ROXIE Magnetic¶
Import Libraries¶
import os
import sys
from pathlib import Path
import scrapbook as sb
sys.path.append('/Users/auchmann/Documents/MagNum/magnum-api/')
import pandas as pd
import plotly.offline as po
import plotly.io as pio
pio.renderers.default = "plotly_mimetype+notebook"
po.init_notebook_mode(connected=False)
from magnumapi.geometry.GeometryFactory import GeometryFactory
from magnumapi.geometry.GeometryCheck import GeometryCheck
from magnumapi.cadata.CableDatabase import CableDatabase
from magnumapi.tool_adapters.ToolAdapterFactory import ToolAdapterFactory
from magnumapi.tool_adapters.roxie.RoxieInputBuilder import RoxieInputBuilder
import magnumapi.tool_adapters.roxie.RoxieAPI as RoxieAPI
from magnumapi.commons.DirectoryManager import DirectoryManager
Input Parameters¶
model_input_rel_path = '../input/SM_CT_exe.json'
config_file = 'docker_terminal_roxie.json'
magnetic_target_field = 13.5
mechanical_target_field = 14.5
full_output = True
roxie = ToolAdapterFactory.init_with_json(config_file)
DirectoryManager.create_directory_if_nonexistent(roxie.input_folder_rel_dir)
cadata_input_abs_path = os.path.join(Path(os.getcwd()).parent.absolute(), roxie.cadata_file_path)
cadata_output_abs_path = os.path.join(Path(os.getcwd()).absolute(), roxie.cadata_file_path)
cadata = CableDatabase.read_cadata(cadata_input_abs_path)
geometry = GeometryFactory.init_slotted_with_json(model_input_rel_path, cadata)
roxie_df = geometry.to_block_df()
Build Geometry¶
geometry.build_blocks()
if full_output:
geometry.plotly_blocks(figsize=(750, 750), xlim=(0, 95), ylim=(0, 95))
Write Inputs and Run ROXIE¶
roxie_input = RoxieInputBuilder()
roxie_input.cadata_path = roxie.cadata_file
roxie_input.block = geometry.to_abs_geometry().to_block_df()
roxie_input.plot2d = pd.DataFrame([{'no': 1, 'zxaxis': 100, 'colour': 1, 'fquad': 1, 'harmcoil': 0, 'field': '|B|'},
{'no': 2, 'zxaxis': 100, 'colour': 1, 'fquad': 1, 'harmcoil': 1, 'field': 'B3'},
{'no': 3, 'zxaxis': 100, 'colour': 1, 'fquad': 1, 'harmcoil': 1, 'field': 'B5'},
{'no': 4, 'zxaxis': 100, 'colour': 1, 'fquad': 1, 'harmcoil': 1, 'field': 'B7'},
{'no': 4, 'zxaxis': 100, 'colour': 1, 'fquad': 1, 'harmcoil': 0, 'field': 'MARG'}])
roxie_input.objective = pd.DataFrame([{'no': 1, 'string': 'B', 's1': 3, 's2': 1, 'oper': 7, 'constr': 0, 'weight': 1},
{'no': 2, 'string': 'B', 's1': 5, 's2': 1, 'oper': 7, 'constr': 0, 'weight': 1},
{'no': 3, 'string': 'B', 's1': 7, 's2': 1, 'oper': 7, 'constr': 0, 'weight': 1},
{'no': 4, 'string': 'MARGMI', 's1': 0, 's2': 0, 'oper': 12, 'constr': 0 ,'weight': 1},
{'no': 5, 'string': 'LOADLI', 's1': 5, 's2': 0, 'oper': 12, 'constr': 0, 'weight': 1},
{'no': 6, 'string': 'LOADLI', 's1': 12, 's2': 0, 'oper': 12, 'constr': 0, 'weight': 1},
{'no': 7, 'string': 'LOADLI', 's1': 19, 's2': 0, 'oper': 12, 'constr': 0, 'weight': 1},
{'no': 8, 'string': 'LOADLI', 's1': 24, 's2': 0, 'oper': 12, 'constr': 0, 'weight': 1},
{'no': 9, 'string': 'BIGB', 's1': 1, 's2': 1, 'oper': 12, 'constr': 0, 'weight': 1},
{'no': 10, 'string': 'INCLM', 's1': 0, 's2': 0, 'oper': 7, 'constr': 0, 'weight': 1}])
roxie_input.harmonictable = pd.DataFrame([{'no': 1, 'type': 1, 'x': 0, 'y': 0, 's1': 0, 's2': 0,
'rref': 17, 'bref': 2, 'field': 0}])
roxie_input.layer = geometry.to_layer_df()
roxie_input.set_flag('LFORCE2D', True)
roxie_input.build(roxie.input_file_path)
cadata.write_cadata(cadata_output_abs_path)
with open(roxie.cadata_file_path) as file:
for line in file:
print(line)
VERSION 11
INSUL 16
1 BARE 0.000000 0.000000 'BARE '
2 ALLPOLYIL 0.150000 0.120000 'POLYIMID MB INNER '
3 ALLPOLYOL 0.150000 0.130000 'POLYIMID MB OUTER '
4 ALLPOLMQY 0.080000 0.080000 'POLYIMID MQY,MQM '
5 ALLPOLMQ 0.130000 0.110000 'POLYIMID MQ '
6 RIBINS1 0.060000 0.060000 'RIBBON INS. THICK '
7 RIBINS2 0.030000 0.030000 'RIBBON INS. THIN '
8 RIBINS3 0.030000 0.020000 'RIBBON INS. SIEMAT '
9 RHICINS 0.160000 0.093000 'RHIC INSULATION '
10 GSI1INS 0.081075 0.081075 'GSI001 INSULATION '
11 SIS3INS 0.125000 0.098000 'SIS300 CABLE '
12 ITERINS 0.200000 0.200000 'for iter Nb3Sn '
13 EFDAJA1 1.550000 1.550000 'EFDA JACKET1 '
14 EFDAJA2 1.250000 1.250000 'EFDA JACKET2 '
15 CEAINS 0.200000 0.200000 'CEA Special Insulation '
16 16TINS 0.150000 0.150000 'EUROCIRCOL '
No Name Radial Azimut Comment
REMFIT 7
1 FIT1 1 3.000000e+09 9.20 0.57 0.90 2.32 27.04 14.5 0 0 0 0 'MB FILAMENT TYPE '
2 TES1 1 3.000000e+09 9.20 0.57 0.90 2.32 27.04 14.5 0 0 0 0 'FILAMENT TEST TYPE alph '
3 GSIFIT 1 3.000000e+09 9.20 0.70 1.57 1.00 25.00 14.5 0 0 0 0 'APPROXIMATE THE WILSON FIT '
4 LASA 1 2.700000e+09 9.20 0.63 1.00 2.32 31.40 14.5 0 0 0 0 'A.DEVRED CERN-2004-006 P.43 '
5 LASAEU 11 2.678450e+11 29.38 16.00 0.96 1.52 0.50 2.0 0 0 0 0 ' '
6 NB3SNH 5 3.790000e+10 28.91 18.00 0.00 0.00 0.00 0.0 0 0 0 0 'FermiLab HF 1.0 mm strand '
7 NB3SNL 5 3.850000e+10 28.00 18.00 0.00 0.00 0.00 0.0 0 0 0 0 'FermiLab LF 0.7 mm strand '
