____________________      9.9877E+00    
  PF_coil_01_radial_thickness_(m)_________________________________________ (pfdr01)______________________      1.1966E+00    
  PF_coil_01_vertical_thickness_(m)_______________________________________ (pfdz01)______________________      1.1966E+00    
- PF_coil_01_turns________________________________________________________ (turns(01))___________________      3.7322E+02    
+ PF_coil_01_turns________________________________________________________ (n_pf_coil_turns(01))___________________      3.7322E+02    
  PF_coil_01_current_(MA)_________________________________________________ (ric(01))_____________________      1.5750E+01    
- PF_coil_01_field_(T)____________________________________________________ (bpf(01))_____________________      4.7287E+00    
- PF_coil_02_radius_(m)___________________________________________________ (rpf(02))_____________________      6.4763E+00    
- PF_coil_02_vertical_position_(m)________________________________________ (zpf(02))_____________________     -1.1505E+01    
+ PF_coil_01_field_(T)____________________________________________________ (b_pf_coil_peak(01))_____________________      4.7287E+00    
+ PF_coil_02_radius_(m)___________________________________________________ (r_pf_coil_middle(02))_____________________      6.4763E+00    
+ PF_coil_02_vertical_position_(m)________________________________________ (z_pf_coil_middle(02))_____________________     -1.1505E+01    
  PF_coil_02_radial_thickness_(m)_________________________________________ (pfdr02)______________________      1.2848E+00    
  PF_coil_02_vertical_thickness_(m)_______________________________________ (pfdz02)______________________     -1.2848E+00    
- PF_coil_02_turns________________________________________________________ (turns(02))___________________      4.3026E+02    
+ PF_coil_02_turns________________________________________________________ (n_pf_coil_turns(02))___________________      4.3026E+02    
  PF_coil_02_current_(MA)_________________________________________________ (ric(02))_____________________      1.8157E+01    
- PF_coil_02_field_(T)____________________________________________________ (bpf(02))_____________________      5.1781E+00    
- PF_coil_03_radius_(m)___________________________________________________ (rpf(03))_____________________      1.9032E+01    
- PF_coil_03_vertical_position_(m)________________________________________ (zpf(03))_____________________      2.9606E+00    
+ PF_coil_02_field_(T)____________________________________________________ (b_pf_coil_peak(02))_____________________      5.1781E+00    
+ PF_coil_03_radius_(m)___________________________________________________ (r_pf_coil_middle(03))_____________________      1.9032E+01    
+ PF_coil_03_vertical_position_(m)________________________________________ (z_pf_coil_middle(03))_____________________      2.9606E+00    
  PF_coil_03_radial_thickness_(m)_________________________________________ (pfdr03)______________________      1.1659E+00    
  PF_coil_03_vertical_thickness_(m)_______________________________________ (pfdz03)______________________      1.1659E+00    
- PF_coil_03_turns________________________________________________________ (turns(03))___________________      1.9327E+02    
+ PF_coil_03_turns________________________________________________________ (n_pf_coil_turns(03))___________________      1.9327E+02    
  PF_coil_03_current_(MA)_________________________________________________ (ric(03))_____________________     -8.1561E+00    
- PF_coil_03_field_(T)____________________________________________________ (bpf(03))_____________________      2.6808E+00    
- PF_coil_04_radius_(m)___________________________________________________ (rpf(04))_____________________      1.9032E+01    
- PF_coil_04_vertical_position_(m)________________________________________ (zpf(04))_____________________     -2.9606E+00    
+ PF_coil_03_field_(T)____________________________________________________ (b_pf_coil_peak(03))_____________________      2.6808E+00    
+ PF_coil_04_radius_(m)___________________________________________________ (r_pf_coil_middle(04))_____________________      1.9032E+01    
+ PF_coil_04_vertical_position_(m)________________________________________ (z_pf_coil_middle(04))_____________________     -2.9606E+00    
  PF_coil_04_radial_thickness_(m)_________________________________________ (pfdr04)______________________      1.1659E+00    
  PF_coil_04_vertical_thickness_(m)_______________________________________ (pfdz04)______________________     -1.1659E+00    
- PF_coil_04_turns________________________________________________________ (turns(04))___________________      1.9327E+02    
+ PF_coil_04_turns________________________________________________________ (n_pf_coil_turns(04))___________________      1.9327E+02    
  PF_coil_04_current_(MA)_________________________________________________ (ric(04))_____________________     -8.1561E+00    
- PF_coil_04_field_(T)____________________________________________________ (bpf(04))_____________________      2.6808E+00    
- PF_coil_05_radius_(m)___________________________________________________ (rpf(05))_____________________      1.7386E+01    
- PF_coil_05_vertical_position_(m)________________________________________ (zpf(05))_____________________      8.2897E+00    
+ PF_coil_04_field_(T)____________________________________________________ (b_pf_coil_peak(04))_____________________      2.6808E+00    
+ PF_coil_05_radius_(m)___________________________________________________ (r_pf_coil_middle(05))_____________________      1.7386E+01    
+ PF_coil_05_vertical_position_(m)________________________________________ (z_pf_coil_middle(05))_____________________      8.2897E+00    
  PF_coil_05_radial_thickness_(m)_________________________________________ (pfdr05)______________________      8.2067E-01    
  PF_coil_05_vertical_thickness_(m)_______________________________________ (pfdz05)______________________      8.2067E-01    
- PF_coil_05_turns________________________________________________________ (turns(05))___________________      1.2530E+02    
+ PF_coil_05_turns________________________________________________________ (n_pf_coil_turns(05))___________________      1.2530E+02    
  PF_coil_05_current_(MA)_________________________________________________ (ric(05))_____________________     -5.3879E+00    
- PF_coil_05_field_(T)____________________________________________________ (bpf(05))_____________________      2.5876E+00    
- PF_coil_06_radius_(m)___________________________________________________ (rpf(06))_____________________      1.7386E+01    
- PF_coil_06_vertical_position_(m)________________________________________ (zpf(06))_____________________     -8.2897E+00    
+ PF_coil_05_field_(T)____________________________________________________ (b_pf_coil_peak(05))_____________________      2.5876E+00    
+ PF_coil_06_radius_(m)___________________________________________________ (r_pf_coil_middle(06))_____________________      1.7386E+01    
+ PF_coil_06_vertical_position_(m)________________________________________ (z_pf_coil_middle(06))_____________________     -8.2897E+00    
  PF_coil_06_radial_thickness_(m)_________________________________________ (pfdr06)______________________      8.2067E-01    
  PF_coil_06_vertical_thickness_(m)_______________________________________ (pfdz06)______________________     -8.2067E-01    
- PF_coil_06_turns________________________________________________________ (turns(06))___________________      1.2530E+02    
+ PF_coil_06_turns________________________________________________________ (n_pf_coil_turns(06))___________________      1.2530E+02    
  PF_coil_06_current_(MA)_________________________________________________ (ric(06))_____________________     -5.3879E+00    
- PF_coil_06_field_(T)____________________________________________________ (bpf(06))_____________________      2.5876E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf(nohc))___________________      2.6164E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf(nohc))___________________      0.0000E+00    
+ PF_coil_06_field_(T)____________________________________________________ (b_pf_coil_peak(06))_____________________      2.5876E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle(n_cs_pf_coils))___________________      2.6164E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle(n_cs_pf_coils))___________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      7.0754E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.6640E+01    
- Central_solenoid_turns__________________________________________________ (turns(nohc))_________________      3.5015E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric(nohc))___________________     -1.5057E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf(nohc))___________________      1.1499E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns(n_cs_pf_coils))_________________      3.5015E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric(n_cs_pf_coils))___________________     -1.5057E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak(n_cs_pf_coils))___________________      1.1499E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      4.0453E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.2115E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.2115E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      1.0000E+00 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________      4.6908E-02 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      1.0000E+00 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________      4.6908E-02 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_01_-_Time_point_01_(A)_______________________________________ (pfc01t01)____________________      0.0000E+00    
  PF_Circuit_01_-_Time_point_02_(A)_______________________________________ (pfc01t02)____________________      1.2790E+07    
  PF_Circuit_01_-_Time_point_03_(A)_______________________________________ (pfc01t03)____________________      1.5750E+07    
@@ -8028,9 +8028,9 @@
  fjohc0__________________________________________________________________ (itvar015)____________________      1.3899E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0000E+00    
  fjohc0_(range_normalised)_______________________________________________ (nitvar015)___________________      1.3813E-01    
- fcohbop_________________________________________________________________ (itvar016)____________________      1.0000E+00    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar016)____________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm016)______________________      1.0000E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar016)___________________      1.0000E+00    
  gapoh___________________________________________________________________ (itvar017)____________________      5.0000E-02    
  gapoh_(final_value/initial_value)_______________________________________ (xcm017)______________________      1.0000E+00    
  gapoh_(range_normalised)________________________________________________ (nitvar017)___________________      0.0000E+00    
@@ -8366,7 +8366,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      5.1000E+01    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      4.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.2750E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      6.2115E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      6.2115E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      3.6189E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.3054E+02    
  # Times #
@@ -8415,7 +8415,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(m)_________________________________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      7.6976E+00    
@@ -8576,26 +8576,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      7.5516E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      6.4527E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              5    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.1499E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      6.6143E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              5    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.1499E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      6.6143E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.9843E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      9.2008E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.2788E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.0525E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      8.1933E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      9.2008E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.2788E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.0525E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      8.1933E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      2.4580E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      1.1397E+08 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      1.2788E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      1.1397E+08 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      1.2788E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore.)_______________________      2.2626E+00    
  CS_thickness_(m)________________________________________________________ (dr_cs.)______________________      7.0754E-01    
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      5.0000E-02 ITV
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      1.1774E+01 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      1.1774E+01 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      7.7989E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      5.4592E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      2.3397E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      3.9748E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      3.3760E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      5.4592E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      2.3397E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      3.9748E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      3.3760E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      6.6000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.6000E+08 OP 
@@ -8604,72 +8604,72 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.2933E+09 OP 
  Strain_on_CS_superconductor_____________________________________________ (strncon_cs)__________________     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      4.1259E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      4.1259E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      6.6600E-01    
- PF_coil_01_radius_(m)___________________________________________________ (rpf(01))_____________________      6.4763E+00    
- PF_coil_01_vertical_position_(m)________________________________________ (zpf(01))_____________________      9.9877E+00    
+ PF_coil_01_radius_(m)___________________________________________________ (r_pf_coil_middle(01))_____________________      6.4763E+00    
+ PF_coil_01_vertical_position_(m)________________________________________ (z_pf_coil_middle(01))_____________________      9.9877E+00    
  PF_coil_01_radial_thickness_(m)_________________________________________ (pfdr01)______________________      1.1966E+00    
  PF_coil_01_vertical_thickness_(m)_______________________________________ (pfdz01)______________________      1.1966E+00    
- PF_coil_01_turns________________________________________________________ (turns(01))___________________      3.7322E+02    
+ PF_coil_01_turns________________________________________________________ (n_pf_coil_turns(01))___________________      3.7322E+02    
  PF_coil_01_current_(MA)_________________________________________________ (ric(01))_____________________      1.5750E+01    
- PF_coil_01_field_(T)____________________________________________________ (bpf(01))_____________________      4.7287E+00    
- PF_coil_02_radius_(m)___________________________________________________ (rpf(02))_____________________      6.4763E+00    
- PF_coil_02_vertical_position_(m)________________________________________ (zpf(02))_____________________     -1.1505E+01    
+ PF_coil_01_field_(T)____________________________________________________ (b_pf_coil_peak(01))_____________________      4.7287E+00    
+ PF_coil_02_radius_(m)___________________________________________________ (r_pf_coil_middle(02))_____________________      6.4763E+00    
+ PF_coil_02_vertical_position_(m)________________________________________ (z_pf_coil_middle(02))_____________________     -1.1505E+01    
  PF_coil_02_radial_thickness_(m)_________________________________________ (pfdr02)______________________      1.2848E+00    
  PF_coil_02_vertical_thickness_(m)_______________________________________ (pfdz02)______________________     -1.2848E+00    
- PF_coil_02_turns________________________________________________________ (turns(02))___________________      4.3026E+02    
+ PF_coil_02_turns________________________________________________________ (n_pf_coil_turns(02))___________________      4.3026E+02    
  PF_coil_02_current_(MA)_________________________________________________ (ric(02))_____________________      1.8157E+01    
- PF_coil_02_field_(T)____________________________________________________ (bpf(02))_____________________      5.1781E+00    
- PF_coil_03_radius_(m)___________________________________________________ (rpf(03))_____________________      1.9032E+01    
- PF_coil_03_vertical_position_(m)________________________________________ (zpf(03))_____________________      2.9606E+00    
+ PF_coil_02_field_(T)____________________________________________________ (b_pf_coil_peak(02))_____________________      5.1781E+00    
+ PF_coil_03_radius_(m)___________________________________________________ (r_pf_coil_middle(03))_____________________      1.9032E+01    
+ PF_coil_03_vertical_position_(m)________________________________________ (z_pf_coil_middle(03))_____________________      2.9606E+00    
  PF_coil_03_radial_thickness_(m)_________________________________________ (pfdr03)______________________      1.1659E+00    
  PF_coil_03_vertical_thickness_(m)_______________________________________ (pfdz03)______________________      1.1659E+00    
- PF_coil_03_turns________________________________________________________ (turns(03))___________________      1.9327E+02    
+ PF_coil_03_turns________________________________________________________ (n_pf_coil_turns(03))___________________      1.9327E+02    
  PF_coil_03_current_(MA)_________________________________________________ (ric(03))_____________________     -8.1561E+00    
- PF_coil_03_field_(T)____________________________________________________ (bpf(03))_____________________      2.6808E+00    
- PF_coil_04_radius_(m)___________________________________________________ (rpf(04))_____________________      1.9032E+01    
- PF_coil_04_vertical_position_(m)________________________________________ (zpf(04))_____________________     -2.9606E+00    
+ PF_coil_03_field_(T)____________________________________________________ (b_pf_coil_peak(03))_____________________      2.6808E+00    
+ PF_coil_04_radius_(m)___________________________________________________ (r_pf_coil_middle(04))_____________________      1.9032E+01    
+ PF_coil_04_vertical_position_(m)________________________________________ (z_pf_coil_middle(04))_____________________     -2.9606E+00    
  PF_coil_04_radial_thickness_(m)_________________________________________ (pfdr04)______________________      1.1659E+00    
  PF_coil_04_vertical_thickness_(m)_______________________________________ (pfdz04)______________________     -1.1659E+00    
- PF_coil_04_turns________________________________________________________ (turns(04))___________________      1.9327E+02    
+ PF_coil_04_turns________________________________________________________ (n_pf_coil_turns(04))___________________      1.9327E+02    
  PF_coil_04_current_(MA)_________________________________________________ (ric(04))_____________________     -8.1561E+00    
- PF_coil_04_field_(T)____________________________________________________ (bpf(04))_____________________      2.6808E+00    
- PF_coil_05_radius_(m)___________________________________________________ (rpf(05))_____________________      1.7386E+01    
- PF_coil_05_vertical_position_(m)________________________________________ (zpf(05))_____________________      8.2897E+00    
+ PF_coil_04_field_(T)____________________________________________________ (b_pf_coil_peak(04))_____________________      2.6808E+00    
+ PF_coil_05_radius_(m)___________________________________________________ (r_pf_coil_middle(05))_____________________      1.7386E+01    
+ PF_coil_05_vertical_position_(m)________________________________________ (z_pf_coil_middle(05))_____________________      8.2897E+00    
  PF_coil_05_radial_thickness_(m)_________________________________________ (pfdr05)______________________      8.2067E-01    
  PF_coil_05_vertical_thickness_(m)_______________________________________ (pfdz05)______________________      8.2067E-01    
- PF_coil_05_turns________________________________________________________ (turns(05))___________________      1.2530E+02    
+ PF_coil_05_turns________________________________________________________ (n_pf_coil_turns(05))___________________      1.2530E+02    
  PF_coil_05_current_(MA)_________________________________________________ (ric(05))_____________________     -5.3879E+00    
- PF_coil_05_field_(T)____________________________________________________ (bpf(05))_____________________      2.5876E+00    
- PF_coil_06_radius_(m)___________________________________________________ (rpf(06))_____________________      1.7386E+01    
- PF_coil_06_vertical_position_(m)________________________________________ (zpf(06))_____________________     -8.2897E+00    
+ PF_coil_05_field_(T)____________________________________________________ (b_pf_coil_peak(05))_____________________      2.5876E+00    
+ PF_coil_06_radius_(m)___________________________________________________ (r_pf_coil_middle(06))_____________________      1.7386E+01    
+ PF_coil_06_vertical_position_(m)________________________________________ (z_pf_coil_middle(06))_____________________     -8.2897E+00    
  PF_coil_06_radial_thickness_(m)_________________________________________ (pfdr06)______________________      8.2067E-01    
  PF_coil_06_vertical_thickness_(m)_______________________________________ (pfdz06)______________________     -8.2067E-01    
- PF_coil_06_turns________________________________________________________ (turns(06))___________________      1.2530E+02    
+ PF_coil_06_turns________________________________________________________ (n_pf_coil_turns(06))___________________      1.2530E+02    
  PF_coil_06_current_(MA)_________________________________________________ (ric(06))_____________________     -5.3879E+00    
- PF_coil_06_field_(T)____________________________________________________ (bpf(06))_____________________      2.5876E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf(nohc))___________________      2.6164E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf(nohc))___________________      0.0000E+00    
+ PF_coil_06_field_(T)____________________________________________________ (b_pf_coil_peak(06))_____________________      2.5876E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle(n_cs_pf_coils))___________________      2.6164E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle(n_cs_pf_coils))___________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      7.0754E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.6640E+01    
- Central_solenoid_turns__________________________________________________ (turns(nohc))_________________      3.5015E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric(nohc))___________________     -1.5057E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf(nohc))___________________      1.1499E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns(n_cs_pf_coils))_________________      3.5015E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric(n_cs_pf_coils))___________________     -1.5057E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak(n_cs_pf_coils))___________________      1.1499E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      4.0453E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -6.2115E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -6.2115E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      1.0000E+00 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________      4.6908E-02 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      1.0000E+00 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________      4.6908E-02 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_01_-_Time_point_01_(A)_______________________________________ (pfc01t01)____________________      0.0000E+00    
  PF_Circuit_01_-_Time_point_02_(A)_______________________________________ (pfc01t02)____________________      1.2790E+07    
  PF_Circuit_01_-_Time_point_03_(A)_______________________________________ (pfc01t03)____________________      1.5750E+07    
@@ -9024,12 +9024,12 @@ boundl(18) = 3.5
 ixc = 29 * dr_bore
 boundl(29) = 0.1
 ixc = 36 * fbeta_max
-ixc = 37 * coheof
+ixc = 37 * j_cs_flat_top_end
 ixc = 38 * fjohc
 boundu(38) = 1.0
 ixc = 39 * fjohc0
 boundu(39) = 1.0
-ixc = 41 * fcohbop
+ixc = 41 * f_j_cs_start_pulse_end_flat_top
 ixc = 42 * dr_cs_tf_gap
 boundl(42) = 0.05
 boundu(42) = 0.1
@@ -9066,7 +9066,7 @@ boundl(59) = 0.50
 boundu(59) = 0.94
 ixc = 54 * ftmargtf
 ixc = 106 * ftmargoh
-ixc = 122 * oh_steel_frac
+ixc = 122 * f_a_cs_steel
 ixc = 123 * foh_stress
 ixc = 109 * f_nd_alpha_electron
 ixc = 110 * falpha_energy_confinement
@@ -9202,16 +9202,16 @@ epsvmc   = 1.0e-8 * Error tolerance for vmcon
 
 *-----------------Pfcoil Variables-----------------*
 
-coheof   = 13540000.0 * Central solenoid overall current density at end of flat-top (a/m2)
-cptdin   = 4.22d4, 4.22d4, 4.22d4, 4.22d4, 4.3d4, 4.3d4,  4.3d4, 4.3d4, * Peak current per turn input for pf coil i (a)
-fcohbop  = 0.9362 * Ratio of central solenoid overall current density at
-ipfloc   = 2,2,3,3 * Switch for locating scheme of pf coil group i;
-isumatpf = 3 * Switch for superconductor material in pf coils;
-ncls     = 1,1,2,2, * Number of pf coils in group j
-ngrp     = 4 * Number of groups of pf coils;
-ohhghf   = 0.9 * Central solenoid height / tf coil internal height
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6, * Average winding pack current density of pf coil i (a/m2)
-rpf2     = -1.825 * Offset (m) of radial position of ipfloc=2 pf coils
+j_cs_flat_top_end   = 13540000.0 * Central solenoid overall current density at end of flat-top (a/m2)
+c_pf_coil_turn_peak_input   = 4.22d4, 4.22d4, 4.22d4, 4.22d4, 4.3d4, 4.3d4,  4.3d4, 4.3d4, * Peak current per turn input for pf coil i (a)
+f_j_cs_start_pulse_end_flat_top  = 0.9362 * Ratio of central solenoid overall current density at
+i_pf_location   = 2,2,3,3 * Switch for locating scheme of pf coil group i;
+i_pf_superconductor = 3 * Switch for superconductor material in pf coils;
+n_pf_coils_in_group     = 1,1,2,2, * Number of pf coils in group j
+n_pf_coil_groups     = 4 * Number of groups of pf coils;
+f_z_cs_tf_internal   = 0.9 * Central solenoid height / tf coil internal height
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6, * Average winding pack current density of pf coil i (a/m2)
+rpf2     = -1.825 * Offset (m) of radial position of i_pf_location=2 pf coils
 
 zref(1) = 3.6
 zref(2) = 1.2
@@ -9224,8 +9224,8 @@ zref(8) = 1.0
 
 alstroh = 6.6D8 * allowable hoop stress in Central Solenoid structural material (Pa)
 fcuohsu = 0.70 * copper fraction of strand in central solenoid cable
-isumatoh = 5 * WST Nb3Sn parameterisation
-oh_steel_frac = 0.8
+i_cs_superconductor = 5 * WST Nb3Sn parameterisation
+f_a_cs_steel = 0.8
 
 *----------------Physics Variables-----------------*
 
@@ -9326,10 +9326,10 @@ t_burn    = 1.0d4 * Burn time (s) (calculated if i_pulsed_plant=1)
                      q95              =  3.5000E+00
                      dr_bore           =  2.3322E+00
                      fbeta_max       =  4.8251E-01
-                     coheof         =  2.0726E+07
+                     j_cs_flat_top_end         =  2.0726E+07
                      fjohc          =  5.7941E-01
                      fjohc0         =  5.3923E-01
-                     fcohbop        =  9.3176E-01
+                     f_j_cs_start_pulse_end_flat_top        =  9.3176E-01
                      dr_cs_tf_gap          =  5.0000E-02
                      fvsbrnni       =  3.9566E-01
                      fstrcase       =  1.0000E+00
@@ -9349,7 +9349,7 @@ t_burn    = 1.0d4 * Burn time (s) (calculated if i_pulsed_plant=1)
                      fcutfsu        =  8.0884E-01
                      ftmargtf       =  1.0000E+00
                      ftmargoh       =  1.0000E+00
-                     oh_steel_frac  =  5.7875E-01
+                     f_a_cs_steel  =  5.7875E-01
                      foh_stress     =  1.0000E+00
                      f_nd_alpha_electron         =  6.8940E-02
                      falpha_energy_confinement      =  1.0000E+00
\ No newline at end of file
diff --git a/tests/integration/data/uncertainties_nonopt_ref_IN.DAT b/tests/integration/data/uncertainties_nonopt_ref_IN.DAT
index 77e155778e..b5b3cf78d5 100644
--- a/tests/integration/data/uncertainties_nonopt_ref_IN.DAT
+++ b/tests/integration/data/uncertainties_nonopt_ref_IN.DAT
@@ -47,12 +47,12 @@ boundl(18) = 3.5
 ixc = 29 * dr_bore
 boundl(29) = 0.1
 ixc = 36 * fbeta_max
-ixc = 37 * coheof
+ixc = 37 * j_cs_flat_top_end
 ixc = 38 * fjohc
 boundu(38) = 1.0
 ixc = 39 * fjohc0
 boundu(39) = 1.0
-ixc = 41 * fcohbop
+ixc = 41 * f_j_cs_start_pulse_end_flat_top
 ixc = 42 * dr_cs_tf_gap
 boundl(42) = 0.05
 boundu(42) = 0.1
@@ -87,7 +87,7 @@ boundl(59) = 0.50
 boundu(59) = 0.94
 ixc = 54 * ftmargtf
 ixc = 106 * ftmargoh
-ixc = 122 * oh_steel_frac
+ixc = 122 * f_a_cs_steel
 ixc = 123 * foh_stress
 ixc = 109 * f_nd_alpha_electron
 ixc = 110 * falpha_energy_confinement
@@ -223,16 +223,16 @@ epsvmc   = 1.0e-8 * Error tolerance for vmcon
 
 *-----------------Pfcoil Variables-----------------*
 
-coheof   = 13540000.0 * Central solenoid overall current density at end of flat-top (a/m2)
-cptdin   = 4.22d4, 4.22d4, 4.22d4, 4.22d4, 4.3d4, 4.3d4,  4.3d4, 4.3d4, * Peak current per turn input for pf coil i (a)
-fcohbop  = 0.9362 * Ratio of central solenoid overall current density at
-ipfloc   = 2,2,3,3 * Switch for locating scheme of pf coil group i;
-isumatpf = 3 * Switch for superconductor material in pf coils;
-ncls     = 1,1,2,2, * Number of pf coils in group j
-ngrp     = 4 * Number of groups of pf coils;
-ohhghf   = 0.9 * Central solenoid height / tf coil internal height
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6, * Average winding pack current density of pf coil i (a/m2)
-rpf2     = -1.825 * Offset (m) of radial position of ipfloc=2 pf coils
+j_cs_flat_top_end   = 13540000.0 * Central solenoid overall current density at end of flat-top (a/m2)
+c_pf_coil_turn_peak_input   = 4.22d4, 4.22d4, 4.22d4, 4.22d4, 4.3d4, 4.3d4,  4.3d4, 4.3d4, * Peak current per turn input for pf coil i (a)
+f_j_cs_start_pulse_end_flat_top  = 0.9362 * Ratio of central solenoid overall current density at
+i_pf_location   = 2,2,3,3 * Switch for locating scheme of pf coil group i;
+i_pf_superconductor = 3 * Switch for superconductor material in pf coils;
+n_pf_coils_in_group     = 1,1,2,2, * Number of pf coils in group j
+n_pf_coil_groups     = 4 * Number of groups of pf coils;
+f_z_cs_tf_internal   = 0.9 * Central solenoid height / tf coil internal height
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6, * Average winding pack current density of pf coil i (a/m2)
+rpf2     = -1.825 * Offset (m) of radial position of i_pf_location=2 pf coils
 
 zref(1) = 3.6
 zref(2) = 1.2
@@ -245,8 +245,8 @@ zref(8) = 1.0
 
 alstroh = 6.6D8 * allowable hoop stress in Central Solenoid structural material (Pa)
 fcuohsu = 0.70 * copper fraction of strand in central solenoid cable
-isumatoh = 5 * WST Nb3Sn parameterisation
-oh_steel_frac = 0.8
+i_cs_superconductor = 5 * WST Nb3Sn parameterisation
+f_a_cs_steel = 0.8
 
 *----------------Physics Variables-----------------*
 
@@ -346,10 +346,10 @@ t_burn    = 1.0d4 * Burn time (s) (calculated if i_pulsed_plant=1)
                      q95              =  3.5000E+00
                      dr_bore           =  2.3322E+00
                      fbeta_max       =  4.8251E-01
-                     coheof         =  2.0726E+07
+                     j_cs_flat_top_end         =  2.0726E+07
                      fjohc          =  5.7941E-01
                      fjohc0         =  5.3923E-01
-                     fcohbop        =  9.3176E-01
+                     f_j_cs_start_pulse_end_flat_top        =  9.3176E-01
                      dr_cs_tf_gap          =  5.0000E-02
                      fvsbrnni       =  3.9566E-01
                      fstrcase       =  1.0000E+00
@@ -369,7 +369,7 @@ t_burn    = 1.0d4 * Burn time (s) (calculated if i_pulsed_plant=1)
                      fcutfsu        =  8.0884E-01
                      ftmargtf       =  1.0000E+00
                      ftmargoh       =  1.0000E+00
-                     oh_steel_frac  =  5.7875E-01
+                     f_a_cs_steel  =  5.7875E-01
                      foh_stress     =  1.0000E+00
                      f_nd_alpha_electron         =  6.8940E-02
                      falpha_energy_confinement      =  1.0000E+00
\ No newline at end of file
diff --git a/tests/integration/data/uncertainties_ref_IN.DAT b/tests/integration/data/uncertainties_ref_IN.DAT
index 0336383cdb..59dd7fff86 100644
--- a/tests/integration/data/uncertainties_ref_IN.DAT
+++ b/tests/integration/data/uncertainties_ref_IN.DAT
@@ -47,12 +47,12 @@ boundl(18) = 3.5
 ixc = 29 * dr_bore
 boundl(29) = 0.1
 ixc = 36 * fbeta_max
-ixc = 37 * coheof
+ixc = 37 * j_cs_flat_top_end
 ixc = 38 * fjohc
 boundu(38) = 1.0
 ixc = 39 * fjohc0
 boundu(39) = 1.0
-ixc = 41 * fcohbop
+ixc = 41 * f_j_cs_start_pulse_end_flat_top
 ixc = 42 * dr_cs_tf_gap
 boundl(42) = 0.05
 boundu(42) = 0.1
@@ -87,7 +87,7 @@ boundl(59) = 0.50
 boundu(59) = 0.94
 ixc = 54 * ftmargtf
 ixc = 106 * ftmargoh
-ixc = 122 * oh_steel_frac
+ixc = 122 * f_a_cs_steel
 ixc = 123 * foh_stress
 ixc = 109 * f_nd_alpha_electron
 ixc = 110 * falpha_energy_confinement
@@ -223,16 +223,16 @@ epsvmc   = 1.0e-8 * Error tolerance for vmcon
 
 *-----------------Pfcoil Variables-----------------*
 
-coheof   = 13540000.0 * Central solenoid overall current density at end of flat-top (a/m2)
-cptdin   = 4.22d4, 4.22d4, 4.22d4, 4.22d4, 4.3d4, 4.3d4,  4.3d4, 4.3d4, * Peak current per turn input for pf coil i (a)
-fcohbop  = 0.9362 * Ratio of central solenoid overall current density at
-ipfloc   = 2,2,3,3 * Switch for locating scheme of pf coil group i;
-isumatpf = 3 * Switch for superconductor material in pf coils;
-ncls     = 1,1,2,2, * Number of pf coils in group j
-ngrp     = 4 * Number of groups of pf coils;
-ohhghf   = 0.9 * Central solenoid height / tf coil internal height
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6, * Average winding pack current density of pf coil i (a/m2)
-rpf2     = -1.825 * Offset (m) of radial position of ipfloc=2 pf coils
+j_cs_flat_top_end   = 13540000.0 * Central solenoid overall current density at end of flat-top (a/m2)
+c_pf_coil_turn_peak_input   = 4.22d4, 4.22d4, 4.22d4, 4.22d4, 4.3d4, 4.3d4,  4.3d4, 4.3d4, * Peak current per turn input for pf coil i (a)
+f_j_cs_start_pulse_end_flat_top  = 0.9362 * Ratio of central solenoid overall current density at
+i_pf_location   = 2,2,3,3 * Switch for locating scheme of pf coil group i;
+i_pf_superconductor = 3 * Switch for superconductor material in pf coils;
+n_pf_coils_in_group     = 1,1,2,2, * Number of pf coils in group j
+n_pf_coil_groups     = 4 * Number of groups of pf coils;
+f_z_cs_tf_internal   = 0.9 * Central solenoid height / tf coil internal height
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6, * Average winding pack current density of pf coil i (a/m2)
+rpf2     = -1.825 * Offset (m) of radial position of i_pf_location=2 pf coils
 
 zref(1) = 3.6
 zref(2) = 1.2
@@ -245,8 +245,8 @@ zref(8) = 1.0
 
 alstroh = 6.6D8 * allowable hoop stress in Central Solenoid structural material (Pa)
 fcuohsu = 0.70 * copper fraction of strand in central solenoid cable
-isumatoh = 5 * WST Nb3Sn parameterisation
-oh_steel_frac = 0.8
+i_cs_superconductor = 5 * WST Nb3Sn parameterisation
+f_a_cs_steel = 0.8
 