No Name Type C1 C2 C3 C4 C5 C6 C7 C8 C9 C10 C11 Comment
FILAMENT 11
1 TESTI1 6.0 0 TES1 TES1 'NBTI INNER CABLES '
2 TESTO1 5.0 0 TES1 TES1 'NBTI INNER CABLES '
3 NBTII 7.0 0 FIT1 FIT1 'NBTI INNER CABLES '
4 NBTIO 6.0 0 FIT1 FIT1 'NBTI OUTER CABLES '
5 NB3SN 50.0 0 LASAEU LASAEU 'NB2SN TWENTE '
6 NBTIS 5.0 0 FIT1 FIT1 'NBTI SIEMAT(ALSTOM) '
7 NBTIG 6.0 0 GSIFIT GSIFIT 'NBTI GSI001 '
8 SIS3NBTI 2.5 0 FIT1 FIT1 'NBTI SIS300 '
9 SISLASA 3.5 0 LASA LASA 'NBTI SIS300 LASA DESIGN '
10 HFM52H 52.0 0 NB3SNH NB3SNH 'NB3SN 52um filament 1.0 mm '
11 HFM41L 41.0 0 NB3SNL NB3SNL 'NB3SN 41um filament 0.7 mm '
No Name fildiao fildiai Jc-Fit fit-| Comment
STRAND 24
1 STR01 1.06500 1.60 70 1.900 10.00 1433.30 500.340 'MB INNER '
2 STR02 0.82500 1.90 80 1.900 9.00 1953.00 550.030 'MB OUTER, MQ '
3 STR05 0.48000 1.75 80 4.500 8.00 2872.20 600.000 'MQM '
4 STR06 0.73500 1.25 80 4.500 5.00 2810.60 600.000 'MQY '
5 WIRE1 0.37500 4.00 100 4.222 5.00 2490.00 606.800 'MCB '
6 WIRE2 0.52248 3.58 70 4.222 5.00 2332.00 635.800 'MCBC,MCBL.. '
7 WIRE3 0.93683 1.60 70 4.222 5.00 2640.00 606.800 'MCS,MCD,MQT? '
8 WIRE4 1.28680 1.70 70 4.222 5.00 2499.00 613.200 'MCBX '
9 WIRES 0.58040 1.85 90 2.000 7.83 2250.00 480.000 'TESLA 500 STRA '
10 GSI1STRA 0.64100 2.21 187 4.200 5.50 2495.24 583.898 'GSI001 (RHIC) STRANDS '
11 SIS3STRA 0.82500 1.50 278 4.200 5.00 2700.00 570.000 'SIS300 STRANDS '
12 ITERS1 1.98000 1.10 70 4.222 12.00 1100.00 300.000 'For iter test station '
13 ITERS2 0.90000 1.70 70 4.222 12.00 1100.00 300.000 'For iter test station '
14 EFDAS1 0.81000 1.00 70 4.500 12.00 2000.00 300.000 'EFDA strand for fusion '
15 STRNED 1.25000 1.25 120 4.200 15.00 1500.00 500.000 'NED Motor 1 '
16 STRDI 0.43800 1.35 70 4.222 5.00 2332.00 635.800 'XFEL IN DIPOLE v2 '
17 SISLASAST 0.82500 1.80 200 4.200 5.00 2700.00 570.000 'SIS300 LASA DESIGN '
18 ILEURO 1.00000 1.00 100 4.500 18.00 802.00 248.100 'EUROCICOL inner '
19 OLEURO 0.52900 1.00 100 4.500 14.00 2222.00 479.400 'EUROCICOL outer '
20 STR10 1.00000 1.00 100 4.200 18.00 887.00 260.300 'EUROCICOL inner '
21 STR07 0.70000 2.20 100 4.200 14.00 2359.00 493.300 'EUROCIRCOL outer '
22 STR11 1.10000 0.85 100 4.200 18.00 887.00 260.300 'EUROCIRCOL inner '
23 STR10HF 1.00000 1.00 100 4.500 15.00 1424.00 350.350 'FermiLab HF 1.0 mm '
24 STR07LF 0.70000 1.00 100 4.500 15.00 1313.00 347.350 'FermiLab LF 0.7 mm '
No Name diam. cu/sc RRR Tref Bref Jc@BrTr dJc/dB Comment
TRANSIENT 4
1 TRANS1 0.000001 1.000000e-07 0.000 0.000000e+00 0.000000e+00 0.000 'LHC cable resitances '
2 GSITRANS 0.062500 6.400000e-05 0.004 1.240000e-10 9.000000e-11 0.500 'GSI001 resistances '
3 SISTRANS 0.062500 6.400000e-05 0.004 1.240000e-10 9.000000e-11 0.500 'GSI001 resistances '
4 LASATRANS 0.020000 1.000000e-04 0.006 4.300000e-10 9.500000e-11 0.383 'GSI001 from Wilson excel file '
No Name Rc Ra fil.twistp. fil.R0 fil.dR/dB strandfill.fac. Comment
QUENCH 1
1 NB3SN 3 3 3 3 2 5 4 0 'NIST '
No Name SCHeatCapa CuHeatCapa CuThermCond CuElecRes InsHeatCapa InsThermCond FillHeatCapa He% Comment
CABLE 56
1 CABLE01 15.100 1.73600 2.0640 24 115 5 'MB INNER LAYER,STR01 '
2 CABLE02 15.100 1.36200 1.5980 36 100 5 'MB OUTER LAYER,STR01 '
3 CABLE04 8.800 0.78000 0.9100 36 66 5 'MQM,STRO5 '
4 CABLE05 8.300 0.78000 0.9100 34 66 5 'MQY OUTER,STR05 '
5 CABLE06 8.300 1.15000 1.4000 22 66 5 'MQY INNER,STR06 '
6 RIB1 0.000 0.37500 0.3750 25 0 0 'MCB,WIRE1 '
7 RIB2 0.000 0.32000 0.3200 14 0 0 'MCBC,MCBL,MCBR,WIRE2 '
8 RIB3 10.890 0.32000 0.3200 15 0 0 'MCBY,WIRE2 '
9 RIB4 0.670 0.32000 0.3200 1 0 0 'MCO,WIRE2 '
10 RIB4L4 0.670 0.32000 0.3200 4 0 0 'MCO,WIRE2 '
11 RIB5 1.530 0.61000 0.6100 1 0 0 'MCS,MCD,MO,WIRE3 '
12 RIB6 7.380 0.61000 0.6100 6 0 0 'MQT,MQTL,WIRE3 '
13 RIB72 2.380 0.61000 0.6100 2 0 0 'MCDO,WIRE3 '
14 RIB7 4.880 0.61000 0.6100 4 0 0 'MS,WIRE3 '
15 RIB8 9.698 0.85000 0.8500 8 0 0 'MXBXH,MXBXV,WIRE4 '
16 RIBINN9 14.730 0.85000 0.8500 9 0 0 'MCBX INNER OLD '
17 RIBOUT7 11.430 0.85000 0.8500 7 0 0 'MCBX OUTER OLD '
18 RIBOUT8 13.080 0.85000 0.8500 8 0 0 'MCBX OUTER OLD '
19 RIBS 4.490 0.42000 0.4200 8 0 0 'TESLA 500 RIBBON '
20 CABLE11 15.100 2.74000 2.7400 28 115 5 'MB INNER + STABILIZER '
21 SINGLE 0.940 0.94000 0.9400 1 0 0 'SINGLE STRAND '
22 GSI1CAB 9.740 1.06100 1.2710 30 74 0 'GSI001 (RHIC) CABLE '
23 GSI001 9.730 1.11100 1.3210 30 74 0 'GSI001 following Wanderer '
24 SIS300 15.100 1.36200 1.5980 36 100 5 'SIS300 degrad 0-5%!!! '
25 SISLAS_36 15.100 1.36200 1.5980 36 100 0 'SIS300 LASA DESIGN 36 strands '
26 SISLAS_40 16.778 1.36200 1.5980 40 100 0 'SIS300 LASA DESIGN 40 strands '
27 XFEL1 1.200 1.20000 1.2000 1 0 0 'TESLA XFEL '
28 XFEL2 10.200 13.20000 13.2000 1 0 0 'TESLA XFEL QUAD '
29 ITERC1 19.800 3.70000 3.7000 20 100 13 'For iter test station '
30 ITERC2 19.800 1.65000 1.6500 44 100 13 'For iter test station '
31 EFDAC1 4.500 19.93000 19.9300 84 100 0 'EFDA cable1 '
32 EFDAC2 8.550 9.01500 9.0150 32 100 0 'EFDA cable2 '
33 NEDM1 24.000 2.35000 2.3500 40 0 10 'NED Motor 1 '
34 XFEL3 8.800 12.70000 12.7000 580 0 0 'TESLA XFEL QUAD 2 '
35 XFEL4 0.438 0.43800 0.4380 1 0 0 'TESLA XFEL IN DIPOLE 2 '
36 XFEL5 1.200 1.20000 1.2000 1 0 0 'TESLA XFEL IN DIPOLE 3 '
37 16TILG1 10.000 1.66000 1.9400 20 100 0 'EUROCIRCOL '
38 16TOLG1 8.993 0.87814 1.0260 34 100 0 'EUROCIRCOL '
39 16TOLG2 10.051 0.87814 1.0260 38 100 0 'EUROCIRCOL '
40 16TILG3 21.000 1.72000 1.9030 40 100 0 'EUROCIRCOL vitt-opt '
41 16TOLG3 14.700 1.20400 1.3320 40 100 0 'EUROCIRCOL 40 STR '
42 16TOLG4 14.000 1.20400 1.3260 38 100 0 'EUROCIRCOL 38 STR '
43 16TOLG5 13.300 1.20400 1.3200 36 100 0 'EUROCIRCOL 36 STR '
44 16TOLG6 12.600 1.20400 1.3140 34 100 0 'EUROCIRCOL 34 STR '
45 16TILG4 20.000 1.72000 1.8950 38 100 0 'EUROCIRCOL 38 STR '
46 16TILG5 16.000 1.72000 1.8600 30 100 0 'EUROCIRCOL 30 STR '
47 16TOLG7 11.900 1.20400 1.3080 32 100 0 'EUROCIRCOL 32 STR '
48 16TILG6 16.500 1.89200 2.0360 28 100 0 'EUROCIRCOL 28 STR '
49 16TILG7 15.400 1.89200 2.0264 26 100 0 'EUROCIRCOL 26 STR '
50 16TILG8 14.300 1.89200 2.0168 24 100 0 'EUROCIRCOL 24 STR '
51 16TILG9 13.200 1.89200 2.0072 22 100 0 'EUROCIRCOL 22 STR '
52 16TILG10 12.100 1.89200 1.9976 20 100 0 'EUROCIRCOL 20 STR '
53 16TILG11 12.650 1.89200 2.0024 21 100 0 'EUROCIRCOL 21 STR '
54 16TOLG8 13.650 1.20400 1.3231 37 100 0 'EUROCIRCOL 37 STR '
55 FERMIHFS 14.700 1.69800 1.9013 28 100 0 'FermiLab 28 1.0 STR '
56 FERMILFS 14.700 1.16700 1.3700 40 100 0 'FermiLab 40 0.7 STR '
No Name height width_i width_o ns transp. degrd Comment
CONDUCTOR 55
1 YELLONIN 1 CABLE01 STR01 NBTII ALLPOLYIL TRANS1 NONE 1.900 'V6-1 DESIGN DIPOLE INNER '
2 YELLONOU 1 CABLE02 STR02 NBTIO ALLPOLYOL TRANS1 NONE 1.900 'V6-1 DESIGN DIPOLE OUTER '
3 HOLLONIN 1 CABLE01 STR01 NB3SN ALLPOLYIL NONE NONE 1.900 'V6-1 DESIGN HOLLOW FILAM '
4 HOLLONOU 1 CABLE02 STR02 NB3SN ALLPOLYOL NONE NONE 1.900 'V6-1 DESIGN HOLLOW FILAM '
5 MQYT11 1 CABLE06 STR06 NBTII ALLPOLMQY NONE NONE 4.500 'MQY INNER LAYERS '
6 MQYT21 1 CABLE05 STR05 NBTII ALLPOLMQY NONE NONE 4.500 'MQY OUTER LAYERS '
7 OUTD1196 1 CABLE02 STR02 NBTII ALLPOLMQ NONE NONE 1.900 'MQ '
8 MQMNEW4 1 CABLE04 STR05 NBTII ALLPOLMQY NONE NONE 1.900 'MQM '
9 MBIBOTH9 1 RIBINN9 WIRE4 NBTII RIBINS1 NONE NONE 1.900 'MBI DIPOLE CORR. INNER '
10 MBIBOTH7 1 RIBOUT7 WIRE4 NBTII RIBINS1 NONE NONE 1.900 'MBI DIPOLE CORR. OUTER '
11 LOWBW2L1 1 RIB4 WIRE2 NBTII RIBINS2 NONE NONE 1.900 'MCSTX SEXTUPOLE CABLE '
12 LOWBW2L4 1 RIB4L4 WIRE2 NBTII RIBINS2 NONE NONE 1.900 'MCSTX DODECAPOLE CABLE '
13 MCBXW4I8 1 RIBOUT8 WIRE4 NBTII RIBINS1 NONE NONE 1.900 'MBI DIPOLE CORRETOR NEW '
14 NEQUAD6B 1 RIB6 WIRE3 NBTII RIBINS1 NONE NONE 1.900 'MQT QUADRUPOLE CORR. '
15 SISU2 1 RIB72 WIRE3 NBTII RIBINS1 NONE NONE 1.900 'MCDO DECAPOLE '
16 MCBY42 1 RIB4 WIRE2 NBTII RIBINS2 NONE NONE 1.900 'MCDO OCTUPOLE '
17 YELLTI1 1 CABLE01 STR01 TESTI1 ALLPOLYIL TRANS1 NONE 1.900 'V6-1 DESIGN DIPOLE INNER '
18 YELLTO1 1 CABLE02 STR02 TESTO1 ALLPOLYOL TRANS1 NONE 1.900 'V6-1 DESIGN DIPOLE OUTER '
19 GECQ2CO 1 RIBS WIRES NBTIS RIBINS3 NONE NONE 1.900 'SIEMAT TESLA PROJ. RIBBON '
20 YELLONIS 1 CABLE11 STR01 NBTII ALLPOLYIL NONE NONE 1.900 'DIPOLE INNER W. STABILIZ '
21 SINGLEC 1 SINGLE WIRE3 NBTII RIBINS1 NONE NONE 4.200 'SINGLE STRAND CONDUCTORS '
22 RHIC 1 GSI1CAB GSI1STRA NBTIG GSI1INS GSITRANS NONE 4.200 'GSI001 (RHIC) CONDUCTOR '
23 GSI001 1 GSI001 GSI1STRA NBTIO GSI1INS GSITRANS NONE 4.200 'GSI001 following Wanderer '
24 SIS300 1 SIS300 SIS3STRA SIS3NBTI SIS3INS GSITRANS NONE 4.200 'SIS300 acc. J. Kaugerts 8.6.05'
25 SISLAS_36 1 SISLAS_36 SISLASAST SISLASA SIS3INS LASATRANS NONE 4.700 'SIS300 LASA DESIGN '
26 SISLAS_40 1 SISLAS_40 SISLASAST SISLASA SIS3INS LASATRANS NONE 4.700 'SIS300 LASA DESIGN '
27 XFELDI 1 XFEL1 WIRE2 NBTII RIBINS2 NONE NONE 4.222 'XFEL round conductor '
28 XFELQU 1 XFEL2 WIRE2 NBTII BARE NONE NONE 4.222 'XFEL QUAD coil '
29 ITER1 1 ITERC1 ITERS1 NB3SN ITERINS NONE NONE 4.222 'For iter test station '
30 ITER2 1 ITERC2 ITERS2 NB3SN ITERINS NONE NONE 4.222 'For iter test station '
31 EFDA1 1 EFDAC1 EFDAS1 NB3SN EFDAJA1 NONE NONE 4.500 'EFAD predesign '
32 EFDA2 1 EFDAC2 EFDAS1 NB3SN EFDAJA2 NONE NONE 4.500 'EFAD predesign '
33 NEDM1 1 NEDM1 STRNED NB3SN CEAINS NONE NONE 4.200 'NED Motor 1 '
34 XFELQ2 1 XFEL3 WIRE2 NBTII BARE NONE NONE 4.222 'XFEL QUAD coil 3 '
35 XFDI 1 XFEL4 STRDI NBTII BARE NONE NONE 4.222 'XFEL IN DIPOLE 2 '
36 XFD2 1 XFEL5 STRDI NBTII BARE NONE NONE 4.222 'XFEL IN DIPOLE 3 '
37 16TIL1 1 16TILG1 ILEURO NB3SN 16TINS NONE NONE 4.500 'EUROCIRCOL '
38 16TOL1 1 16TOLG1 OLEURO NB3SN 16TINS NONE NONE 4.500 'EUROCIRCOL '
39 16TIL3 1 16TILG3 STR10 NB3SN 16TINS NONE NONE 4.500 'eurocircol vitt opt '
40 16TOL3 1 16TOLG3 STR07 NB3SN 16TINS NONE NONE 4.500 'eurocircol vitt opt '