 *----------------Physics Variables-----------------*
 
@@ -346,10 +346,10 @@ t_burn    = 1.0d4 * Burn time (s) (calculated if i_pulsed_plant=1)
                      q95              =  3.5000E+00
                      dr_bore           =  2.3322E+00
                      fbeta_max       =  4.8251E-01
-                     coheof         =  2.0726E+07
+                     j_cs_flat_top_end         =  2.0726E+07
                      fjohc          =  5.7941E-01
                      fjohc0         =  5.3923E-01
-                     fcohbop        =  9.3176E-01
+                     f_j_cs_start_pulse_end_flat_top        =  9.3176E-01
                      dr_cs_tf_gap          =  5.0000E-02
                      fvsbrnni       =  3.9566E-01
                      fstrcase       =  1.0000E+00
@@ -369,7 +369,7 @@ t_burn    = 1.0d4 * Burn time (s) (calculated if i_pulsed_plant=1)
                      fcutfsu        =  8.0884E-01
                      ftmargtf       =  1.0000E+00
                      ftmargoh       =  1.0000E+00
-                     oh_steel_frac  =  5.7875E-01
+                     f_a_cs_steel  =  5.7875E-01
                      foh_stress     =  1.0000E+00
                      f_nd_alpha_electron         =  6.8940E-02
                      falpha_energy_confinement      =  1.0000E+00
\ No newline at end of file
diff --git a/tests/integration/ref_dicts.json b/tests/integration/ref_dicts.json
index cceb2981a6..d75d109281 100644
--- a/tests/integration/ref_dicts.json
+++ b/tests/integration/ref_dicts.json
@@ -98,7 +98,7 @@
         "a_leg_cond": 0.0,
         "a_leg_gr_ins": 0.0,
         "a_leg_ins": 0.0,
-        "a_oh_turn": 0.0,
+        "a_cs_turn": 0.0,
         "a_reactor_bldg": 8320.0,
         "a_reactor_service_bldg": 2440.0,
         "a_security_bldg": 4552.0,
@@ -258,7 +258,7 @@
         "area_omp": 0.0,
         "area_target": 0.0,
         "a_tf_leg_outboard": 0.0,
-        "areaoh": 0.0,
+        "a_cs_poloidal": 0.0,
         "armour_density": 0.0,
         "armour_fw_bl_mass": 0.0,
         "aspect": 2.907,
@@ -407,9 +407,9 @@
         ],
         "blwidti": 0.0,
         "blwidto": 0.0,
-        "bmaxcs_lim": 13.0,
-        "bmaxoh": 0.0,
-        "bmaxoh0": 0.0,
+        "b_cs_limit_max": 13.0,
+        "b_cs_peak_flat_top_end": 0.0,
+        "b_cs_peak_pulse_start": 0.0,
         "bmaxtf": 0.0,
         "bmaxtfrp": 0.0,
         "bmn": 0.001,
@@ -1129,7 +1129,7 @@
         "bp": 0.0,
         "bp_ratio_ib": 0.0,
         "bp_ratio_ob": 0.0,
-        "bpf": 0.0,
+        "b_pf_coil_peak": 0.0,
         "bpf2": [
             0.0,
             0.0,
@@ -1467,8 +1467,8 @@
         "coecap": 0.0,
         "coefuelt": 0.0,
         "coeoam": 0.0,
-        "cohbop": 0.0,
-        "coheof": 18500000.0,
+        "j_cs_pulse_start": 0.0,
+        "j_cs_flat_top_end": 18500000.0,
         "coldmass": 0.0,
         "comp": null,
         "comp_eps": "EPSILON(unit)",
@@ -1544,8 +1544,8 @@
         "cppa": 0.0,
         "cpstcst": 0.0,
         "cpstflnc": 10.0,
-        "cpt": 0.0,
-        "cptdin": 40000.0,
+        "c_pf_coil_turn": 0.0,
+        "c_pf_coil_turn_peak_input": 40000.0,
         "cpttf": 70000.0,
         "cpttf_max": 90000.0,
         "crane_arm_h": 10.0,
@@ -1576,9 +1576,9 @@
         "cturbb": 38.0,
         "ctwo": "(2.0_wp_, 0.0_wp_)",
         "cunit": "(1.0_wp_, 0.0_wp_)",
-        "curpfb": 0.0,
-        "curpff": 0.0,
-        "curpfs": 0.0,
+        "c_pf_cs_coil_pulse_start_ma": 0.0,
+        "c_pf_cs_coil_flat_top_ma": 0.0,
+        "c_pf_cs_coil_pulse_end_ma": 0.0,
         "curr1_": "e_*vte1_",
         "f_vol_plasma": 1.0,
         "f_r_conducting_wall": 1.35,
@@ -1884,7 +1884,7 @@
         "fblss_ccfe": 0.0,
         "fbltibe12": 0.0,
         "fblvd": 0.0,
-        "fbmaxcs": 13.0,
+        "fb_cs_limit_max": 13.0,
         "fbreed": 0.51,
         "fburn": 0.3333,
         "fc_building_l": 60.0,
@@ -1893,8 +1893,8 @@
         "fcap0cp": 1.08,
         "fcdfuel": 0.1,
         "fce1_": "wce1_/(2*pi)",
-        "fcohbof": 0.0,
-        "fcohbop": 0.9,
+        "f_j_cs_start_end_flat_top": 0.0,
+        "f_j_cs_start_pulse_end_flat_top": 0.9,
         "fcontng": 0.195,
         "fcoolcp": 0.3,
         "f_a_tf_cool_outboard": 0.2,
@@ -2060,7 +2060,7 @@
         "fvolso": 0.64,
         "fvs": 1.0,
         "fvsbrnni": 1.0,
-        "fvssu": 1.0,
+        "fvs_cs_pf_total_ramp": 1.0,
         "fvvhe": 1.0,
         "fw_armour_mass": 0.0,
         "fw_armour_thickness": 0.005,
@@ -2629,7 +2629,7 @@
         "ip": 0.0,
         "ipedestal": 1.0,
         "ipeqns": 90.0,
-        "ipfloc": [
+        "i_pf_location": [
             2.0,
             2.0,
             3.0,
@@ -2641,7 +2641,7 @@
             0.0,
             0.0
         ],
-        "ipfres": 0.0,
+        "i_pf_conductor": 0.0,
         "ipnet": 0.0,
         "ipnfoms": 19.0,
         "n_confinement_scalings": 48.0,
@@ -2672,8 +2672,8 @@
         "istell": 0.0,
         "isthtr": 3.0,
         "istore": 1.0,
-        "isumatoh": 1.0,
-        "isumatpf": 1.0,
+        "i_cs_superconductor": 1.0,
+        "i_pf_superconductor": 1.0,
         "isweep": 0.0,
         "isweep_2": 0.0,
         "itart": 0.0,
@@ -2867,8 +2867,8 @@
         "j_plus_ob": 0.686,
         "jacket": null,
         "j_tf_bus": 1250000.0,
-        "jscoh_bop": 0.0,
-        "jscoh_eof": 0.0,
+        "j_cs_conductor_critical_pulse_start": 0.0,
+        "j_cs_conductor_critical_flat_top_end": 0.0,
         "jcableoh_bop": 0.0,
         "jcableoh_eof": 0.0,
         "jwdgcrt": 0.0,
@@ -3359,8 +3359,8 @@
         "nbshinefmax": 0.001,
         "nbshinemw": 0.0,
         "ncalls": 0.0,
-        "ncirt": 0.0,
-        "ncls": [
+        "n_pf_cs_plasma_circuits": 0.0,
+        "n_pf_coils_in_group": [
             1.0,
             1.0,
             2.0,
@@ -3374,7 +3374,7 @@
             0.0,
             0.0
         ],
-        "nclsmx": 2.0,
+        "n_pf_coils_in_group_max": 2.0,
         "ncool": 0.0,
         "ne0": 0.0,
         "nef": 0.0,
@@ -3397,10 +3397,10 @@
         "nflutfo": 0.0,
         "nfxf": 0.0,
         "nfxfh": 7.0,
-        "ngc": "ngrpmx*nclsmx",
+        "ngc": "n_pf_groups_max*n_pf_coils_in_group_max",
         "ngc2": "ngc+2",
-        "ngrp": 3.0,
-        "ngrpmx": 10.0,
+        "n_pf_coil_groups": 3.0,
+        "n_pf_groups_max": 10.0,
         "ni0": 0.0,
         "n_impurities": 14.0,
         "nin": 10.0,
@@ -3410,7 +3410,7 @@
         "nls": null,
         "nnetau": 0.0,
         "no_roots": 30.0,
-        "nohc": 0.0,
+        "n_cs_pf_coils": 0.0,
         "beta_norm_total": 0.0,
         "nout": 11.0,
         "noutvars": 84.0,
@@ -3447,9 +3447,9 @@
         "objf": null,
         "odep_": "dp_",
         "ofile": 0.0,
-        "oh_steel_frac": 0.5,
+        "f_a_cs_steel": 0.5,
         "dr_cs": 0.811,
-        "ohhghf": 0.71,
+        "f_z_cs_tf_internal": 0.71,
         "om": null,
         "omegan": 1.0,
         "omlarg": 0.0,
@@ -3507,9 +3507,9 @@
         "pfbldgm3": 20000.0,
         "pfcaseth": 0.0,
         "pfckts": 0.0,
-        "pfclres": 2.5e-08,
-        "pfmmax": 0.0,
-        "pfrmax": 0.0,
+        "rho_pf_coil": 2.5e-08,
+        "m_pf_coil_max": 0.0,
+        "r_pf_coil_outer_max": 0.0,
         "charged_particle_power": 0.0,
         "pfusife": 1000.0,
         "pfwdiv": 0.0,
@@ -3598,8 +3598,8 @@
         "p_plasma_loss_mw": 0.0,
         "powfmax": 1500.0,
         "fusion_power": 0.0,
-        "powohres": 0.0,
-        "powpfres": 0.0,
+        "p_cs_resistive_flat_top": 0.0,
+        "p_pf_coil_resistive_total_flat_top": 0.0,
         "ppdivr": 0.0,
         "len_plasma_poloidal": 0.0,
         "ppump": 0.0,
@@ -3742,7 +3742,7 @@
         "r_wp_centre": 0.0,
         "r_wp_inner": 0.0,
         "r_wp_outer": 0.0,
-        "ra": 0.0,
+        "r_pf_coil_inner": 0.0,
         "rad": "pi/180.0_wp_",
         "rad_fraction_LCFS": 0.0,
         "rad_fraction_sol": 0.8,
@@ -3759,7 +3759,7 @@
         "radp": null,
         "f_nd_alpha_electron": 0.1,
         "rat": 1.3e-08,
-        "rb": 0.0,
+        "r_pf_coil_outer": 0.0,
         "rbld": 0.0,
         "rbmax": 0.0,
         "rbrt": 1.0,
@@ -4219,17 +4219,17 @@
         "rhopedt": 1.0,
         "rho_tf_bus": -1.0,
         "rho_tf_leg": 0.0,
-        "ric": 0.0,
+        "c_pf_cs_coils_peak_ma": 0.0,
         "ricpf": 0.0,
         "rinboard": 0.651,
         "ripflag": 0,
         "ripmax": 1.0,
         "ripple": 0.0,
         "c_tf_total": 0.0,
-        "rjconpf": 30000000.0,
-        "rjohc": 0.0,
-        "rjohc0": 0.0,
-        "rjpfalw": 0.0,
+        "j_pf_coil_wp_peak": 30000000.0,
+        "j_cs_critical_flat_top_end": 0.0,
+        "j_cs_critical_pulse_start": 0.0,
+        "j_pf_wp_critical": 0.0,
         "rkind": "double",
         "rlclolcn": 0.0,
         "rlenmax": 0.5,
@@ -4252,11 +4252,11 @@
         "robotics_h": 30.0,
         "robotics_l": 50.0,
         "robotics_w": 30.0,
-        "rohc": 0.0,
+        "r_cs_middle": 0.0,
         "roughness": 1e-06,
         "routr": 1.5,
         "row": 4.0,
-        "rpf": 0.0,
+        "r_pf_coil_middle": 0.0,
         "rpf1": 0.0,
         "rpf2": -1.63,
         "dr_pf_cryostat": 0.5,
@@ -7372,7 +7372,7 @@
             0.0,
             0.0
         ],
-        "sxlg": 0.0,
+        "ind_pf_cs_plasma_mutual": 0.0,
         "t_BM_IB": 17.0,
         "t_BM_OB": 27.0,
         "t_BP_IB": 30.0,
@@ -7609,7 +7609,7 @@
         "tmargmin": 0.0,
         "tmargmin_cs": 0.0,
         "tmargmin_tf": 0.0,
-        "tmargoh": 0.0,
+        "temp_cs_margin": 0.0,
         "tmargtf": 0.0,
         "tmax_croco": 200.0,
         "tmaxpro": 150.0,
@@ -7647,7 +7647,7 @@
         "turbine_hall_h": 15.0,
         "turbine_hall_l": 109.0,
         "turbine_hall_w": 62.0,
-        "turns": 0.0,
+        "n_pf_coil_turns": 0.0,
         "tw_storage_h": 5.0,
         "tw_storage_l": 90.0,
         "tw_storage_w": 30.0,
@@ -7907,7 +7907,7 @@
         "velblkti": 0.0,
         "velblkto": 0.0,
         "verbose": 0.0,
-        "vf": 0.3,
+        "f_a_pf_coil_void": 0.3,
         "vfblkt": 0.25,
         "vfblkti": null,
         "vfblkto": null,
@@ -7917,7 +7917,7 @@
         "vfi": 0.0,
         "vfi_star": 0.0,
         "vfile": 14.0,
-        "vfohc": 0.3,
+        "f_a_cs_void": 0.3,
         "vforce": 0.0,
         "vforce_inboard_tot": 0.0,
         "vforce_outboard": 0.0,
@@ -7992,21 +7992,21 @@
         "vportpmax": 0.0,
         "vporttmax": 0.0,
         "vpumpn": 0.0,
-        "vsbn": 0.0,
+        "vs_cs_pf_total_burn": 0.0,
         "vs_plasma_burn_required": 0.0,
         "vsdum": 0.0,
-        "vsefbn": 0.0,
-        "vsefsu": 0.0,
-        "vseft": 0.0,
+        "vs_pf_coils_total_burn": 0.0,
+        "vs_pf_coils_total_ramp": 0.0,
+        "vs_pf_coils_total_pulse": 0.0,
         "vshift": 0.0,
         "vs_plasma_ind_ramp": 0.0,
-        "vsoh": 0.0,
-        "vsohbn": 0.0,
-        "vsohsu": 0.0,
+        "vs_cs_total_pulse": 0.0,
+        "vs_cs_burn": 0.0,
+        "vs_cs_ramp": 0.0,
         "vs_plasma_res_ramp": 0.0,
         "vs_plasma_total_required": 0.0,
-        "vssu": 0.0,
-        "vstot": 0.0,
+        "vs_cs_pf_total_ramp": 0.0,
+        "vs_cs_pf_total_pulse": 0.0,
         "vte1_": 18755328.0,
         "vtfkv": 0.0,
         "vtfskv": 0.0,
@@ -8058,8 +8058,8 @@
         "whtconsh": 0.0,
         "whtcp": 0.0,
         "whtgw": 0.0,
-        "whtpf": 0.0,
-        "whtpfs": 0.0,
+        "m_pf_coil_conductor_total": 0.0,
+        "m_pf_coil_structure_total": 0.0,
         "whtshld": 0.0,
         "whttf": 0.0,
         "whttflgs": 0.0,
@@ -8077,9 +8077,9 @@
         "wsvol": 0.0,
         "wtblli2o": 0.0,
         "wtbllipb": 0.0,
-        "wtc": 0.0,
+        "m_pf_coil_conductor": 0.0,
         "wtgpd": 0.0,
-        "wts": 0.0,
+        "m_pf_coil_structure": 0.0,
         "wtshldi": 0.0,
         "wtshldo": 0.0,
         "wwp1": 0.0,
@@ -8651,8 +8651,8 @@
             0.0,
             0.0
         ],
-        "zh": 0.0,
-        "zl": 0.0,
+        "z_pf_coil_upper": 0.0,
+        "z_pf_coil_lower": 0.0,
         "zl1": 0.0,
         "zl2": 0.0,
         "zl3": 0.0,
@@ -8660,7 +8660,7 @@
         "zl5": 0.0,
         "zl6": 0.0,
         "zl7": 0.0,
-        "zpf": 0.0,
+        "z_pf_coil_middle": 0.0,
         "zref": [
             3.6,
             1.2,
@@ -8766,7 +8766,7 @@
         "a_leg_cond": "Exact TF ouboard leg conductor area [m2]",
         "a_leg_gr_ins": "TF outboard leg ground insulation area per coil [m2]",
         "a_leg_ins": "TF ouboard leg turn insulation area per coil [m2]",
-        "a_oh_turn": "Central solenoid (OH) trun cross-sectional area (m2)",
+        "a_cs_turn": "Central solenoid (OH) trun cross-sectional area (m2)",
         "a_reactor_bldg": "Floor area of reactor building in m^2",
         "a_reactor_service_bldg": "Floor area of reactor service building in m^2",
         "a_security_bldg": "Floor area of security building in m^2",
@@ -8828,7 +8828,7 @@
         "area_omp": "",
         "area_target": "",
         "a_tf_leg_outboard": "outboard TF leg area (m2)",
-        "areaoh": "Central solenoid vertical cross-sectional area (m2)",
+        "a_cs_poloidal": "Central solenoid vertical cross-sectional area (m2)",
         "armour_density": "FW armour density [kg/m3]",
         "armour_fw_bl_mass": "Total mass of armour, first wall and blanket (kg)",
         "aspect": "aspect ratio (`iteration variable 1`)",
@@ -8921,9 +8921,9 @@
         "blvol": "IFE blanket volume (m3)",
         "blwidti": "Inboard/outboard blanket mid-plan toroidal circumference for segment (m)",
         "blwidto": "Inboard/outboard blanket mid-plan toroidal circumference for segment (m)",
-        "bmaxcs_lim": "Central solenoid max field limit [T]",
-        "bmaxoh": "maximum field in central solenoid at end of flat-top (EoF) (T)",
-        "bmaxoh0": "maximum field in central solenoid at beginning of pulse (T)",
+        "b_cs_limit_max": "Central solenoid max field limit [T]",
+        "b_cs_peak_flat_top_end": "maximum field in central solenoid at end of flat-top (EoF) (T)",
+        "b_cs_peak_pulse_start": "maximum field in central solenoid at beginning of pulse (T)",
         "bmaxtf": "mean peak field at TF coil (T)",
         "bmaxtfrp": "peak field at TF conductor with ripple (T)",
         "bmn": "relative radial field perturbation",
@@ -8939,7 +8939,7 @@
         "bp": "poloidal field (T)",
         "bp_ratio_ib": "",
         "bp_ratio_ob": "",
-        "bpf": "peak field at coil i (T)",
+        "b_pf_coil_peak": "peak field at coil i (T)",
         "bpf2": "",
         "bpsout": "reference B_p at outboard divertor strike point (T)",
         "breeder": "Breeder type (allowed values are Orthosilicate, Metatitanate or Zirconate)",
@@ -9130,8 +9130,8 @@
         "coecap": "capital cost of electricity (m$/kW-hr)",
         "coefuelt": "'fuel' (including replaceable components) contribution to cost of electricity (m$/kW-hr)",
         "coeoam": "operation and maintenance contribution to cost of electricity (m$/kW-hr)",
-        "cohbop": "Central solenoid overall current density at beginning of pulse (A/m2)",
-        "coheof": "Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`)",
+        "j_cs_pulse_start": "Central solenoid overall current density at beginning of pulse (A/m2)",
+        "j_cs_flat_top_end": "Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`)",
         "coldmass": "total mass of components at cryogenic temperatures (kg)",
         "comp_eps": "",
         "comp_eps2": "",
@@ -9206,8 +9206,8 @@
         "cppa": "",
         "cpstcst": "ST centrepost direct cost (M$)",
         "cpstflnc": "allowable ST centrepost neutron fluence (MW-yr/m2)",
-        "cpt": "current per turn in coil i at time j (A)",
-        "cptdin": "peak current per turn input for PF coil i (A)",
+        "c_pf_coil_turn": "current per turn in coil i at time j (A)",
+        "c_pf_coil_turn_peak_input": "peak current per turn input for PF coil i (A)",
         "cpttf": "TF coil current per turn (A). (calculated for stellarators) (calculated for\n integer-turn TF coils `i_tf_turns_integer=1`) (`iteration variable 60`)",
         "cpttf_max": "Max TF coil current per turn [A]. (for stellarators and `i_tf_turns_integer=1`)\n (`constraint equation 77`)",
         "crane_arm_h": "vertical dimension of crane arm, operating over reactor (m)",
@@ -9238,9 +9238,9 @@
         "cturbb": "cost of turbine building (M$)",
         "ctwo": "",
         "cunit": "",
-        "curpfb": "PF coil current array, at beginning of pulse (MA)\n Indexed by coil number, not group number",
-        "curpff": "PF coil current array, at flat top (MA)\n Indexed by coil number, not group number",
-        "curpfs": "PF coil current array, at end of pulse (MA)\n Indexed by coil number, not group number",
+        "c_pf_cs_coil_pulse_start_ma": "PF coil current array, at beginning of pulse (MA)\n Indexed by coil number, not group number",
+        "c_pf_cs_coil_flat_top_ma": "PF coil current array, at flat top (MA)\n Indexed by coil number, not group number",
+        "c_pf_cs_coil_pulse_end_ma": "PF coil current array, at end of pulse (MA)\n Indexed by coil number, not group number",
         "curr1_": "",
         "f_vol_plasma": "multiplying factor times plasma volume (normally=1)",
         "f_r_conducting_wall": "maximum ratio of conducting wall distance to plasma minor radius for\n vertical stability (`constraint equation 23`)",
@@ -9258,7 +9258,7 @@
         "dcdrv0": "IFE generic/laser driver cost gradient (M$/MJ)",
         "dcdrv1": "HIB driver cost gradient at low energy (M$/MJ)",
         "dcdrv2": "HIB driver cost gradient at high energy (M$/MJ)",
-        "dcond": "density of superconductor type given by i_tf_sc_mat/isumatoh/isumatpf (kg/m3)",
+        "dcond": "density of superconductor type given by i_tf_sc_mat/i_cs_superconductor/i_pf_superconductor (kg/m3)",
         "dcondins": "density of conduit + ground-wall insulation (kg/m3)",
         "dcopper": "density of copper (kg/m3)",
         "dr_cryostat": "cryostat thickness (m)",
@@ -9500,7 +9500,7 @@
         "fblss_ccfe": "Fractions of blanket by volume: steel, lithium orthosilicate, titanium beryllide",
         "fbltibe12": "Fractions of blanket by volume: steel, lithium orthosilicate, titanium beryllide",
         "fblvd": "vanadium fraction of blanket by volume (stellarator only)",
-        "fbmaxcs": "F-value for CS mmax field (`cons. 79`, `itvar 149`)",
+        "fb_cs_limit_max": "F-value for CS mmax field (`cons. 79`, `itvar 149`)",
         "fbreed": "fraction of breeder external to device core",
         "fburn": "IFE burn fraction (fraction of tritium fused/target)",
         "fc_building_l": "Fuel Cycle facilities length, width (m)",
@@ -9509,8 +9509,8 @@
         "fcap0cp": "average cost of money for replaceable components assuming lead time for these of two years",
         "fcdfuel": "fraction of current drive cost treated as fuel (if `ifueltyp = 1`)",
         "fce1_": "",
-        "fcohbof": "ratio of central solenoid overall current density at beginning of flat-top / end of flat-top",
-        "fcohbop": "ratio of central solenoid overall current density at beginning of pulse / end of flat-top\n (`iteration variable 41`)",
+        "f_j_cs_start_end_flat_top": "ratio of central solenoid overall current density at beginning of flat-top / end of flat-top",
+        "f_j_cs_start_pulse_end_flat_top": "ratio of central solenoid overall current density at beginning of pulse / end of flat-top\n (`iteration variable 41`)",
         "fcontng": "project contingency factor",
         "fcoolcp": "coolant fraction of TF coil inboard legs (`iteration variable 23`)",
         "f_a_tf_cool_outboard": "coolant fraction of TF coil outboard legs",
@@ -9652,7 +9652,7 @@
         "fvolso": "area coverage factor for outboard shield volume",
         "fvs": "f-value for flux-swing (V-s) requirement (STEADY STATE)\n (`constraint equation 12`, `iteration variable 15`)",
         "fvsbrnni": "fraction of the plasma current produced by non-inductive means (`iteration variable 44`)",
-        "fvssu": "F-value for `constraint equation 51`",
+        "fvs_cs_pf_total_ramp": "F-value for `constraint equation 51`",
         "fvvhe": "f-value for vacuum vessel He concentration limit (`i_blanket_type = 2`)\n (`constraint equation 55`, `iteration variable 96`)",
         "fw_armour_mass": "first wall armour mass (kg)",
         "fw_armour_thickness": "first wall armour thickness (m)",
@@ -9790,7 +9790,7 @@
         "i_cp_joints": "Switch for CP demoutable joints type\n  -= 0 : Clampled joints\n  -= 1 : Sliding joints\n Default value (-1) choses :\n   Sliding joints for resistive magnets (i_tf_sup = 0, 2)\n   Clampled joints for superconducting magents (i_tf_sup = 1)",
         "i_cp_lifetime": "Switch for the centrepost lifetime constraint\n  0 : The CP full power year lifetime is set by the user via cplife_input\n  1 : The CP lifetime is equal to the divertor lifetime\n  2 : The CP lifetime is equal to the breeding blankets lifetime\n  3 : The CP lifetime is equal to the plant lifetime",
         "i_cs_stress": "Switch for CS stress calculation:\n<ul>\n<li>=0 Hoop stress only</li>\n<li>=1 Hoop + Axial stress</li>\n</ul>",
-        "i_pf_current": "Switch for controlling the current of the PF coils:\n<ul>\n<li>=0 Input via the variables curpfb, curpff, curpfs</li>\n<li>=1 SVD targets zero field across midplane (flux swing\n   coils) and the correct vertical field at the plasma\n   center (equilibrium coils)</li>\n</ul>",
+        "i_pf_current": "Switch for controlling the current of the PF coils:\n<ul>\n<li>=0 Input via the variables c_pf_cs_coil_pulse_start_ma, c_pf_cs_coil_flat_top_ma, c_pf_cs_coil_pulse_end_ma</li>\n<li>=1 SVD targets zero field across midplane (flux swing\n   coils) and the correct vertical field at the plasma\n   center (equilibrium coils)</li>\n</ul>",
         "i_r_cp_top": "Switch selecting the he parametrization of the outer radius of the top of the CP part of the TF coil\n  0 : `r_cp_top` is set by the plasma shape\n  1 : `r_cp_top` is a user input\n  2 : `r_cp_top` is set using the CP top and midplane CP radius ratio",
         "i_shield_mat": "Switch for shield material - <em>currently only applied in costing routines</em> `cost_model = 2`\n<ul>\n<li>=0 Tungsten (default)</li>\n<li>=1 Tungsten carbide</li>\n</ul>",
         "i_single_null": "switch for single null / double null plasma:\n<ul>\n<li>=0 for double null</li>\n<li>=1 for single null (diverted side down)</li>\n</ul>",
@@ -9877,8 +9877,8 @@
         "ip": "",
         "ipedestal": "switch for pedestal profiles:\n<ul>\n<li>=0 use original parabolic profiles</li>\n<li>=1 use pedestal profile</li>",
         "ipeqns": "ipeqns  FIX : number of constraint equations available",
-        "ipfloc": "Switch for location of PF coil group i:\n<ul>\n<li>=1 PF coil on top of central solenoid (flux ramp only)</li>\n<li>=2 PF coil on top of TF coil (flux ramp only)</li>\n<li>=3 PF coil outside of TF coil (equilibrium coil)</li>\n<li>=4 PF coil, general location (equilibrium coil)</li>\n</ul>",
-        "ipfres": "switch for PF coil type:\n<ul>\n<li>=0 superconducting PF coils</li>\n<li>=1 resistive PF coils</li>\n</ul>",
+        "i_pf_location": "Switch for location of PF coil group i:\n<ul>\n<li>=1 PF coil on top of central solenoid (flux ramp only)</li>\n<li>=2 PF coil on top of TF coil (flux ramp only)</li>\n<li>=3 PF coil outside of TF coil (equilibrium coil)</li>\n<li>=4 PF coil, general location (equilibrium coil)</li>\n</ul>",
+        "i_pf_conductor": "switch for PF coil type:\n<ul>\n<li>=0 superconducting PF coils</li>\n<li>=1 resistive PF coils</li>\n</ul>",
         "ipnet": "Switch for net electric power calculation:\n<ul>\n<li>=0 scale so that always > 0</li>\n<li>=1 let go < 0 (no c-o-e)</li>\n</ul>",
         "ipnfoms": "ipnfoms FIX : number of available figures of merit",
         "n_confinement_scalings": "number of energy confinement time scaling laws",
@@ -9909,8 +9909,8 @@
         "istell": "Switch for stellarator option (set via `device.dat`):\n<ul>\n<li>=0 use tokamak model</li>\n<li>=1 use stellarator model: Helias5-b</li>\n<li>=2 use stellarator model: Helias4-b</li>\n<li>=3 use stellarator model: Helias3-b</li>\n</ul>",
         "isthtr": "Switch for stellarator auxiliary heating method:\n<ul>\n<li>= 1electron cyclotron resonance heating</li>\n<li>= 2lower hybrid heating</li>\n<li>= 3neutral beam injection</li>\n</ul>",
         "istore": "Switch for thermal storage method:\n<ul>\n<li>=1 option 1 of Electrowatt report, AEA FUS 205</li>\n<li>=2 option 2 of Electrowatt report, AEA FUS 205</li>\n<li>=3 stainless steel block</li>\n</ul>",
-        "isumatoh": "switch for superconductor material in central solenoid:\n<ul>\n<li>=1 ITER Nb3Sn critical surface model with standard\n   ITER parameters</li>\n<li>=2 Bi-2212 high temperature superconductor (range of\n   validity T < 20K, adjusted field b < 104 T, B > 6 T)</li>\n<li>=3 NbTi</li>\n<li>=4 ITER Nb3Sn model with user-specified parameters</li>\n<li>=5 WST Nb3Sn parameterisation</li>\n<li>=6 REBCO HTS parameterisation</li>\n</ul>",
-        "isumatpf": "switch for superconductor material in PF coils:\n<ul>\n<li>=1 ITER Nb3Sn critical surface model with standard\n   ITER parameters</li>\n<li>=2 Bi-2212 high temperature superconductor (range of\n   validity T < 20K, adjusted field b < 104 T, B > 6 T)</li>\n<li>=3 NbTi</li>\n<li>=4 ITER Nb3Sn model with user-specified parameters</li>\n<li>=5 WST Nb3Sn parameterisation</li>\n</ul>",
+        "i_cs_superconductor": "switch for superconductor material in central solenoid:\n<ul>\n<li>=1 ITER Nb3Sn critical surface model with standard\n   ITER parameters</li>\n<li>=2 Bi-2212 high temperature superconductor (range of\n   validity T < 20K, adjusted field b < 104 T, B > 6 T)</li>\n<li>=3 NbTi</li>\n<li>=4 ITER Nb3Sn model with user-specified parameters</li>\n<li>=5 WST Nb3Sn parameterisation</li>\n<li>=6 REBCO HTS parameterisation</li>\n</ul>",
+        "i_pf_superconductor": "switch for superconductor material in PF coils:\n<ul>\n<li>=1 ITER Nb3Sn critical surface model with standard\n   ITER parameters</li>\n<li>=2 Bi-2212 high temperature superconductor (range of\n   validity T < 20K, adjusted field b < 104 T, B > 6 T)</li>\n<li>=3 NbTi</li>\n<li>=4 ITER Nb3Sn model with user-specified parameters</li>\n<li>=5 WST Nb3Sn parameterisation</li>\n</ul>",
         "isweep": "Number of scan points to calculate",
         "isweep_2": "Number of 2D scan points to calculate",
         "itart": "switch for spherical tokamak (ST) models:\n<ul>\n<li>=0 use conventional aspect ratio models</li>\n<li>=1 use spherical tokamak models</li>\n</ul>",
@@ -9928,8 +9928,8 @@
         "j_plus_ob": "",
         "jacket": "",
         "j_tf_bus": "bussing current density (A/m2)",
-        "jscoh_bop": "central solenoid superconductor critical current density (A/m2) at beginning-of-pulse",
-        "jscoh_eof": "central solenoid superconductor critical current density (A/m2) at end-of-flattop",
+        "j_cs_conductor_critical_pulse_start": "central solenoid superconductor critical current density (A/m2) at beginning-of-pulse",
+        "j_cs_conductor_critical_flat_top_end": "central solenoid superconductor critical current density (A/m2) at end-of-flattop",
         "jcableoh_bop": "central solenoid cable critical current density (A/m2) at beginning-of-pulse",
         "jcableoh_eof": "central solenoid cable critical current density (A/m2) at end-of-flattop",
         "jwdgcrt": "critical current density for winding pack (A/m2)",
@@ -9954,10 +9954,10 @@
         "ki": "",
         "kron": "",
         "ksic": "power fraction for outboard double-null scrape-off plasma",
-        "lablcc": "lablcc(ipeqns) : labels describing constraint equations (corresponding itvs)<UL>\n<br>\n<LI> ( 1) Beta (consistency equation) (itv 5)\n  <LI> ( 2) Global power balance (consistency equation) (itv 10,1,2,3,4,6,11)\n  <LI> ( 3) Ion power balance DEPRECATED (itv 10,1,2,3,4,6,11)\n  <LI> ( 4) Electron power balance DEPRECATED (itv 10,1,2,3,4,6,11)\n  <LI> ( 5) Density upper limit (itv 9,1,2,3,4,5,6)\n  <LI> ( 6) (Epsilon x beta poloidal) upper limit (itv 8,1,2,3,4,6)\n  <LI> ( 7) Beam ion density (NBI) (consistency equation) (itv 7)\n  <LI> ( 8) Neutron wall load upper limit (itv 14,1,2,3,4,6)\n  <LI> ( 9) Fusion power upper limit (itv 26,1,2,3,4,6)\n  <LI> (10) Toroidal field 1/R (consistency equation) (itv 12,1,2,3,13 )\n  <LI> (11) Radial build (consistency equation) (itv 3,1,13,16,29,42,61)\n  <LI> (12) Volt second lower limit (STEADY STATE) (itv 15,1,2,3)\n  <LI> (13) Burn time lower limit (PULSE) (itv 21,1,16,17,29,42,44,61)\n            (itv 19,1,2,3,6)\n  <LI> (14) Neutral beam decay lengths to plasma centre (NBI) (consistency equation)\n  <LI> (15) LH power threshold limit (itv 103)\n  <LI> (16) Net electric power lower limit (itv 25,1,2,3)\n  <LI> (17) Radiation fraction upper limit (itv 28)\n  <LI> (18) Divertor heat load upper limit (itv 27)\n  <LI> (19) MVA upper limit (itv 30)\n  <LI> (20) Neutral beam tangency radius upper limit (NBI) (itv 33,31,3,13)\n  <LI> (21) Plasma minor radius lower limit (itv 32)\n  <LI> (22) Divertor collisionality upper limit (itv 34,43)\n  <LI> (23) Conducting shell to plasma minor radius ratio upper limit\n            (itv 104,1,74)\n  <LI> (24) Beta upper limit (itv 36,1,2,3,4,6,18)\n  <LI> (25) Peak toroidal field upper limit (itv 35,3,13,29)\n  <LI> (26) Central solenoid EOF current density upper limit (ipfres=0)\n            (itv 38,37,41,12)\n  <LI> (27) Central solenoid BOP current density upper limit (ipfres=0)\n            (itv 39,37,41,12)\n  <LI> (28) Fusion gain Q lower limit (itv 45,47,40)\n  <LI> (29) Inboard radial build consistency (itv 3,1,13,16,29,42,61)\n  <LI> (30) Injection power upper limit (itv 46,47,11)\n  <LI> (31) TF coil case stress upper limit (SCTF) (itv 48,56,57,58,59,60,24)\n  <LI> (32) TF coil conduit stress upper limit (SCTF) (itv 49,56,57,58,59,60,24)\n  <LI> (33) I_op / I_critical (TF coil) (SCTF) (itv 50,56,57,58,59,60,24)\n  <LI> (34) Dump voltage upper limit (SCTF) (itv 51,52,56,57,58,59,60,24)\n  <LI> (35) J_winding pack/J_protection upper limit (SCTF) (itv 53,56,57,58,59,60,24)\n  <LI> (36) TF coil temperature margin lower limit (SCTF) (itv 54,55,56,57,58,59,60,24)\n  <LI> (37) Current drive gamma upper limit (itv 40,47)\n  <LI> (38) First wall coolant temperature rise upper limit (itv 62)\n  <LI> (39) First wall peak temperature upper limit (itv 63)\n  <LI> (40) Start-up injection power lower limit (PULSE) (itv 64)\n  <LI> (41) Plasma current ramp-up time lower limit (PULSE) (itv  66,65)\n  <LI> (42) Cycle time lower limit (PULSE) (itv 17,67,65)\n  <LI> (43) Average centrepost temperature\n            (TART) (consistency equation) (itv 13,20,69,70)\n  <LI> (44) Peak centrepost temperature upper limit (TART) (itv 68,69,70)\n  <LI> (45) Edge safety factor lower limit (TART) (itv 71,1,2,3)\n  <LI> (46) Equation for Ip/Irod upper limit (TART) (itv 72,2,60)\n  <LI> (47) NOT USED\n  <LI> (48) Poloidal beta upper limit (itv 79,2,3,18)\n  <LI> (49) NOT USED\n  <LI> (50) IFE repetition rate upper limit (IFE)\n  <LI> (51) Startup volt-seconds consistency (PULSE) (itv 16,29,3,1)\n  <LI> (52) Tritium breeding ratio lower limit (itv 89,90,91)\n  <LI> (53) Neutron fluence on TF coil upper limit (itv 92,93,94)\n  <LI> (54) Peak TF coil nuclear heating upper limit (itv 95,93,94)\n  <LI> (55) Vacuum vessel helium concentration upper limit i_blanket_type =2 (itv 96,93,94)\n  <LI> (56) Pseparatrix/Rmajor upper limit (itv 97,1,3)\n  <LI> (57) NOT USED\n  <LI> (58) NOT USED\n  <LI> (59) Neutral beam shine-through fraction upper limit (NBI) (itv 105,6,19,4 )\n  <LI> (60) Central solenoid temperature margin lower limit (SCTF) (itv 106)\n  <LI> (61) Minimum availability value (itv 107)\n  <LI> (62) f_alpha_energy_confinement the ratio of particle to energy confinement times (itv 110)\n  <LI> (63) The number of ITER-like vacuum pumps niterpump < tfno (itv 111)\n  <LI> (64) Zeff less than or equal to zeffmax (itv 112)\n  <LI> (65) Dump time set by VV loads (itv 56, 113)\n  <LI> (66) Limit on rate of change of energy in poloidal field\n            (Use iteration variable 65(t_current_ramp_up), 115)\n  <LI> (67) Simple Radiation Wall load limit (itv 116, 4,6)\n  <LI> (68) Psep * Bt / qAR upper limit (itv 117)\n  <LI> (69) ensure separatrix power = the value from Kallenbach divertor (itv 118)\n  <LI> (70) ensure that teomp = separatrix temperature in the pedestal profile,\n            (itv 119 (tesep))\n  <LI> (71) ensure that neomp = separatrix density (nesep) x neratio\n  <LI> (72) central solenoid shear stress limit (Tresca yield criterion) (itv 123 foh_stress)\n  <LI> (73) Psep >= Plh + Paux (itv 137 (fplhsep))\n  <LI> (74) TFC quench < tmax_croco (itv 141 (fcqt))\n  <LI> (75) TFC current/copper area < Maximum (itv 143 f_coppera_m2)\n  <LI> (76) Eich critical separatrix density\n  <LI> (77) TF coil current per turn upper limit\n  <LI> (78) Reinke criterion impurity fraction lower limit (itv  147 freinke)\n  <LI> (79) Peak CS field upper limit (itv  149 fbmaxcs)\n  <LI> (80) Divertor power lower limit pdivt (itv  153 fpdivlim)\n  <LI> (81) Ne(0) > ne(ped) constraint (itv  154 fne0)\n  <LI> (82) toroidalgap >  tftort constraint (itv  171 ftoroidalgap)\n  <LI> (83) Radial build consistency for stellarators (itv 172 f_avspace)\n  <LI> (84) Lower limit for beta (itv 173 fbeta_min)\n  <LI> (85) Constraint for CP lifetime\n  <LI> (86) Constraint for TF coil turn dimension\n  <LI> (87) Constraint for cryogenic power\n  <LI> (88) Constraint for TF coil strain absolute value\n  <LI> (89) Constraint for CS coil quench protection\n  <LI> (90) Checking if the design point is ECRH ignitable (itv 164 fecrh_ignition)</UL>\n\n\n\n",
+        "lablcc": "lablcc(ipeqns) : labels describing constraint equations (corresponding itvs)<UL>\n<br>\n<LI> ( 1) Beta (consistency equation) (itv 5)\n  <LI> ( 2) Global power balance (consistency equation) (itv 10,1,2,3,4,6,11)\n  <LI> ( 3) Ion power balance DEPRECATED (itv 10,1,2,3,4,6,11)\n  <LI> ( 4) Electron power balance DEPRECATED (itv 10,1,2,3,4,6,11)\n  <LI> ( 5) Density upper limit (itv 9,1,2,3,4,5,6)\n  <LI> ( 6) (Epsilon x beta poloidal) upper limit (itv 8,1,2,3,4,6)\n  <LI> ( 7) Beam ion density (NBI) (consistency equation) (itv 7)\n  <LI> ( 8) Neutron wall load upper limit (itv 14,1,2,3,4,6)\n  <LI> ( 9) Fusion power upper limit (itv 26,1,2,3,4,6)\n  <LI> (10) Toroidal field 1/R (consistency equation) (itv 12,1,2,3,13 )\n  <LI> (11) Radial build (consistency equation) (itv 3,1,13,16,29,42,61)\n  <LI> (12) Volt second lower limit (STEADY STATE) (itv 15,1,2,3)\n  <LI> (13) Burn time lower limit (PULSE) (itv 21,1,16,17,29,42,44,61)\n            (itv 19,1,2,3,6)\n  <LI> (14) Neutral beam decay lengths to plasma centre (NBI) (consistency equation)\n  <LI> (15) LH power threshold limit (itv 103)\n  <LI> (16) Net electric power lower limit (itv 25,1,2,3)\n  <LI> (17) Radiation fraction upper limit (itv 28)\n  <LI> (18) Divertor heat load upper limit (itv 27)\n  <LI> (19) MVA upper limit (itv 30)\n  <LI> (20) Neutral beam tangency radius upper limit (NBI) (itv 33,31,3,13)\n  <LI> (21) Plasma minor radius lower limit (itv 32)\n  <LI> (22) Divertor collisionality upper limit (itv 34,43)\n  <LI> (23) Conducting shell to plasma minor radius ratio upper limit\n            (itv 104,1,74)\n  <LI> (24) Beta upper limit (itv 36,1,2,3,4,6,18)\n  <LI> (25) Peak toroidal field upper limit (itv 35,3,13,29)\n  <LI> (26) Central solenoid EOF current density upper limit (i_pf_conductor=0)\n            (itv 38,37,41,12)\n  <LI> (27) Central solenoid BOP current density upper limit (i_pf_conductor=0)\n            (itv 39,37,41,12)\n  <LI> (28) Fusion gain Q lower limit (itv 45,47,40)\n  <LI> (29) Inboard radial build consistency (itv 3,1,13,16,29,42,61)\n  <LI> (30) Injection power upper limit (itv 46,47,11)\n  <LI> (31) TF coil case stress upper limit (SCTF) (itv 48,56,57,58,59,60,24)\n  <LI> (32) TF coil conduit stress upper limit (SCTF) (itv 49,56,57,58,59,60,24)\n  <LI> (33) I_op / I_critical (TF coil) (SCTF) (itv 50,56,57,58,59,60,24)\n  <LI> (34) Dump voltage upper limit (SCTF) (itv 51,52,56,57,58,59,60,24)\n  <LI> (35) J_winding pack/J_protection upper limit (SCTF) (itv 53,56,57,58,59,60,24)\n  <LI> (36) TF coil temperature margin lower limit (SCTF) (itv 54,55,56,57,58,59,60,24)\n  <LI> (37) Current drive gamma upper limit (itv 40,47)\n  <LI> (38) First wall coolant temperature rise upper limit (itv 62)\n  <LI> (39) First wall peak temperature upper limit (itv 63)\n  <LI> (40) Start-up injection power lower limit (PULSE) (itv 64)\n  <LI> (41) Plasma current ramp-up time lower limit (PULSE) (itv  66,65)\n  <LI> (42) Cycle time lower limit (PULSE) (itv 17,67,65)\n  <LI> (43) Average centrepost temperature\n            (TART) (consistency equation) (itv 13,20,69,70)\n  <LI> (44) Peak centrepost temperature upper limit (TART) (itv 68,69,70)\n  <LI> (45) Edge safety factor lower limit (TART) (itv 71,1,2,3)\n  <LI> (46) Equation for Ip/Irod upper limit (TART) (itv 72,2,60)\n  <LI> (47) NOT USED\n  <LI> (48) Poloidal beta upper limit (itv 79,2,3,18)\n  <LI> (49) NOT USED\n  <LI> (50) IFE repetition rate upper limit (IFE)\n  <LI> (51) Startup volt-seconds consistency (PULSE) (itv 16,29,3,1)\n  <LI> (52) Tritium breeding ratio lower limit (itv 89,90,91)\n  <LI> (53) Neutron fluence on TF coil upper limit (itv 92,93,94)\n  <LI> (54) Peak TF coil nuclear heating upper limit (itv 95,93,94)\n  <LI> (55) Vacuum vessel helium concentration upper limit i_blanket_type =2 (itv 96,93,94)\n  <LI> (56) Pseparatrix/Rmajor upper limit (itv 97,1,3)\n  <LI> (57) NOT USED\n  <LI> (58) NOT USED\n  <LI> (59) Neutral beam shine-through fraction upper limit (NBI) (itv 105,6,19,4 )\n  <LI> (60) Central solenoid temperature margin lower limit (SCTF) (itv 106)\n  <LI> (61) Minimum availability value (itv 107)\n  <LI> (62) f_alpha_energy_confinement the ratio of particle to energy confinement times (itv 110)\n  <LI> (63) The number of ITER-like vacuum pumps niterpump < tfno (itv 111)\n  <LI> (64) Zeff less than or equal to zeffmax (itv 112)\n  <LI> (65) Dump time set by VV loads (itv 56, 113)\n  <LI> (66) Limit on rate of change of energy in poloidal field\n            (Use iteration variable 65(t_current_ramp_up), 115)\n  <LI> (67) Simple Radiation Wall load limit (itv 116, 4,6)\n  <LI> (68) Psep * Bt / qAR upper limit (itv 117)\n  <LI> (69) ensure separatrix power = the value from Kallenbach divertor (itv 118)\n  <LI> (70) ensure that teomp = separatrix temperature in the pedestal profile,\n            (itv 119 (tesep))\n  <LI> (71) ensure that neomp = separatrix density (nesep) x neratio\n  <LI> (72) central solenoid shear stress limit (Tresca yield criterion) (itv 123 foh_stress)\n  <LI> (73) Psep >= Plh + Paux (itv 137 (fplhsep))\n  <LI> (74) TFC quench < tmax_croco (itv 141 (fcqt))\n  <LI> (75) TFC current/copper area < Maximum (itv 143 f_coppera_m2)\n  <LI> (76) Eich critical separatrix density\n  <LI> (77) TF coil current per turn upper limit\n  <LI> (78) Reinke criterion impurity fraction lower limit (itv  147 freinke)\n  <LI> (79) Peak CS field upper limit (itv  149 fb_cs_limit_max)\n  <LI> (80) Divertor power lower limit pdivt (itv  153 fpdivlim)\n  <LI> (81) Ne(0) > ne(ped) constraint (itv  154 fne0)\n  <LI> (82) toroidalgap >  tftort constraint (itv  171 ftoroidalgap)\n  <LI> (83) Radial build consistency for stellarators (itv 172 f_avspace)\n  <LI> (84) Lower limit for beta (itv 173 fbeta_min)\n  <LI> (85) Constraint for CP lifetime\n  <LI> (86) Constraint for TF coil turn dimension\n  <LI> (87) Constraint for cryogenic power\n  <LI> (88) Constraint for TF coil strain absolute value\n  <LI> (89) Constraint for CS coil quench protection\n  <LI> (90) Checking if the design point is ECRH ignitable (itv 164 fecrh_ignition)</UL>\n\n\n\n",
         "lablmm": "lablmm(ipnfoms) : labels describing figures of merit:<UL>\n<br>\n<LI> ( 1) major radius\n  <LI> ( 2) not used\n  <LI> ( 3) neutron wall load\n  <LI> ( 4) P_tf + P_pf\n  <LI> ( 5) fusion gain Q\n  <LI> ( 6) cost of electricity\n  <LI> ( 7) capital cost (direct cost if ireactor=0,\n                          constructed cost otherwise)\n  <LI> ( 8) aspect ratio\n  <LI> ( 9) divertor heat load\n  <LI> (10) toroidal field\n  <LI> (11) total injected power\n  <LI> (12) hydrogen plant capital cost OBSOLETE\n  <LI> (13) hydrogen production rate OBSOLETE\n  <LI> (14) pulse length\n  <LI> (15) plant availability factor (N.B. requires\n            iavail=1 to be set)\n  <LI> (16) linear combination of major radius (minimised) and pulse length (maximised)\n              note: FoM should be minimised only!\n  <LI> (17) net electrical output\n  <LI> (18) Null Figure of Merit\n  <LI> (19) linear combination of big Q and pulse length (maximised)\n              note: FoM should be minimised only!</UL>\n\n\n",
-        "lablxc": "lablxc(ipnvars) : labels describing iteration variables<UL>\n<br>\n<LI> ( 1) aspect\n  <LI> ( 2) bt\n  <LI> ( 3) rmajor\n <LI> ( 4) te\n <LI> ( 5) beta\n <LI> ( 6) dene\n <LI> ( 7) f_nd_beam_electron\n <LI> ( 8) fbeta_poloidal_eps (f-value for equation 6)\n <LI> ( 9) fdene (f-value for equation 5)\n <LI> (10) hfact\n <LI> (11) pheat\n <LI> (12) oacdcp\n <LI> (13) dr_tf_inboard (NOT RECOMMENDED)\n <LI> (14) fwalld (f-value for equation 8)\n <LI> (15) fvs (f-value for equation 12)\n <LI> (16) dr_cs\n <LI> (17) tdwell\n <LI> (18) q\n <LI> (19) beam_energy\n <LI> (20) temp_cp_average\n <LI> (21) ftburn (f-value for equation 13)\n <LI> (22) NOT USED\n <LI> (23) fcoolcp\n <LI> (24) NOT USED\n <LI> (25) fpnetel (f-value for equation 16)\n <LI> (26) ffuspow (f-value for equation 9)\n <LI> (27) fhldiv (f-value for equation 18)\n <LI> (28) fradpwr (f-value for equation 17), total radiation fraction\n <LI> (29) dr_bore\n <LI> (30) fmva (f-value for equation 19)\n <LI> (31) gapomin\n <LI> (32) frminor (f-value for equation 21)\n <LI> (33) fportsz (f-value for equation 20)\n <LI> (34) fdivcol (f-value for equation 22)\n <LI> (35) fpeakb (f-value for equation 25)\n <LI> (36) fbeta_max (f-value for equation 24)\n <LI> (37) coheof\n <LI> (38) fjohc (f-value for equation 26)\n <LI> (39) fjohc0 (f-value for equation 27)\n <LI> (40) fgamcd (f-value for equation 37)\n <LI> (41) fcohbop\n <LI> (42) dr_cs_tf_gap\n <LI> (43) NOT USED\n <LI> (44) fvsbrnni\n <LI> (45) fqval (f-value for equation 28)\n <LI> (46) fpinj (f-value for equation 30)\n <LI> (47) feffcd\n <LI> (48) fstrcase (f-value for equation 31)\n <LI> (49) fstrcond (f-value for equation 32)\n <LI> (50) fiooic (f-value for equation 33)\n <LI> (51) fvdump (f-value for equation 34)\n <LI> (52) vdalw\n <LI> (53) fjprot (f-value for equation 35)\n <LI> (54) ftmargtf (f-value for equation 36)\n <LI> (55) NOT USED\n <LI> (56) tdmptf\n <LI> (57) thkcas\n <LI> (58) thwcndut\n <LI> (59) fcutfsu\n <LI> (60) cpttf\n <LI> (61) dr_shld_vv_gap_inboard\n <LI> (62) fdtmp (f-value for equation 38)\n <LI> (63) ftpeak (f-value for equation 39)\n <LI> (64) fauxmn (f-value for equation 40)\n <LI> (65) tohs\n <LI> (66) ftohs (f-value for equation 41)\n <LI> (67) ftcycl (f-value for equation 42)\n <LI> (68) fptemp (f-value for equation 44)\n <LI> (69) rcool\n <LI> (70) vcool\n <LI> (71) fq (f-value for equation 45)\n <LI> (72) fipir (f-value for equation 46)\n <LI> (73) dr_fw_plasma_gap_inboard\n <LI> (74) dr_fw_plasma_gap_outboard\n <LI> (75) tfootfi\n <LI> (76) NOT USED\n <LI> (77) NOT USED\n <LI> (78) NOT USED\n <LI> (79) fbeta_poloidal (f-value for equation 48)\n <LI> (80) NOT USED\n <LI> (81) edrive\n <LI> (82) drveff\n <LI> (83) tgain\n <LI> (84) chrad\n <LI> (85) pdrive\n <LI> (86) frrmax (f-value for equation 50)\n <LI> (87) NOT USED\n <LI> (88) NOT USED\n <LI> (89) ftbr (f-value for equation 52)\n <LI> (90) blbuith\n <LI> (91) blbuoth\n <LI> (92) fflutf (f-value for equation 53)\n <LI> (93) dr_shld_inboard\n <LI> (94) dr_shld_outboard\n <LI> (95) fptfnuc (f-value for equation 54)\n <LI> (96) fvvhe (f-value for equation 55)\n <LI> (97) fpsepr (f-value for equation 56)\n <LI> (98) li6enrich\n <LI> (99) NOT USED\n <LI> (100) NOT USED\n <LI> (101) NOT USED\n <LI> (102) fimpvar\n <LI> (103) fl_h_threshold (f-value for equation 15)\n <LI> (104)fr_conducting_wall (f-value for equation 23)\n <LI> (105) fnbshinef (f-value for equation 59)\n <LI> (106) ftmargoh (f-value for equation 60)\n <LI> (107) favail (f-value for equation 61)\n <LI> (108) breeder_f: Volume of Li4SiO4 / (Volume of Be12Ti + Li4SiO4)\n <LI> (109) f_nd_alpha_electron: thermal alpha density / electron density\n <LI> (110) falpha_energy_confinement: Lower limit on f_alpha_energy_confinement the ratio of alpha\n <LI> (111) fniterpump: f-value for constraint that number\n <LI> (112) fzeffmax: f-value for max Zeff (f-value for equation 64)\n <LI> (113) ftaucq: f-value for minimum quench time (f-value for equation 65)\n <LI> (114) len_fw_channel: Length of a single first wall channel\n <LI> (115) fpoloidalpower: f-value for max rate of change of\n <LI> (116) fradwall: f-value for radiation wall load limit (eq. 67)\n <LI> (117) fpsepbqar: f-value for  Psep*Bt/qar upper limit (eq. 68)\n <LI> (118) fpsep: f-value to ensure separatrix power is less than\n <LI> (119) tesep:  separatrix temperature calculated by the Kallenbach divertor model\n <LI> (120) ttarget: Plasma temperature adjacent to divertor sheath [eV]\n <LI> (121) neratio: ratio of mean SOL density at OMP to separatrix density at OMP\n <LI> (122) oh_steel_frac : streel fraction of Central Solenoid\n <LI> (123) foh_stress : f-value for CS coil Tresca yield criterion (f-value for eq. 72)\n <LI> (124) qtargettotal : Power density on target including surface recombination [W/m2]\n <LI> (125) fimp(3) :  Beryllium density fraction relative to electron density\n <LI> (126) fimp(4) :  Carbon density fraction relative to electron density\n <LI> (127) fimp(5) :  Nitrogen fraction relative to electron density\n <LI> (128) fimp(6) :  Oxygen density fraction relative to electron density\n <LI> (129) fimp(7) :  Neon density fraction relative to electron density\n <LI> (130) fimp(8) :  Silicon density fraction relative to electron density\n <LI> (131) fimp(9) :  Argon density fraction relative to electron density\n <LI> (132) fimp(10) :  Iron density fraction relative to electron density\n <LI> (133) fimp(11) :  Nickel density fraction relative to electron density\n <LI> (134) fimp(12) :  Krypton density fraction relative to electron density\n <LI> (135) fimp(13) :  Xenon density fraction relative to electron density\n <LI> (136) fimp(14) :  Tungsten density fraction relative to electron density\n <LI> (137) fplhsep (f-value for equation 73)\n <LI> (138) rebco_thickness : thickness of REBCO layer in tape (m)\n <LI> (139) copper_thick : thickness of copper layer in tape (m)\n <LI> (140) dr_tf_wp : radial thickness of TFC winding pack (m)\n <LI> (141) fcqt : TF coil quench temperature < tmax_croco (f-value for equation 74)\n <LI> (142) nesep : electron density at separatrix [m-3]\n <LI> (143) f_copperA_m2 : TF coil current / copper area < Maximum value\n <LI> (144) fnesep : Eich critical electron density at separatrix\n <LI> (145) fgwped :  fraction of Greenwald density to set as pedestal-top density\n <LI> (146) fcpttf : F-value for TF coil current per turn limit (constraint equation 77)\n <LI> (147) freinke : F-value for Reinke detachment criterion (constraint equation 78)\n <LI> (148) fzactual : fraction of impurity at SOL with Reinke detachment criterion\n <LI> (149) fbmaxcs : F-value for max peak CS field (con. 79, itvar 149)\n <LI> (152) fbmaxcs : Ratio of separatrix density to Greenwald density\n <LI> (153) fpdivlim : F-value for minimum pdivt (con. 80)\n <LI> (154) fne0 : F-value for ne(0) > ne(ped) (con. 81)\n <LI> (155) pfusife : IFE input fusion power (MW) (ifedrv=3 only)\n <LI> (156) rrin : Input IFE repetition rate (Hz) (ifedrv=3 only)\n <LI> (157) fvssu : F-value for available to required start up flux (con. 51)\n <LI> (158) croco_thick : Thickness of CroCo copper tube (m)\n <LI> (159) ftoroidalgap : F-value for toroidalgap >  tftort constraint (con. 82)\n <LI> (160) f_avspace (f-value for equation 83)\n <LI> (161) fbeta_min (f-value for equation 84)\n <LI> (162) r_cp_top : Top outer radius of the centropost (ST only) (m)\n <LI> (163) f_t_turn_tf : f-value for TF coils WP trurn squared dimension constraint\n <LI> (164) f_crypmw : f-value for cryogenic plant power\n <LI> (165) fstr_wp : f-value for TF coil strain absolute value\n <LI> (166) f_copperaoh_m2 : CS coil current /copper area < Maximum value\n <LI> (167) fecrh_ignition: f-value for equation 90\n <LI> (168) EMPTY : Description\n <LI> (169) EMPTY : Description\n <LI> (170) EMPTY : Description\n <LI> (171) EMPTY : Description\n <LI> (172) EMPTY : Description\n <LI> (173) EMPTY : Description\n <LI> (174) EMPTY : Description\n <LI> (175) EMPTY : Description\n\n\n\n",
-        "lablxc": "lablxc(ipnvars) : labels describing iteration variables<UL>\n<br>\n<LI> ( 1) aspect\n  <LI> ( 2) bt\n  <LI> ( 3) rmajor\n <LI> ( 4) te\n <LI> ( 5) beta\n <LI> ( 6) dene\n <LI> ( 7) f_nd_beam_electron\n <LI> ( 8) fbeta_poloidal_eps (f-value for equation 6)\n <LI> ( 9) fdene (f-value for equation 5)\n <LI> (10) hfact\n <LI> (11) pheat\n <LI> (12) oacdcp\n <LI> (13) dr_tf_inboard (NOT RECOMMENDED)\n <LI> (14) fwalld (f-value for equation 8)\n <LI> (15) fvs (f-value for equation 12)\n <LI> (16) dr_cs\n <LI> (17) t_between_pulse\n <LI> (18) q\n <LI> (19) beam_energy\n <LI> (20) temp_cp_average\n <LI> (21) ft_burn (f-value for equation 13)\n <LI> (22) NOT USED\n <LI> (23) fcoolcp\n <LI> (24) NOT USED\n <LI> (25) fpnetel (f-value for equation 16)\n <LI> (26) ffuspow (f-value for equation 9)\n <LI> (27) fhldiv (f-value for equation 18)\n <LI> (28) fradpwr (f-value for equation 17), total radiation fraction\n <LI> (29) dr_bore\n <LI> (30) fmva (f-value for equation 19)\n <LI> (31) gapomin\n <LI> (32) frminor (f-value for equation 21)\n <LI> (33) fportsz (f-value for equation 20)\n <LI> (34) fdivcol (f-value for equation 22)\n <LI> (35) fpeakb (f-value for equation 25)\n <LI> (36) fbeta_max (f-value for equation 24)\n <LI> (37) coheof\n <LI> (38) fjohc (f-value for equation 26)\n <LI> (39) fjohc0 (f-value for equation 27)\n <LI> (40) fgamcd (f-value for equation 37)\n <LI> (41) fcohbop\n <LI> (42) dr_cs_tf_gap\n <LI> (43) NOT USED\n <LI> (44) fvsbrnni\n <LI> (45) fqval (f-value for equation 28)\n <LI> (46) fpinj (f-value for equation 30)\n <LI> (47) feffcd\n <LI> (48) fstrcase (f-value for equation 31)\n <LI> (49) fstrcond (f-value for equation 32)\n <LI> (50) fiooic (f-value for equation 33)\n <LI> (51) fvdump (f-value for equation 34)\n <LI> (52) vdalw\n <LI> (53) fjprot (f-value for equation 35)\n <LI> (54) ftmargtf (f-value for equation 36)\n <LI> (55) NOT USED\n <LI> (56) tdmptf\n <LI> (57) thkcas\n <LI> (58) thwcndut\n <LI> (59) fcutfsu\n <LI> (60) cpttf\n <LI> (61) dr_shld_vv_gap_inboard\n <LI> (62) fdtmp (f-value for equation 38)\n <LI> (63) ftpeak (f-value for equation 39)\n <LI> (64) fauxmn (f-value for equation 40)\n <LI> (65) t_current_ramp_up\n <LI> (66) ft_current_ramp_up (f-value for equation 41)\n <LI> (67) ftcycl (f-value for equation 42)\n <LI> (68) fptemp (f-value for equation 44)\n <LI> (69) rcool\n <LI> (70) vcool\n <LI> (71) fq (f-value for equation 45)\n <LI> (72) fipir (f-value for equation 46)\n <LI> (73) dr_fw_plasma_gap_inboard\n <LI> (74) dr_fw_plasma_gap_outboard\n <LI> (75) tfootfi\n <LI> (76) NOT USED\n <LI> (77) NOT USED\n <LI> (78) NOT USED\n <LI> (79) fbetap (f-value for equation 48)\n <LI> (80) NOT USED\n <LI> (81) edrive\n <LI> (82) drveff\n <LI> (83) tgain\n <LI> (84) chrad\n <LI> (85) pdrive\n <LI> (86) frrmax (f-value for equation 50)\n <LI> (87) NOT USED\n <LI> (88) NOT USED\n <LI> (89) ftbr (f-value for equation 52)\n <LI> (90) blbuith\n <LI> (91) blbuoth\n <LI> (92) fflutf (f-value for equation 53)\n <LI> (93) dr_shld_inboard\n <LI> (94) dr_shld_outboard\n <LI> (95) fptfnuc (f-value for equation 54)\n <LI> (96) fvvhe (f-value for equation 55)\n <LI> (97) fpsepr (f-value for equation 56)\n <LI> (98) li6enrich\n <LI> (99) NOT USED\n <LI> (100) NOT USED\n <LI> (101) NOT USED\n <LI> (102) fimpvar\n <LI> (103) fl_h_threshold (f-value for equation 15)\n <LI> (104)fr_conducting_wall (f-value for equation 23)\n <LI> (105) fnbshinef (f-value for equation 59)\n <LI> (106) ftmargoh (f-value for equation 60)\n <LI> (107) favail (f-value for equation 61)\n <LI> (108) breeder_f: Volume of Li4SiO4 / (Volume of Be12Ti + Li4SiO4)\n <LI> (109) f_nd_alpha_electron: thermal alpha density / electron density\n <LI> (110) falpha_energy_confinement: Lower limit on f_alpha_energy_confinement the ratio of alpha\n <LI> (111) fniterpump: f-value for constraint that number\n <LI> (112) fzeffmax: f-value for max Zeff (f-value for equation 64)\n <LI> (113) ftaucq: f-value for minimum quench time (f-value for equation 65)\n <LI> (114) len_fw_channel: Length of a single first wall channel\n <LI> (115) fpoloidalpower: f-value for max rate of change of\n <LI> (116) fradwall: f-value for radiation wall load limit (eq. 67)\n <LI> (117) fpsepbqar: f-value for  Psep*Bt/qar upper limit (eq. 68)\n <LI> (118) fpsep: f-value to ensure separatrix power is less than\n <LI> (119) tesep:  separatrix temperature calculated by the Kallenbach divertor model\n <LI> (120) ttarget: Plasma temperature adjacent to divertor sheath [eV]\n <LI> (121) neratio: ratio of mean SOL density at OMP to separatrix density at OMP\n <LI> (122) oh_steel_frac : streel fraction of Central Solenoid\n <LI> (123) foh_stress : f-value for CS coil Tresca yield criterion (f-value for eq. 72)\n <LI> (124) qtargettotal : Power density on target including surface recombination [W/m2]\n <LI> (125) fimp(3) :  Beryllium density fraction relative to electron density\n <LI> (126) fimp(4) :  Carbon density fraction relative to electron density\n <LI> (127) fimp(5) :  Nitrogen fraction relative to electron density\n <LI> (128) fimp(6) :  Oxygen density fraction relative to electron density\n <LI> (129) fimp(7) :  Neon density fraction relative to electron density\n <LI> (130) fimp(8) :  Silicon density fraction relative to electron density\n <LI> (131) fimp(9) :  Argon density fraction relative to electron density\n <LI> (132) fimp(10) :  Iron density fraction relative to electron density\n <LI> (133) fimp(11) :  Nickel density fraction relative to electron density\n <LI> (134) fimp(12) :  Krypton density fraction relative to electron density\n <LI> (135) fimp(13) :  Xenon density fraction relative to electron density\n <LI> (136) fimp(14) :  Tungsten density fraction relative to electron density\n <LI> (137) fplhsep (f-value for equation 73)\n <LI> (138) rebco_thickness : thickness of REBCO layer in tape (m)\n <LI> (139) copper_thick : thickness of copper layer in tape (m)\n <LI> (140) dr_tf_wp : radial thickness of TFC winding pack (m)\n <LI> (141) fcqt : TF coil quench temperature < tmax_croco (f-value for equation 74)\n <LI> (142) nesep : electron density at separatrix [m-3]\n <LI> (143) f_copperA_m2 : TF coil current / copper area < Maximum value\n <LI> (144) fnesep : Eich critical electron density at separatrix\n <LI> (145) fgwped :  fraction of Greenwald density to set as pedestal-top density\n <LI> (146) fcpttf : F-value for TF coil current per turn limit (constraint equation 77)\n <LI> (147) freinke : F-value for Reinke detachment criterion (constraint equation 78)\n <LI> (148) fzactual : fraction of impurity at SOL with Reinke detachment criterion\n <LI> (149) fbmaxcs : F-value for max peak CS field (con. 79, itvar 149)\n <LI> (152) fbmaxcs : Ratio of separatrix density to Greenwald density\n <LI> (153) fpdivlim : F-value for minimum pdivt (con. 80)\n <LI> (154) fne0 : F-value for ne(0) > ne(ped) (con. 81)\n <LI> (155) pfusife : IFE input fusion power (MW) (ifedrv=3 only)\n <LI> (156) rrin : Input IFE repetition rate (Hz) (ifedrv=3 only)\n <LI> (157) fvssu : F-value for available to required start up flux (con. 51)\n <LI> (158) croco_thick : Thickness of CroCo copper tube (m)\n <LI> (159) ftoroidalgap : F-value for toroidalgap >  tftort constraint (con. 82)\n <LI> (160) f_avspace (f-value for equation 83)\n <LI> (161) fbeta_min (f-value for equation 84)\n <LI> (162) r_cp_top : Top outer radius of the centropost (ST only) (m)\n <LI> (163) f_t_turn_tf : f-value for TF coils WP trurn squared dimension constraint\n <LI> (164) f_crypmw : f-value for cryogenic plant power\n <LI> (165) fstr_wp : f-value for TF coil strain absolute value\n <LI> (166) f_copperaoh_m2 : CS coil current /copper area < Maximum value\n <LI> (167) fecrh_ignition: f-value for equation 90\n <LI> (168) EMPTY : Description\n <LI> (169) EMPTY : Description\n <LI> (170) EMPTY : Description\n <LI> (171) EMPTY : Description\n <LI> (172) EMPTY : Description\n <LI> (173) EMPTY : Description\n <LI> (174) EMPTY : Description\n <LI> (175) EMPTY : Description\n\n\n\n",
+        "lablxc": "lablxc(ipnvars) : labels describing iteration variables<UL>\n<br>\n<LI> ( 1) aspect\n  <LI> ( 2) bt\n  <LI> ( 3) rmajor\n <LI> ( 4) te\n <LI> ( 5) beta\n <LI> ( 6) dene\n <LI> ( 7) f_nd_beam_electron\n <LI> ( 8) fbeta_poloidal_eps (f-value for equation 6)\n <LI> ( 9) fdene (f-value for equation 5)\n <LI> (10) hfact\n <LI> (11) pheat\n <LI> (12) oacdcp\n <LI> (13) dr_tf_inboard (NOT RECOMMENDED)\n <LI> (14) fwalld (f-value for equation 8)\n <LI> (15) fvs (f-value for equation 12)\n <LI> (16) dr_cs\n <LI> (17) tdwell\n <LI> (18) q\n <LI> (19) beam_energy\n <LI> (20) temp_cp_average\n <LI> (21) ftburn (f-value for equation 13)\n <LI> (22) NOT USED\n <LI> (23) fcoolcp\n <LI> (24) NOT USED\n <LI> (25) fpnetel (f-value for equation 16)\n <LI> (26) ffuspow (f-value for equation 9)\n <LI> (27) fhldiv (f-value for equation 18)\n <LI> (28) fradpwr (f-value for equation 17), total radiation fraction\n <LI> (29) dr_bore\n <LI> (30) fmva (f-value for equation 19)\n <LI> (31) gapomin\n <LI> (32) frminor (f-value for equation 21)\n <LI> (33) fportsz (f-value for equation 20)\n <LI> (34) fdivcol (f-value for equation 22)\n <LI> (35) fpeakb (f-value for equation 25)\n <LI> (36) fbeta_max (f-value for equation 24)\n <LI> (37) j_cs_flat_top_end\n <LI> (38) fjohc (f-value for equation 26)\n <LI> (39) fjohc0 (f-value for equation 27)\n <LI> (40) fgamcd (f-value for equation 37)\n <LI> (41) f_j_cs_start_pulse_end_flat_top\n <LI> (42) dr_cs_tf_gap\n <LI> (43) NOT USED\n <LI> (44) fvsbrnni\n <LI> (45) fqval (f-value for equation 28)\n <LI> (46) fpinj (f-value for equation 30)\n <LI> (47) feffcd\n <LI> (48) fstrcase (f-value for equation 31)\n <LI> (49) fstrcond (f-value for equation 32)\n <LI> (50) fiooic (f-value for equation 33)\n <LI> (51) fvdump (f-value for equation 34)\n <LI> (52) vdalw\n <LI> (53) fjprot (f-value for equation 35)\n <LI> (54) ftmargtf (f-value for equation 36)\n <LI> (55) NOT USED\n <LI> (56) tdmptf\n <LI> (57) thkcas\n <LI> (58) thwcndut\n <LI> (59) fcutfsu\n <LI> (60) cpttf\n <LI> (61) dr_shld_vv_gap_inboard\n <LI> (62) fdtmp (f-value for equation 38)\n <LI> (63) ftpeak (f-value for equation 39)\n <LI> (64) fauxmn (f-value for equation 40)\n <LI> (65) tohs\n <LI> (66) ftohs (f-value for equation 41)\n <LI> (67) ftcycl (f-value for equation 42)\n <LI> (68) fptemp (f-value for equation 44)\n <LI> (69) rcool\n <LI> (70) vcool\n <LI> (71) fq (f-value for equation 45)\n <LI> (72) fipir (f-value for equation 46)\n <LI> (73) dr_fw_plasma_gap_inboard\n <LI> (74) dr_fw_plasma_gap_outboard\n <LI> (75) tfootfi\n <LI> (76) NOT USED\n <LI> (77) NOT USED\n <LI> (78) NOT USED\n <LI> (79) fbeta_poloidal (f-value for equation 48)\n <LI> (80) NOT USED\n <LI> (81) edrive\n <LI> (82) drveff\n <LI> (83) tgain\n <LI> (84) chrad\n <LI> (85) pdrive\n <LI> (86) frrmax (f-value for equation 50)\n <LI> (87) NOT USED\n <LI> (88) NOT USED\n <LI> (89) ftbr (f-value for equation 52)\n <LI> (90) blbuith\n <LI> (91) blbuoth\n <LI> (92) fflutf (f-value for equation 53)\n <LI> (93) dr_shld_inboard\n <LI> (94) dr_shld_outboard\n <LI> (95) fptfnuc (f-value for equation 54)\n <LI> (96) fvvhe (f-value for equation 55)\n <LI> (97) fpsepr (f-value for equation 56)\n <LI> (98) li6enrich\n <LI> (99) NOT USED\n <LI> (100) NOT USED\n <LI> (101) NOT USED\n <LI> (102) fimpvar\n <LI> (103) fl_h_threshold (f-value for equation 15)\n <LI> (104)fr_conducting_wall (f-value for equation 23)\n <LI> (105) fnbshinef (f-value for equation 59)\n <LI> (106) ftmargoh (f-value for equation 60)\n <LI> (107) favail (f-value for equation 61)\n <LI> (108) breeder_f: Volume of Li4SiO4 / (Volume of Be12Ti + Li4SiO4)\n <LI> (109) f_nd_alpha_electron: thermal alpha density / electron density\n <LI> (110) falpha_energy_confinement: Lower limit on f_alpha_energy_confinement the ratio of alpha\n <LI> (111) fniterpump: f-value for constraint that number\n <LI> (112) fzeffmax: f-value for max Zeff (f-value for equation 64)\n <LI> (113) ftaucq: f-value for minimum quench time (f-value for equation 65)\n <LI> (114) len_fw_channel: Length of a single first wall channel\n <LI> (115) fpoloidalpower: f-value for max rate of change of\n <LI> (116) fradwall: f-value for radiation wall load limit (eq. 67)\n <LI> (117) fpsepbqar: f-value for  Psep*Bt/qar upper limit (eq. 68)\n <LI> (118) fpsep: f-value to ensure separatrix power is less than\n <LI> (119) tesep:  separatrix temperature calculated by the Kallenbach divertor model\n <LI> (120) ttarget: Plasma temperature adjacent to divertor sheath [eV]\n <LI> (121) neratio: ratio of mean SOL density at OMP to separatrix density at OMP\n <LI> (122) f_a_cs_steel : streel fraction of Central Solenoid\n <LI> (123) foh_stress : f-value for CS coil Tresca yield criterion (f-value for eq. 72)\n <LI> (124) qtargettotal : Power density on target including surface recombination [W/m2]\n <LI> (125) fimp(3) :  Beryllium density fraction relative to electron density\n <LI> (126) fimp(4) :  Carbon density fraction relative to electron density\n <LI> (127) fimp(5) :  Nitrogen fraction relative to electron density\n <LI> (128) fimp(6) :  Oxygen density fraction relative to electron density\n <LI> (129) fimp(7) :  Neon density fraction relative to electron density\n <LI> (130) fimp(8) :  Silicon density fraction relative to electron density\n <LI> (131) fimp(9) :  Argon density fraction relative to electron density\n <LI> (132) fimp(10) :  Iron density fraction relative to electron density\n <LI> (133) fimp(11) :  Nickel density fraction relative to electron density\n <LI> (134) fimp(12) :  Krypton density fraction relative to electron density\n <LI> (135) fimp(13) :  Xenon density fraction relative to electron density\n <LI> (136) fimp(14) :  Tungsten density fraction relative to electron density\n <LI> (137) fplhsep (f-value for equation 73)\n <LI> (138) rebco_thickness : thickness of REBCO layer in tape (m)\n <LI> (139) copper_thick : thickness of copper layer in tape (m)\n <LI> (140) dr_tf_wp : radial thickness of TFC winding pack (m)\n <LI> (141) fcqt : TF coil quench temperature < tmax_croco (f-value for equation 74)\n <LI> (142) nesep : electron density at separatrix [m-3]\n <LI> (143) f_copperA_m2 : TF coil current / copper area < Maximum value\n <LI> (144) fnesep : Eich critical electron density at separatrix\n <LI> (145) fgwped :  fraction of Greenwald density to set as pedestal-top density\n <LI> (146) fcpttf : F-value for TF coil current per turn limit (constraint equation 77)\n <LI> (147) freinke : F-value for Reinke detachment criterion (constraint equation 78)\n <LI> (148) fzactual : fraction of impurity at SOL with Reinke detachment criterion\n <LI> (149) fb_cs_limit_max : F-value for max peak CS field (con. 79, itvar 149)\n <LI> (152) fb_cs_limit_max : Ratio of separatrix density to Greenwald density\n <LI> (153) fpdivlim : F-value for minimum pdivt (con. 80)\n <LI> (154) fne0 : F-value for ne(0) > ne(ped) (con. 81)\n <LI> (155) pfusife : IFE input fusion power (MW) (ifedrv=3 only)\n <LI> (156) rrin : Input IFE repetition rate (Hz) (ifedrv=3 only)\n <LI> (157) fvs_cs_pf_total_ramp : F-value for available to required start up flux (con. 51)\n <LI> (158) croco_thick : Thickness of CroCo copper tube (m)\n <LI> (159) ftoroidalgap : F-value for toroidalgap >  tftort constraint (con. 82)\n <LI> (160) f_avspace (f-value for equation 83)\n <LI> (161) fbeta_min (f-value for equation 84)\n <LI> (162) r_cp_top : Top outer radius of the centropost (ST only) (m)\n <LI> (163) f_t_turn_tf : f-value for TF coils WP trurn squared dimension constraint\n <LI> (164) f_crypmw : f-value for cryogenic plant power\n <LI> (165) fstr_wp : f-value for TF coil strain absolute value\n <LI> (166) f_copperaoh_m2 : CS coil current /copper area < Maximum value\n <LI> (167) fecrh_ignition: f-value for equation 90\n <LI> (168) EMPTY : Description\n <LI> (169) EMPTY : Description\n <LI> (170) EMPTY : Description\n <LI> (171) EMPTY : Description\n <LI> (172) EMPTY : Description\n <LI> (173) EMPTY : Description\n <LI> (174) EMPTY : Description\n <LI> (175) EMPTY : Description\n\n\n\n",
+        "lablxc": "lablxc(ipnvars) : labels describing iteration variables<UL>\n<br>\n<LI> ( 1) aspect\n  <LI> ( 2) bt\n  <LI> ( 3) rmajor\n <LI> ( 4) te\n <LI> ( 5) beta\n <LI> ( 6) dene\n <LI> ( 7) f_nd_beam_electron\n <LI> ( 8) fbeta_poloidal_eps (f-value for equation 6)\n <LI> ( 9) fdene (f-value for equation 5)\n <LI> (10) hfact\n <LI> (11) pheat\n <LI> (12) oacdcp\n <LI> (13) dr_tf_inboard (NOT RECOMMENDED)\n <LI> (14) fwalld (f-value for equation 8)\n <LI> (15) fvs (f-value for equation 12)\n <LI> (16) dr_cs\n <LI> (17) t_between_pulse\n <LI> (18) q\n <LI> (19) beam_energy\n <LI> (20) temp_cp_average\n <LI> (21) ft_burn (f-value for equation 13)\n <LI> (22) NOT USED\n <LI> (23) fcoolcp\n <LI> (24) NOT USED\n <LI> (25) fpnetel (f-value for equation 16)\n <LI> (26) ffuspow (f-value for equation 9)\n <LI> (27) fhldiv (f-value for equation 18)\n <LI> (28) fradpwr (f-value for equation 17), total radiation fraction\n <LI> (29) dr_bore\n <LI> (30) fmva (f-value for equation 19)\n <LI> (31) gapomin\n <LI> (32) frminor (f-value for equation 21)\n <LI> (33) fportsz (f-value for equation 20)\n <LI> (34) fdivcol (f-value for equation 22)\n <LI> (35) fpeakb (f-value for equation 25)\n <LI> (36) fbeta_max (f-value for equation 24)\n <LI> (37) j_cs_flat_top_end\n <LI> (38) fjohc (f-value for equation 26)\n <LI> (39) fjohc0 (f-value for equation 27)\n <LI> (40) fgamcd (f-value for equation 37)\n <LI> (41) f_j_cs_start_pulse_end_flat_top\n <LI> (42) dr_cs_tf_gap\n <LI> (43) NOT USED\n <LI> (44) fvsbrnni\n <LI> (45) fqval (f-value for equation 28)\n <LI> (46) fpinj (f-value for equation 30)\n <LI> (47) feffcd\n <LI> (48) fstrcase (f-value for equation 31)\n <LI> (49) fstrcond (f-value for equation 32)\n <LI> (50) fiooic (f-value for equation 33)\n <LI> (51) fvdump (f-value for equation 34)\n <LI> (52) vdalw\n <LI> (53) fjprot (f-value for equation 35)\n <LI> (54) ftmargtf (f-value for equation 36)\n <LI> (55) NOT USED\n <LI> (56) tdmptf\n <LI> (57) thkcas\n <LI> (58) thwcndut\n <LI> (59) fcutfsu\n <LI> (60) cpttf\n <LI> (61) dr_shld_vv_gap_inboard\n <LI> (62) fdtmp (f-value for equation 38)\n <LI> (63) ftpeak (f-value for equation 39)\n <LI> (64) fauxmn (f-value for equation 40)\n <LI> (65) t_current_ramp_up\n <LI> (66) ft_current_ramp_up (f-value for equation 41)\n <LI> (67) ftcycl (f-value for equation 42)\n <LI> (68) fptemp (f-value for equation 44)\n <LI> (69) rcool\n <LI> (70) vcool\n <LI> (71) fq (f-value for equation 45)\n <LI> (72) fipir (f-value for equation 46)\n <LI> (73) dr_fw_plasma_gap_inboard\n <LI> (74) dr_fw_plasma_gap_outboard\n <LI> (75) tfootfi\n <LI> (76) NOT USED\n <LI> (77) NOT USED\n <LI> (78) NOT USED\n <LI> (79) fbetap (f-value for equation 48)\n <LI> (80) NOT USED\n <LI> (81) edrive\n <LI> (82) drveff\n <LI> (83) tgain\n <LI> (84) chrad\n <LI> (85) pdrive\n <LI> (86) frrmax (f-value for equation 50)\n <LI> (87) NOT USED\n <LI> (88) NOT USED\n <LI> (89) ftbr (f-value for equation 52)\n <LI> (90) blbuith\n <LI> (91) blbuoth\n <LI> (92) fflutf (f-value for equation 53)\n <LI> (93) dr_shld_inboard\n <LI> (94) dr_shld_outboard\n <LI> (95) fptfnuc (f-value for equation 54)\n <LI> (96) fvvhe (f-value for equation 55)\n <LI> (97) fpsepr (f-value for equation 56)\n <LI> (98) li6enrich\n <LI> (99) NOT USED\n <LI> (100) NOT USED\n <LI> (101) NOT USED\n <LI> (102) fimpvar\n <LI> (103) fl_h_threshold (f-value for equation 15)\n <LI> (104)fr_conducting_wall (f-value for equation 23)\n <LI> (105) fnbshinef (f-value for equation 59)\n <LI> (106) ftmargoh (f-value for equation 60)\n <LI> (107) favail (f-value for equation 61)\n <LI> (108) breeder_f: Volume of Li4SiO4 / (Volume of Be12Ti + Li4SiO4)\n <LI> (109) f_nd_alpha_electron: thermal alpha density / electron density\n <LI> (110) falpha_energy_confinement: Lower limit on f_alpha_energy_confinement the ratio of alpha\n <LI> (111) fniterpump: f-value for constraint that number\n <LI> (112) fzeffmax: f-value for max Zeff (f-value for equation 64)\n <LI> (113) ftaucq: f-value for minimum quench time (f-value for equation 65)\n <LI> (114) len_fw_channel: Length of a single first wall channel\n <LI> (115) fpoloidalpower: f-value for max rate of change of\n <LI> (116) fradwall: f-value for radiation wall load limit (eq. 67)\n <LI> (117) fpsepbqar: f-value for  Psep*Bt/qar upper limit (eq. 68)\n <LI> (118) fpsep: f-value to ensure separatrix power is less than\n <LI> (119) tesep:  separatrix temperature calculated by the Kallenbach divertor model\n <LI> (120) ttarget: Plasma temperature adjacent to divertor sheath [eV]\n <LI> (121) neratio: ratio of mean SOL density at OMP to separatrix density at OMP\n <LI> (122) f_a_cs_steel : streel fraction of Central Solenoid\n <LI> (123) foh_stress : f-value for CS coil Tresca yield criterion (f-value for eq. 72)\n <LI> (124) qtargettotal : Power density on target including surface recombination [W/m2]\n <LI> (125) fimp(3) :  Beryllium density fraction relative to electron density\n <LI> (126) fimp(4) :  Carbon density fraction relative to electron density\n <LI> (127) fimp(5) :  Nitrogen fraction relative to electron density\n <LI> (128) fimp(6) :  Oxygen density fraction relative to electron density\n <LI> (129) fimp(7) :  Neon density fraction relative to electron density\n <LI> (130) fimp(8) :  Silicon density fraction relative to electron density\n <LI> (131) fimp(9) :  Argon density fraction relative to electron density\n <LI> (132) fimp(10) :  Iron density fraction relative to electron density\n <LI> (133) fimp(11) :  Nickel density fraction relative to electron density\n <LI> (134) fimp(12) :  Krypton density fraction relative to electron density\n <LI> (135) fimp(13) :  Xenon density fraction relative to electron density\n <LI> (136) fimp(14) :  Tungsten density fraction relative to electron density\n <LI> (137) fplhsep (f-value for equation 73)\n <LI> (138) rebco_thickness : thickness of REBCO layer in tape (m)\n <LI> (139) copper_thick : thickness of copper layer in tape (m)\n <LI> (140) dr_tf_wp : radial thickness of TFC winding pack (m)\n <LI> (141) fcqt : TF coil quench temperature < tmax_croco (f-value for equation 74)\n <LI> (142) nesep : electron density at separatrix [m-3]\n <LI> (143) f_copperA_m2 : TF coil current / copper area < Maximum value\n <LI> (144) fnesep : Eich critical electron density at separatrix\n <LI> (145) fgwped :  fraction of Greenwald density to set as pedestal-top density\n <LI> (146) fcpttf : F-value for TF coil current per turn limit (constraint equation 77)\n <LI> (147) freinke : F-value for Reinke detachment criterion (constraint equation 78)\n <LI> (148) fzactual : fraction of impurity at SOL with Reinke detachment criterion\n <LI> (149) fb_cs_limit_max : F-value for max peak CS field (con. 79, itvar 149)\n <LI> (152) fb_cs_limit_max : Ratio of separatrix density to Greenwald density\n <LI> (153) fpdivlim : F-value for minimum pdivt (con. 80)\n <LI> (154) fne0 : F-value for ne(0) > ne(ped) (con. 81)\n <LI> (155) pfusife : IFE input fusion power (MW) (ifedrv=3 only)\n <LI> (156) rrin : Input IFE repetition rate (Hz) (ifedrv=3 only)\n <LI> (157) fvs_cs_pf_total_ramp : F-value for available to required start up flux (con. 51)\n <LI> (158) croco_thick : Thickness of CroCo copper tube (m)\n <LI> (159) ftoroidalgap : F-value for toroidalgap >  tftort constraint (con. 82)\n <LI> (160) f_avspace (f-value for equation 83)\n <LI> (161) fbeta_min (f-value for equation 84)\n <LI> (162) r_cp_top : Top outer radius of the centropost (ST only) (m)\n <LI> (163) f_t_turn_tf : f-value for TF coils WP trurn squared dimension constraint\n <LI> (164) f_crypmw : f-value for cryogenic plant power\n <LI> (165) fstr_wp : f-value for TF coil strain absolute value\n <LI> (166) f_copperaoh_m2 : CS coil current /copper area < Maximum value\n <LI> (167) fecrh_ignition: f-value for equation 90\n <LI> (168) EMPTY : Description\n <LI> (169) EMPTY : Description\n <LI> (170) EMPTY : Description\n <LI> (171) EMPTY : Description\n <LI> (172) EMPTY : Description\n <LI> (173) EMPTY : Description\n <LI> (174) EMPTY : Description\n <LI> (175) EMPTY : Description\n\n\n\n",
         "lambda_EU": "Decay length in EUROFER [cm]",
         "lambda_He_VV": "Decay length [cm]",
         "lambda_n_BZ_IB": "Decay length in IB BZ [cm]",
@@ -10132,9 +10132,9 @@
         "nbshinefmax": "maximum neutral beam shine-through fraction (`constraint equation 59`)",
         "nbshinemw": "neutral beam shine-through power",
         "ncalls": "ncalls : number of function calls during solution",
-        "ncirt": "number of PF circuits (including central solenoid and plasma)",
-        "ncls": "number of PF coils in group j",
-        "nclsmx": "maximum number of PF coils in a given group",
+        "n_pf_cs_plasma_circuits": "number of PF circuits (including central solenoid and plasma)",
+        "n_pf_coils_in_group": "number of PF coils in group j",
+        "n_pf_coils_in_group_max": "maximum number of PF coils in a given group",
         "ncool": "number of centrepost coolant tubes",
         "ne0": "central electron density (/m3)",
         "nef": "",
@@ -10159,8 +10159,8 @@
         "nfxfh": "number of filaments the top and bottom of the central solenoid should be broken\n into during scaling (5 - 10 is good)",
         "ngc": "maximum total number of coils across all groups",
         "ngc2": "new variable to include 2 additional circuits: plasma and central solenoid",
-        "ngrp": "number of groups of PF coils. Symmetric coil pairs should all be in the same group",
-        "ngrpmx": "maximum number of groups of PF coils",
+        "n_pf_coil_groups": "number of groups of PF coils. Symmetric coil pairs should all be in the same group",
+        "n_pf_groups_max": "maximum number of groups of PF coils",
         "ni0": "central ion density (/m3)",
         "n_impurities": "n_impurities /14/ FIX : number of ion species in impurity radiation model",
         "nin": "",
@@ -10170,7 +10170,7 @@
         "nls": "",
         "nnetau": "",
         "no_roots": "",
-        "nohc": "number of PF coils (excluding the central solenoid) + 1",
+        "n_cs_pf_coils": "number of PF coils (excluding the central solenoid) + 1",
         "beta_norm_total": "normaised total beta",
         "nout": "Output file unit identifier",
         "noutvars": "",
@@ -10192,7 +10192,7 @@
         "nre": "",
         "nsix": "",
         "nsixi": "",
-        "nsweep": "Switch denoting quantity to scan:<UL>\n         <LI> 1  aspect\n         <LI> 2  hldivlim\n         <LI> 3  pnetelin\n         <LI> 4  hfact\n         <LI> 5  oacdcp\n         <LI> 6  walalw\n         <LI> 7  beamfus0\n         <LI> 8  fqval\n         <LI> 9  te\n         <LI> 10 boundu(15: fvs)\n         <LI> 11 beta_norm_max\n         <LI> 12 bootstrap_current_fraction_max (use negative values only)\n         <LI> 13 boundu(10: hfact)\n         <LI> 14 fiooic\n         <LI> 15 fjprot\n         <LI> 16 rmajor\n         <LI> 17 bmxlim\n         <LI> 18 gammax\n         <LI> 19 boundl(16: dr_cs)\n         <LI> 20 t_burn_min\n         <LI> 21 not used\n         <LI> 22 cfactr (N.B. requires iavail=0)\n         <LI> 23 boundu(72: fipir)\n         <LI> 24 powfmax\n         <LI> 25 kappa\n         <LI> 26 triang\n         <LI> 27 tbrmin (for blktmodel > 0 only)\n         <LI> 28 bt\n         <LI> 29 coreradius\n       <LI> 31 f_alpha_energy_confinement_min\n         <LI> 32 epsvmc\n         <LI> 33 ttarget\n         <LI> 34 qtargettotal\n         <LI> 35 lambda_q_omp\n         <LI> 36 lambda_target\n         <LI> 37 lcon_factor\n         <LI> 38 Neon upper limit\n         <LI> 39 Argon upper limit\n         <LI> 40 Xenon upper limit\n         <LI> 41 dr_blkt_outboard\n         <LI> 42 Argon fraction fimp(9)\n         <LI> 43 normalised minor radius at which electron cyclotron current drive is maximum\n         <LI> 44 Allowable maximum shear stress (Tresca) in tf coil structural material\n         <LI> 45 Minimum allowable temperature margin ; tf coils\n         <LI> 46 boundu(150) fgwsep\n         <LI> 47 impurity_enrichment(9) Argon impurity enrichment\n         <LI> 48 TF coil - n_pancake (integer turn winding pack)\n         <LI> 49 TF coil - n_layer (integer turn winding pack)\n         <LI> 50 Xenon fraction fimp(13)\n         <LI> 51 Power fraction to lower DN Divertor ftar\n         <LI> 52 SoL radiation fraction\n         <LI> 54 GL_nbti upper critical field at 0 Kelvin\n         <LI> 55 `dr_shld_inboard` : Inboard neutron shield thickness\n         <LI> 56 crypmw_max: Maximum cryogenic power (ixx=164, ixc=87)\n         <LI> 57 `bt` lower boundary\n         <LI> 58 `dr_fw_plasma_gap_inboard` : Inboard plasma-first wall gap\n         <LI> 59 `dr_fw_plasma_gap_outboard` : Outboard plasma-first wall gap\n         <LI> 60 sig_tf_wp_max: Allowable stress in TF Coil conduit (Tresca)\n         <LI> 61 copperaoh_m2_max : CS coil current / copper area\n         <LI> 62 coheof : CS coil current density at EOF\n         <LI> 63 dr_cs : CS thickness (m)\n         <LI> 64 ohhghf : CS height (m) </UL>",
+        "nsweep": "Switch denoting quantity to scan:<UL>\n         <LI> 1  aspect\n         <LI> 2  hldivlim\n         <LI> 3  pnetelin\n         <LI> 4  hfact\n         <LI> 5  oacdcp\n         <LI> 6  walalw\n         <LI> 7  beamfus0\n         <LI> 8  fqval\n         <LI> 9  te\n         <LI> 10 boundu(15: fvs)\n         <LI> 11 beta_norm_max\n         <LI> 12 bootstrap_current_fraction_max (use negative values only)\n         <LI> 13 boundu(10: hfact)\n         <LI> 14 fiooic\n         <LI> 15 fjprot\n         <LI> 16 rmajor\n         <LI> 17 bmxlim\n         <LI> 18 gammax\n         <LI> 19 boundl(16: dr_cs)\n         <LI> 20 t_burn_min\n         <LI> 21 not used\n         <LI> 22 cfactr (N.B. requires iavail=0)\n         <LI> 23 boundu(72: fipir)\n         <LI> 24 powfmax\n         <LI> 25 kappa\n         <LI> 26 triang\n         <LI> 27 tbrmin (for blktmodel > 0 only)\n         <LI> 28 bt\n         <LI> 29 coreradius\n       <LI> 31 f_alpha_energy_confinement_min\n         <LI> 32 epsvmc\n         <LI> 33 ttarget\n         <LI> 34 qtargettotal\n         <LI> 35 lambda_q_omp\n         <LI> 36 lambda_target\n         <LI> 37 lcon_factor\n         <LI> 38 Neon upper limit\n         <LI> 39 Argon upper limit\n         <LI> 40 Xenon upper limit\n         <LI> 41 dr_blkt_outboard\n         <LI> 42 Argon fraction fimp(9)\n         <LI> 43 normalised minor radius at which electron cyclotron current drive is maximum\n         <LI> 44 Allowable maximum shear stress (Tresca) in tf coil structural material\n         <LI> 45 Minimum allowable temperature margin ; tf coils\n         <LI> 46 boundu(150) fgwsep\n         <LI> 47 impurity_enrichment(9) Argon impurity enrichment\n         <LI> 48 TF coil - n_pancake (integer turn winding pack)\n         <LI> 49 TF coil - n_layer (integer turn winding pack)\n         <LI> 50 Xenon fraction fimp(13)\n         <LI> 51 Power fraction to lower DN Divertor ftar\n         <LI> 52 SoL radiation fraction\n         <LI> 54 GL_nbti upper critical field at 0 Kelvin\n         <LI> 55 `dr_shld_inboard` : Inboard neutron shield thickness\n         <LI> 56 crypmw_max: Maximum cryogenic power (ixx=164, ixc=87)\n         <LI> 57 `bt` lower boundary\n         <LI> 58 `dr_fw_plasma_gap_inboard` : Inboard plasma-first wall gap\n         <LI> 59 `dr_fw_plasma_gap_outboard` : Outboard plasma-first wall gap\n         <LI> 60 sig_tf_wp_max: Allowable stress in TF Coil conduit (Tresca)\n         <LI> 61 copperaoh_m2_max : CS coil current / copper area\n         <LI> 62 j_cs_flat_top_end : CS coil current density at EOF\n         <LI> 63 dr_cs : CS thickness (m)\n         <LI> 64 f_z_cs_tf_internal : CS height (m) </UL>",
         "nsweep_2": "nsweep_2 /3/ : switch denoting quantity to scan for 2D scan:",
         "nt": "",
         "ntype": "switch for vacuum pump type:\n<ul>\n<li>=0 - for turbomolecular pump (magnetic bearing) with speed of 2.0 m3/s\n   (1.95 for N2, 1.8 for He, 1.8 for DT)</li>\n<li>=1 - for compound cryopump with nominal speed of 10.0 m3/s\n   (9.0 for N2, 5.0 for He and 25.0 for DT)</li>\n</ul>",
@@ -10206,9 +10206,9 @@
         "objf": "",
         "odep_": "",
         "ofile": "",
-        "oh_steel_frac": "central solenoid steel fraction (`iteration variable 122`)",
+        "f_a_cs_steel": "central solenoid steel fraction (`iteration variable 122`)",
         "dr_cs": "Central solenoid thickness (m) (`iteration variable 16`)",
-        "ohhghf": "Central solenoid height / TF coil internal height",
+        "f_z_cs_tf_internal": "Central solenoid height / TF coil internal height",
         "om": "",
         "omegan": "pressure ratio (nT)_plasma / (nT)_scrape-off",
         "omlarg": "power spillage to private flux factor",
@@ -10265,9 +10265,9 @@
         "pfbldgm3": "volume of PF coil power supply building (m3)",
         "pfcaseth": "steel case thickness for PF coil i (m)",
         "pfckts": "number of PF coil circuits",
-        "pfclres": "PF coil resistivity (if ipfres=1) (Ohm-m)",
-        "pfmmax": "mass of heaviest PF coil (tonnes)",
-        "pfrmax": "radius of largest PF coil (m)",
+        "rho_pf_coil": "PF coil resistivity (if i_pf_conductor=1) (Ohm-m)",
+        "m_pf_coil_max": "mass of heaviest PF coil (tonnes)",
+        "r_pf_coil_outer_max": "radius of largest PF coil (m)",
         "charged_particle_power": "charged particle fusion power (MW)",
         "pfusife": "IFE input fusion power (MW) (`ifedrv=3 only`; `itv 155`)",
         "pfwdiv": "heat removal from first wall/divertor (MW)",
@@ -10350,8 +10350,8 @@