41 16TOL4 1 16TOLG4 STR07 NB3SN 16TINS NONE NONE 1.900 'eurocircol '
42 16TOL5 1 16TOLG5 STR07 NB3SN 16TINS NONE NONE 1.900 'eurocircol '
43 16TOL6 1 16TOLG6 STR07 NB3SN 16TINS NONE NONE 4.200 'eurocircol '
44 16TIL4 1 16TILG4 STR10 NB3SN 16TINS NONE NONE 4.500 'eurocircol '
45 16TIL5 1 16TILG5 STR10 NB3SN 16TINS NONE NONE 4.200 'eurocircol '
46 16TOL7 1 16TOLG7 STR07 NB3SN 16TINS NONE NONE 4.200 'eurocircol '
47 16TIL6 1 16TILG6 STR11 NB3SN 16TINS NONE NONE 4.200 'eurocircol '
48 16TIL7 1 16TILG7 STR11 NB3SN 16TINS NONE NONE 1.900 'eurocircol '
49 16TIL8 1 16TILG8 STR11 NB3SN 16TINS NONE NONE 1.900 'eurocircol '
50 16TIL9 1 16TILG9 STR11 NB3SN 16TINS NONE NB3SN 1.900 'eurocircol '
51 16TIL10 1 16TILG10 STR11 NB3SN 16TINS NONE NONE 1.900 'eurocircol '
52 16TIL11 1 16TILG11 STR11 NB3SN 16TINS NONE NONE 1.900 'eurocircol '
53 16TOL8 1 16TOLG8 STR07 NB3SN 16TINS NONE NB3SN 1.900 'eurocircol '
54 FERMIHFC 1 FERMIHFS STR10HF HFM52H 16TINS NONE NB3SN 1.900 'FermiLab High Field cable '
55 FERMILFC 1 FERMILFS STR07LF HFM41L 16TINS NONE NB3SN 1.900 'FermiLab Low Field cable '
No Name Type CableGeom. Strand Filament Insul Trans QuenchMat. T_o Comment
cadata.write_cadata(cadata_output_abs_path)
with open(roxie.input_file_path) as file:
for line in file:
print(line)
VERSION 10.2.1
''
''
'roxieold_2.cadata'
''
&OPTION
LEND=F LWEDG=F LPERS=F LQUENCH=F LALGO=F LMIRIRON=F
LBEMFEM=F LPSI=F LSOLV=F LIRON=F LMORPH=F LHARD=F
LPOSTP=F LPEAK=T LINMARG=F LMARG=T LSELF=F LMQE=F
LINDU=F LEDDY=F LSOLE=F LFIELD3=F LFISTR=F LSELF3=F
LBRICK=F LLEAD=F LVRML=F LOPERA=F LOPER20=F LANSYS=F
LRX2ANS=F LANS2RX=F LDXF=F LMAP2D=F LMAP3D=F LEXPR=F
LFIL3D=F LFIL2D=F LCNC=F LANSYSCN=F LWEIRON=F LCATIA=F
LEXEL=F LFORCE2D=T LAXIS=T LIMAGX=F LIMAGY=F LRAEND=F
LMARKER=F LROLER2=F LROLERP=F LIMAGZZ=F LSTEP=F LIFF=F
LICCA=F LICC=F LICCIND=F LITERNL=F LTOPO=F LQUEN3=F
LAYER=T LEULER=T LHEAD=T LPLOT=T LVERS52=T LHARM=T
LMATRF=F LF3LIN=F
/
GLOBAL2DOPTION 0
GLOBAL3D 0
BLOCK 24
1 1 4 26.0 1.101910 -2.120319e-16 15901 FERMIHFC 2 14 0 0
2 1 2 26.0 21.918811 1.366954e+01 15901 FERMIHFC 2 14 0 0
3 1 2 26.0 32.904230 2.725430e+01 15901 FERMIHFC 2 14 0 0
4 1 2 26.0 45.315189 3.683907e+01 15901 FERMIHFC 2 14 0 0
5 1 2 26.0 59.808089 5.342384e+01 15901 FERMIHFC 2 14 0 0
6 1 2 42.5 0.674084 -2.120319e-16 15901 FERMIHFC 2 14 0 0
7 1 2 42.5 7.560662 7.584768e+00 15901 FERMIHFC 2 14 0 0
8 1 3 42.5 16.245119 1.696954e+01 15901 FERMIHFC 2 14 0 0
9 1 3 42.5 27.824528 2.734669e+01 15901 FERMIHFC 2 14 0 0
10 1 2 42.5 39.911025 3.672384e+01 15901 FERMIHFC 2 14 0 0
11 1 2 42.5 48.111867 4.510861e+01 15901 FERMIHFC 2 14 0 0
12 1 2 42.5 55.711307 4.789338e+01 15901 FERMIHFC 2 14 0 0
13 1 3 59.0 0.485563 -2.120319e-16 15901 FERMILFC 2 20 0 0
14 1 3 59.0 8.754307 7.373645e+00 15901 FERMILFC 2 20 0 0
15 1 3 59.0 18.024781 1.474729e+01 15901 FERMILFC 2 20 0 0
16 1 4 59.0 27.302398 2.162093e+01 15901 FERMILFC 2 20 0 0
17 1 4 59.0 37.030918 2.928579e+01 15901 FERMILFC 2 20 0 0
18 1 4 59.0 46.787249 3.695065e+01 15901 FERMILFC 2 20 0 0
19 1 2 59.0 53.579927 4.311551e+01 15901 FERMILFC 2 20 0 0
20 1 4 75.5 0.379445 -2.120319e-16 15901 FERMILFC 2 20 0 0
21 1 4 75.5 11.326628 1.016486e+01 15901 FERMILFC 2 20 0 0
22 1 4 75.5 24.774890 2.182972e+01 15901 FERMILFC 2 20 0 0
23 1 4 75.5 37.728727 3.299458e+01 15901 FERMILFC 2 20 0 0
24 1 6 75.5 47.992550 3.915944e+01 15901 FERMILFC 2 20 0 0
no type nco radius phi alpha current condname n1 n2 imag turn
BLOCKOPTION 0
BLOCK3D 0
LEAD 0
BRICK 0
IRONYOKE 0
EXTRUSION 0
PERMANENTMAG2 0
PERMANENTMAG1 0
LAYER 4
1 2 1 1 2 3 4 5 /
2 2 1 6 7 8 9 10 11 12 /
3 2 1 13 14 15 16 17 18 19 /
4 2 1 20 21 22 23 24 /
no symm typexy blocks
ALGO /
12
algo
DESIGN 0
EULER 0
PEAK 24
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
TIMETABLE2 0
TIMETABLE1 0
EDDY /
0
pers
EDDYOPTIONS 0
QUENCHG 0
QUENCHEN 0
QUENCHTM 0
QUENCHP 0
QUENCHS 0
HARMONICTABLE 1
1 1 0 0 0 0 17 2 0
no type x y s1 s2 rref bref field
MATRF 1
0 0 0
0 0 0
0 0 0 0
start end no field
LINEFIELD 0
HARMONICOPTION 0
GRAPH 0
GRAPHOPTION 0
PLOT2D 5
1 100 1 1 0 |B| /
2 100 1 1 1 B3 /
3 100 1 1 1 B5 /
4 100 1 1 1 B7 /
4 100 1 1 0 MARG /
no zxaxis colour fquad harmcoil field
PLOT2DOPTION 0
PLOT3D 0
PLOT3DOPTION 0
OBJECTIVE 10
1 B 3 1 7 0 1
2 B 5 1 7 0 1
3 B 7 1 7 0 1
4 MARGMI 0 0 12 0 1
5 LOADLI 5 0 12 0 1
6 LOADLI 12 0 12 0 1
7 LOADLI 19 0 12 0 1
8 LOADLI 24 0 12 0 1
9 BIGB 1 1 12 0 1
10 INCLM 0 0 7 0 1
no string s1 s2 oper constr weight
roxie.run()
roxie.display_output()
WORKING DIRECTORY : input
DATA FILE : input.data
CADATA FILE : roxieold_2.cadata
BHDATA FILE :
IRON FILE :
!
$$
***$$ $***
ROXIE
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.$ GDQ *.B$$ .*
.* *\ *.4** ..*
oo# ooL d#*. P##~
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od#" d#*. "*$$P~ "?$*" "#$$$" u"
*"" % BEM @%"$ *c FEM x$"$. :"
$ > "d $$$$?$ .$$%`
"P.. .$.....$L $$.4$$. " @#3$$ $*.