         "p_plasma_loss_mw": "heating power (= transport loss power) (MW) used in confinement time calculation",
         "powfmax": "maximum fusion power (MW) (`constraint equation 9`)",
         "fusion_power": "fusion power (MW)",
-        "powohres": "central solenoid resistive power during flattop (W)",
-        "powpfres": "total PF coil resistive losses during flattop (W)",
+        "p_cs_resistive_flat_top": "central solenoid resistive power during flattop (W)",
+        "p_pf_coil_resistive_total_flat_top": "total PF coil resistive losses during flattop (W)",
         "ppdivr": "peak heat load at plate (with radiation) (MW/m2)",
         "len_plasma_poloidal": "plasma poloidal perimeter (m)",
         "ppump": "centrepost coolant pump power (W)",
@@ -10472,7 +10472,7 @@
         "r_wp_centre": "Radial position of centre and centre of winding pack [m]",
         "r_wp_inner": "Radial position of inner edge and centre of winding pack [m]",
         "r_wp_outer": "Radial position of outer edge and centre of winding pack [m]",
-        "ra": "inner radius of coil i (m)",
+        "r_pf_coil_inner": "inner radius of coil i (m)",
         "rad": "",
         "rad_fraction_LCFS": "",
         "rad_fraction_sol": "SoL radiation fraction",
@@ -10483,7 +10483,7 @@
         "radial_array": "Array refining the radii of the stress calculations arrays",
         "f_nd_alpha_electron": "thermal alpha density/electron density (`iteration variable 109`) (calculated if `ipedestal=3`)",
         "rat": "plasma chamber wall outgassing rate (Pa-m/s)",
-        "rb": "outer radius of coil i (m)",
+        "r_pf_coil_outer": "outer radius of coil i (m)",
         "rbld": "sum of thicknesses to the major radius (m)",
         "rbmax": "Radius of maximum TF B-field (m)",
         "rbrt": "reactor building roof thickness (m)",
@@ -10526,17 +10526,17 @@
         "rhopedt": "r/a of temperature pedestal (`ipedestal>=1`)",
         "rho_tf_bus": "Resistivity of a TF coil bus (Ohm-m). Default value takes the same res as the leg one",
         "rho_tf_leg": "Resistivity of a TF coil leg (Ohm-m)",
-        "ric": "peak current in coil i (MA-turns)",
+        "c_pf_cs_coils_peak_ma": "peak current in coil i (MA-turns)",
         "ricpf": "",
         "rinboard": "plasma inboard radius (m) (`consistency equation 29`)",
         "ripflag": "",
         "ripmax": "aximum allowable toroidal field ripple amplitude at plasma edge (%)",
         "ripple": "peak/average toroidal field ripple at plasma edge (%)",
         "c_tf_total": "total (summed) current in TF coils (A)",
-        "rjconpf": "average winding pack current density of PF coil i (A/m2) at time of peak\n current in that coil (calculated for `ipfloc=1` coils)",
-        "rjohc": "allowable central solenoid current density at end of flat-top (A/m2)",
-        "rjohc0": "allowable central solenoid current density at beginning of pulse (A/m2)",
-        "rjpfalw": "allowable winding pack current density of PF coil i (A/m2)",
+        "j_pf_coil_wp_peak": "average winding pack current density of PF coil i (A/m2) at time of peak\n current in that coil (calculated for `i_pf_location=1` coils)",
+        "j_cs_critical_flat_top_end": "allowable central solenoid current density at end of flat-top (A/m2)",
+        "j_cs_critical_pulse_start": "allowable central solenoid current density at beginning of pulse (A/m2)",
+        "j_pf_wp_critical": "allowable winding pack current density of PF coil i (A/m2)",
         "rkind": "",
         "rlclolcn": "ratio of collision length / connection length",
         "rlenmax": "maximum value for length ratio (rlclolcn) (`constraintg eqn 22`)",
@@ -10559,17 +10559,17 @@
         "robotics_h": "robotics buildings length, width, height (m)",
         "robotics_l": "robotics buildings length, width, height (m)",
         "robotics_w": "robotics buildings length, width, height (m)",
-        "rohc": "radius to the centre of the central solenoid (m)",
+        "r_cs_middle": "radius to the centre of the central solenoid (m)",
         "roughness": "first wall channel roughness epsilon (m)",
-        "routr": "radial distance (m) from outboard TF coil leg to centre of `ipfloc=3` PF coils",
+        "routr": "radial distance (m) from outboard TF coil leg to centre of `i_pf_location=3` PF coils",
         "row": "clearance to building wall for crane operation (m)",
-        "rpf": "radius of PF coil i (m)",
-        "rpf1": "offset (m) of radial position of `ipfloc=1` PF coils from being directly above\n the central solenoid",
-        "rpf2": "offset (m) of radial position of `ipfloc=2` PF coils from being at\n rmajor (offset = rpf2<em>triang</em>rminor)",
+        "r_pf_coil_middle": "radius of PF coil i (m)",
+        "rpf1": "offset (m) of radial position of `i_pf_location=1` PF coils from being directly above\n the central solenoid",
+        "rpf2": "offset (m) of radial position of `i_pf_location=2` PF coils from being at\n rmajor (offset = rpf2<em>triang</em>rminor)",
         "dr_pf_cryostat": "Radial distance between furthest PF coil (or stellarator\n modular coil) and cryostat (m)",
         "f_res_plasma_neo": "neo-classical correction factor to res_plasma",
         "res_plasma": "plasma resistance (ohm)",
-        "rref": "PF coil radial positioning adjuster:\n<ul>\n<li>for groups j with ipfloc(j) = 1; rref(j) is ignored</li>\n<li>for groups j with ipfloc(j) = 2; rref(j) is ignored</li>\n<li>for groups j with ipfloc(j) = 3; rref(j) is ignored</li>\n<li>for groups j with ipfloc(j) = 4; rref(j) is radius of\n   the coil in units of minor radii from the major radius\n   (r = rmajor + rref*rminor)</li>\n</ul>",
+        "rref": "PF coil radial positioning adjuster:\n<ul>\n<li>for groups j with i_pf_location(j) = 1; rref(j) is ignored</li>\n<li>for groups j with i_pf_location(j) = 2; rref(j) is ignored</li>\n<li>for groups j with i_pf_location(j) = 3; rref(j) is ignored</li>\n<li>for groups j with i_pf_location(j) = 4; rref(j) is radius of\n   the coil in units of minor radii from the major radius\n   (r = rmajor + rref*rminor)</li>\n</ul>",
         "rrin": "Input IFE repetition rate (Hz) (`ifedrv=3 only`; `itv 156`)",
         "rrmax": "maximum IFE repetition rate (Hz)",
         "rsldi": "radius to inboard shield (inside point) (m)",
@@ -10630,7 +10630,7 @@
         "sig_hoop": "",
         "sig_tf_case": "Maximum shear stress (Tresca criterion) in TF casing steel structures (Pa)",
         "sig_tf_case_max": "Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa)",
-        "sig_tf_cs_bucked": "Maximum shear stress (Tresca criterion) in CS structures at CS flux swing [Pa]:\n<ul>\n<li>If superconducting CS (ipfres = 0): turn steel conduits stress</li>\n<li>If resistive       CS (ipfres = 1): copper conductor stress</li>\n</ul>\nQuantity only computed for bucked and wedged design (`i_tf_bucking >= 2`)\n Def : CS Flux swing, instant when the current changes sign in CS (null current)",
+        "sig_tf_cs_bucked": "Maximum shear stress (Tresca criterion) in CS structures at CS flux swing [Pa]:\n<ul>\n<li>If superconducting CS (i_pf_conductor = 0): turn steel conduits stress</li>\n<li>If resistive       CS (i_pf_conductor = 1): copper conductor stress</li>\n</ul>\nQuantity only computed for bucked and wedged design (`i_tf_bucking >= 2`)\n Def : CS Flux swing, instant when the current changes sign in CS (null current)",
         "sig_tf_r": "TF Inboard leg radial stress in steel r distribution at mid-plane [Pa]",
         "sig_tf_t": "TF Inboard leg tangential stress in steel r distribution at mid-plane [Pa]",
         "sig_tf_tresca": "TF Inboard leg maximum shear stress (Tresca criterion) in steel r distribution at mid-plane [Pa]",
@@ -10639,8 +10639,8 @@
         "sig_tf_wp_max": "Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa)\nAllowable Tresca stress in TF coil structural material (Pa)",
         "sig_tf_z": "TF Inboard leg vertical tensile stress in steel at mid-plane [Pa]",
         "sigallpc": "allowable stress in CSpre-compression structure (Pa)",
-        "sigpfcalw": "maximum permissible tensile stress (MPa) in steel coil cases for superconducting\n PF coils (`ipfres=0`)",
-        "sigpfcf": "fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`)",
+        "sigpfcalw": "maximum permissible tensile stress (MPa) in steel coil cases for superconducting\n PF coils (`i_pf_conductor=0`)",
+        "sigpfcf": "fraction of JxB hoop force supported by steel case for superconducting PF coils (`i_pf_conductor=0`)",
         "sigvvall": "allowable stress from TF quench in vacuum vessel (Pa)",
         "single": "",
         "skind": "",
@@ -10676,7 +10676,7 @@
         "summ": "",
         "sweep": "sweep(ipnscns) /../: actual values to use in scan",
         "sweep_2": "sweep_2(ipnscns) /../: actual values to use in 2D scan",
-        "sxlg": "mutual inductance matrix (H)",
+        "ind_pf_cs_plasma_mutual": "mutual inductance matrix (H)",
         "t_BM_IB": "BM thickness [cm]",
         "t_BM_OB": "BM thickness [cm]",
         "t_BP_IB": "BP thickness [cm]",
@@ -10840,7 +10840,7 @@
         "tmargmin": "minimum allowable temperature margin : TFC AND CS (K)",
         "tmargmin_cs": "minimum allowable temperature margin : CS (K)",
         "tmargmin_tf": "minimum allowable temperature margin : TF coils (K)",
-        "tmargoh": "Central solenoid temperature margin (K)",
+        "temp_cs_margin": "Central solenoid temperature margin (K)",
         "tmargtf": "TF coil temperature margin (K)",
         "tmax_croco": "CroCo strand: maximum permitted temp during a quench (K)",
         "tmaxpro": "maximum temp rise during a quench for protection (K)",
@@ -10878,7 +10878,7 @@
         "turbine_hall_h": "turbine hall length, width, height (m)",
         "turbine_hall_l": "turbine hall length, width, height (m)",
         "turbine_hall_w": "turbine hall length, width, height (m)",
-        "turns": "number of turns in PF coil i",
+        "n_pf_coil_turns": "number of turns in PF coil i",
         "tw_storage_h": "tritiated waste storage building length, width, height (m)",
         "tw_storage_l": "tritiated waste storage building length, width, height (m)",
         "tw_storage_w": "tritiated waste storage building length, width, height (m)",
@@ -11016,7 +11016,7 @@
         "velblkti": "Inboard/outboard coolant velocity in blanket (m/s)",
         "velblkto": "Inboard/outboard coolant velocity in blanket (m/s)",
         "verbose": "switch for turning on/off diagnostic messages\n<ul>\n<li>=0 turn off diagnostics</li>\n<li>=1 turn on diagnostics</li>\n</ul>",
-        "vf": "winding pack void fraction of PF coil i for coolant",
+        "f_a_pf_coil_void": "winding pack void fraction of PF coil i for coolant",
         "vfblkt": "coolant void fraction in blanket (`blktmodel=0`), (calculated if `blktmodel > 0`)",
         "vfblkti": "Inboard/outboard void fraction of blanket",
         "vfblkto": "Inboard/outboard void fraction of blanket",
@@ -11026,7 +11026,7 @@
         "vfi": "",
         "vfi_star": "",
         "vfile": "Verbose diagnostics file",
-        "vfohc": "void fraction of central solenoid conductor for coolant",
+        "f_a_cs_void": "void fraction of central solenoid conductor for coolant",
         "vforce": "vertical tension on inboard leg/coil (N)",
         "vforce_inboard_tot": "Total inboard vertical tension (all coils) [N]",
         "vforce_outboard": "Vertical tension on outboard leg/coil (N)",
@@ -11101,21 +11101,21 @@
         "vportpmax": "maximum available poloidal extent for vertical ports (m)",
         "vporttmax": "maximum available toroidal extent for vertical ports (m)",
         "vpumpn": "number of high vacuum pumps",
-        "vsbn": "total flux swing available for burn (Wb)",
+        "vs_cs_pf_total_burn": "total flux swing available for burn (Wb)",
         "vs_plasma_burn_required": "V-s needed during flat-top (heat + burn times) (Wb)",
         "vsdum": "",
-        "vsefbn": "flux swing from PF coils for burn (Wb)",
-        "vsefsu": "flux swing from PF coils for startup (Wb)",
-        "vseft": "total flux swing from PF coils (Wb)",
+        "vs_pf_coils_total_burn": "flux swing from PF coils for burn (Wb)",
+        "vs_pf_coils_total_ramp": "flux swing from PF coils for startup (Wb)",
+        "vs_pf_coils_total_pulse": "total flux swing from PF coils (Wb)",
         "vshift": "plasma/device midplane vertical shift - single null",
         "vs_plasma_ind_ramp": "internal and external plasma inductance V-s (Wb)",
-        "vsoh": "total flux swing from the central solenoid (Wb)",
-        "vsohbn": "central solenoid flux swing for burn (Wb)",
-        "vsohsu": "central solenoid flux swing for startup (Wb)",
+        "vs_cs_total_pulse": "total flux swing from the central solenoid (Wb)",
+        "vs_cs_burn": "central solenoid flux swing for burn (Wb)",
+        "vs_cs_ramp": "central solenoid flux swing for startup (Wb)",
         "vs_plasma_res_ramp": "resistive losses in startup V-s (Wb)",
         "vs_plasma_total_required": "total V-s needed (Wb)",
-        "vssu": "total flux swing for startup (`constraint eqn 51` to enforce vssu=vs_plasma_res_ramp+vs_plasma_ind_ramp) (Wb)",
-        "vstot": "total flux swing for pulse (Wb)",
+        "vs_cs_pf_total_ramp": "total flux swing for startup (`constraint eqn 51` to enforce vs_cs_pf_total_ramp=vs_plasma_res_ramp+vs_plasma_ind_ramp) (Wb)",
+        "vs_cs_pf_total_pulse": "total flux swing for pulse (Wb)",
         "vte1_": "",
         "vtfkv": "TF coil voltage for resistive coil including bus (kV)",
         "vtfskv": "voltage across a TF coil during quench (kV)",
@@ -11167,8 +11167,8 @@
         "whtconsh": "steel conduit mass in TF coil conductor (kg/coil)",
         "whtcp": "mass of TF coil inboard legs (kg)",
         "whtgw": "mass of ground-wall insulation layer per coil (kg/coil)",
-        "whtpf": "total mass of the PF coil conductor (kg)",
-        "whtpfs": "total mass of the PF coil structure (kg)",
+        "m_pf_coil_conductor_total": "total mass of the PF coil conductor (kg)",
+        "m_pf_coil_structure_total": "total mass of the PF coil structure (kg)",
         "whtshld": "mass of shield (kg)",
         "whttf": "total mass of the TF coils (kg)",
         "whttflgs": "mass of the TF coil legs (kg)",
@@ -11186,9 +11186,9 @@
         "wsvol": "volume of warm shop building (m3)",
         "wtblli2o": "mass of blanket - Li_2O part (kg)",
         "wtbllipb": "mass of blanket - Li-Pb part (kg)",
-        "wtc": "conductor mass for PF coil i (kg)",
+        "m_pf_coil_conductor": "conductor mass for PF coil i (kg)",
         "wtgpd": "mass of fuel used per day (g)",
-        "wts": "structure mass for PF coil i (kg)",
+        "m_pf_coil_structure": "structure mass for PF coil i (kg)",
         "wtshldi": "mass of inboard shield (kg)",
         "wtshldo": "mass of outboard shield (kg)",
         "wwp1": "width of first step of winding pack (m)",
@@ -11232,8 +11232,8 @@
         "zeffmax": "maximum value for Zeff (`constraint equation 64`)",
         "zero": "",
         "zfxf": "",
-        "zh": "upper point of PF coil i (m)",
-        "zl": "lower point of PF coil i (m)",
+        "z_pf_coil_upper": "upper point of PF coil i (m)",
+        "z_pf_coil_lower": "lower point of PF coil i (m)",
         "zl1": "IFE vertical build below centre (m)",
         "zl2": "IFE vertical build below centre (m)",
         "zl3": "IFE vertical build below centre (m)",
@@ -11241,8 +11241,8 @@
         "zl5": "IFE vertical build below centre (m)",
         "zl6": "IFE vertical build below centre (m)",
         "zl7": "IFE vertical build below centre (m)",
-        "zpf": "z (height) location of PF coil i (m)",
-        "zref": "PF coil vertical positioning adjuster:\n<ul>\n<li>for groups j with ipfloc(j) = 1; zref(j) is ignored</li>\n<li>for groups j with ipfloc(j) = 2 AND itart=1 (only);\n   zref(j) is distance of centre of PF coil from inside\n   edge of TF coil (remember that PF coils for STs lie\n   within the TF coil)</li>\n<li>for groups j with ipfloc(j) = 3; zref(j) = ratio of\n   height of coil group j to plasma minor radius</UL></li>\n<li>for groups j with ipfloc(j) = 4; zref(j) = ratio of\n   height of coil group j to plasma minor radius</UL></li>\n</ul>",
+        "z_pf_coil_middle": "z (height) location of PF coil i (m)",
+        "zref": "PF coil vertical positioning adjuster:\n<ul>\n<li>for groups j with i_pf_location(j) = 1; zref(j) is ignored</li>\n<li>for groups j with i_pf_location(j) = 2 AND itart=1 (only);\n   zref(j) is distance of centre of PF coil from inside\n   edge of TF coil (remember that PF coils for STs lie\n   within the TF coil)</li>\n<li>for groups j with i_pf_location(j) = 3; zref(j) = ratio of\n   height of coil group j to plasma minor radius</UL></li>\n<li>for groups j with i_pf_location(j) = 4; zref(j) = ratio of\n   height of coil group j to plasma minor radius</UL></li>\n</ul>",
         "zsearch": "",
         "zu1": "IFE vertical build above centre (m)",
         "zu2": "IFE vertical build above centre (m)",
@@ -11761,7 +11761,7 @@
             "lb": 100000.0,
             "ub": 100000000.0
         },
-        "bmaxcs_lim": {
+        "b_cs_limit_max": {
             "lb": 0.01,
             "ub": 100.0
         },
@@ -11917,7 +11917,7 @@
             "lb": 2.0,
             "ub": 10.0
         },
-        "coheof": {
+        "j_cs_flat_top_end": {
             "lb": 10000.0,
             "ub": 500000000.0
         },
@@ -12533,7 +12533,7 @@
             "lb": 0.0,
             "ub": 1.0
         },
-        "fbmaxcs": {
+        "fb_cs_limit_max": {
             "lb": 0.01,
             "ub": 1.0
         },
@@ -12565,7 +12565,7 @@
             "lb": 0.0,
             "ub": 1.0
         },
-        "fcohbop": {
+        "f_j_cs_start_pulse_end_flat_top": {
             "lb": 0.0,
             "ub": 1.0
         },
@@ -12977,7 +12977,7 @@
             "lb": 0.0,
             "ub": 1.0
         },
-        "fvssu": {
+        "fvs_cs_pf_total_ramp": {
             "lb": 0.001,
             "ub": 10.0
         },
@@ -13437,7 +13437,7 @@
             "lb": 0,
             "ub": 3
         },
-        "ipfres": {
+        "i_pf_conductor": {
             "lb": 0,
             "ub": 1
         },
@@ -13505,11 +13505,11 @@
             "lb": 1,
             "ub": 3
         },
-        "isumatoh": {
+        "i_cs_superconductor": {
             "lb": 1,
             "ub": 8
         },
-        "isumatpf": {
+        "i_pf_superconductor": {
             "lb": 1,
             "ub": 8
         },
@@ -13817,7 +13817,7 @@
             "lb": 10000.0,
             "ub": 1000000000.0
         },
-        "oh_steel_frac": {
+        "f_a_cs_steel": {
             "lb": 0.001,
             "ub": 0.999
         },
@@ -13825,7 +13825,7 @@
             "lb": 0.0,
             "ub": 10.0
         },
-        "ohhghf": {
+        "f_z_cs_tf_internal": {
             "lb": 0.0,
             "ub": 2.0
         },
@@ -13877,7 +13877,7 @@
             "lb": 10000.0,
             "ub": 1000000.0
         },
-        "pfclres": {
+        "rho_pf_coil": {
             "lb": 0.0,
             "ub": 0.0001
         },
@@ -14949,7 +14949,7 @@
             "lb": 0.0,
             "ub": 1.0
         },
-        "vfohc": {
+        "f_a_cs_void": {
             "lb": 0.0,
             "ub": 1.0
         },
@@ -15134,7 +15134,7 @@
             "lb": 0.1,
             "ub": 20.0
         },
-        "coheof": {
+        "j_cs_flat_top_end": {
             "lb": 100000.0,
             "ub": 100000000.0
         },
@@ -15214,11 +15214,11 @@
             "lb": 0.01,
             "ub": 1.0
         },
-        "fbmaxcs": {
+        "fb_cs_limit_max": {
             "lb": 0.001,
             "ub": 1.0
         },
-        "fcohbop": {
+        "f_j_cs_start_pulse_end_flat_top": {
             "lb": 0.001,
             "ub": 1.0
         },
@@ -15522,7 +15522,7 @@
             "lb": 0.001,
             "ub": 1.0
         },
-        "fvssu": {
+        "fvs_cs_pf_total_ramp": {
             "lb": 0.001,
             "ub": 10.0
         },
@@ -15578,7 +15578,7 @@
             "lb": 100000.0,
             "ub": 150000000.0
         },
-        "oh_steel_frac": {
+        "f_a_cs_steel": {
             "lb": 0.001,
             "ub": 0.95
         },
@@ -15721,7 +15721,7 @@
         "breeder_f": 0.5,
         "bt": 5.68,
         "chrad": 6.5,
-        "coheof": 18500000.0,
+        "j_cs_flat_top_end": 18500000.0,
         "copper_thick": 0.0001,
         "cpttf": 70000.0,
         "croco_thick": 0.0025,
@@ -15741,8 +15741,8 @@
         "fbeta_poloidal": 1.0,
         "fbeta_max": 1.0,
         "fbeta_min": 1.0,
-        "fbmaxcs": 13.0,
-        "fcohbop": 0.9,
+        "fb_cs_limit_max": 13.0,
+        "f_j_cs_start_pulse_end_flat_top": 0.9,
         "fcoolcp": 0.3,
         "fcpttf": 1.0,
         "fcqt": 1.0,
@@ -15806,7 +15806,7 @@
         "fvdump": 1.0,
         "fvs": 1.0,
         "fvsbrnni": 1.0,
-        "fvssu": 1.0,
+        "fvs_cs_pf_total_ramp": 1.0,
         "fvvhe": 1.0,
         "len_fw_channel": 4.0,
         "fwalld": 1.0,
@@ -15820,7 +15820,7 @@
         "neratio": 0.75,
         "nesep": 3e+19,
         "oacdcp": 0.0,
-        "oh_steel_frac": 0.5,
+        "f_a_cs_steel": 0.5,
         "dr_cs": 0.811,
         "pdrive": 23000000.0,
         "pfusife": 1000.0,
@@ -15972,7 +15972,7 @@
         },
         "122": {
             "lb": 0.001,
-            "name": "oh_steel_frac",
+            "name": "f_a_cs_steel",
             "ub": 0.95
         },
         "123": {
@@ -16117,7 +16117,7 @@
         },
         "149": {
             "lb": 0.001,
-            "name": "fbmaxcs",
+            "name": "fb_cs_limit_max",
             "ub": 1.0
         },
         "15": {
@@ -16152,7 +16152,7 @@
         },
         "157": {
             "lb": 0.001,
-            "name": "fvssu",
+            "name": "fvs_cs_pf_total_ramp",
             "ub": 10.0
         },
         "158": {
@@ -16352,7 +16352,7 @@
         },
         "37": {
             "lb": 100000.0,
-            "name": "coheof",
+            "name": "j_cs_flat_top_end",
             "ub": 100000000.0
         },
         "38": {
@@ -16377,7 +16377,7 @@
         },
         "41": {
             "lb": 0.001,
-            "name": "fcohbop",
+            "name": "f_j_cs_start_pulse_end_flat_top",
             "ub": 1.0
         },
         "42": {
@@ -16675,7 +16675,7 @@
         "12": "oacdcp",
         "120": "ttarget",
         "121": "neratio",
-        "122": "oh_steel_frac",
+        "122": "f_a_cs_steel",
         "123": "foh_stress",
         "124": "qtargettotal",
         "125": "fimp(03)",
@@ -16704,14 +16704,14 @@
         "146": "fcpttf",
         "147": "freinke",
         "148": "fzactual",
-        "149": "fbmaxcs",
+        "149": "fb_cs_limit_max",
         "15": "fvs",
         "152": "fgwsep",
         "153": "fpdivlim",
         "154": "fne0",
         "155": "pfusife",
         "156": "rrin",
-        "157": "fvssu",
+        "157": "fvs_cs_pf_total_ramp",
         "158": "croco_thick",
         "159": "ftoroidalgap",
         "16": "dr_cs",
@@ -16751,12 +16751,12 @@
         "34": "fdivcol",
         "35": "fpeakb",
         "36": "fbeta_max",
-        "37": "coheof",
+        "37": "j_cs_flat_top_end",
         "38": "fjohc",
         "39": "fjohc0",
         "4": "te",
         "40": "fgamcd",
-        "41": "fcohbop",
+        "41": "f_j_cs_start_pulse_end_flat_top",
         "42": "dr_cs_tf_gap",
         "44": "fvsbrnni",
         "45": "fqval",
@@ -16822,7 +16822,7 @@
         "breeder_f": "108",
         "bt": "2",
         "chrad": "84",
-        "coheof": "37",
+        "j_cs_flat_top_end": "37",
         "copper_thick": "139",
         "cpttf": "60",
         "croco_thick": "158",
@@ -16842,8 +16842,8 @@
         "fbeta_poloidal": "79",
         "fbeta_max": "36",
         "fbeta_min": "161",
-        "fbmaxcs": "149",
-        "fcohbop": "41",
+        "fb_cs_limit_max": "149",
+        "f_j_cs_start_pulse_end_flat_top": "41",
         "fcoolcp": "23",
         "fcpttf": "146",
         "fcqt": "141",
@@ -16919,7 +16919,7 @@
         "fvdump": "51",
         "fvs": "15",
         "fvsbrnni": "44",
-        "fvssu": "157",
+        "fvs_cs_pf_total_ramp": "157",
         "fvvhe": "96",
         "len_fw_channel": "114",
         "fwalld": "14",
@@ -16933,7 +16933,7 @@
         "neratio": "121",
         "nesep": "142",
         "oacdcp": "12",
-        "oh_steel_frac": "122",
+        "f_a_cs_steel": "122",
         "dr_cs": "16",
         "pdrive": "85",
         "pfusife": "155",
@@ -18918,8 +18918,8 @@
             "croco_strand"
         ],
         "pfcoil_variables": [
-            "ngrpmx",
-            "nclsmx",
+            "n_pf_groups_max",
+            "n_pf_coils_in_group_max",
             "nptsmx",
             "nfixmx",
             "ngc",
@@ -18927,93 +18927,93 @@
             "alfapf",
             "alstroh",
             "i_cs_stress",
-            "areaoh",
-            "a_oh_turn",
+            "a_cs_poloidal",
+            "a_cs_turn",
             "awpoh",
-            "bmaxoh",
-            "bmaxoh0",
-            "bpf",
+            "b_cs_peak_flat_top_end",
+            "b_cs_peak_pulse_start",
+            "b_pf_coil_peak",
             "ccl0_ma",
             "ccls_ma",
-            "cohbop",
-            "coheof",
-            "cpt",
-            "cptdin",
-            "curpfb",
-            "curpff",
-            "curpfs",
+            "j_cs_pulse_start",
+            "j_cs_flat_top_end",
+            "c_pf_coil_turn",
+            "c_pf_coil_turn_peak_input",
+            "c_pf_cs_coil_pulse_start_ma",
+            "c_pf_cs_coil_flat_top_ma",
+            "c_pf_cs_coil_pulse_end_ma",
             "etapsu",
-            "fcohbof",
-            "fcohbop",
+            "f_j_cs_start_end_flat_top",
+            "f_j_cs_start_pulse_end_flat_top",
             "fcuohsu",
             "fcupfsu",
-            "fvssu",
-            "ipfloc",
-            "ipfres",
+            "fvs_cs_pf_total_ramp",
+            "i_pf_location",
+            "i_pf_conductor",
             "itr_sum",
-            "isumatoh",
-            "isumatpf",
+            "i_cs_superconductor",
+            "i_pf_superconductor",
             "i_pf_current",
             "i_sup_pf_shape",
-            "jscoh_bop",
-            "jscoh_eof",
+            "j_cs_conductor_critical_pulse_start",
+            "j_cs_conductor_critical_flat_top_end",
             "jcableoh_bop",
             "jcableoh_eof",
-            "ncirt",
-            "ncls",
+            "n_pf_cs_plasma_circuits",
+            "n_pf_coils_in_group",
             "nfxfh",
-            "ngrp",
-            "nohc",
-            "ohhghf",
-            "oh_steel_frac",
+            "n_pf_coil_groups",
+            "n_cs_pf_coils",
+            "f_z_cs_tf_internal",
+            "f_a_cs_steel",
             "pfcaseth",
-            "pfclres",
-            "pfmmax",
-            "pfrmax",
+            "rho_pf_coil",
+            "m_pf_coil_max",
+            "r_pf_coil_outer_max",
             "pfwpmw",
-            "powohres",
-            "powpfres",
-            "ra",
-            "rb",
-            "ric",
-            "rjconpf",
-            "rjohc",
-            "rjohc0",
-            "rjpfalw",
-            "rohc",
+            "p_cs_resistive_flat_top",
+            "p_pf_coil_resistive_total_flat_top",
+            "r_pf_coil_inner",
+            "r_pf_coil_outer",
+            "c_pf_cs_coils_peak_ma",
+            "j_pf_coil_wp_peak",
+            "j_cs_critical_flat_top_end",
+            "j_cs_critical_pulse_start",
+            "j_pf_wp_critical",
+            "r_cs_middle",
             "routr",
-            "rpf",
+            "r_pf_coil_middle",
             "rpf1",
             "rpf2",
             "rref",
             "s_tresca_oh",
             "sigpfcalw",
             "sigpfcf",
-            "sxlg",
-            "tmargoh",
+            "ind_pf_cs_plasma_mutual",
+            "temp_cs_margin",
             "turns",
-            "vf",
-            "vfohc",
-            "vsbn",
-            "vsefbn",
-            "vsefsu",
-            "vseft",
-            "vsoh",
-            "vsohbn",
-            "vsohsu",
-            "vssu",
-            "vstot",
+            "f_a_pf_coil_void",
+            "f_a_cs_void",
+            "vs_cs_pf_total_burn",
+            "vs_pf_coils_total_burn",
+            "vs_pf_coils_total_ramp",
+            "vs_pf_coils_total_pulse",
+            "vs_cs_total_pulse",
+            "vs_cs_burn",
+            "vs_cs_ramp",
+            "vs_cs_pf_total_ramp",
+            "vs_cs_pf_total_pulse",
             "waves",
-            "whtpf",
-            "whtpfs",
-            "wtc",
-            "wts",
-            "zh",
-            "zl",
-            "zpf",
+            "m_pf_coil_conductor_total",
+            "m_pf_coil_structure_total",
+            "m_pf_coil_conductor",
+            "m_pf_coil_structure",
+            "z_pf_coil_upper",
+            "z_pf_coil_lower",
+            "z_pf_coil_middle",
             "zref",
-            "bmaxcs_lim",
-            "fbmaxcs"
+            "b_cs_limit_max",
+            "fb_cs_limit_max"
         ],
         "physics_functions_module": [
             "vcritx"
@@ -19935,7 +19935,7 @@
         "boundl(2=swp(iscn": "case(58)",
         "boundu(152=swp(iscn": "case(47)",
         "boundu(157=swp(iscn": "case(54)",
-        "coheof=swp(iscn": "case(63)",
+        "j_cs_flat_top_end=swp(iscn": "case(63)",
         "copperaoh_m2_max=swp(iscn": "case(62)",
         "crypmw_max=swp(iscn": "case(57)",
         "fimp(13=swp(iscn": "case(51)",
@@ -20040,7 +20040,7 @@
         "dr_blkt_inboard": "real_variable",
         "dr_blkt_outboard": "real_variable",
         "blpressure": "real_variable",
-        "bmaxcs_lim": "real_variable",
+        "b_cs_limit_max": "real_variable",
         "bmn": "real_variable",
         "bmxlim": "real_variable",
         "dr_bore": "real_variable",
@@ -20085,7 +20085,7 @@
         "dz_tf_cryostat": "real_variable",
         "clh2": "real_variable",
         "f_z_cryostat": "real_variable",
-        "coheof": "real_variable",
+        "j_cs_flat_top_end": "real_variable",
         "conf_mag": "real_variable",
         "control_buildings_h": "real_variable",
         "control_buildings_l": "real_variable",
@@ -20114,7 +20114,7 @@
         "cowner": "real_variable",
         "cplife_input": "real_variable",
         "cpstflnc": "real_variable",
-        "cptdin": "real_array",
+        "c_pf_coil_turn_peak_input": "real_array",
         "cpttf": "real_variable",
         "cpttf_max": "real_variable",
         "crane_arm_h": "real_variable",
@@ -20242,7 +20242,7 @@
         "fbllipb": "real_variable",
         "fblss": "real_variable",
         "fblvd": "real_variable",
-        "fbmaxcs": "real_variable",
+        "fb_cs_limit_max": "real_variable",
         "fbreed": "real_variable",
         "fburn": "real_variable",
         "fc_building_l": "real_variable",
@@ -20250,7 +20250,7 @@
         "fcap0": "real_variable",
         "fcap0cp": "real_variable",
         "fcdfuel": "real_variable",
-        "fcohbop": "real_variable",
+        "f_j_cs_start_pulse_end_flat_top": "real_variable",
         "fcontng": "real_variable",
         "fcoolcp": "real_variable",
         "f_a_tf_cool_outboard": "real_variable",
@@ -20353,7 +20353,7 @@
         "fvolso": "real_variable",
         "fvs": "real_variable",
         "fvsbrnni": "real_variable",
-        "fvssu": "real_variable",
+        "fvs_cs_pf_total_ramp": "real_variable",
         "fvvhe": "real_variable",
         "fw_armour_thickness": "real_variable",
         "len_fw_channel": "real_variable",
@@ -20472,8 +20472,8 @@
         "ioptimz": "int_variable",
         "iotabar": "real_variable",
         "ipedestal": "int_variable",
-        "ipfloc": "int_array",
-        "ipfres": "int_variable",
+        "i_pf_location": "int_array",
+        "i_pf_conductor": "int_variable",
         "ipnet": "int_variable",
         "ipowerflow": "int_variable",
         "i_cs_precomp": "int_variable",
@@ -20491,8 +20491,8 @@
         "istell": "int_variable",
         "isthtr": "int_variable",
         "istore": "int_variable",
-        "isumatoh": "int_variable",
-        "isumatpf": "int_variable",
+        "i_cs_superconductor": "int_variable",
+        "i_pf_superconductor": "int_variable",
         "isweep": "int_variable",
         "isweep_2": "int_variable",
         "itart": "int_variable",
@@ -20562,7 +20562,7 @@
         "nblktmodto": "int_variable",
         "nbshield": "real_variable",
         "nbshinefmax": "real_variable",
-        "ncls": "int_array",
+        "n_pf_coils_in_group": "int_array",
         "neped": "real_variable",
         "neqns": "int_variable",
         "neratio": "real_variable",
@@ -20570,7 +20570,7 @@
         "netau_sol": "real_variable",
         "nflutfmax": "real_variable",
         "nfxfh": "int_variable",
-        "ngrp": "int_variable",
+        "n_pf_coil_groups": "int_variable",
         "nineqns": "int_variable",
         "npdiv": "int_variable",
         "nphcdin": "int_variable",
@@ -20581,9 +20581,9 @@
         "num_rh_systems": "int_variable",
         "nvar": "int_variable",
         "oacdcp": "real_variable",
-        "oh_steel_frac": "real_variable",
+        "f_a_cs_steel": "real_variable",
         "dr_cs": "real_variable",
-        "ohhghf": "real_variable",
+        "f_z_cs_tf_internal": "real_variable",
         "omegan": "real_variable",
         "outgasfactor": "real_variable",
         "outgasindex": "real_variable",
@@ -20596,7 +20596,7 @@
         "f_fw_rad_max": "real_variable",
         "f_fw_peak": "real_variable",
         "pfbldgm3": "real_variable",
-        "pfclres": "real_variable",
+        "rho_pf_coil": "real_variable",
         "pfusife": "real_variable",
         "pheat": "real_variable",
         "pheatfix": "real_variable",
@@ -20662,7 +20662,7 @@
         "rho_tf_bus": "real_variable",
         "rinboard": "real_variable",
         "ripmax": "real_variable",
-        "rjconpf": "real_array",
+        "j_pf_coil_wp_peak": "real_array",
         "rlenmax": "real_variable",
         "ind_plasma_internal_norm": "real_variable",
         "rmajor": "real_variable",
@@ -20874,10 +20874,10 @@
         "vcool": "real_variable",
         "vdalw": "real_variable",
         "verbose": "int_variable",
-        "vf": "real_array",
+        "f_a_pf_coil_void": "real_array",
         "vfblkt": "real_variable",
         "vfcblkt": "real_variable",
-        "vfohc": "real_variable",
+        "f_a_cs_void": "real_variable",
         "vfpblkt": "real_variable",
         "vfshld": "real_variable",
         "vftf": "real_variable",
@@ -20913,7 +20913,7 @@
     },
     "IFAIL_SUCCESS": 1,
     "NON_F_VALUES": [
-        "fcohbop",
+        "f_j_cs_start_pulse_end_flat_top",
         "fvsbrnni",
         "feffcd",
         "fcutfsu"
diff --git a/tests/integration/test_pfcoil_int.py b/tests/integration/test_pfcoil_int.py
index 4717e313c4..80bbc9a58f 100644
--- a/tests/integration/test_pfcoil_int.py
+++ b/tests/integration/test_pfcoil_int.py
@@ -57,58 +57,60 @@ def test_pfcoil(monkeypatch, pfcoil):
     monkeypatch.setattr(eh, "idiags", np.full(8, -999999))
     monkeypatch.setattr(fwbsv, "denstl", 7.8e3)
     monkeypatch.setattr(pfv, "rpf1", 0.0)
-    monkeypatch.setattr(pfv, "whtpfs", 0.0)
-    monkeypatch.setattr(pfv, "curpff", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "nohc", 0)
-    monkeypatch.setattr(pfv, "pfrmax", 0.0)
-    monkeypatch.setattr(pfv, "fcohbop", 1.0)
-    monkeypatch.setattr(pfv, "rjconpf", np.full(22, 1.1e7))
-    monkeypatch.setattr(pfv, "ngrp", 4)
-    monkeypatch.setattr(pfv, "rohc", 3.0)
-    monkeypatch.setattr(pfv, "ncls", np.array([1, 1, 2, 0, 0, 0, 0, 0, 0, 0, 0, 0]))
-    monkeypatch.setattr(pfv, "zpf", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "cptdin", np.full(22, 4.22e4))
+    monkeypatch.setattr(pfv, "m_pf_coil_structure_total", 0.0)
+    monkeypatch.setattr(pfv, "c_pf_cs_coil_flat_top_ma", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "n_cs_pf_coils", 0)
+    monkeypatch.setattr(pfv, "r_pf_coil_outer_max", 0.0)
+    monkeypatch.setattr(pfv, "f_j_cs_start_pulse_end_flat_top", 1.0)
+    monkeypatch.setattr(pfv, "j_pf_coil_wp_peak", np.full(22, 1.1e7))
+    monkeypatch.setattr(pfv, "n_pf_coil_groups", 4)
+    monkeypatch.setattr(pfv, "r_cs_middle", 3.0)
+    monkeypatch.setattr(
+        pfv, "n_pf_coils_in_group", np.array([1, 1, 2, 0, 0, 0, 0, 0, 0, 0, 0, 0])
+    )
+    monkeypatch.setattr(pfv, "z_pf_coil_middle", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "c_pf_coil_turn_peak_input", np.full(22, 4.22e4))
     monkeypatch.setattr(pfv, "pfcaseth", np.full(22, 0.0))
     monkeypatch.setattr(pfv, "itr_sum", 0.0)
     monkeypatch.setattr(pfv, "sigpfcf", 6.66e-1)
-    monkeypatch.setattr(pfv, "ohhghf", 9.0e-1)
-    monkeypatch.setattr(pfv, "ipfloc", np.array([2, 2, 3, 3, 0, 0, 0, 0, 0, 0]))
-    monkeypatch.setattr(pfv, "wts", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "powpfres", 0.0)
-    monkeypatch.setattr(pfv, "curpfb", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "f_z_cs_tf_internal", 9.0e-1)
+    monkeypatch.setattr(pfv, "i_pf_location", np.array([2, 2, 3, 3, 0, 0, 0, 0, 0, 0]))
+    monkeypatch.setattr(pfv, "m_pf_coil_structure", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "p_pf_coil_resistive_total_flat_top", 0.0)
+    monkeypatch.setattr(pfv, "c_pf_cs_coil_pulse_start_ma", np.full(22, 0.0))
     monkeypatch.setattr(pfv, "routr", 1.5)
-    monkeypatch.setattr(pfv, "ric", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "fcohbof", 2.654e-1)
+    monkeypatch.setattr(pfv, "c_pf_cs_coils_peak_ma", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "f_j_cs_start_end_flat_top", 2.654e-1)
     monkeypatch.setattr(pfv, "rpf2", -1.825)
     monkeypatch.setattr(pfv, "nfxfh", 7)
-    monkeypatch.setattr(pfv, "bpf", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "zl", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "wtc", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "vf", np.full(22, 3.0e-1))
-    monkeypatch.setattr(pfv, "turns", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "curpfs", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "rpf", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "b_pf_coil_peak", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "z_pf_coil_lower", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "m_pf_coil_conductor", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "f_a_pf_coil_void", np.full(22, 3.0e-1))
+    monkeypatch.setattr(pfv, "n_pf_coil_turns", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "c_pf_cs_coil_pulse_end_ma", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "r_pf_coil_middle", np.full(22, 0.0))
     monkeypatch.setattr(pfv, "zref", [3.6, 1.2, 2.5, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0])
-    monkeypatch.setattr(pfv, "pfmmax", 0.0)
-    monkeypatch.setattr(pfv, "ipfres", 0)
+    monkeypatch.setattr(pfv, "m_pf_coil_max", 0.0)
+    monkeypatch.setattr(pfv, "i_pf_conductor", 0)
     monkeypatch.setattr(pfv, "alfapf", 5.0e-10)
-    monkeypatch.setattr(pfv, "ncirt", 8)
-    monkeypatch.setattr(pfv, "pfclres", 2.5e-8)
-    monkeypatch.setattr(pfv, "cpt", np.full([22, 6], 0.0))
+    monkeypatch.setattr(pfv, "n_pf_cs_plasma_circuits", 8)
+    monkeypatch.setattr(pfv, "rho_pf_coil", 2.5e-8)
+    monkeypatch.setattr(pfv, "c_pf_coil_turn", np.full([22, 6], 0.0))
     monkeypatch.setattr(pfv, "waves", np.full([22, 6], 0.0))
-    monkeypatch.setattr(pfv, "sxlg", np.full([22, 22], 0.0))
+    monkeypatch.setattr(pfv, "ind_pf_cs_plasma_mutual", np.full([22, 22], 0.0))
     monkeypatch.setattr(pfv, "sigpfcalw", 5.0e2)
-    monkeypatch.setattr(pfv, "coheof", 1.6932e7)
-    monkeypatch.setattr(pfv, "zh", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "fcohbof", 2.654e-1)
-    monkeypatch.setattr(pfv, "ra", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "rb", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "isumatpf", 3)
-    monkeypatch.setattr(pfv, "isumatoh", 1)
-    monkeypatch.setattr(pfv, "whtpf", 0.0)
+    monkeypatch.setattr(pfv, "j_cs_flat_top_end", 1.6932e7)
+    monkeypatch.setattr(pfv, "z_pf_coil_upper", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "f_j_cs_start_end_flat_top", 2.654e-1)
+    monkeypatch.setattr(pfv, "r_pf_coil_inner", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "r_pf_coil_outer", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "i_pf_superconductor", 3)
+    monkeypatch.setattr(pfv, "i_cs_superconductor", 1)
+    monkeypatch.setattr(pfv, "m_pf_coil_conductor_total", 0.0)
     monkeypatch.setattr(pfv, "fcupfsu", 6.900e-1)
-    monkeypatch.setattr(pfv, "cohbop", 1.693e7)
-    monkeypatch.setattr(pfv, "rjpfalw", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "j_cs_pulse_start", 1.693e7)
+    monkeypatch.setattr(pfv, "j_pf_wp_critical", np.full(22, 0.0))
     monkeypatch.setattr(pfv, "i_sup_pf_shape", 0)
     monkeypatch.setattr(pfv, "rref", np.full(10, 7.0))
     monkeypatch.setattr(pfv, "i_pf_current", 1)
@@ -148,7 +150,7 @@ def test_pfcoil(monkeypatch, pfcoil):
     pfcoil.pfcoil()
 
     assert pytest.approx(pv.bvert) == -0.65121393
-    assert pytest.approx(pfv.zpf) == np.array([
+    assert pytest.approx(pfv.z_pf_coil_middle) == np.array([
         4.86,
         -4.86,
         7.2075,
@@ -189,48 +191,48 @@ def test_ohcalc(monkeypatch, reinitialise_error_module, pfcoil):
     monkeypatch.setattr(bv, "dr_cs", 6.510e-1)
     monkeypatch.setattr(fwbsv, "denstl", 7.8e3)
     monkeypatch.setattr(eh, "idiags", np.full(8, 0))
-    monkeypatch.setattr(pfv, "nohc", 5)
-    monkeypatch.setattr(pfv, "bmaxoh", 1.4e1)
+    monkeypatch.setattr(pfv, "n_cs_pf_coils", 5)
+    monkeypatch.setattr(pfv, "b_cs_peak_flat_top_end", 1.4e1)
     monkeypatch.setattr(pfv, "i_cs_stress", 0)
-    monkeypatch.setattr(pfv, "coheof", 1.693e7)
-    monkeypatch.setattr(pfv, "rohc", 3.0)
-    monkeypatch.setattr(pfv, "vfohc", 3.0e-1)
+    monkeypatch.setattr(pfv, "j_cs_flat_top_end", 1.693e7)
+    monkeypatch.setattr(pfv, "r_cs_middle", 3.0)
+    monkeypatch.setattr(pfv, "f_a_cs_void", 3.0e-1)
     monkeypatch.setattr(pfv, "jcableoh_bop", 1.069e8)
     monkeypatch.setattr(pfv, "fcuohsu", 7.000e-1)
-    monkeypatch.setattr(pfv, "isumatoh", 5)
-    monkeypatch.setattr(pfv, "ohhghf", 0.9)
-    monkeypatch.setattr(pfv, "areaoh", 1.039e1)
-    monkeypatch.setattr(pfv, "powpfres", 0.0)
+    monkeypatch.setattr(pfv, "i_cs_superconductor", 5)
+    monkeypatch.setattr(pfv, "f_z_cs_tf_internal", 0.9)
+    monkeypatch.setattr(pfv, "a_cs_poloidal", 1.039e1)
+    monkeypatch.setattr(pfv, "p_pf_coil_resistive_total_flat_top", 0.0)
     monkeypatch.setattr(pfv, "jcableoh_eof", 1.427e8)
-    monkeypatch.setattr(pfv, "powohres", 0.0)
-    monkeypatch.setattr(pfv, "rjohc0", 3.048e7)
+    monkeypatch.setattr(pfv, "p_cs_resistive_flat_top", 0.0)
+    monkeypatch.setattr(pfv, "j_cs_critical_pulse_start", 3.048e7)
     monkeypatch.setattr(pfv, "s_tresca_oh", 5.718e8)
     monkeypatch.setattr(pfv, "awpoh", 4.232)
-    monkeypatch.setattr(pfv, "oh_steel_frac", 5.926e-1)
-    monkeypatch.setattr(pfv, "bmaxoh0", 1.4e1)
-    monkeypatch.setattr(pfv, "rjohc", 4.070e7)
-    monkeypatch.setattr(pfv, "tmargoh", 1.5)
-    monkeypatch.setattr(pfv, "ipfres", 0)
-    monkeypatch.setattr(pfv, "rjpfalw", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "pfclres", 2.8e-8)
-    monkeypatch.setattr(pfv, "vf", np.full(22, 0.3))
-    monkeypatch.setattr(pfv, "ric", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "bpf", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "jscoh_eof", 4.758e8)
-    monkeypatch.setattr(pfv, "zpf", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "rb", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "ra", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "jscoh_bop", 3.562e8)
-    monkeypatch.setattr(pfv, "cptdin", np.full(22, 4.22e4))
+    monkeypatch.setattr(pfv, "f_a_cs_steel", 5.926e-1)
+    monkeypatch.setattr(pfv, "b_cs_peak_pulse_start", 1.4e1)
+    monkeypatch.setattr(pfv, "j_cs_critical_flat_top_end", 4.070e7)
+    monkeypatch.setattr(pfv, "temp_cs_margin", 1.5)
+    monkeypatch.setattr(pfv, "i_pf_conductor", 0)
+    monkeypatch.setattr(pfv, "j_pf_wp_critical", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "rho_pf_coil", 2.8e-8)
+    monkeypatch.setattr(pfv, "f_a_pf_coil_void", np.full(22, 0.3))
+    monkeypatch.setattr(pfv, "c_pf_cs_coils_peak_ma", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "b_pf_coil_peak", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "j_cs_conductor_critical_flat_top_end", 4.758e8)
+    monkeypatch.setattr(pfv, "z_pf_coil_middle", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "r_pf_coil_outer", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "r_pf_coil_inner", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "j_cs_conductor_critical_pulse_start", 3.562e8)
+    monkeypatch.setattr(pfv, "c_pf_coil_turn_peak_input", np.full(22, 4.22e4))
     monkeypatch.setattr(pfv, "pfcaseth", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "rpf", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "cohbop", 1.693e7)
-    monkeypatch.setattr(pfv, "zh", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "wtc", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "zl", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "turns", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "wts", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "a_oh_turn", 0.0)
+    monkeypatch.setattr(pfv, "r_pf_coil_middle", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "j_cs_pulse_start", 1.693e7)
+    monkeypatch.setattr(pfv, "z_pf_coil_upper", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "m_pf_coil_conductor", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "z_pf_coil_lower", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "n_pf_coil_turns", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "m_pf_coil_structure", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "a_cs_turn", 0.0)
     monkeypatch.setattr(tfv, "dcond", np.full(9, 9.0e3))
     monkeypatch.setattr(tfv, "tftmp", 4.750)
     monkeypatch.setattr(tfv, "tcritsc", 1.6e1)
@@ -244,11 +246,15 @@ def test_ohcalc(monkeypatch, reinitialise_error_module, pfcoil):
     # Mocks for peakb()
     monkeypatch.setattr(bv, "iohcl", 1)
     monkeypatch.setattr(pfv, "waves", np.full([22, 6], 0.0))
-    monkeypatch.setattr(pfv, "ngrp", 4)
-    monkeypatch.setattr(pfv, "ncls", np.array([1, 1, 2, 0, 0, 0, 0, 0, 0, 0, 0, 0]))
-    monkeypatch.setattr(pfv, "curpfb", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "curpff", np.full(22, 0.0))
-    monkeypatch.setattr(pfv, "curpfs", np.full(22, -175.84911993600002))
+    monkeypatch.setattr(pfv, "n_pf_coil_groups", 4)
+    monkeypatch.setattr(
+        pfv, "n_pf_coils_in_group", np.array([1, 1, 2, 0, 0, 0, 0, 0, 0, 0, 0, 0])
+    )
+    monkeypatch.setattr(pfv, "c_pf_cs_coil_pulse_start_ma", np.full(22, 0.0))
+    monkeypatch.setattr(pfv, "c_pf_cs_coil_flat_top_ma", np.full(22, 0.0))
+    monkeypatch.setattr(
+        pfv, "c_pf_cs_coil_pulse_end_ma", np.full(22, -175.84911993600002)
+    )
     monkeypatch.setattr(pv, "rmajor", 8.938)
     monkeypatch.setattr(pv, "plasma_current", 1.8254e7)
 