"**.. * *..$$ `*$*k. %d$$$> *..
J" *k$$$~ "*$*^^^^^* P "*oo.
P # "$$$#*o > "####*oooo
.*" :*$$*. %3 ^"$P :$$s :*@$** s"
$P` $7> $P$$k "$"?$3 @"#N CxN$$> .$$$ .P
$$~ J\## 44N>$$ .d$.$d @$ `$$$ % .8..$$$*
.*** : J$ *d$$*.$$.P $ .P5 $ **.
"oo J .dP ud$$od# $oooooo$ oo$oo ###ou
"####$HERMES$."$**P#~ "" $$$. *$$$o #h****
:" " !$* ^ o$N "" " 4$!>$$ """#$$$
.~ %$4$B * % @#$. .. $8$$P $7 $
.* $ 8 $$B .J$.. hP$$$% ."PB$ J~## .d~
.P *$$$* "*" $$$ #**~ hd$$$> < J$.......*****
.P $#*k .o#> P" "k .. "$$P d .JP"h
"""h* ^ x*"" > ""c ** @b*****$.)
"""t$$$$%" $ $` # * > "$* " "c
**ROXIE**
ONLY 10 DAYS TILL CHRISTMAS
****************************
DATE ............................................... 14.12.2021
TIME ............................................... 10.28
COMMENT:
NUMBER OF OBJECTIVES AND CONSTRAINTS ............... 10
OBJECTIVE IOBJ1 IOBJ2 QUALIFIER CONSTRAINT WEIGHTINGFAC
B 3 1 MINABS 0.0000 1.0000
B 5 1 MINABS 0.0000 1.0000
B 7 1 MINABS 0.0000 1.0000
MARGMI 0 0 =2 0.0000 1.0000
LOADLI 5 0 =2 0.0000 1.0000
LOADLI 12 0 =2 0.0000 1.0000
LOADLI 19 0 =2 0.0000 1.0000
LOADLI 24 0 =2 0.0000 1.0000
BIGB 1 1 =2 0.0000 1.0000
INCLM 0 0 MINABS 0.0000 1.0000
NUMBER OF BLOCKS ................................... 24
NUMBER OF CONDUCTORS ............................... 73
NUMBER OF STRANDS .................................. 2584
NUMBER OF CUTS IN Z DIRECTION ...................... 21
HIGHEST ORDER OF MULTIPOLES ........................ 20
***************** 1-ST FUNCTION EVALUATION *****************
NUMBER OF BLOCK .................................... 1
WITHIN BLOCK GROUP ................................. 1
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 1.1019
INCLINATION ANGLE (DEG) ............................ -0.0000
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 26.0000
CABLE HEIGHT (MM).(INSULATED) ...................... 15.0000
CABLE INNER WIDTH (MM).(INSULATED) ................. 1.9959
CABLE OUTER WIDTH (MM).(INSULATED) ................. 2.2034
CABLE HEIGHT (MM).(BARE) ........................... 14.7000
CABLE INNER WIDTH (MM).(BARE) ...................... 1.6980
CABLE OUTER WIDTH (MM).(BARE) ...................... 1.9013
RADIAL INSULATION THICKNESS (MM).................... 0.1500
AZIMUTHAL INSULATION THICKNESS (MM)................. 0.1500
NUMBER OF STRANDS .................................. 28
DIAMETER OF STRANDS (MM)............................ 1.0000
CU/SC RATIO ........................................ 1.0000
RESIDUAL RESISTIVITY RATIO.......................... 100.0000
TEMPERATURE AT WHICH JC AND DJC ARE GIVEN (K) ...... 4.5000
LINEAR APPROXIMATION JC(15.0 T) (A/MM**2)........... 1424.000
LINEAR APPROXIMATION DJC/DB (A/MM**2 T)............. 350.350
CABLING ANGLE (DEG) ................................ 1.425
NUMBER OF DISCRETISATION POINTS AZIMUTHAL .......... 2
NUMBER OF DISCRETISATION POINTS RADIAL ............. 14
CONDUCTOR NAME ..................................... FERMIHFC
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 2
WITHIN BLOCK GROUP ................................. 1
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 21.9188
INCLINATION ANGLE (DEG) ............................ 13.6695
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 26.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 3
WITHIN BLOCK GROUP ................................. 1
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 32.9042
INCLINATION ANGLE (DEG) ............................ 27.2543
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 26.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 4
WITHIN BLOCK GROUP ................................. 1
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 45.3152
INCLINATION ANGLE (DEG) ............................ 36.8391
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 26.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 5
WITHIN BLOCK GROUP ................................. 1
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 59.8081
INCLINATION ANGLE (DEG) ............................ 53.4238
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 26.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 6
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 0.6741
INCLINATION ANGLE (DEG) ............................ -0.0000
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 7
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 7.5607
INCLINATION ANGLE (DEG) ............................ 7.5848
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 8
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1
NUMBER OF CONDUCTORS ............................... 3
POSITIONING ANGLE (DEG) ............................ 16.2451
INCLINATION ANGLE (DEG) ............................ 16.9695
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 9
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1
NUMBER OF CONDUCTORS ............................... 3
POSITIONING ANGLE (DEG) ............................ 27.8245
INCLINATION ANGLE (DEG) ............................ 27.3467
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 10
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 39.9110
INCLINATION ANGLE (DEG) ............................ 36.7238
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 11
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 48.1119
INCLINATION ANGLE (DEG) ............................ 45.1086
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 12
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 55.7113
INCLINATION ANGLE (DEG) ............................ 47.8934
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 13
WITHIN BLOCK GROUP ................................. 3
NUMBER OF CONDUCTORS ............................... 3
POSITIONING ANGLE (DEG) ............................ 0.4856
INCLINATION ANGLE (DEG) ............................ -0.0000
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
CABLE HEIGHT (MM).(INSULATED) ...................... 15.0000
CABLE INNER WIDTH (MM).(INSULATED) ................. 1.4649
CABLE OUTER WIDTH (MM).(INSULATED) ................. 1.6721
CABLE HEIGHT (MM).(BARE) ........................... 14.7000
CABLE INNER WIDTH (MM).(BARE) ...................... 1.1670
CABLE OUTER WIDTH (MM).(BARE) ...................... 1.3700
RADIAL INSULATION THICKNESS (MM).................... 0.1500
AZIMUTHAL INSULATION THICKNESS (MM)................. 0.1500
NUMBER OF STRANDS .................................. 40
DIAMETER OF STRANDS (MM)............................ 0.7000
CU/SC RATIO ........................................ 1.0000
RESIDUAL RESISTIVITY RATIO.......................... 100.0000
TEMPERATURE AT WHICH JC AND DJC ARE GIVEN (K) ...... 4.5000
LINEAR APPROXIMATION JC(15.0 T) (A/MM**2)........... 1313.000
LINEAR APPROXIMATION DJC/DB (A/MM**2 T)............. 347.350
CABLING ANGLE (DEG) ................................ 1.425
NUMBER OF DISCRETISATION POINTS AZIMUTHAL .......... 2
NUMBER OF DISCRETISATION POINTS RADIAL ............. 20
CONDUCTOR NAME ..................................... FERMILFC
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 14
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13
NUMBER OF CONDUCTORS ............................... 3
POSITIONING ANGLE (DEG) ............................ 8.7543
INCLINATION ANGLE (DEG) ............................ 7.3736
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 15
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13
NUMBER OF CONDUCTORS ............................... 3
POSITIONING ANGLE (DEG) ............................ 18.0248
INCLINATION ANGLE (DEG) ............................ 14.7473
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 16
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 27.3024
INCLINATION ANGLE (DEG) ............................ 21.6209
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 17
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 37.0309
INCLINATION ANGLE (DEG) ............................ 29.2858
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 18
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 46.7872
INCLINATION ANGLE (DEG) ............................ 36.9507
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 19
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 53.5799
INCLINATION ANGLE (DEG) ............................ 43.1155
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 20
WITHIN BLOCK GROUP ................................. 4
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 0.3794
INCLINATION ANGLE (DEG) ............................ -0.0000
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 75.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 21
WITHIN BLOCK GROUP ................................. 4
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 11.3266
INCLINATION ANGLE (DEG) ............................ 10.1649
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 75.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 22
WITHIN BLOCK GROUP ................................. 4
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 24.7749
INCLINATION ANGLE (DEG) ............................ 21.8297
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 75.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 23
WITHIN BLOCK GROUP ................................. 4
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 37.7287
INCLINATION ANGLE (DEG) ............................ 32.9946
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 75.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 24
WITHIN BLOCK GROUP ................................. 4
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13
NUMBER OF CONDUCTORS ............................... 6