@@ -264,8 +270,8 @@ def test_ohcalc(monkeypatch, reinitialise_error_module, pfcoil):
 
     pfcoil.ohcalc()
 
-    assert pytest.approx(pfv.bpf[4]) == 13.073958753751993
-    assert pytest.approx(pfv.rjohc) == 54101481.7685945
+    assert pytest.approx(pfv.b_pf_coil_peak[4]) == 13.073958753751993
+    assert pytest.approx(pfv.j_cs_critical_flat_top_end) == 54101481.7685945
 
 
 def test_efc(pfcoil: PFCoil, monkeypatch: pytest.MonkeyPatch):
@@ -280,11 +286,11 @@ def test_efc(pfcoil: PFCoil, monkeypatch: pytest.MonkeyPatch):
     :param monkeypatch: mocking fixture
     :type monkeypatch: MonkeyPatch
     """
-    ngrpmx = 10
+    n_pf_groups_max = 10
     nptsmx = 32
     nfixmx = 64
-    lrow1 = 2 * nptsmx + ngrpmx
-    lcol1 = ngrpmx
+    lrow1 = 2 * nptsmx + n_pf_groups_max
+    lcol1 = n_pf_groups_max
     npts = 32
     rpts = np.array([
         6.0547741935483881,
@@ -345,8 +351,8 @@ def test_efc(pfcoil: PFCoil, monkeypatch: pytest.MonkeyPatch):
     ]
     cfix = np.full(nfixmx, 0.0)
     cfix[0:14] = 12547065.315963898
-    ngrp = 4
-    ncls = np.array([1, 1, 2, 0, 0, 0, 0, 0, 0, 0, 0, 0])
+    n_pf_coil_groups = 4
+    n_pf_coils_in_group = np.array([1, 1, 2, 0, 0, 0, 0, 0, 0, 0, 0, 0])
 
     # This 2D array argument discovered via gdb prints as a 1D array, therefore
     # needs to be reshaped into its original 2D. Fortran ordering is essential
@@ -418,8 +424,8 @@ def test_efc(pfcoil: PFCoil, monkeypatch: pytest.MonkeyPatch):
         rfix,
         zfix,
         cfix,
-        ngrp,
-        ncls,
+        n_pf_coil_groups,
+        n_pf_coils_in_group,
         rcls,
         zcls,
         alfa,
@@ -490,8 +496,8 @@ def test_mtrx(pfcoil: PFCoil):
     zpts = np.zeros(nptsmx)
     brin = np.zeros(nptsmx)
     bzin = np.zeros(nptsmx)
-    ngrp = 4
-    ncls = np.array([1, 1, 2, 2, 1, 0, 0, 0, 0, 0, 0, 0])
+    n_pf_coil_groups = 4
+    n_pf_coils_in_group = np.array([1, 1, 2, 2, 1, 0, 0, 0, 0, 0, 0, 0])
     rcls = np.reshape(
         [
             0,
@@ -630,13 +636,13 @@ def test_mtrx(pfcoil: PFCoil):
         zpts,
         brin,
         bzin,
-        ngrp,
-        ncls,
+        n_pf_coil_groups,
+        n_pf_coils_in_group,
         rcls,
         zcls,
         alfa,
         bfix,
-        int(pfv.nclsmx),
+        int(pfv.n_pf_coils_in_group_max),
     )
 
     gmat_exp = np.array([
@@ -1621,13 +1627,13 @@ def test_solv(pfcoil: PFCoil):
     :param pfcoil: a PFCoil instance
     :type pfcoil: process.pfcoil.PFCoil
     """
-    ngrpmx = 3
-    ngrp = 3
+    n_pf_groups_max = 3
+    n_pf_coil_groups = 3
     nrws = 3
     gmat = np.full((3, 3), 2.0, order="F")
     bvec = np.full(3, 1.0)
 
-    ccls = pfcoil.solv(ngrpmx, ngrp, nrws, gmat, bvec)
+    ccls = pfcoil.solv(n_pf_groups_max, n_pf_coil_groups, nrws, gmat, bvec)
 
     assert_array_almost_equal(ccls, np.array([-0.069036, 0.488642, 0.080394]))
 
@@ -2207,7 +2213,7 @@ def test_peakb(monkeypatch: pytest.MonkeyPatch, pfcoil: PFCoil):
     )
     monkeypatch.setattr(
         pfv,
-        "ra",
+        "r_pf_coil_inner",
         np.array([
             5.6944236847973242,
             5.5985055619292972,
@@ -2233,10 +2239,10 @@ def test_peakb(monkeypatch: pytest.MonkeyPatch, pfcoil: PFCoil):
             0,
         ]),
     )
-    monkeypatch.setattr(pfv, "nohc", 7)
+    monkeypatch.setattr(pfv, "n_cs_pf_coils", 7)
     monkeypatch.setattr(
         pfv,
-        "ric",
+        "c_pf_cs_coils_peak_ma",
         np.array([
             14.742063826112622,
             20.032681634901664,
@@ -2262,10 +2268,10 @@ def test_peakb(monkeypatch: pytest.MonkeyPatch, pfcoil: PFCoil):
             0,
         ]),
     )
-    monkeypatch.setattr(pfv, "ohhghf", 0.90000000000000002)
+    monkeypatch.setattr(pfv, "f_z_cs_tf_internal", 0.90000000000000002)
     monkeypatch.setattr(
         pfv,
-        "rb",
+        "r_pf_coil_outer",
         np.array([
             6.8520884119768697,
             6.9480065348448967,
@@ -2293,7 +2299,7 @@ def test_peakb(monkeypatch: pytest.MonkeyPatch, pfcoil: PFCoil):
     )
     monkeypatch.setattr(
         pfv,
-        "rpf",
+        "r_pf_coil_middle",
         np.array([
             6.2732560483870969,
             6.2732560483870969,
@@ -2350,12 +2356,12 @@ def test_peakb(monkeypatch: pytest.MonkeyPatch, pfcoil: PFCoil):
             order="F",
         ),
     )
-    monkeypatch.setattr(pfv, "coheof", 20726000)
-    monkeypatch.setattr(pfv, "ngrp", 4)
-    monkeypatch.setattr(pfv, "bpf", np.zeros(22, dtype=int))  # maybe
+    monkeypatch.setattr(pfv, "j_cs_flat_top_end", 20726000)
+    monkeypatch.setattr(pfv, "n_pf_coil_groups", 4)
+    monkeypatch.setattr(pfv, "b_pf_coil_peak", np.zeros(22, dtype=int))  # maybe
     monkeypatch.setattr(
         pfv,
-        "zpf",
+        "z_pf_coil_middle",
         np.array([
             9.606146709677418,
             -11.141090021562032,
@@ -2381,10 +2387,12 @@ def test_peakb(monkeypatch: pytest.MonkeyPatch, pfcoil: PFCoil):
             0,
         ]),
     )
-    monkeypatch.setattr(pfv, "ncls", np.array([1, 1, 2, 2, 1, 0, 0, 0, 0, 0, 0, 0]))
+    monkeypatch.setattr(
+        pfv, "n_pf_coils_in_group", np.array([1, 1, 2, 2, 1, 0, 0, 0, 0, 0, 0, 0])
+    )
     monkeypatch.setattr(
         pfv,
-        "zl",
+        "z_pf_coil_lower",
         np.array([
             9.0273143460876444,
             -10.466339535104233,
@@ -2412,7 +2420,7 @@ def test_peakb(monkeypatch: pytest.MonkeyPatch, pfcoil: PFCoil):
     )
     monkeypatch.setattr(
         pfv,
-        "curpfb",
+        "c_pf_cs_coil_pulse_start_ma",
         np.array([
             14.742063826112622,
             20.032681634901664,
@@ -2440,7 +2448,7 @@ def test_peakb(monkeypatch: pytest.MonkeyPatch, pfcoil: PFCoil):
     )
     monkeypatch.setattr(
         pfv,
-        "curpff",
+        "c_pf_cs_coil_flat_top_ma",
         np.array([
             0.067422231232391661,
             -2.9167273287450968,
@@ -2468,7 +2476,7 @@ def test_peakb(monkeypatch: pytest.MonkeyPatch, pfcoil: PFCoil):
     )
     monkeypatch.setattr(
         pfv,
-        "curpfs",
+        "c_pf_cs_coil_pulse_end_ma",
         np.array([
             0.067422231232391661,
             -2.9167273287450968,
@@ -2494,10 +2502,10 @@ def test_peakb(monkeypatch: pytest.MonkeyPatch, pfcoil: PFCoil):
             0,
         ]),
     )
-    monkeypatch.setattr(pfv, "cohbop", 19311657.760000002)
+    monkeypatch.setattr(pfv, "j_cs_pulse_start", 19311657.760000002)
     monkeypatch.setattr(
         pfv,
-        "zh",
+        "z_pf_coil_upper",
         np.array([
             10.184979073267192,
             -11.815840508019832,
@@ -2601,11 +2609,11 @@ def test_axial_stress(pfcoil: PFCoil, monkeypatch: pytest.MonkeyPatch):
     :param monkeypatch: mocking fixture
     :type monkeypatch: _pytest.monkeypatch.MonkeyPatch
     """
-    monkeypatch.setattr(pfv, "oh_steel_frac", 0.57874999999999999)
-    monkeypatch.setattr(pfv, "nohc", 7)
+    monkeypatch.setattr(pfv, "f_a_cs_steel", 0.57874999999999999)
+    monkeypatch.setattr(pfv, "n_cs_pf_coils", 7)
     monkeypatch.setattr(
         pfv,
-        "rb",
+        "r_pf_coil_outer",
         np.array([
             6.8520884119768697,
             6.9480065348448967,
@@ -2633,7 +2641,7 @@ def test_axial_stress(pfcoil: PFCoil, monkeypatch: pytest.MonkeyPatch):
     )
     monkeypatch.setattr(
         pfv,
-        "ra",
+        "r_pf_coil_inner",
         np.array([
             5.6944236847973242,
             5.5985055619292972,
@@ -2661,7 +2669,7 @@ def test_axial_stress(pfcoil: PFCoil, monkeypatch: pytest.MonkeyPatch):
     )
     monkeypatch.setattr(
         pfv,
-        "ric",
+        "c_pf_cs_coils_peak_ma",
         np.array([
             14.742063826112622,
             20.032681634901664,
@@ -2689,7 +2697,7 @@ def test_axial_stress(pfcoil: PFCoil, monkeypatch: pytest.MonkeyPatch):
     )
     monkeypatch.setattr(
         pfv,
-        "zh",
+        "z_pf_coil_upper",
         np.array([
             10.184979073267192,
             -11.815840508019832,
@@ -2766,10 +2774,10 @@ def test_induct(pfcoil: PFCoil, monkeypatch: pytest.MonkeyPatch):
             -999999,
         ]),
     )
-    monkeypatch.setattr(pfv, "nohc", 7)
+    monkeypatch.setattr(pfv, "n_cs_pf_coils", 7)
     monkeypatch.setattr(
         pfv,
-        "turns",
+        "n_pf_coil_turns",
         np.array([
             349.33800535811901,
             474.70809561378354,
@@ -2797,7 +2805,7 @@ def test_induct(pfcoil: PFCoil, monkeypatch: pytest.MonkeyPatch):
     )
     monkeypatch.setattr(
         pfv,
-        "zpf",
+        "z_pf_coil_middle",
         np.array([
             9.606146709677418,
             -11.141090021562032,
@@ -2825,7 +2833,7 @@ def test_induct(pfcoil: PFCoil, monkeypatch: pytest.MonkeyPatch):
     )
     monkeypatch.setattr(
         pfv,
-        "rpf",
+        "r_pf_coil_middle",
         np.array([
             6.2732560483870969,
             6.2732560483870969,
@@ -2851,13 +2859,15 @@ def test_induct(pfcoil: PFCoil, monkeypatch: pytest.MonkeyPatch):
             0,
         ]),
     )
-    monkeypatch.setattr(pfv, "sxlg", np.ones((22, 22), dtype=int))
-    monkeypatch.setattr(pfv, "rohc", 2.6084100000000001)
-    monkeypatch.setattr(pfv, "ngrp", 4)
-    monkeypatch.setattr(pfv, "ncls", np.array([1, 1, 2, 2, 1, 0, 0, 0, 0, 0, 0, 0]))
+    monkeypatch.setattr(pfv, "ind_pf_cs_plasma_mutual", np.ones((22, 22), dtype=int))
+    monkeypatch.setattr(pfv, "r_cs_middle", 2.6084100000000001)
+    monkeypatch.setattr(pfv, "n_pf_coil_groups", 4)
+    monkeypatch.setattr(
+        pfv, "n_pf_coils_in_group", np.array([1, 1, 2, 2, 1, 0, 0, 0, 0, 0, 0, 0])
+    )
     monkeypatch.setattr(
         pfv,
-        "zl",
+        "z_pf_coil_lower",
         np.array([
             9.0273143460876444,
             -10.466339535104233,
@@ -2883,10 +2893,10 @@ def test_induct(pfcoil: PFCoil, monkeypatch: pytest.MonkeyPatch):
             0,
         ]),
     )
-    monkeypatch.setattr(pfv, "ncirt", 8)
+    monkeypatch.setattr(pfv, "n_pf_cs_plasma_circuits", 8)
     monkeypatch.setattr(
         pfv,
-        "ra",
+        "r_pf_coil_inner",
         np.array([
             5.6944236847973242,
             5.5985055619292972,
@@ -2914,7 +2924,7 @@ def test_induct(pfcoil: PFCoil, monkeypatch: pytest.MonkeyPatch):
     )
     monkeypatch.setattr(
         pfv,
-        "zh",
+        "z_pf_coil_upper",
         np.array([
             10.184979073267192,
             -11.815840508019832,
@@ -2942,7 +2952,7 @@ def test_induct(pfcoil: PFCoil, monkeypatch: pytest.MonkeyPatch):
     )
     monkeypatch.setattr(
         pfv,
-        "rb",
+        "r_pf_coil_outer",
         np.array([
             6.8520884119768697,
             6.9480065348448967,
@@ -2971,7 +2981,7 @@ def test_induct(pfcoil: PFCoil, monkeypatch: pytest.MonkeyPatch):
     monkeypatch.setattr(pv, "rmajor", 8.8901000000000003)
     monkeypatch.setattr(pv, "ind_plasma", 1.6039223939491056e-05)
 
-    sxlg_exp = np.array([
+    ind_pf_cs_plasma_mutual_exp = np.array([
         [
             2.49332453e00,
             4.46286166e-02,
@@ -3502,4 +3512,4 @@ def test_induct(pfcoil: PFCoil, monkeypatch: pytest.MonkeyPatch):
         ],
     ])
     pfcoil.induct(False)
-    assert_array_almost_equal(pfv.sxlg, sxlg_exp)
+    assert_array_almost_equal(pfv.ind_pf_cs_plasma_mutual, ind_pf_cs_plasma_mutual_exp)
diff --git a/tests/regression/input_files/large_tokamak.IN.DAT b/tests/regression/input_files/large_tokamak.IN.DAT
index e7bf1bd32e..0b28522c22 100644
--- a/tests/regression/input_files/large_tokamak.IN.DAT
+++ b/tests/regression/input_files/large_tokamak.IN.DAT
@@ -103,20 +103,20 @@ bmxlim = 14.0
 * Central solenoid EOF current density upper limit *
 *--------------------------------------------------*
 icc = 26
-ixc = 37 * coheof [A/m2]
+ixc = 37 * j_cs_flat_top_end [A/m2]
 ixc = 38 * fjohc
 boundu(38) = 1.0
-coheof = 1.5E7
+j_cs_flat_top_end = 1.5E7
 fjohc = 0.6
 
 * Central solenoid BOP current density upper limit *
 *--------------------------------------------------*
 icc = 27
 ixc = 39 * fjohc0
-ixc = 41 * fcohbop
+ixc = 41 * f_j_cs_start_pulse_end_flat_top
 boundu(39) = 1.0
 fjohc0 = 0.6
-fcohbop = 0.9
+f_j_cs_start_pulse_end_flat_top = 0.9
 
 * I_op/I_Crit TF coil limit *
 *---------------------------*
@@ -269,9 +269,9 @@ cpttf = 65000.0
 ixc = 109
 boundu(109) = 0.1
 
-* CS steel fraction, oh_steel_frac
+* CS steel fraction, f_a_cs_steel
 ixc = 122
-oh_steel_frac = 0.8
+f_a_cs_steel = 0.8
 
 * core impurity fraction, Xenon
 ixc = 135
@@ -538,27 +538,27 @@ iavail = 0
 ************
 
 * Peak current per turn input for PF coil i [A]
-cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
+c_pf_coil_turn_peak_input = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
 
 * Switch for locating scheme of pf coil group i
-ipfloc = 2,2,3,3
+i_pf_location = 2,2,3,3
 
 * Switch for superconductor material in pf coils
-isumatpf = 3
+i_pf_superconductor = 3
 
 * Number of pf coils in group j
-ncls = 1,1,2,2
+n_pf_coils_in_group = 1,1,2,2
 
 * Number of groups of PF coils
-ngrp = 4
+n_pf_coil_groups = 4
 
 * Central solenoid height / TF coil internal height
-ohhghf = 0.9
+f_z_cs_tf_internal = 0.9
 
 * Average winding pack current density of PF coil i [A/m2]
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
 
-* Offset of radial position of ipfloc=2 pf coils [m]
+* Offset of radial position of i_pf_location=2 pf coils [m]
 rpf2 = -1.825 
 
 zref(1) = 3.6
@@ -574,7 +574,7 @@ zref(8) = 1.0
 fcuohsu = 0.70
 
 * ITER Nb3Sn parameterisation
-isumatoh = 1
+i_cs_superconductor = 1
 
 * Fraction of JxB force supported by PF coil case
 sigpfcf = 0.666
diff --git a/tests/regression/input_files/large_tokamak_nof.IN.DAT b/tests/regression/input_files/large_tokamak_nof.IN.DAT
index cf37dc6979..26cdd3cb63 100644
--- a/tests/regression/input_files/large_tokamak_nof.IN.DAT
+++ b/tests/regression/input_files/large_tokamak_nof.IN.DAT
@@ -76,15 +76,15 @@ bmxlim = 14.0
 * Central solenoid EOF current density upper limit *
 *--------------------------------------------------*
 icc = 26
-ixc = 37 * coheof [A/m2]
-coheof = 1.5E7
+ixc = 37 * j_cs_flat_top_end [A/m2]
+j_cs_flat_top_end = 1.5E7
 fjohc = 1.0
 
 * Central solenoid BOP current density upper limit *
 *--------------------------------------------------*
 icc = 27
 fjohc0 = 1.0
-fcohbop = 1.0
+f_j_cs_start_pulse_end_flat_top = 1.0
 
 * I_op/I_Crit TF coil limit *
 *---------------------------*
@@ -251,9 +251,9 @@ cpttf = 65000.0
 ixc = 109
 boundu(109) = 0.1
 
-* CS steel fraction, oh_steel_frac
+* CS steel fraction, f_a_cs_steel
 ixc = 122
-oh_steel_frac = 0.8
+f_a_cs_steel = 0.8
 
 * core impurity fraction, Xenon
 ixc = 135
@@ -520,27 +520,27 @@ iavail = 0
 ************
 
 * Peak current per turn input for PF coil i [A]
-cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
+c_pf_coil_turn_peak_input = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
 
 * Switch for locating scheme of pf coil group i
-ipfloc = 2,2,3,3
+i_pf_location = 2,2,3,3
 
 * Switch for superconductor material in pf coils
-isumatpf = 3
+i_pf_superconductor = 3
 
 * Number of pf coils in group j
-ncls = 1,1,2,2
+n_pf_coils_in_group = 1,1,2,2
 
 * Number of groups of PF coils
-ngrp = 4
+n_pf_coil_groups = 4
 
 * Central solenoid height / TF coil internal height
-ohhghf = 0.9
+f_z_cs_tf_internal = 0.9
 
 * Average winding pack current density of PF coil i [A/m2]
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
 
-* Offset of radial position of ipfloc=2 pf coils [m]
+* Offset of radial position of i_pf_location=2 pf coils [m]
 rpf2 = -1.825 
 
 zref(1) = 3.6
@@ -556,7 +556,7 @@ zref(8) = 1.0
 fcuohsu = 0.70
 
 * ITER Nb3Sn parameterisation
-isumatoh = 1
+i_cs_superconductor = 1
 
 * TF Coil *
 ***********
diff --git a/tests/regression/input_files/large_tokamak_once_through.IN.DAT b/tests/regression/input_files/large_tokamak_once_through.IN.DAT
index 20c8d5f08e..893eebffac 100644
--- a/tests/regression/input_files/large_tokamak_once_through.IN.DAT
+++ b/tests/regression/input_files/large_tokamak_once_through.IN.DAT
@@ -56,8 +56,8 @@ ixc = 18 * q
 boundl(18) = 3.0
 ixc = 29 * dr_bore
 boundl(29) = 0.1
-ixc = 37 * coheof
-ixc = 41 * fcohbop
+ixc = 37 * j_cs_flat_top_end
+ixc = 41 * f_j_cs_start_pulse_end_flat_top
 ixc = 44 * fvsbrnni
 ixc = 56 * tdmptf
 ixc = 57 * thkcas
@@ -71,7 +71,7 @@ boundl(60) = 65000.0
 boundu(60) = 90000.0
 ixc = 109 * f_nd_alpha_electron
 boundu(109) = 0.1
-ixc = 122 * oh_steel_frac
+ixc = 122 * f_a_cs_steel
 ixc = 135 * fimp(13)
 ixc = 140 * dr_tf_wp
 boundl(140) = 0.4
@@ -279,20 +279,20 @@ epsvmc   = 1e-7 * epsvmc /1;0e-6/ ; error tolerance for VMCON
 *-----------------Pfcoil Variables-----------------*
 
 alstroh  = 7.5d8 * allowable hoop stress in Central Solenoid structural material (Pa)
-coheof   = 21443595.371072624 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`)
-cptdin   = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A)
-fcohbop  = 0.93491189654662 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top
+j_cs_flat_top_end   = 21443595.371072624 * Central solenoid overall current density at end of flat-top (A/m2) (`iteration variable 37`) (`sweep variable 62`)
+c_pf_coil_turn_peak_input   = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4 * peak current per turn input for PF coil i (A)
+f_j_cs_start_pulse_end_flat_top  = 0.93491189654662 * ratio of central solenoid overall current density at beginning of pulse / end of flat-top
 fcuohsu  = 0.70 * copper fraction of strand in central solenoid
-ipfloc   = 2,2,3,3 * Switch for location of PF coil group i;
-isumatoh = 1 * switch for superconductor material in central solenoid;
-isumatpf = 3 * switch for superconductor material in PF coils;
-ncls     = 1,1,2,2 * number of PF coils in group j
-ngrp     = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group
-ohhghf   = 0.9 * Central solenoid height / TF coil internal height
-oh_steel_frac = 0.4856940627014451 * central solenoid steel fraction (`iteration variable 122`)
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak
-rpf2     = -1.825 * offset (m) of radial position of `ipfloc=2` PF coils from being at
-sigpfcf  = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`ipfres=0`)
+i_pf_location   = 2,2,3,3 * Switch for location of PF coil group i;
+i_cs_superconductor = 1 * switch for superconductor material in central solenoid;
+i_pf_superconductor = 3 * switch for superconductor material in PF coils;
+n_pf_coils_in_group     = 1,1,2,2 * number of PF coils in group j
+n_pf_coil_groups     = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group
+f_z_cs_tf_internal   = 0.9 * Central solenoid height / TF coil internal height
+f_a_cs_steel = 0.4856940627014451 * central solenoid steel fraction (`iteration variable 122`)
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6 * average winding pack current density of PF coil i (A/m2) at time of peak
+rpf2     = -1.825 * offset (m) of radial position of `i_pf_location=2` PF coils from being at
+sigpfcf  = 0.666 * fraction of JxB hoop force supported by steel case for superconducting PF coils (`i_pf_conductor=0`)
 zref(1) = 3.6
 zref(2) = 1.2
 zref(3) = 1.0
diff --git a/tests/regression/input_files/spherical_tokamak_once_through.IN.DAT b/tests/regression/input_files/spherical_tokamak_once_through.IN.DAT
index 21a4bb15b4..ac1aa36bb7 100644
--- a/tests/regression/input_files/spherical_tokamak_once_through.IN.DAT
+++ b/tests/regression/input_files/spherical_tokamak_once_through.IN.DAT
@@ -299,12 +299,12 @@ epsvmc   = 1.0e-11 * epsvmc /1;0e-6/ ; error tolerance for VMCON
 
 *-----------------Pfcoil Variables-----------------*
 
-ipfloc   = 2,3,3,4 * Switch for location of PF coil group i;
-ipfres   = 0 * switch for PF &amp; CS coil conductor type;
-isumatpf = 9 * switch for superconductor material in PF coils;
+i_pf_location   = 2,3,3,4 * Switch for location of PF coil group i;
+i_pf_conductor   = 0 * switch for PF &amp; CS coil conductor type;
+i_pf_superconductor = 9 * switch for superconductor material in PF coils;
 i_sup_pf_shape = 1 * Switch for the placement of Location 3 (outboard) PF coils
-ncls     = 2,2,2,2 * number of PF coils in group j
-ngrp     = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group
+n_pf_coils_in_group     = 2,2,2,2 * number of PF coils in group j
+n_pf_coil_groups     = 4 * number of groups of PF coils; Symmetric coil pairs should all be in the same group
 rref     = 7.0D0, 7.0D0, 7.0D0, 2.0, 7.0D0, 7.0D0, 7.0D0, 7.0D0, 7.0D0, 7.0D0 * PF coil radial positioning adjuster;
 zref(1) = 3.6
 zref(2) = 1.2
diff --git a/tests/regression/input_files/st_regression.IN.DAT b/tests/regression/input_files/st_regression.IN.DAT
index be0a6a6118..c693737da0 100644
--- a/tests/regression/input_files/st_regression.IN.DAT
+++ b/tests/regression/input_files/st_regression.IN.DAT
@@ -950,7 +950,7 @@ i_tf_sc_mat = 9
 * JUSTIFICATION: Not used as not i_tf_sc_mat=4
 
 *dcond = 
-* DESCRIPTION: Density of superconductor type given by i_tf_sc_mat/isumatoh/isumatpf (kg/m3)
+* DESCRIPTION: Density of superconductor type given by i_tf_sc_mat/i_cs_superconductor/i_pf_superconductor (kg/m3)
 * JUSTIFICATION: Not set, assuming default
 
 *quench_model =  
@@ -1627,7 +1627,7 @@ itartpf  = 1
 * DESCRIPTION:   Switch for Spherical Tokamak PF models (1: Use regular model)
 * JUSTIFICATION: Use the regular model instead rather than Peng & Strickler (1986)
 
-ipfres = 0 
+i_pf_conductor = 0 
 * DESCRIPTION:   Switch for PF coil type  (default = 0)
 * =0 superconducting PF coils                              DOES THIS SET THE PF AND CS?
 * =1 resistive PF coils
@@ -1641,7 +1641,7 @@ ipfres = 0
 * Conductor Type *
 *----------------*
 
-*isumatoh =  
+*i_cs_superconductor =  
 * DESCRIPTION:   Central Solenoid superconductor material
 * JUSTIFICATION: Not set, resistive CS
 
@@ -1649,11 +1649,11 @@ ipfres = 0
 * DESCRIPTION:   Copper fraction of strand in central solenoid
 * JUSTIFICATION: Not yet set.
 
-*oh_steel_frac =  
+*f_a_cs_steel =  
 * DESCRIPTION:   Central solenoid steel fraction
 * JUSTIFICATION: Not used. Using default
 
-*vfohc =  
+*f_a_cs_void =  
 * DESCRIPTION:   Void fraction of central solenoid conductor for coolant
 * JUSTIFICATION: Not yet set.
 
@@ -1661,7 +1661,7 @@ ipfres = 0
 * Geometry *
 *----------*
 
-*ohhghf =  
+*f_z_cs_tf_internal =  
 * DESCRIPTION:   Central solenoid height / TF coil internal height (default = 0.71)
 * JUSTIFICATION: Not yet set.
 