POSITIONING ANGLE (DEG) ............................ 47.9926
INCLINATION ANGLE (DEG) ............................ 39.1594
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 75.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 25
WITHIN BLOCK GROUP ................................. 1
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 1.1019
INCLINATION ANGLE (DEG) ............................ -0.0000
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 26.0000
CABLE HEIGHT (MM).(INSULATED) ...................... 15.0000
CABLE INNER WIDTH (MM).(INSULATED) ................. 1.9959
CABLE OUTER WIDTH (MM).(INSULATED) ................. 2.2034
CABLE HEIGHT (MM).(BARE) ........................... 14.7000
CABLE INNER WIDTH (MM).(BARE) ...................... 1.6980
CABLE OUTER WIDTH (MM).(BARE) ...................... 1.9013
RADIAL INSULATION THICKNESS (MM).................... 0.1500
AZIMUTHAL INSULATION THICKNESS (MM)................. 0.1500
NUMBER OF STRANDS .................................. 28
DIAMETER OF STRANDS (MM)............................ 1.0000
CU/SC RATIO ........................................ 1.0000
RESIDUAL RESISTIVITY RATIO.......................... 100.0000
TEMPERATURE AT WHICH JC AND DJC ARE GIVEN (K) ...... 4.5000
LINEAR APPROXIMATION JC(15.0 T) (A/MM**2)........... 1424.000
LINEAR APPROXIMATION DJC/DB (A/MM**2 T)............. 350.350
CABLING ANGLE (DEG) ................................ 1.425
NUMBER OF DISCRETISATION POINTS AZIMUTHAL .......... 2
NUMBER OF DISCRETISATION POINTS RADIAL ............. 14
CONDUCTOR NAME ..................................... FERMIHFC
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 26
WITHIN BLOCK GROUP ................................. 1
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 25
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 1.1019
INCLINATION ANGLE (DEG) ............................ -0.0000
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 26.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 27
WITHIN BLOCK GROUP ................................. 1
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 1.1019
INCLINATION ANGLE (DEG) ............................ -0.0000
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 26.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 28
WITHIN BLOCK GROUP ................................. 1
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 25
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 21.9188
INCLINATION ANGLE (DEG) ............................ 13.6695
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 26.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 29
WITHIN BLOCK GROUP ................................. 1
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 25
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 21.9188
INCLINATION ANGLE (DEG) ............................ 13.6695
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 26.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 30
WITHIN BLOCK GROUP ................................. 1
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 21.9188
INCLINATION ANGLE (DEG) ............................ 13.6695
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 26.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 31
WITHIN BLOCK GROUP ................................. 1
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 25
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 32.9042
INCLINATION ANGLE (DEG) ............................ 27.2543
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 26.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 32
WITHIN BLOCK GROUP ................................. 1
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 25
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 32.9042
INCLINATION ANGLE (DEG) ............................ 27.2543
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 26.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 33
WITHIN BLOCK GROUP ................................. 1
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 32.9042
INCLINATION ANGLE (DEG) ............................ 27.2543
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 26.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 34
WITHIN BLOCK GROUP ................................. 1
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 25
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 45.3152
INCLINATION ANGLE (DEG) ............................ 36.8391
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 26.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 35
WITHIN BLOCK GROUP ................................. 1
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 25
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 45.3152
INCLINATION ANGLE (DEG) ............................ 36.8391
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 26.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 36
WITHIN BLOCK GROUP ................................. 1
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 45.3152
INCLINATION ANGLE (DEG) ............................ 36.8391
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 26.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 37
WITHIN BLOCK GROUP ................................. 1
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 25
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 59.8081
INCLINATION ANGLE (DEG) ............................ 53.4238
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 26.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 38
WITHIN BLOCK GROUP ................................. 1
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 25
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 59.8081
INCLINATION ANGLE (DEG) ............................ 53.4238
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 26.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 39
WITHIN BLOCK GROUP ................................. 1
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 59.8081
INCLINATION ANGLE (DEG) ............................ 53.4238
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 26.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 40
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 25
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 0.6741
INCLINATION ANGLE (DEG) ............................ -0.0000
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 41
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 25
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 0.6741
INCLINATION ANGLE (DEG) ............................ -0.0000
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 42
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 0.6741
INCLINATION ANGLE (DEG) ............................ -0.0000
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 43
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 25
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 7.5607
INCLINATION ANGLE (DEG) ............................ 7.5848
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 44
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 25
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 7.5607
INCLINATION ANGLE (DEG) ............................ 7.5848
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 45
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 7.5607
INCLINATION ANGLE (DEG) ............................ 7.5848
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 46
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 25
NUMBER OF CONDUCTORS ............................... 3
POSITIONING ANGLE (DEG) ............................ 16.2451
INCLINATION ANGLE (DEG) ............................ 16.9695
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 47
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 25
NUMBER OF CONDUCTORS ............................... 3
POSITIONING ANGLE (DEG) ............................ 16.2451
INCLINATION ANGLE (DEG) ............................ 16.9695
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 48
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1
NUMBER OF CONDUCTORS ............................... 3
POSITIONING ANGLE (DEG) ............................ 16.2451
INCLINATION ANGLE (DEG) ............................ 16.9695
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 49
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 25
NUMBER OF CONDUCTORS ............................... 3
POSITIONING ANGLE (DEG) ............................ 27.8245
INCLINATION ANGLE (DEG) ............................ 27.3467
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 50
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 25
NUMBER OF CONDUCTORS ............................... 3
POSITIONING ANGLE (DEG) ............................ 27.8245
INCLINATION ANGLE (DEG) ............................ 27.3467
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 51
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1
NUMBER OF CONDUCTORS ............................... 3
POSITIONING ANGLE (DEG) ............................ 27.8245
INCLINATION ANGLE (DEG) ............................ 27.3467
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 52
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 25
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 39.9110
INCLINATION ANGLE (DEG) ............................ 36.7238
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 53
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 25
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 39.9110
INCLINATION ANGLE (DEG) ............................ 36.7238