@@ -1719,7 +1719,7 @@ ipfres = 0
 *icc = 51
 * DESCRIPTION:   Constraint equation to enforce startup flux = able startup flux
 * JUSTIFICATION: Turned off, do not care about startup flux.
-* VARIABLES:     vssu,vs_plasma_ind_ramp,vs_plasma_res_ramp calculated in situ
+* VARIABLES:     vs_cs_pf_total_ramp,vs_plasma_ind_ramp,vs_plasma_res_ramp calculated in situ
 
 *~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
 
@@ -1733,14 +1733,14 @@ ipfres = 0
 *icc = 79
 * DESCRIPTION:   Constraint equation for maximum CS field
 * JUSTIFICATION: Turned off, dont care about maximum CS field
-* VARIABLES:     bmaxcs_lim (Central solenoid max field limit [T]). bmaxoh0,bmaxoh calculated in-situ
+* VARIABLES:     b_cs_limit_max (Central solenoid max field limit [T]). b_cs_peak_pulse_start,b_cs_peak_flat_top_end calculated in-situ
 
-*bmaxcs_lim = 
+*b_cs_limit_max = 
 * DESCRIPTION:   Maximum allowed peak field on central solenoid (icc = 79)
 * JUSTIFICATION: Not using icc=79
 
 *ixc = 149
-*fbmaxcs = 
+*fb_cs_limit_max = 
 *boundl(149)
 *boundu(149)
 * DESCRIPTION:   F-value for max peak CS field (icc = 79)
@@ -1751,10 +1751,10 @@ ipfres = 0
 *icc = 26
 * DESCRIPTION:   Constraint equation for CS current density upper limit at EOF 
 * JUSTIFICATION: Turned off, dont care about CS current density limit 
-* VARIABLES:     coheof calculated in-situ
+* VARIABLES:     j_cs_flat_top_end calculated in-situ
 
 *ixc = 37
-*coheof = 
+*j_cs_flat_top_end = 
 *boundl(37) = 
 *boundu(37) = 
 * DESCRIPTION:   Central solenoid overall current density at end of flat-top (A/m2) (icc = 26)
@@ -1765,7 +1765,7 @@ ipfres = 0
 *icc = 27
 * DESCRIPTION:   Constraint equation for CS current density upper limit at BOP 
 * JUSTIFICATION: Turned off, dont care about CS current density limit 
-* VARIABLES:     cohbop calculated in-situ
+* VARIABLES:     j_cs_pulse_start calculated in-situ
 
 *~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
 
@@ -1793,7 +1793,7 @@ ipfres = 0
 *~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
 
 *ixc = 41
-*fcohbop = 
+*f_j_cs_start_pulse_end_flat_top = 
 *boundl(41) = 
 *boundu(41) = 
 * DESCRIPTION:   Ratio of central solenoid overall current density at beginning of pulse / end of flat-top
@@ -1824,7 +1824,7 @@ ipfres = 0
 * Conductor Type *
 *----------------*
 
-isumatpf = 9 
+i_pf_superconductor = 9 
 * DESCRIPTION:   Switch for Superconductor Material in PF Coils (9: REBCO)
 *  =1 ITER Nb3Sn critical surface model with standard
 *     ITER parameters
@@ -1839,11 +1839,11 @@ isumatpf = 9
 *  =9 Hazelton experimental data + Zhai conceptual model for REBCO
 * JUSTIFICATION: Design choice, superconducting PF coils
 
-*pfclres =  
-* DESCRIPTION:  PF coil resistivity (if ipfres=1) (Ohm-m) 
+*rho_pf_coil =  
+* DESCRIPTION:  PF coil resistivity (if i_pf_conductor=1) (Ohm-m) 
 * JUSTIFICATION: Not used, superconducting PF coil
 
-*vf =  
+*f_a_pf_coil_void =  
 * DESCRIPTION:   Winding pack void fraction of PF coil i for coolant (default = 0.3)
 * JUSTIFICATION: Not yet set
 
@@ -1862,12 +1862,12 @@ isumatpf = 9
 
 *sigpfcalw =  
 * DESCRIPTION: maximum permissible tensile stress (MPa) in steel coil cases for superconducting
-* PF coils (ipfres=0) (default = 500)
+* PF coils (i_pf_conductor=0) (default = 500)
 * JUSTIFICATION: Not yet set
 
 *sigpfcf =  
 * DESCRIPTION: fraction of JxB hoop force supported by steel case for superconducting PF 
-*coils (`ipfres=0`) (default = 0.66)
+*coils (`i_pf_conductor=0`) (default = 0.66)
 * JUSTIFICATION: Not yet set
 
 
@@ -1887,7 +1887,7 @@ isumatpf = 9
 
 *i_pf_current = 
 * DESCRIPTION:   Switch for controlling the current of the PF coils:  (default = 1)
-*  =0 Input via the variables curpfb, curpff, curpfs
+*  =0 Input via the variables c_pf_cs_coil_pulse_start_ma, c_pf_cs_coil_flat_top_ma, c_pf_cs_coil_pulse_end_ma
 *  =1 SVD targets zero field across midplane (flux swing
 *  coils) and the correct vertical field at the plasma
 *  center (equilibrium coils)
@@ -1909,7 +1909,7 @@ isumatpf = 9
 * Positioning *
 *-------------*
 
-ipfloc = 2,3,3,4
+i_pf_location = 2,3,3,4
 * DESCRIPTION:   Switch for Locating Scheme of PF Coil Group i
 * =1 PF coil on top of central solenoid (flux ramp only)
 * =2 PF coil on top of TF coil (flux ramp only)
@@ -1919,46 +1919,46 @@ ipfloc = 2,3,3,4
 
 
 i_sup_pf_shape = 1
-* DESCRIPTION:   Switch for the placement of ipfloc = 3 (outboard) PF coils
+* DESCRIPTION:   Switch for the placement of i_pf_location = 3 (outboard) PF coils
 *  when the TF coils are superconducting (i_tf_sup = 1)
 *  =0 (Default) Outboard PF coils follow TF shape
 *  in an ellipsoidal winding surface
 *  =1 Outboard PF coils all have same radius, cylindrical
 *  winding surface
-* JUSTIFICATION: Not used, no ipfloc = 3 coils
+* JUSTIFICATION: Not used, no i_pf_location = 3 coils
 
 *routr =  
-* DESCRIPTION:  Radial distance (m) from outboard TF coil leg to centre of ipfloc=3 PF coils
+* DESCRIPTION:  Radial distance (m) from outboard TF coil leg to centre of i_pf_location=3 PF coils
 * (default = 1.5) 
-* JUSTIFICATION: Not used, no ipfloc = 3 coils
+* JUSTIFICATION: Not used, no i_pf_location = 3 coils
 
 *rpf1 =  
-* DESCRIPTION:  offset (m) of radial position of ipfloc=1 PF coils from being directly above
+* DESCRIPTION:  offset (m) of radial position of i_pf_location=1 PF coils from being directly above
 * the central solenoid
-* JUSTIFICATION: Not used, no ipfloc = 1 coils
+* JUSTIFICATION: Not used, no i_pf_location = 1 coils
 
 *rpf2 =  
-* DESCRIPTION:  offset (m) of radial position of ipfloc=2 PF coils from being at
+* DESCRIPTION:  offset (m) of radial position of i_pf_location=2 PF coils from being at
 *rmajor (offset = rpf2*triang*rminor)
-* JUSTIFICATION: Not used, no ipfloc = 2 coils
+* JUSTIFICATION: Not used, no i_pf_location = 2 coils
 
-ncls = 2,2,2,2
+n_pf_coils_in_group = 2,2,2,2
 * DESCRIPTION:   Number of PF Coils in Group j
 * JUSTIFICATION: Design choice, symmetric top and bottom
 
-ngrp = 4
+n_pf_coil_groups = 4
 * DESCRIPTION:   Number of Groups of PF Coils
 * JUSTIFICATION: Design choice, symmetric top and bottom
 
 rref(4) = 2.0
 zref(4) = 5.2
-* DESCRIPTION:   Offset (rminor's) of Radial Position of ipfloc=4 PF coils From Being at Rmajor
+* DESCRIPTION:   Offset (rminor's) of Radial Position of i_pf_location=4 PF coils From Being at Rmajor
 * JUSTIFICATION: Position coils inside and in the middle of TF coil
 
-*cptdin: Current per turn for PF coil
-*rjconpf: Current per turn for PF coil resistivity (ohm-m)
-*rref: Radius of ipfloc = 4 coil groups. Number of minor radii from major radius
-*zref: Height of ipfloc 3/4 coil groups. Units of minor radius
+*c_pf_coil_turn_peak_input: Current per turn for PF coil
+*j_pf_coil_wp_peak: Current per turn for PF coil resistivity (ohm-m)
+*rref: Radius of i_pf_location = 4 coil groups. Number of minor radii from major radius
+*zref: Height of i_pf_location 3/4 coil groups. Units of minor radius
 
 
 *______________________________________________________________________________________________________________________________________________________________________________________________________________________*
@@ -2224,7 +2224,7 @@ i_r_cp_top = 2
 * JUSTIFICATION: Not scaling cryostat height.
 
 *dr_pf_cryostat = 
-* DESCRIPTION:   radial distance between outer edge of largest (`ipfloc=3`) PF coil (or stellarator
+* DESCRIPTION:   radial distance between outer edge of largest (`i_pf_location=3`) PF coil (or stellarator
 * modular coil) and cryostat [m])
 * JUSTIFICATION: Not scaling cryostat distance.
 
@@ -3412,7 +3412,7 @@ iavail = 0
 *icc = 61
 * DESCRIPTION:   Constraint equation for availability limit
 * JUSTIFICATION: Turned off, do not care about availability limit 
-* VARIABLES:     tmargmin_cs (Minimum allowable temperature margin in CS (K)), tmargoh calculated in-situ
+* VARIABLES:     tmargmin_cs (Minimum allowable temperature margin in CS (K)), temp_cs_margin calculated in-situ
 
 *avail_min = 
 * DESCRIPTION: Minimum availability (`constraint equation 61`)
diff --git a/tests/unit/data/large_tokamak_IN.DAT b/tests/unit/data/large_tokamak_IN.DAT
index 8ca90699b8..bec25666fc 100644
--- a/tests/unit/data/large_tokamak_IN.DAT
+++ b/tests/unit/data/large_tokamak_IN.DAT
@@ -103,20 +103,20 @@ bmxlim = 14.0
 * Central solenoid EOF current density upper limit *
 *--------------------------------------------------*
 icc = 26
-ixc = 37 * coheof [A/m2]
+ixc = 37 * j_cs_flat_top_end [A/m2]
 ixc = 38 * fjohc
 boundu(38) = 1.0
-coheof = 1.5E7
+j_cs_flat_top_end = 1.5E7
 fjohc = 0.6
 
 * Central solenoid BOP current density upper limit *
 *--------------------------------------------------*
 icc = 27
 ixc = 39 * fjohc0
-ixc = 41 * fcohbop
+ixc = 41 * f_j_cs_start_pulse_end_flat_top
 boundu(39) = 1.0
 fjohc0 = 0.6
-fcohbop = 0.9
+f_j_cs_start_pulse_end_flat_top = 0.9
 
 * I_op/I_Crit TF coil limit *
 *---------------------------*
@@ -269,9 +269,9 @@ cpttf = 65000.0
 ixc = 109
 boundu(109) = 0.1
 
-* CS steel fraction, oh_steel_frac
+* CS steel fraction, f_a_cs_steel
 ixc = 122
-oh_steel_frac = 0.8
+f_a_cs_steel = 0.8
 
 * core impurity fraction, Xenon
 ixc = 135
@@ -539,27 +539,27 @@ iavail = 0
 ************
 
 * Peak current per turn input for PF coil i [A]
-cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
+c_pf_coil_turn_peak_input = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
 
 * Switch for locating scheme of pf coil group i
-ipfloc = 2,2,3,3
+i_pf_location = 2,2,3,3
 
 * Switch for superconductor material in pf coils
-isumatpf = 3
+i_pf_superconductor = 3
 
 * Number of pf coils in group j
-ncls = 1,1,2,2
+n_pf_coils_in_group = 1,1,2,2
 
 * Number of groups of PF coils
-ngrp = 4
+n_pf_coil_groups = 4
 
 * Central solenoid height / TF coil internal height
-ohhghf = 0.9
+f_z_cs_tf_internal = 0.9
 
 * Average winding pack current density of PF coil i [A/m2]
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
 
-* Offset of radial position of ipfloc=2 pf coils [m]
+* Offset of radial position of i_pf_location=2 pf coils [m]
 rpf2 = -1.825 
 
 zref(1) = 3.6
@@ -575,7 +575,7 @@ zref(8) = 1.0
 fcuohsu = 0.70
 
 * ITER Nb3Sn parameterisation
-isumatoh = 1
+i_cs_superconductor = 1
 
 * TF Coil *
 ***********
diff --git a/tests/unit/data/large_tokamak_MFILE.DAT b/tests/unit/data/large_tokamak_MFILE.DAT
index 09a3eea122..bfd59fffbc 100644
--- a/tests/unit/data/large_tokamak_MFILE.DAT
+++ b/tests/unit/data/large_tokamak_MFILE.DAT
@@ -61,9 +61,9 @@
  fjohc0__________________________________________________________________ (itvar013)____________________      5.4340E-01    
  fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________      9.0567E-01    
  fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________      5.4294E-01    
- fcohbop_________________________________________________________________ (itvar014)____________________      9.4577E-01    
- fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0509E+00    
- fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________      9.4572E-01    
+ f_j_cs_start_pulse_end_flat_top_________________________________________________________________ (itvar014)____________________      9.4577E-01    
+ f_j_cs_start_pulse_end_flat_top_(final_value/initial_value)_____________________________________ (xcm014)______________________      1.0509E+00    
+ f_j_cs_start_pulse_end_flat_top_(range_normalised)______________________________________________ (nitvar014)___________________      9.4572E-01    
  fiooic__________________________________________________________________ (itvar015)____________________      7.1458E-01    
  fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________      1.0993E+00    
  fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________      7.1429E-01    
@@ -548,7 +548,7 @@
  Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________      2.0000E+02    
  ECH_wall_plug_efficiency________________________________________________ (etaech)______________________      5.0000E-01    
  ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________      1.5942E+02 OP 
- Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________      5.7129E+02    
+ Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vs_cs_pf_total_pulse))__________________      5.7129E+02    
  Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________      2.8516E+02    
  Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________      2.6494E+02    
  # Times #
@@ -600,7 +600,7 @@
  Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________      7.0000E-01    
  Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________      3.0000E-01    
  External_cryostat_thickness_(excludes_structure)_(m)____________________ (dr_cryostat)_______________________      1.5000E-01    
- Ratio_of_Central_Solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________      9.0000E-01    
+ Ratio_of_Central_Solenoid_height_to_TF_coil_internal_height_____________ (f_z_cs_tf_internal)______________________      9.0000E-01    
  Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________      5.8000E-01    
  # Divertor build and plasma position #
  Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________      6.6667E+00    
@@ -771,26 +771,26 @@
  Actual_current_(A)______________________________________________________ (cpttf)_______________________      8.7930E+04 ITV
  Actual_current_/_critical_current_______________________________________ (iooic)_______________________      7.1458E-01 OP 
  # Central Solenoid and PF Coils #
- Central_solenoid_superconductor_material________________________________ (isumatoh)____________________              1    
- Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________      1.4055E+01 OP 
- Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________      3.4872E+08 OP 
+ Central_solenoid_superconductor_material________________________________ (i_cs_superconductor)____________________              1    
+ Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (b_cs_peak_pulse_start)_____________________      1.4055E+01 OP 
+ Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (j_cs_conductor_critical_pulse_start)___________________      3.4872E+08 OP 
  Critical_cable_current_density_at_BOP_(A/m2)___________________________ (jcableoh_bop)_______________      1.0462E+08 OP 
- Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________      3.5137E+07 OP 
- Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________      1.9094E+07 OP 
- Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________      1.3907E+01 OP 
- Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________      3.6220E+08 OP 
+ Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (j_cs_critical_pulse_start)______________________      3.5137E+07 OP 
+ Actual_overall_current_density_at_BOP_(A/m2)____________________________ (j_cs_pulse_start)______________________      1.9094E+07 OP 
+ Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (b_cs_peak_flat_top_end)______________________      1.3907E+01 OP 
+ Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (j_cs_conductor_critical_flat_top_end)___________________      3.6220E+08 OP 
  Critical_cable_current_density_at_EOF_(A/m2)___________________________ (jcableoh_eof)_______________      1.0866E+08 OP 
- Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________      3.6495E+07 OP 
- Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________      2.0188E+07 ITV
+ Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (j_cs_critical_flat_top_end)_______________________      3.6495E+07 OP 
+ Actual_overall_current_density_at_EOF_(A/m2)____________________________ (j_cs_flat_top_end)______________________      2.0188E+07 ITV
  CS_inside_radius_(m)____________________________________________________ (dr_bore)________________________      1.9704E+00 ITV
  CS_thickness_(m)________________________________________________________ (dr_cs)_______________________      5.7696E-01 ITV
  Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (dr_cs_tf_gap)_______________________      8.0000E-02    
- CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________      9.1580E+00 OP 
+ CS_overall_cross-sectional_area_(m2)____________________________________ (a_cs_poloidal)______________________      9.1580E+00 OP 
  CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________      4.3942E+00 OP 
- ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________      3.0759E+00 OP 
- ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________      1.3182E+00 OP 
- CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________      4.7639E+00 OP 
- CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________      5.2019E-01 ITV
+ ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-f_a_cs_void))_____________      3.0759E+00 OP 
+ ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*f_a_cs_void)_________________      1.3182E+00 OP 
+ CS_steel_cross-sectional_area_(m2)______________________________________ (a_cs_poloidal-awpoh)________________      4.7639E+00 OP 
+ CS_steel_area_fraction__________________________________________________ (f_a_cs_steel)_______________      5.2019E-01 ITV
  Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________              0    
  Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________      7.5000E+08    
  Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________      6.6933E+08 OP 
@@ -799,15 +799,15 @@
  Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________     -1.6032E+09 OP 
  Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r     -5.0000E-03    
  Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________      7.0000E-01    
- Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________      3.0000E-01    
+ Void_(coolant)_fraction_in_conductor____________________________________ (f_a_cs_void)_______________________      3.0000E-01    
  Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________      4.7500E+00    
- CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________      1.5029E+00 OP 
+ CS_temperature_margin_(K)_______________________________________________ (temp_cs_margin)_____________________      1.5029E+00 OP 
  Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________      1.5000E+00    
  Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________      2.4000E+08    
  Minimum_burn_time_(s)___________________________________________________ (t_burn_min)______________________      7.2000E+03    
  Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________      8.9000E-04    
  Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________      2.6700E-03    
- CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________      1.9813E-03    
+ CS_turn_area_(m)________________________________________________________ (a_cs_turn)___________________      1.9813E-03    
  CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________      7.7097E-02    
  CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________      7.4684E-03    
  CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________      2.5699E-02    
@@ -815,68 +815,68 @@
  CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________      5.3812E-03    
  Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________      1.3795E+02 OP 
  Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________      2.0000E+04 OP 
- PF_coil_superconductor_material_________________________________________ (isumatpf)____________________              3    
+ PF_coil_superconductor_material_________________________________________ (i_pf_superconductor)____________________              3    
  Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________      6.9000E-01    
  Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________      5.0000E+02    
  JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________      1.0000E+00    
- PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________      5.5667E+00    
- PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________      9.3738E+00    
+ PF_coil_0_radius_(m)____________________________________________________ (r_pf_coil_middle[0]_______________________      5.5667E+00    
+ PF_coil_0_vertical_position_(m)_________________________________________ (z_pf_coil_middle[0])______________________      9.3738E+00    
  PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________      1.2662E+00    
  PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________      1.2662E+00    
- PF_coil_0_turns_________________________________________________________ (turns[0])____________________      4.4091E+02    
+ PF_coil_0_turns_________________________________________________________ (n_pf_coil_turns[0])____________________      4.4091E+02    
  PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________      1.7637E+01    
- PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________      6.1628E+00    
- PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________      5.5667E+00    
- PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________     -1.0608E+01    
+ PF_coil_0_field_(T)_____________________________________________________ (b_pf_coil_peak[0])______________________      6.1628E+00    
+ PF_coil_1_radius_(m)____________________________________________________ (r_pf_coil_middle[1]_______________________      5.5667E+00    
+ PF_coil_1_vertical_position_(m)_________________________________________ (z_pf_coil_middle[1])______________________     -1.0608E+01    
  PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________      1.3575E+00    
  PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________     -1.3575E+00    
- PF_coil_1_turns_________________________________________________________ (turns[1])____________________      5.0673E+02    
+ PF_coil_1_turns_________________________________________________________ (n_pf_coil_turns[1])____________________      5.0673E+02    
  PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________      2.0269E+01    
- PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________      6.6276E+00    
- PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________      1.6738E+01    
- PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________      2.6667E+00    
+ PF_coil_1_field_(T)_____________________________________________________ (b_pf_coil_peak[1])______________________      6.6276E+00    
+ PF_coil_2_radius_(m)____________________________________________________ (r_pf_coil_middle[2]_______________________      1.6738E+01    
+ PF_coil_2_vertical_position_(m)_________________________________________ (z_pf_coil_middle[2])______________________      2.6667E+00    
  PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________      1.1326E+00    
  PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________      1.1326E+00    
- PF_coil_2_turns_________________________________________________________ (turns[2])____________________      1.9242E+02    
+ PF_coil_2_turns_________________________________________________________ (n_pf_coil_turns[2])____________________      1.9242E+02    
  PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________     -7.6968E+00    
- PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________      2.6370E+00    
- PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________      1.6738E+01    
- PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________     -2.6667E+00    
+ PF_coil_2_field_(T)_____________________________________________________ (b_pf_coil_peak[2])______________________      2.6370E+00    
+ PF_coil_3_radius_(m)____________________________________________________ (r_pf_coil_middle[3]_______________________      1.6738E+01    
+ PF_coil_3_vertical_position_(m)_________________________________________ (z_pf_coil_middle[3])______________________     -2.6667E+00    
  PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________      1.1326E+00    
  PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________     -1.1326E+00    
- PF_coil_3_turns_________________________________________________________ (turns[3])____________________      1.9242E+02    
+ PF_coil_3_turns_________________________________________________________ (n_pf_coil_turns[3])____________________      1.9242E+02    
  PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________     -7.6968E+00    
- PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________      2.6370E+00    
- PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________      1.5216E+01    
- PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________      7.4667E+00    
+ PF_coil_3_field_(T)_____________________________________________________ (b_pf_coil_peak[3])______________________      2.6370E+00    
+ PF_coil_4_radius_(m)____________________________________________________ (r_pf_coil_middle[4]_______________________      1.5216E+01    
+ PF_coil_4_vertical_position_(m)_________________________________________ (z_pf_coil_middle[4])______________________      7.4667E+00    
  PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________      8.0591E-01    
  PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________      8.0591E-01    
- PF_coil_4_turns_________________________________________________________ (turns[4])____________________      1.2990E+02    
+ PF_coil_4_turns_________________________________________________________ (n_pf_coil_turns[4])____________________      1.2990E+02    
  PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________     -5.1960E+00    
- PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________      2.5683E+00    
- PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________      1.5216E+01    
- PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________     -7.4667E+00    
+ PF_coil_4_field_(T)_____________________________________________________ (b_pf_coil_peak[4])______________________      2.5683E+00    
+ PF_coil_5_radius_(m)____________________________________________________ (r_pf_coil_middle[5]_______________________      1.5216E+01    
+ PF_coil_5_vertical_position_(m)_________________________________________ (z_pf_coil_middle[5])______________________     -7.4667E+00    
  PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________      8.0591E-01    
  PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________     -8.0591E-01    
- PF_coil_5_turns_________________________________________________________ (turns[5])____________________      1.2990E+02    
+ PF_coil_5_turns_________________________________________________________ (n_pf_coil_turns[5])____________________      1.2990E+02    
  PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________     -5.1960E+00    
- PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________      2.5683E+00    
- Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________      2.2588E+00    
- Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________      0.0000E+00    
+ PF_coil_5_field_(T)_____________________________________________________ (b_pf_coil_peak[5])______________________      2.5683E+00    
+ Central_solenoid_radius_(m)_____________________________________________ (r_pf_coil_middle[n_cs_pf_coils-1])_________________      2.2588E+00    
+ Central_solenoid_vertical_position_(m)__________________________________ (z_pf_coil_middle[n_cs_pf_coils-1])_________________      0.0000E+00    
  Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________      5.7696E-01    
  Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________      1.5873E+01    
- Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________      4.6221E+03    
- Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________     -1.8489E+02    
- Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________      1.4055E+01    
+ Central_solenoid_turns__________________________________________________ (n_pf_coil_turns[n_cs_pf_coils-1])_______________      4.6221E+03    
+ Central_solenoid_current_(MA)___________________________________________ (ric[n_cs_pf_coils-1])_________________     -1.8489E+02    
+ Central_solenoid_field_(T)______________________________________________ (b_pf_coil_peak[n_cs_pf_coils-1])_________________      1.4055E+01    
  Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________      3.4358E-04 OP 
  Smoothing_parameter_____________________________________________________ (alfapf)______________________      5.0000E-10    
  # Volt Second Consumption #
- Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________     -5.7000E+02 OP 
+ Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vs_cs_pf_total_pulse)_______________________     -5.7000E+02 OP 
  # Waveforms #
- Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________      9.4577E-01 ITV
- Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________     -1.3540E-01 OP 
+ Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (f_j_cs_start_pulse_end_flat_top)_____________________      9.4577E-01 ITV
+ Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (f_j_cs_start_end_flat_top)_____________________     -1.3540E-01 OP 
  # PF Circuit Waveform Data #
- Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________              8    
+ Number_of_PF_circuits_including_CS_and_plasma___________________________ (n_pf_cs_plasma_circuits)_______________________              8    
  PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________      0.0000E+00    
  PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________      1.3862E+07    
  PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________      1.7637E+07    
@@ -1294,20 +1294,20 @@ bmxlim = 14.0
 * Central solenoid EOF current density upper limit *
 *--------------------------------------------------*
 icc = 26
-ixc = 37 * coheof [A/m2]
+ixc = 37 * j_cs_flat_top_end [A/m2]
 ixc = 38 * fjohc
 boundu(38) = 1.0
-coheof = 1.5E7
+j_cs_flat_top_end = 1.5E7
 fjohc = 0.6
 
 * Central solenoid BOP current density upper limit *
 *--------------------------------------------------*
 icc = 27
 ixc = 39 * fjohc0
-ixc = 41 * fcohbop
+ixc = 41 * f_j_cs_start_pulse_end_flat_top
 boundu(39) = 1.0
 fjohc0 = 0.6
-fcohbop = 0.9
+f_j_cs_start_pulse_end_flat_top = 0.9
 
 * I_op/I_Crit TF coil limit *
 *---------------------------*
@@ -1460,9 +1460,9 @@ cpttf = 65000.0
 ixc = 109
 boundu(109) = 0.1
 
-* CS steel fraction, oh_steel_frac
+* CS steel fraction, f_a_cs_steel
 ixc = 122
-oh_steel_frac = 0.8
+f_a_cs_steel = 0.8
 
 * core impurity fraction, Xenon
 ixc = 135
@@ -1730,27 +1730,27 @@ iavail = 0
 ************
 
 * Peak current per turn input for PF coil i [A]
-cptdin = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
+c_pf_coil_turn_peak_input = 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4, 4.0d4
 
 * Switch for locating scheme of pf coil group i
-ipfloc = 2,2,3,3
+i_pf_location = 2,2,3,3
 
 * Switch for superconductor material in pf coils
-isumatpf = 3
+i_pf_superconductor = 3
 
 * Number of pf coils in group j
-ncls = 1,1,2,2
+n_pf_coils_in_group = 1,1,2,2
 
 * Number of groups of PF coils
-ngrp = 4
+n_pf_coil_groups = 4
 
 * Central solenoid height / TF coil internal height
-ohhghf = 0.9
+f_z_cs_tf_internal = 0.9
 
 * Average winding pack current density of PF coil i [A/m2]
-rjconpf  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
+j_pf_coil_wp_peak  = 1.1d7, 1.1d7, 6.d6, 6.d6, 8.d6, 8.0d6, 8.0d6, 8.0d6
 
-* Offset of radial position of ipfloc=2 pf coils [m]
+* Offset of radial position of i_pf_location=2 pf coils [m]
 rpf2 = -1.825 
 
 zref(1) = 3.6
@@ -1766,7 +1766,7 @@ zref(8) = 1.0
 fcuohsu = 0.70
 
 * ITER Nb3Sn parameterisation
-isumatoh = 1
+i_cs_superconductor = 1
 
 * TF Coil *
 ***********
diff --git a/tests/unit/test_blanket_library.py b/tests/unit/test_blanket_library.py
index ac72d3ac45..e2d5afa66e 100644
--- a/tests/unit/test_blanket_library.py
+++ b/tests/unit/test_blanket_library.py
@@ -1235,8 +1235,8 @@ class ExternalCryoGeometryParam(NamedTuple):
     vdewin: Any = None
     denstl: Any = None
     dewmkg: Any = None
-    rb: Any = None
-    zh: Any = None
+    r_pf_coil_outer: Any = None
+    z_pf_coil_upper: Any = None
     dz_tf_cryostat: Any = None
     dz_pf_cryostat: Any = None
     expected_r_cryostat_inboard: Any = None
@@ -1264,7 +1264,7 @@ class ExternalCryoGeometryParam(NamedTuple):
             vdewin=1016.2876250857248,
             denstl=7800,
             dewmkg=0,
-            rb=np.array(
+            r_pf_coil_outer=np.array(
                 np.array(
                     (
                         6.1290994712971543,
@@ -1294,7 +1294,7 @@ class ExternalCryoGeometryParam(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            zh=np.array(
+            z_pf_coil_upper=np.array(
                 np.array(
                     (
                         9.9154920004377978,
@@ -1380,8 +1380,12 @@ def test_external_cryo_geometry(
     monkeypatch.setattr(fwbs_variables, "vdewin", externalcryogeometryparam.vdewin)
     monkeypatch.setattr(fwbs_variables, "denstl", externalcryogeometryparam.denstl)
     monkeypatch.setattr(fwbs_variables, "dewmkg", externalcryogeometryparam.dewmkg)
-    monkeypatch.setattr(pfcoil_variables, "rb", externalcryogeometryparam.rb)
-    monkeypatch.setattr(pfcoil_variables, "zh", externalcryogeometryparam.zh)
+    monkeypatch.setattr(
+        pfcoil_variables, "r_pf_coil_outer", externalcryogeometryparam.r_pf_coil_outer
+    )
+    monkeypatch.setattr(
+        pfcoil_variables, "z_pf_coil_upper", externalcryogeometryparam.z_pf_coil_upper
+    )
     monkeypatch.setattr(
         buildings_variables, "dz_tf_cryostat", externalcryogeometryparam.dz_tf_cryostat
     )
diff --git a/tests/unit/test_buildings.py b/tests/unit/test_buildings.py
index 04fd52bb03..7e2c4170e0 100644
--- a/tests/unit/test_buildings.py
+++ b/tests/unit/test_buildings.py
@@ -133,7 +133,7 @@ class BldgsSizesParam(NamedTuple):
     iefrf: Any
     n_tf_coils: Any
     i_tf_sup: Any
-    pfrmax: Any
+    r_pf_coil_outer_max: Any
     tlife: Any
     cplife: Any
     divlife: Any
@@ -276,7 +276,7 @@ class BldgsSizesParam(NamedTuple):
             iefrf=10,
             n_tf_coils=16,
             i_tf_sup=1,
-            pfrmax=18.98258241468535,
+            r_pf_coil_outer_max=18.98258241468535,
             tlife=40,
             cplife=0,
             divlife=0,
@@ -415,7 +415,7 @@ class BldgsSizesParam(NamedTuple):
             iefrf=10,
             n_tf_coils=16,
             i_tf_sup=1,
-            pfrmax=18.982980877139834,
+            r_pf_coil_outer_max=18.982980877139834,
             tlife=40,
             cplife=0,
             divlife=6.1337250397740126,
@@ -674,7 +674,9 @@ def test_bldgs_sizes(buildings, bldgssizesparam, monkeypatch):
     monkeypatch.setattr(current_drive_variables, "iefrf", bldgssizesparam.iefrf)
     monkeypatch.setattr(tfcoil_variables, "n_tf_coils", bldgssizesparam.n_tf_coils)
     monkeypatch.setattr(tfcoil_variables, "i_tf_sup", bldgssizesparam.i_tf_sup)
-    monkeypatch.setattr(pfcoil_variables, "pfrmax", bldgssizesparam.pfrmax)
+    monkeypatch.setattr(
+        pfcoil_variables, "r_pf_coil_outer_max", bldgssizesparam.r_pf_coil_outer_max
+    )
     monkeypatch.setattr(cost_variables, "tlife", bldgssizesparam.tlife)
     monkeypatch.setattr(cost_variables, "cplife", bldgssizesparam.cplife)
     monkeypatch.setattr(cost_variables, "divlife", bldgssizesparam.divlife)
diff --git a/tests/unit/test_costs_1990.py b/tests/unit/test_costs_1990.py
index f32792b51a..c57e74c99e 100644
--- a/tests/unit/test_costs_1990.py
+++ b/tests/unit/test_costs_1990.py
@@ -2018,7 +2018,7 @@ class Acc2222Param(NamedTuple):
 
     fkind: Any = None
 
-    rjconpf: Any = None
+    j_pf_coil_wp_peak: Any = None
 
     supercond_cost_model: Any = None
 
@@ -2026,29 +2026,29 @@ class Acc2222Param(NamedTuple):
 
     j_crit_str_pf: Any = None
 
-    ipfres: Any = None
+    i_pf_conductor: Any = None
 
-    vfohc: Any = None
+    f_a_cs_void: Any = None
 
-    nohc: Any = None
+    n_cs_pf_coils: Any = None
 
-    turns: Any = None
+    n_pf_coil_turns: Any = None
 
-    isumatpf: Any = None
+    i_pf_superconductor: Any = None
 
-    whtpfs: Any = None
+    m_pf_coil_structure_total: Any = None
 
-    ric: Any = None
+    c_pf_cs_coils_peak_ma: Any = None
 
-    rpf: Any = None
+    r_pf_coil_middle: Any = None
 
-    isumatoh: Any = None
+    i_cs_superconductor: Any = None
 
     fcupfsu: Any = None
 
     fcuohsu: Any = None
 
-    vf: Any = None
+    f_a_pf_coil_void: Any = None
 
     awpoh: Any = None
 
@@ -2096,7 +2096,7 @@ class Acc2222Param(NamedTuple):
             ucwindpf=465,
             lsa=2,
             fkind=1,
-            rjconpf=np.array(
+            j_pf_coil_wp_peak=np.array(
                 np.array(
                     (
                         11000000,
@@ -2129,10 +2129,10 @@ class Acc2222Param(NamedTuple):
             supercond_cost_model=0,
             j_crit_str_cs=100.0,
             j_crit_str_pf=200.0,
-            ipfres=0,
-            vfohc=0.29999999999999999,
-            nohc=7,
-            turns=np.array(
+            i_pf_conductor=0,
+            f_a_cs_void=0.29999999999999999,
+            n_cs_pf_coils=7,
+            n_pf_coil_turns=np.array(
                 np.array(
                     (
                         349.33800535811901,
@@ -2162,9 +2162,9 @@ class Acc2222Param(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            isumatpf=3,
-            whtpfs=2695737.563343476,
-            ric=np.array(
+            i_pf_superconductor=3,
+            m_pf_coil_structure_total=2695737.563343476,
+            c_pf_cs_coils_peak_ma=np.array(
                 np.array(
                     (
                         14.742063826112622,
@@ -2194,7 +2194,7 @@ class Acc2222Param(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            rpf=np.array(
+            r_pf_coil_middle=np.array(
                 np.array(
                     (
                         6.2732560483870969,
@@ -2224,10 +2224,10 @@ class Acc2222Param(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            isumatoh=5,
+            i_cs_superconductor=5,
             fcupfsu=0.68999999999999995,
             fcuohsu=0.70000000000000007,
-            vf=np.array(
+            f_a_pf_coil_void=np.array(
                 np.array(
                     (
                         0.29999999999999999,
@@ -2292,7 +2292,7 @@ class Acc2222Param(NamedTuple):
             ucwindpf=465,
             lsa=2,
             fkind=1,
-            rjconpf=np.array(
+            j_pf_coil_wp_peak=np.array(
                 np.array(
                     (
                         11000000,
@@ -2325,10 +2325,10 @@ class Acc2222Param(NamedTuple):
             supercond_cost_model=0,
             j_crit_str_cs=100.0,
             j_crit_str_pf=200.0,
-            ipfres=0,
-            vfohc=0.29999999999999999,
-            nohc=7,
-            turns=np.array(
+            i_pf_conductor=0,
+            f_a_cs_void=0.29999999999999999,
+            n_cs_pf_coils=7,
+            n_pf_coil_turns=np.array(
                 np.array(
                     (
                         440.26292595093469,
@@ -2358,9 +2358,9 @@ class Acc2222Param(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            isumatpf=3,
-            whtpfs=2510424.9065680322,
-            ric=np.array(
+            i_pf_superconductor=3,
+            m_pf_coil_structure_total=2510424.9065680322,
+            c_pf_cs_coils_peak_ma=np.array(
                 np.array(
                     (
                         18.579095475129446,
@@ -2390,7 +2390,7 @@ class Acc2222Param(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            rpf=np.array(
+            r_pf_coil_middle=np.array(
                 np.array(
                     (
                         6.2732560483870969,
@@ -2420,10 +2420,10 @@ class Acc2222Param(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            isumatoh=5,
+            i_cs_superconductor=5,
             fcupfsu=0.68999999999999995,
             fcuohsu=0.70000000000000007,
-            vf=np.array(
+            f_a_pf_coil_void=np.array(
                 np.array(
                     (
                         0.29999999999999999,
@@ -2488,7 +2488,7 @@ class Acc2222Param(NamedTuple):
             ucwindpf=465,
             lsa=2,
             fkind=1,
-            rjconpf=np.array(
+            j_pf_coil_wp_peak=np.array(
                 np.array(
                     (
                         11000000,
@@ -2521,10 +2521,10 @@ class Acc2222Param(NamedTuple):
             supercond_cost_model=1,
             j_crit_str_cs=100.0,
             j_crit_str_pf=200.0,
-            ipfres=0,
-            vfohc=0.29999999999999999,
-            nohc=7,
-            turns=np.array(
+            i_pf_conductor=0,
+            f_a_cs_void=0.29999999999999999,
+            n_cs_pf_coils=7,
+            n_pf_coil_turns=np.array(
                 np.array(
                     (
                         440.26292595093469,
@@ -2554,9 +2554,9 @@ class Acc2222Param(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            isumatpf=3,
-            whtpfs=2510424.9065680322,
-            ric=np.array(
+            i_pf_superconductor=3,
+            m_pf_coil_structure_total=2510424.9065680322,
+            c_pf_cs_coils_peak_ma=np.array(
                 np.array(
                     (
                         18.579095475129446,
@@ -2586,7 +2586,7 @@ class Acc2222Param(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            rpf=np.array(
+            r_pf_coil_middle=np.array(
                 np.array(
                     (
                         6.2732560483870969,
@@ -2616,10 +2616,10 @@ class Acc2222Param(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            isumatoh=5,
+            i_cs_superconductor=5,
             fcupfsu=0.68999999999999995,
             fcuohsu=0.70000000000000007,
-            vf=np.array(
+            f_a_pf_coil_void=np.array(
                 np.array(
                     (
                         0.29999999999999999,
@@ -2705,7 +2705,9 @@ def test_acc2222(acc2222param, monkeypatch, costs):
 
     monkeypatch.setattr(cost_variables, "fkind", acc2222param.fkind)
 
-    monkeypatch.setattr(pfcoil_variables, "rjconpf", acc2222param.rjconpf)
+    monkeypatch.setattr(
+        pfcoil_variables, "j_pf_coil_wp_peak", acc2222param.j_pf_coil_wp_peak
+    )
 
     monkeypatch.setattr(
         cost_variables, "supercond_cost_model", acc2222param.supercond_cost_model
@@ -2715,29 +2717,45 @@ def test_acc2222(acc2222param, monkeypatch, costs):
 
     monkeypatch.setattr(pfcoil_variables, "j_crit_str_pf", acc2222param.j_crit_str_pf)
 
-    monkeypatch.setattr(pfcoil_variables, "ipfres", acc2222param.ipfres)
+    monkeypatch.setattr(pfcoil_variables, "i_pf_conductor", acc2222param.i_pf_conductor)
 
-    monkeypatch.setattr(pfcoil_variables, "vfohc", acc2222param.vfohc)
+    monkeypatch.setattr(pfcoil_variables, "f_a_cs_void", acc2222param.f_a_cs_void)
 
-    monkeypatch.setattr(pfcoil_variables, "nohc", acc2222param.nohc)
+    monkeypatch.setattr(pfcoil_variables, "n_cs_pf_coils", acc2222param.n_cs_pf_coils)
 
-    monkeypatch.setattr(pfcoil_variables, "turns", acc2222param.turns)
+    monkeypatch.setattr(
+        pfcoil_variables, "n_pf_coil_turns", acc2222param.n_pf_coil_turns
+    )
 
-    monkeypatch.setattr(pfcoil_variables, "isumatpf", acc2222param.isumatpf)
+    monkeypatch.setattr(
+        pfcoil_variables, "i_pf_superconductor", acc2222param.i_pf_superconductor
+    )
 
-    monkeypatch.setattr(pfcoil_variables, "whtpfs", acc2222param.whtpfs)
+    monkeypatch.setattr(
+        pfcoil_variables,
+        "m_pf_coil_structure_total",
+        acc2222param.m_pf_coil_structure_total,
+    )
 
-    monkeypatch.setattr(pfcoil_variables, "ric", acc2222param.ric)
+    monkeypatch.setattr(
+        pfcoil_variables, "c_pf_cs_coils_peak_ma", acc2222param.c_pf_cs_coils_peak_ma
+    )
 
-    monkeypatch.setattr(pfcoil_variables, "rpf", acc2222param.rpf)
+    monkeypatch.setattr(
+        pfcoil_variables, "r_pf_coil_middle", acc2222param.r_pf_coil_middle
+    )
 
-    monkeypatch.setattr(pfcoil_variables, "isumatoh", acc2222param.isumatoh)
+    monkeypatch.setattr(
+        pfcoil_variables, "i_cs_superconductor", acc2222param.i_cs_superconductor
+    )
 
     monkeypatch.setattr(pfcoil_variables, "fcupfsu", acc2222param.fcupfsu)
 
     monkeypatch.setattr(pfcoil_variables, "fcuohsu", acc2222param.fcuohsu)
 
-    monkeypatch.setattr(pfcoil_variables, "vf", acc2222param.vf)
+    monkeypatch.setattr(
+        pfcoil_variables, "f_a_pf_coil_void", acc2222param.f_a_pf_coil_void
+    )
 
     monkeypatch.setattr(pfcoil_variables, "awpoh", acc2222param.awpoh)
 
diff --git a/tests/unit/test_costs_2015.py b/tests/unit/test_costs_2015.py
index 695d9f0fd0..d7e01d308b 100644
--- a/tests/unit/test_costs_2015.py
+++ b/tests/unit/test_costs_2015.py
@@ -32,7 +32,7 @@ def costs2015():
 class CalcBuildingCostsParam(NamedTuple):
     pwpnb: Any = None
 
-    pfrmax: Any = None
+    r_pf_coil_outer_max: Any = None
 
     pthermmw: Any = None
 
@@ -82,7 +82,7 @@ class CalcBuildingCostsParam(NamedTuple):
     (
         CalcBuildingCostsParam(
             pwpnb=109.38112972595434,
-            pfrmax=17.814040399601147,
+            r_pf_coil_outer_max=17.814040399601147,
             pthermmw=2112.8165753998965,
             psechtmw=311.54038043019023,
             helpow=142703.41458500578,
@@ -1182,7 +1182,7 @@ class CalcBuildingCostsParam(NamedTuple):
         ),
         CalcBuildingCostsParam(
             pwpnb=109.38112972595434,
-            pfrmax=17.81462428923539,
+            r_pf_coil_outer_max=17.81462428923539,
             pthermmw=2111.8102173541502,
             psechtmw=640.27066522894324,
             helpow=823308.59959198488,
@@ -2292,7 +2292,11 @@ def test_calc_building_costs(calcbuildingcostsparam, monkeypatch, costs2015):
 
     monkeypatch.setattr(current_drive_variables, "pwpnb", calcbuildingcostsparam.pwpnb)
 
-    monkeypatch.setattr(pfcoil_variables, "pfrmax", calcbuildingcostsparam.pfrmax)
+    monkeypatch.setattr(
+        pfcoil_variables,
+        "r_pf_coil_outer_max",
+        calcbuildingcostsparam.r_pf_coil_outer_max,
+    )
 
     monkeypatch.setattr(
         heat_transport_variables, "pthermmw", calcbuildingcostsparam.pthermmw
diff --git a/tests/unit/test_pfcoil.py b/tests/unit/test_pfcoil.py
index af0e321a7b..e90474260b 100644
--- a/tests/unit/test_pfcoil.py
+++ b/tests/unit/test_pfcoil.py
@@ -52,7 +52,7 @@ def test_rsid(pfcoil):
     brin = np.zeros(nptsmx)
     bzin = np.zeros(nptsmx)
     nfix = 14
-    ngrp = 4
+    n_pf_coil_groups = 4
     ccls = np.array([
         14742063.826112622,
         20032681.634901665,
@@ -901,7 +901,7 @@ def test_rsid(pfcoil):
     ssq_exp = 0.0006400910095285954
 
     brssq, brnrm, bzssq, bznrm, ssq = rsid(
-        npts, brin, bzin, nfix, ngrp, ccls, bfix, gmat
+        npts, brin, bzin, nfix, n_pf_coil_groups, ccls, bfix, gmat
     )
 
     assert brssq == pytest.approx(brssq_exp)
@@ -1054,7 +1054,7 @@ def test_waveform(monkeypatch, pfcoil):
     discovered using gdb to break on the first subroutine call when running the
     baseline 2018 IN.DAT.
 
-    waveform() alters both ric and waves in the pfcoil_variables module, so
+    waveform() alters both c_pf_cs_coils_peak_ma and waves in the pfcoil_variables module, so
     these are asserted on.
     :param monkeypatch: mocking fixture
     :type monkeypatch: _pytest.monkeypatch.MonkeyPatch
@@ -1062,12 +1062,12 @@ def test_waveform(monkeypatch, pfcoil):
     :type pfcoil: process.pfcoil.PFCoil
     """
     ngc2 = 22
-    monkeypatch.setattr(pfv, "ric", np.zeros(ngc2, dtype=int))
-    monkeypatch.setattr(pfv, "nohc", 7)
+    monkeypatch.setattr(pfv, "c_pf_cs_coils_peak_ma", np.zeros(ngc2, dtype=int))
+    monkeypatch.setattr(pfv, "n_cs_pf_coils", 7)
     monkeypatch.setattr(pfv, "waves", np.zeros((ngc2, 6), order="F"))
     monkeypatch.setattr(
         pfv,
-        "curpfb",
+        "c_pf_cs_coil_pulse_start_ma",
         np.array([
             0.067422231232391661,
             -2.9167273287450968,
@@ -1095,7 +1095,7 @@ def test_waveform(monkeypatch, pfcoil):
     )
     monkeypatch.setattr(
         pfv,
-        "curpff",
+        "c_pf_cs_coil_flat_top_ma",
         np.array([
             0.067422231232391661,
             -2.9167273287450968,
@@ -1123,7 +1123,7 @@ def test_waveform(monkeypatch, pfcoil):
     )
     monkeypatch.setattr(
         pfv,
-        "curpfs",
+        "c_pf_cs_coil_pulse_end_ma",
         np.array([
             14.742063826112622,
             20.032681634901664,
@@ -1203,7 +1203,7 @@ def test_waveform(monkeypatch, pfcoil):
 
     pfcoil.waveform()
 
-    assert_array_almost_equal(pfv.ric, ric_exp)
+    assert_array_almost_equal(pfv.c_pf_cs_coils_peak_ma, ric_exp)
     assert_array_almost_equal(pfv.waves, waves_exp)
 
 
@@ -1221,13 +1221,13 @@ def test_vsec(pfcoil, monkeypatch):
     :type monkeypatch: _pytest.monkeypatch.MonkeyPatch
     """
     monkeypatch.setattr(bv, "iohcl", 1)
-    monkeypatch.setattr(pfv, "vsefsu", 0)
-    monkeypatch.setattr(pfv, "vsbn", 0)
-    monkeypatch.setattr(pfv, "nohc", 7)
-    monkeypatch.setattr(pfv, "vsohbn", 0)
+    monkeypatch.setattr(pfv, "vs_pf_coils_total_ramp", 0)
+    monkeypatch.setattr(pfv, "vs_cs_pf_total_burn", 0)
+    monkeypatch.setattr(pfv, "n_cs_pf_coils", 7)
+    monkeypatch.setattr(pfv, "vs_cs_burn", 0)
     monkeypatch.setattr(
         pfv,
-        "cpt",
+        "c_pf_coil_turn",
         np.array(
             [
                 [
@@ -1410,16 +1410,16 @@ def test_vsec(pfcoil, monkeypatch):
             order="F",
         ),
     )
-    monkeypatch.setattr(pfv, "vsefbn", 0)
-    monkeypatch.setattr(pfv, "vsohsu", 0)
-    monkeypatch.setattr(pfv, "vseft", 0)
-    monkeypatch.setattr(pfv, "vsoh", 0)
-    monkeypatch.setattr(pfv, "vssu", 0)
-    monkeypatch.setattr(pfv, "vstot", 0)
-    monkeypatch.setattr(pfv, "ncirt", 8)
+    monkeypatch.setattr(pfv, "vs_pf_coils_total_burn", 0)
+    monkeypatch.setattr(pfv, "vs_cs_ramp", 0)
+    monkeypatch.setattr(pfv, "vs_pf_coils_total_pulse", 0)
+    monkeypatch.setattr(pfv, "vs_cs_total_pulse", 0)
+    monkeypatch.setattr(pfv, "vs_cs_pf_total_ramp", 0)
+    monkeypatch.setattr(pfv, "vs_cs_pf_total_pulse", 0)
+    monkeypatch.setattr(pfv, "n_pf_cs_plasma_circuits", 8)
     monkeypatch.setattr(
         pfv,
-        "sxlg",
+        "ind_pf_cs_plasma_mutual",
         np.array(
             [
                 [
@@ -1960,8 +1960,8 @@ def test_vsec(pfcoil, monkeypatch):
 
     pfcoil.vsec()
 
-    assert_array_almost_equal(pfv.vsbn, vsbn_exp)
-    assert_array_almost_equal(pfv.vsoh, vsoh_exp)
+    assert_array_almost_equal(pfv.vs_cs_pf_total_burn, vsbn_exp)
+    assert_array_almost_equal(pfv.vs_cs_total_pulse, vsoh_exp)
 
 
 def test_hoop_stress(pfcoil, monkeypatch):
@@ -1976,13 +1976,13 @@ def test_hoop_stress(pfcoil, monkeypatch):
     :param monkeypatch: mocking fixture
     :type monkeypatch: _pytest.monkeypatch.MonkeyPatch
     """
-    monkeypatch.setattr(pfv, "oh_steel_frac", 0.57874999999999999)
-    monkeypatch.setattr(pfv, "bmaxoh0", 13.522197474024983)
-    monkeypatch.setattr(pfv, "cohbop", 19311657.760000002)
-    monkeypatch.setattr(pfv, "nohc", 7)
+    monkeypatch.setattr(pfv, "f_a_cs_steel", 0.57874999999999999)
+    monkeypatch.setattr(pfv, "b_cs_peak_pulse_start", 13.522197474024983)
+    monkeypatch.setattr(pfv, "j_cs_pulse_start", 19311657.760000002)
+    monkeypatch.setattr(pfv, "n_cs_pf_coils", 7)
     monkeypatch.setattr(
         pfv,
-        "rb",
+        "r_pf_coil_outer",
         np.array([
             6.8520884119768697,
             6.9480065348448967,
@@ -2010,7 +2010,7 @@ def test_hoop_stress(pfcoil, monkeypatch):
     )
     monkeypatch.setattr(
         pfv,
-        "ra",
+        "r_pf_coil_inner",
         np.array([
             5.6944236847973242,
             5.5985055619292972,
diff --git a/tests/unit/test_power.py b/tests/unit/test_power.py
index 73e243a4b8..69ecec8d3c 100644
--- a/tests/unit/test_power.py
+++ b/tests/unit/test_power.py
@@ -191,35 +191,35 @@ class PfpwrParam(NamedTuple):
 
     srcktpm: Any = None
 
-    ngrp: Any = None
+    n_pf_coil_groups: Any = None
 
-    cpt: Any = None
+    c_pf_coil_turn: Any = None
 
     pfwpmw: Any = None
 
-    pfclres: Any = None
+    rho_pf_coil: Any = None
 
-    ncirt: Any = None
+    n_pf_cs_plasma_circuits: Any = None
 
-    ncls: Any = None
+    n_pf_coils_in_group: Any = None
 
-    ric: Any = None
+    c_pf_cs_coils_peak_ma: Any = None
 
     etapsu: Any = None
 
-    cptdin: Any = None
+    c_pf_coil_turn_peak_input: Any = None
 
-    curpfs: Any = None
+    c_pf_cs_coil_pulse_end_ma: Any = None
 
-    sxlg: Any = None
+    ind_pf_cs_plasma_mutual: Any = None
 
-    turns: Any = None
+    n_pf_coil_turns: Any = None
 
-    vf: Any = None
+    f_a_pf_coil_void: Any = None
 
-    rjconpf: Any = None
+    j_pf_coil_wp_peak: Any = None
 
-    rpf: Any = None
+    r_pf_coil_middle: Any = None
 
     p_plasma_ohmic_mw: Any = None
 
@@ -280,8 +280,8 @@ class PfpwrParam(NamedTuple):
             ensxpfm=0,
             acptmax=0,
             srcktpm=0,
-            ngrp=4,
-            cpt=np.array(
+            n_pf_coil_groups=4,
+            c_pf_coil_turn=np.array(
                 (
                     (
                         0,
@@ -431,12 +431,12 @@ class PfpwrParam(NamedTuple):
                 order="F",
             ).transpose(),
             pfwpmw=0,
-            pfclres=0,
-            ncirt=8,
-            ncls=np.array(
+            rho_pf_coil=0,
+            n_pf_cs_plasma_circuits=8,
+            n_pf_coils_in_group=np.array(
                 np.array((1, 1, 2, 2, 1, 0, 0, 0, 0, 0, 0, 0), order="F"), order="F"
             ).transpose(),
-            ric=np.array(
+            c_pf_cs_coils_peak_ma=np.array(
                 np.array(
                     (
                         14.742063826112622,
@@ -467,7 +467,7 @@ class PfpwrParam(NamedTuple):
                 order="F",
             ).transpose(),
             etapsu=0.90000000000000002,
-            cptdin=np.array(
+            c_pf_coil_turn_peak_input=np.array(
                 np.array(
                     (
                         42200,
@@ -497,7 +497,7 @@ class PfpwrParam(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            curpfs=np.array(
+            c_pf_cs_coil_pulse_end_ma=np.array(
                 np.array(
                     (
                         0.067422231232391661,
@@ -527,7 +527,7 @@ class PfpwrParam(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            sxlg=np.array(
+            ind_pf_cs_plasma_mutual=np.array(
                 (
                     (
                         2.4933245328128875,
@@ -738,7 +738,7 @@ class PfpwrParam(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            turns=np.array(
+            n_pf_coil_turns=np.array(
                 np.array(
                     (
                         349.33800535811901,
@@ -768,7 +768,7 @@ class PfpwrParam(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            vf=np.array(
+            f_a_pf_coil_void=np.array(
                 np.array(
                     (
                         0.29999999999999999,
@@ -798,7 +798,7 @@ class PfpwrParam(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            rjconpf=np.array(
+            j_pf_coil_wp_peak=np.array(
                 np.array(
                     (
                         11000000,
@@ -828,7 +828,7 @@ class PfpwrParam(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            rpf=np.array(
+            r_pf_coil_middle=np.array(
                 np.array(
                     (
                         6.2732560483870969,
@@ -1023,8 +1023,8 @@ class PfpwrParam(NamedTuple):
             ensxpfm=37429.525515086898,
             acptmax=24.816666666666666,
             srcktpm=1071.1112934857531,
-            ngrp=4,
-            cpt=np.array(
+            n_pf_coil_groups=4,
+            c_pf_coil_turn=np.array(
                 (
                     (
                         0,
@@ -1174,12 +1174,12 @@ class PfpwrParam(NamedTuple):
                 order="F",
             ).transpose(),
             pfwpmw=0.89998039031509891,
-            pfclres=0,
-            ncirt=8,
-            ncls=np.array(
+            rho_pf_coil=0,
+            n_pf_cs_plasma_circuits=8,
+            n_pf_coils_in_group=np.array(
                 np.array((1, 1, 2, 2, 1, 0, 0, 0, 0, 0, 0, 0), order="F"), order="F"
             ).transpose(),
-            ric=np.array(
+            c_pf_cs_coils_peak_ma=np.array(
                 np.array(
                     (
                         18.579095475129442,
@@ -1210,7 +1210,7 @@ class PfpwrParam(NamedTuple):
                 order="F",
             ).transpose(),
             etapsu=0.90000000000000002,
-            cptdin=np.array(
+            c_pf_coil_turn_peak_input=np.array(
                 np.array(
                     (
                         42200,
@@ -1240,7 +1240,7 @@ class PfpwrParam(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            curpfs=np.array(
+            c_pf_cs_coil_pulse_end_ma=np.array(
                 np.array(
                     (
                         0.019288882290113718,
@@ -1270,7 +1270,7 @@ class PfpwrParam(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            sxlg=np.array(
+            ind_pf_cs_plasma_mutual=np.array(
                 (
                     (
                         3.7834082671748859,
@@ -1481,7 +1481,7 @@ class PfpwrParam(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            turns=np.array(
+            n_pf_coil_turns=np.array(
                 np.array(
                     (
                         440.26292595093463,
@@ -1511,7 +1511,7 @@ class PfpwrParam(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            vf=np.array(
+            f_a_pf_coil_void=np.array(
                 np.array(
                     (
                         0.29999999999999999,
@@ -1541,7 +1541,7 @@ class PfpwrParam(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            rjconpf=np.array(
+            j_pf_coil_wp_peak=np.array(
                 np.array(
                     (
                         11000000,
@@ -1571,7 +1571,7 @@ class PfpwrParam(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            rpf=np.array(
+            r_pf_coil_middle=np.array(
                 np.array(
                     (
                         6.2732560483870969,
@@ -1796,35 +1796,59 @@ def test_pfpwr(pfpwrparam, monkeypatch, power):
 
     monkeypatch.setattr(pf_power_variables, "srcktpm", pfpwrparam.srcktpm)
 
-    monkeypatch.setattr(pfcoil_variables, "ngrp", pfpwrparam.ngrp)
+    monkeypatch.setattr(
+        pfcoil_variables, "n_pf_coil_groups", pfpwrparam.n_pf_coil_groups
+    )
 
-    monkeypatch.setattr(pfcoil_variables, "cpt", pfpwrparam.cpt)
+    monkeypatch.setattr(pfcoil_variables, "c_pf_coil_turn", pfpwrparam.c_pf_coil_turn)
 
     monkeypatch.setattr(pfcoil_variables, "pfwpmw", pfpwrparam.pfwpmw)
 
-    monkeypatch.setattr(pfcoil_variables, "pfclres", pfpwrparam.pfclres)
+    monkeypatch.setattr(pfcoil_variables, "rho_pf_coil", pfpwrparam.rho_pf_coil)
 
-    monkeypatch.setattr(pfcoil_variables, "ncirt", pfpwrparam.ncirt)
+    monkeypatch.setattr(
+        pfcoil_variables, "n_pf_cs_plasma_circuits", pfpwrparam.n_pf_cs_plasma_circuits
+    )
 
-    monkeypatch.setattr(pfcoil_variables, "ncls", pfpwrparam.ncls)
+    monkeypatch.setattr(
+        pfcoil_variables, "n_pf_coils_in_group", pfpwrparam.n_pf_coils_in_group
+    )
 
-    monkeypatch.setattr(pfcoil_variables, "ric", pfpwrparam.ric)
+    monkeypatch.setattr(
+        pfcoil_variables, "c_pf_cs_coils_peak_ma", pfpwrparam.c_pf_cs_coils_peak_ma
+    )
 
     monkeypatch.setattr(pfcoil_variables, "etapsu", pfpwrparam.etapsu)
 
-    monkeypatch.setattr(pfcoil_variables, "cptdin", pfpwrparam.cptdin)
+    monkeypatch.setattr(
+        pfcoil_variables,
+        "c_pf_coil_turn_peak_input",
+        pfpwrparam.c_pf_coil_turn_peak_input,
+    )
 
-    monkeypatch.setattr(pfcoil_variables, "curpfs", pfpwrparam.curpfs)
+    monkeypatch.setattr(
+        pfcoil_variables,
+        "c_pf_cs_coil_pulse_end_ma",
+        pfpwrparam.c_pf_cs_coil_pulse_end_ma,
+    )
 
-    monkeypatch.setattr(pfcoil_variables, "sxlg", pfpwrparam.sxlg)
+    monkeypatch.setattr(
+        pfcoil_variables, "ind_pf_cs_plasma_mutual", pfpwrparam.ind_pf_cs_plasma_mutual
+    )
 
-    monkeypatch.setattr(pfcoil_variables, "turns", pfpwrparam.turns)
+    monkeypatch.setattr(pfcoil_variables, "n_pf_coil_turns", pfpwrparam.n_pf_coil_turns)
 
-    monkeypatch.setattr(pfcoil_variables, "vf", pfpwrparam.vf)
+    monkeypatch.setattr(
+        pfcoil_variables, "f_a_pf_coil_void", pfpwrparam.f_a_pf_coil_void
+    )
 
-    monkeypatch.setattr(pfcoil_variables, "rjconpf", pfpwrparam.rjconpf)
+    monkeypatch.setattr(
+        pfcoil_variables, "j_pf_coil_wp_peak", pfpwrparam.j_pf_coil_wp_peak
+    )
 
-    monkeypatch.setattr(pfcoil_variables, "rpf", pfpwrparam.rpf)
+    monkeypatch.setattr(
+        pfcoil_variables, "r_pf_coil_middle", pfpwrparam.r_pf_coil_middle
+    )
 
     monkeypatch.setattr(
         physics_variables, "p_plasma_ohmic_mw", pfpwrparam.p_plasma_ohmic_mw
diff --git a/tests/unit/test_pulse.py b/tests/unit/test_pulse.py
index 23965c0eaa..c0a445ef2d 100644
--- a/tests/unit/test_pulse.py
+++ b/tests/unit/test_pulse.py
@@ -30,23 +30,23 @@ class TohswgParam(NamedTuple):
 
     vpfskv: Any = None
 
-    ncirt: Any = None
+    n_pf_cs_plasma_circuits: Any = None
 
-    ipfres: Any = None
+    i_pf_conductor: Any = None
 
-    nohc: Any = None
+    n_cs_pf_coils: Any = None
 
-    powohres: Any = None
+    p_cs_resistive_flat_top: Any = None
 
-    sxlg: Any = None
+    ind_pf_cs_plasma_mutual: Any = None
 
-    cpt: Any = None
+    c_pf_coil_turn: Any = None
 
-    ric: Any = None
+    c_pf_cs_coils_peak_ma: Any = None
 
-    turns: Any = None
+    n_pf_coil_turns: Any = None
 
-    cptdin: Any = None
+    c_pf_coil_turn_peak_input: Any = None
 
     plasma_current: Any = None
 
@@ -70,9 +70,9 @@ class BurnParam(NamedTuple):
 
     vs_plasma_ind_ramp: Any = None
 
-    vsbn: Any = None
+    vs_cs_pf_total_burn: Any = None
 
-    vstot: Any = None
+    vs_cs_pf_total_pulse: Any = None
 
     plasma_current: Any = None
 
@@ -99,11 +99,11 @@ class BurnParam(NamedTuple):
         TohswgParam(
             t_current_ramp_up_min=0,
             vpfskv=0,
-            ncirt=8,
-            ipfres=0,
-            nohc=7,
-            powohres=0,
-            sxlg=np.array(
+            n_pf_cs_plasma_circuits=8,
+            i_pf_conductor=0,
+            n_cs_pf_coils=7,
+            p_cs_resistive_flat_top=0,
+            ind_pf_cs_plasma_mutual=np.array(
                 (
                     (
                         2.4933245328128733,
@@ -314,7 +314,7 @@ class BurnParam(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            cpt=np.array(
+            c_pf_coil_turn=np.array(
                 (
                     (
                         0,
@@ -463,7 +463,7 @@ class BurnParam(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            ric=np.array(
+            c_pf_cs_coils_peak_ma=np.array(
                 np.array(
                     (
                         14.742063826112572,
@@ -493,7 +493,7 @@ class BurnParam(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            turns=np.array(
+            n_pf_coil_turns=np.array(
                 np.array(
                     (
                         349.33800535811781,
@@ -523,7 +523,7 @@ class BurnParam(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            cptdin=np.array(
+            c_pf_coil_turn_peak_input=np.array(
                 np.array(
                     (
                         42200,
@@ -657,11 +657,11 @@ class BurnParam(NamedTuple):
         TohswgParam(
             t_current_ramp_up_min=-526.67247746645455,
             vpfskv=20,
-            ncirt=8,
-            ipfres=0,
-            nohc=7,
-            powohres=0,
-            sxlg=np.array(
+            n_pf_cs_plasma_circuits=8,
+            i_pf_conductor=0,
+            n_cs_pf_coils=7,
+            p_cs_resistive_flat_top=0,
+            ind_pf_cs_plasma_mutual=np.array(
                 (
                     (
                         3.7857701742128254,
@@ -872,7 +872,7 @@ class BurnParam(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            cpt=np.array(
+            c_pf_coil_turn=np.array(
                 (
                     (
                         0,
@@ -1021,7 +1021,7 @@ class BurnParam(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            ric=np.array(
+            c_pf_cs_coils_peak_ma=np.array(
                 np.array(
                     (
                         18.585545191033798,
@@ -1051,7 +1051,7 @@ class BurnParam(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            turns=np.array(
+            n_pf_coil_turns=np.array(
                 np.array(
                     (
                         440.41576282070616,
@@ -1081,7 +1081,7 @@ class BurnParam(NamedTuple):
                 ),
                 order="F",
             ).transpose(),
-            cptdin=np.array(
+            c_pf_coil_turn_peak_input=np.array(
                 np.array(
                     (
                         42200,
@@ -1233,23 +1233,37 @@ def test_tohswg(tohswgparam, monkeypatch, pulse):
 
     monkeypatch.setattr(pf_power_variables, "vpfskv", tohswgparam.vpfskv)
 
-    monkeypatch.setattr(pfcoil_variables, "ncirt", tohswgparam.ncirt)
+    monkeypatch.setattr(
+        pfcoil_variables, "n_pf_cs_plasma_circuits", tohswgparam.n_pf_cs_plasma_circuits
+    )
 
-    monkeypatch.setattr(pfcoil_variables, "ipfres", tohswgparam.ipfres)
+    monkeypatch.setattr(pfcoil_variables, "i_pf_conductor", tohswgparam.i_pf_conductor)
 
-    monkeypatch.setattr(pfcoil_variables, "nohc", tohswgparam.nohc)
+    monkeypatch.setattr(pfcoil_variables, "n_cs_pf_coils", tohswgparam.n_cs_pf_coils)
 
-    monkeypatch.setattr(pfcoil_variables, "powohres", tohswgparam.powohres)
+    monkeypatch.setattr(
+        pfcoil_variables, "p_cs_resistive_flat_top", tohswgparam.p_cs_resistive_flat_top
+    )
 
-    monkeypatch.setattr(pfcoil_variables, "sxlg", tohswgparam.sxlg)
+    monkeypatch.setattr(
+        pfcoil_variables, "ind_pf_cs_plasma_mutual", tohswgparam.ind_pf_cs_plasma_mutual
+    )
 
-    monkeypatch.setattr(pfcoil_variables, "cpt", tohswgparam.cpt)
+    monkeypatch.setattr(pfcoil_variables, "c_pf_coil_turn", tohswgparam.c_pf_coil_turn)
 
-    monkeypatch.setattr(pfcoil_variables, "ric", tohswgparam.ric)
+    monkeypatch.setattr(
+        pfcoil_variables, "c_pf_cs_coils_peak_ma", tohswgparam.c_pf_cs_coils_peak_ma
+    )
 
-    monkeypatch.setattr(pfcoil_variables, "turns", tohswgparam.turns)
+    monkeypatch.setattr(
+        pfcoil_variables, "n_pf_coil_turns", tohswgparam.n_pf_coil_turns
+    )
 
-    monkeypatch.setattr(pfcoil_variables, "cptdin", tohswgparam.cptdin)
+    monkeypatch.setattr(
+        pfcoil_variables,
+        "c_pf_coil_turn_peak_input",
+        tohswgparam.c_pf_coil_turn_peak_input,
+    )
 
     monkeypatch.setattr(physics_variables, "plasma_current", tohswgparam.plasma_current)
 
@@ -1273,8 +1287,8 @@ def test_tohswg(tohswgparam, monkeypatch, pulse):
             res_plasma=3.2347283861249307e-09,
             vs_plasma_res_ramp=59.392760827339345,
             vs_plasma_ind_ramp=284.23601098215397,
-            vsbn=0,
-            vstot=-718.91787876294552,
+            vs_cs_pf_total_burn=0,
+            vs_cs_pf_total_pulse=-718.91787876294552,
             plasma_current=17721306.969367817,
             inductive_current_fraction=0.60433999999999999,
             csawth=1,
@@ -1289,8 +1303,8 @@ def test_tohswg(tohswgparam, monkeypatch, pulse):
             res_plasma=3.2347283861249307e-09,
             vs_plasma_res_ramp=59.392760827339345,
             vs_plasma_ind_ramp=284.23601098215397,
-            vstot=-718.9849676846776,
-            vsbn=-354.76231817639609,
+            vs_cs_pf_total_pulse=-718.9849676846776,
+            vs_cs_pf_total_burn=-354.76231817639609,
             plasma_current=17721306.969367817,
             inductive_current_fraction=0.60433999999999999,
             csawth=1,
@@ -1326,9 +1340,13 @@ def test_burn(burnparam, monkeypatch, initialise_error_module, pulse):
         physics_variables, "vs_plasma_ind_ramp", burnparam.vs_plasma_ind_ramp
     )
 
-    monkeypatch.setattr(pfcoil_variables, "vstot", burnparam.vstot)
+    monkeypatch.setattr(
+        pfcoil_variables, "vs_cs_pf_total_pulse", burnparam.vs_cs_pf_total_pulse
+    )
 
-    monkeypatch.setattr(pfcoil_variables, "vsbn", burnparam.vsbn)
+    monkeypatch.setattr(
+        pfcoil_variables, "vs_cs_pf_total_burn", burnparam.vs_cs_pf_total_burn
+    )
 
     monkeypatch.setattr(physics_variables, "plasma_current", burnparam.plasma_current)
 
diff --git a/tests/unit/test_sctfcoil.py b/tests/unit/test_sctfcoil.py
index 22f9806195..230c627657 100644
--- a/tests/unit/test_sctfcoil.py
+++ b/tests/unit/test_sctfcoil.py
@@ -3571,19 +3571,19 @@ class StressclParam(NamedTuple):
 
     n_tf_wp_layers: Any = None
 
-    ipfres: Any = None
+    i_pf_conductor: Any = None
 
-    oh_steel_frac: Any = None
+    f_a_cs_steel: Any = None
 
-    ohhghf: Any = None
+    f_z_cs_tf_internal: Any = None
 
-    coheof: Any = None
+    j_cs_flat_top_end: Any = None
 
-    cohbop: Any = None
+    j_cs_pulse_start: Any = None
 
-    ncls: Any = None
+    n_pf_coils_in_group: Any = None
 
-    cptdin: Any = None
+    c_pf_coil_turn_peak_input: Any = None
 
     awpc: Any = None
 
@@ -3697,15 +3697,15 @@ class StressclParam(NamedTuple):
             fcutfsu=0.80884,
             str_wp=0,
             n_tf_wp_layers=5,
-            ipfres=0,
-            oh_steel_frac=0.57874999999999999,
-            ohhghf=0.90000000000000002,
-            coheof=20726000,
-            cohbop=0,
-            ncls=np.array(
+            i_pf_conductor=0,
+            f_a_cs_steel=0.57874999999999999,
+            f_z_cs_tf_internal=0.90000000000000002,
+            j_cs_flat_top_end=20726000,
+            j_cs_pulse_start=0,
+            n_pf_coils_in_group=np.array(
                 np.array((1, 1, 2, 2, 0, 0, 0, 0, 0, 0, 0, 0), order="F"), order="F"
             ).transpose(),
-            cptdin=np.array(
+            c_pf_coil_turn_peak_input=np.array(
                 np.array(
                     (
                         42200,
@@ -3820,15 +3820,15 @@ class StressclParam(NamedTuple):
             fcutfsu=0.80884,
             str_wp=0.0015619754370069119,
             n_tf_wp_layers=5,
-            ipfres=0,
-            oh_steel_frac=0.57874999999999999,
-            ohhghf=0.90000000000000002,
-            coheof=20726000,
-            cohbop=19311657.760000002,
-            ncls=np.array(
+            i_pf_conductor=0,
+            f_a_cs_steel=0.57874999999999999,
+            f_z_cs_tf_internal=0.90000000000000002,
+            j_cs_flat_top_end=20726000,
+            j_cs_pulse_start=19311657.760000002,
+            n_pf_coils_in_group=np.array(
                 np.array((1, 1, 2, 2, 1, 0, 0, 0, 0, 0, 0, 0), order="F"), order="F"
             ).transpose(),
-            cptdin=np.array(
+            c_pf_coil_turn_peak_input=np.array(
                 np.array(
                     (
                         42200,
@@ -3941,19 +3941,19 @@ def test_stresscl(stressclparam, monkeypatch, sctfcoil):
         stressclparam.r_tf_inboard_in,
         stressclparam.dr_bore,
         stressclparam.hmax,
-        stressclparam.ohhghf,
+        stressclparam.f_z_cs_tf_internal,
         stressclparam.dr_cs,
         stressclparam.tf_in_cs,
         stressclparam.dr_tf_inboard,
         stressclparam.dr_cs_tf_gap,
-        stressclparam.ipfres,
-        stressclparam.coheof,
-        stressclparam.cohbop,
-        stressclparam.cptdin,
-        stressclparam.ncls,
+        stressclparam.i_pf_conductor,
+        stressclparam.j_cs_flat_top_end,
+        stressclparam.j_cs_pulse_start,
+        stressclparam.c_pf_coil_turn_peak_input,
+        stressclparam.n_pf_coils_in_group,
         70 / 22,
         3e-3,
-        stressclparam.oh_steel_frac,
+        stressclparam.f_a_cs_steel,
         stressclparam.eyoung_steel,
         stressclparam.poisson_steel,
         stressclparam.eyoung_cond_axial,
diff --git a/tests/unit/test_structure.py b/tests/unit/test_structure.py
index af7a70dd29..2c69e66097 100644
--- a/tests/unit/test_structure.py
+++ b/tests/unit/test_structure.py
@@ -34,7 +34,7 @@ def test_structure(self, structure):
         coolmass: float = 1199.6389920083477
         dewmass: float = 16426726.727684354
         i_tf_sup: int = 1
-        ipfres: int = 0
+        i_pf_conductor: int = 0
 
         expected_fncmass: float = 310716.52923547616
         expected_aintmass: float = 5829865.436088617
@@ -49,7 +49,7 @@ def test_structure(self, structure):
             akappa,
             b0,
             i_tf_sup,
-            ipfres,
+            i_pf_conductor,
             tf_h_width,
             tfhmax,
             shldmass,
diff --git a/tracking/tracking_data.py b/tracking/tracking_data.py
index bec6b7e29a..b4798e8c39 100644
--- a/tracking/tracking_data.py
+++ b/tracking/tracking_data.py
@@ -153,7 +153,7 @@ class ProcessTracker:
         "tftmp",
         "n_tf_coils",
         "bmaxtf",
-        "vstot",
+        "vs_cs_pf_total_pulse",
         "nd_ions_total",
         "t_burn",
         "divlife",