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 54
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 39.9110
INCLINATION ANGLE (DEG) ............................ 36.7238
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 55
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 25
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 48.1119
INCLINATION ANGLE (DEG) ............................ 45.1086
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 56
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 25
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 48.1119
INCLINATION ANGLE (DEG) ............................ 45.1086
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 57
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 48.1119
INCLINATION ANGLE (DEG) ............................ 45.1086
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 58
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 25
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 55.7113
INCLINATION ANGLE (DEG) ............................ 47.8934
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 59
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 25
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 55.7113
INCLINATION ANGLE (DEG) ............................ 47.8934
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 60
WITHIN BLOCK GROUP ................................. 2
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 55.7113
INCLINATION ANGLE (DEG) ............................ 47.8934
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 42.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 61
WITHIN BLOCK GROUP ................................. 3
NUMBER OF CONDUCTORS ............................... 3
POSITIONING ANGLE (DEG) ............................ 0.4856
INCLINATION ANGLE (DEG) ............................ -0.0000
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
CABLE HEIGHT (MM).(INSULATED) ...................... 15.0000
CABLE INNER WIDTH (MM).(INSULATED) ................. 1.4649
CABLE OUTER WIDTH (MM).(INSULATED) ................. 1.6721
CABLE HEIGHT (MM).(BARE) ........................... 14.7000
CABLE INNER WIDTH (MM).(BARE) ...................... 1.1670
CABLE OUTER WIDTH (MM).(BARE) ...................... 1.3700
RADIAL INSULATION THICKNESS (MM).................... 0.1500
AZIMUTHAL INSULATION THICKNESS (MM)................. 0.1500
NUMBER OF STRANDS .................................. 40
DIAMETER OF STRANDS (MM)............................ 0.7000
CU/SC RATIO ........................................ 1.0000
RESIDUAL RESISTIVITY RATIO.......................... 100.0000
TEMPERATURE AT WHICH JC AND DJC ARE GIVEN (K) ...... 4.5000
LINEAR APPROXIMATION JC(15.0 T) (A/MM**2)........... 1313.000
LINEAR APPROXIMATION DJC/DB (A/MM**2 T)............. 347.350
CABLING ANGLE (DEG) ................................ 1.425
NUMBER OF DISCRETISATION POINTS AZIMUTHAL .......... 2
NUMBER OF DISCRETISATION POINTS RADIAL ............. 20
CONDUCTOR NAME ..................................... FERMILFC
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 62
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 61
NUMBER OF CONDUCTORS ............................... 3
POSITIONING ANGLE (DEG) ............................ 0.4856
INCLINATION ANGLE (DEG) ............................ -0.0000
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 63
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13
NUMBER OF CONDUCTORS ............................... 3
POSITIONING ANGLE (DEG) ............................ 0.4856
INCLINATION ANGLE (DEG) ............................ -0.0000
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 64
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 61
NUMBER OF CONDUCTORS ............................... 3
POSITIONING ANGLE (DEG) ............................ 8.7543
INCLINATION ANGLE (DEG) ............................ 7.3736
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 65
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 61
NUMBER OF CONDUCTORS ............................... 3
POSITIONING ANGLE (DEG) ............................ 8.7543
INCLINATION ANGLE (DEG) ............................ 7.3736
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 66
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13
NUMBER OF CONDUCTORS ............................... 3
POSITIONING ANGLE (DEG) ............................ 8.7543
INCLINATION ANGLE (DEG) ............................ 7.3736
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 67
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 61
NUMBER OF CONDUCTORS ............................... 3
POSITIONING ANGLE (DEG) ............................ 18.0248
INCLINATION ANGLE (DEG) ............................ 14.7473
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 68
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 61
NUMBER OF CONDUCTORS ............................... 3
POSITIONING ANGLE (DEG) ............................ 18.0248
INCLINATION ANGLE (DEG) ............................ 14.7473
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 69
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13
NUMBER OF CONDUCTORS ............................... 3
POSITIONING ANGLE (DEG) ............................ 18.0248
INCLINATION ANGLE (DEG) ............................ 14.7473
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 70
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 61
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 27.3024
INCLINATION ANGLE (DEG) ............................ 21.6209
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 71
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 61
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 27.3024
INCLINATION ANGLE (DEG) ............................ 21.6209
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 72
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 27.3024
INCLINATION ANGLE (DEG) ............................ 21.6209
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 73
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 61
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 37.0309
INCLINATION ANGLE (DEG) ............................ 29.2858
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 74
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 61
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 37.0309
INCLINATION ANGLE (DEG) ............................ 29.2858
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 75
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 37.0309
INCLINATION ANGLE (DEG) ............................ 29.2858
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 76
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 61
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 46.7872
INCLINATION ANGLE (DEG) ............................ 36.9507
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 77
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 61
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 46.7872
INCLINATION ANGLE (DEG) ............................ 36.9507
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 78
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 46.7872
INCLINATION ANGLE (DEG) ............................ 36.9507
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 79
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 61
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 53.5799
INCLINATION ANGLE (DEG) ............................ 43.1155
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 80
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 61
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 53.5799
INCLINATION ANGLE (DEG) ............................ 43.1155
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 81
WITHIN BLOCK GROUP ................................. 3
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13
NUMBER OF CONDUCTORS ............................... 2
POSITIONING ANGLE (DEG) ............................ 53.5799
INCLINATION ANGLE (DEG) ............................ 43.1155
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 59.0000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 82
WITHIN BLOCK GROUP ................................. 4
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 61
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 0.3794
INCLINATION ANGLE (DEG) ............................ -0.0000
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 75.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 83
WITHIN BLOCK GROUP ................................. 4
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 61
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 0.3794
INCLINATION ANGLE (DEG) ............................ -0.0000
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 75.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 84
WITHIN BLOCK GROUP ................................. 4
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 0.3794
INCLINATION ANGLE (DEG) ............................ -0.0000
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 75.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 85
WITHIN BLOCK GROUP ................................. 4
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 61
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 11.3266
INCLINATION ANGLE (DEG) ............................ 10.1649
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 75.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 86
WITHIN BLOCK GROUP ................................. 4
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 61
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 11.3266
INCLINATION ANGLE (DEG) ............................ 10.1649
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 75.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 87
WITHIN BLOCK GROUP ................................. 4
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 11.3266
INCLINATION ANGLE (DEG) ............................ 10.1649
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 75.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 88
WITHIN BLOCK GROUP ................................. 4
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 61
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 24.7749
INCLINATION ANGLE (DEG) ............................ 21.8297
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 75.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 89
WITHIN BLOCK GROUP ................................. 4
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 61
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 24.7749
INCLINATION ANGLE (DEG) ............................ 21.8297
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 75.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 90
WITHIN BLOCK GROUP ................................. 4
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 24.7749
INCLINATION ANGLE (DEG) ............................ 21.8297
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 75.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 91
WITHIN BLOCK GROUP ................................. 4
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 61
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 37.7287
INCLINATION ANGLE (DEG) ............................ 32.9946
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 75.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 92
WITHIN BLOCK GROUP ................................. 4
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 61
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 37.7287
INCLINATION ANGLE (DEG) ............................ 32.9946
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 75.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 93
WITHIN BLOCK GROUP ................................. 4
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13
NUMBER OF CONDUCTORS ............................... 4
POSITIONING ANGLE (DEG) ............................ 37.7287
INCLINATION ANGLE (DEG) ............................ 32.9946
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 75.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 0.0000
NUMBER OF BLOCK .................................... 94
WITHIN BLOCK GROUP ................................. 4
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 61
NUMBER OF CONDUCTORS ............................... 6
POSITIONING ANGLE (DEG) ............................ 47.9926
INCLINATION ANGLE (DEG) ............................ 39.1594
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 75.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 95
WITHIN BLOCK GROUP ................................. 4
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 61
NUMBER OF CONDUCTORS ............................... 6
POSITIONING ANGLE (DEG) ............................ 47.9926
INCLINATION ANGLE (DEG) ............................ 39.1594
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 75.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0
TURN ANGLE FOR BLOCK ............................... 180.0000
NUMBER OF BLOCK .................................... 96
WITHIN BLOCK GROUP ................................. 4
CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13
NUMBER OF CONDUCTORS ............................... 6
POSITIONING ANGLE (DEG) ............................ 47.9926
INCLINATION ANGLE (DEG) ............................ 39.1594
CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 15901.0000
INNER RADIUS OF THE BLOCK (MM)...................... 75.5000
IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1
TURN ANGLE FOR BLOCK ............................... 0.0000
TOTAL CU-VOLUME/LENGTH IN STRAIGHT SEC. (MM**2) .... 2617.7561
TOTAL SC-VOLUME/LENGTH IN STRAIGHT SEC. (MM**2) .... 2617.7561
ELECTROMAGNETIC FORCES (N/m) ON BLOCKS (2D)
BLOCK FORCE -X- FORCE -Y- BLOCK-CENT-X BLOCK-CENT-Y
(N/m) (N/m) (mm) (mm)
1 0.6503E+06 -0.3841E+05 0.3304E+02 0.4686E+01
2 0.3358E+06 -0.3072E+05 0.3071E+02 0.1347E+02
3 0.3532E+06 -0.3725E+05 0.2739E+02 0.1935E+02
4 0.3771E+06 -0.4495E+05 0.2286E+02 0.2454E+02
5 0.4035E+06 -0.4828E+05 0.1576E+02 0.2961E+02
6 0.1557E+06 -0.1717E+05 0.4994E+02 0.2599E+01
7 0.1595E+06 -0.4168E+05 0.4924E+02 0.8657E+01
8 0.2637E+06 -0.8319E+05 0.4696E+02 0.1706E+02
9 0.3174E+06 -0.1089E+06 0.4267E+02 0.2601E+02
10 0.2527E+06 -0.8445E+05 0.3728E+02 0.3337E+02
11 0.2923E+06 -0.9525E+05 0.3211E+02 0.3836E+02
12 0.3322E+06 -0.1158E+06 0.2729E+02 0.4195E+02
13 0.1939E+05 -0.4895E+05 0.6642E+02 0.2852E+01
14 0.2131E+05 -0.9088E+05 0.6535E+02 0.1226E+02
15 0.3707E+05 -0.1230E+06 0.6262E+02 0.2240E+02
16 0.1169E+06 -0.2027E+06 0.5793E+02 0.3261E+02
17 0.2175E+06 -0.2440E+06 0.5175E+02 0.4172E+02
18 0.3550E+06 -0.2813E+06 0.4411E+02 0.4970E+02
19 0.2463E+06 -0.1754E+06 0.3932E+02 0.5364E+02
20 -0.2545E+06 -0.8759E+05 0.8288E+02 0.3635E+01
21 -0.2097E+06 -0.1720E+06 0.8071E+02 0.1921E+02
22 -0.1381E+06 -0.2513E+06 0.7415E+02 0.3725E+02
23 -0.1793E+05 -0.3225E+06 0.6406E+02 0.5275E+02
24 0.2750E+06 -0.5780E+06 0.5276E+02 0.6395E+02
SUMM: 0.4561E+07 -0.3324E+07
ELECTROMAGNETIC FORCES (N/m) ON BLOCKS || AND |- TO CONDUCTORS (2D)
BLOCK FORCE || FORCE |- BLOCK-CENT-X BLOCK-CENT-Y
(N/m) (N/m) (mm) (mm)
1 0.6485E+06 -0.5641E+05 0.3304E+02 0.4686E+01
2 0.3174E+06 -0.1136E+06 0.3071E+02 0.1347E+02
3 0.2941E+06 -0.1989E+06 0.2739E+02 0.1935E+02
4 0.2711E+06 -0.2658E+06 0.2286E+02 0.2454E+02
5 0.1967E+06 -0.3556E+06 0.1576E+02 0.2961E+02
6 0.1554E+06 -0.1932E+05 0.4994E+02 0.2599E+01
7 0.1517E+06 -0.6448E+05 0.4924E+02 0.8657E+01
8 0.2243E+06 -0.1613E+06 0.4696E+02 0.1706E+02
9 0.2265E+06 -0.2474E+06 0.4267E+02 0.2601E+02
10 0.1489E+06 -0.2209E+06 0.3728E+02 0.3337E+02
11 0.1349E+06 -0.2762E+06 0.3211E+02 0.3836E+02
12 0.1323E+06 -0.3259E+06 0.2729E+02 0.4195E+02
13 0.1802E+05 -0.4933E+05 0.6642E+02 0.2852E+01
14 0.7206E+04 -0.9306E+05 0.6535E+02 0.1226E+02
15 0.1544E+04 -0.1285E+06 0.6262E+02 0.2240E+02
16 0.2677E+05 -0.2325E+06 0.5793E+02 0.3261E+02
17 0.6064E+05 -0.3213E+06 0.5175E+02 0.4172E+02
18 0.1015E+06 -0.4415E+06 0.4411E+02 0.4970E+02
19 0.5571E+05 -0.2972E+06 0.3932E+02 0.5364E+02
20 -0.2576E+06 -0.8057E+05 0.8288E+02 0.3635E+01
21 -0.2413E+06 -0.1258E+06 0.8071E+02 0.1921E+02
22 -0.2276E+06 -0.1758E+06 0.7415E+02 0.3725E+02
23 -0.1988E+06 -0.2555E+06 0.6406E+02 0.5275E+02
24 -0.1805E+06 -0.6159E+06 0.5276E+02 0.6395E+02
SUMM: 0.2067E+07 -0.5123E+07
BLOCK NUMBER ....................................... 1
PEAK FIELD IN CONDUCTOR 2 (T) ................... 13.4740
CURRENT IN CONDUCTOR 2 (A) ....................... 15901.0000
LOWEST FIELD IN CONDUCTOR 1 (T) ................. 7.2792
SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 1446.1273
COPPER CURRENT DENSITY (A/MM2) ..................... 1446.1273
PERCENTAGE ON THE LOAD LINE ........................ 84.2117
QUENCHFIELD (T) .................................... 16.0002
TEMPERATURE MARGIN TO QUENCH (K) ................... 4.0200
PERCENTAGE OF SHORT SAMPLE CURRENT ................. 52.8835
BLOCK NUMBER ....................................... 2
PEAK FIELD IN CONDUCTOR 6 (T) ................... 13.3309
CURRENT IN CONDUCTOR 6 (A) ....................... 15901.0000
LOWEST FIELD IN CONDUCTOR 5 (T) ................. 8.1262
SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 1446.1273
COPPER CURRENT DENSITY (A/MM2) ..................... 1446.1273
PERCENTAGE ON THE LOAD LINE ........................ 83.5324
QUENCHFIELD (T) .................................... 15.9589
TEMPERATURE MARGIN TO QUENCH (K) ................... 4.1488
PERCENTAGE OF SHORT SAMPLE CURRENT ................. 51.5868
BLOCK NUMBER ....................................... 3
PEAK FIELD IN CONDUCTOR 8 (T) ................... 13.5484
CURRENT IN CONDUCTOR 8 (A) ....................... 15901.0000
LOWEST FIELD IN CONDUCTOR 7 (T) ................. 8.9270
SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 1446.1273
COPPER CURRENT DENSITY (A/MM2) ..................... 1446.1273
PERCENTAGE ON THE LOAD LINE ........................ 84.5644
QUENCHFIELD (T) .................................... 16.0214
TEMPERATURE MARGIN TO QUENCH (K) ................... 3.9525
PERCENTAGE OF SHORT SAMPLE CURRENT ................. 53.5730
BLOCK NUMBER ....................................... 4
PEAK FIELD IN CONDUCTOR 10 (T) ................... 13.8038
CURRENT IN CONDUCTOR 10 (A) ....................... 15901.0000
LOWEST FIELD IN CONDUCTOR 9 (T) ................. 9.9532
SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 1446.1273
COPPER CURRENT DENSITY (A/MM2) ..................... 1446.1273
PERCENTAGE ON THE LOAD LINE ........................ 85.7734
QUENCHFIELD (T) .................................... 16.0934
TEMPERATURE MARGIN TO QUENCH (K) ................... 3.7172
PERCENTAGE OF SHORT SAMPLE CURRENT ................. 56.0256
BLOCK NUMBER ....................................... 5
PEAK FIELD IN CONDUCTOR 12 (T) ................... 14.1351
CURRENT IN CONDUCTOR 12 (A) ....................... 15901.0000
LOWEST FIELD IN CONDUCTOR 11 (T) ................. 11.4546
SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 1446.1273
COPPER CURRENT DENSITY (A/MM2) ..................... 1446.1273
PERCENTAGE ON THE LOAD LINE ........................ 87.3373
QUENCHFIELD (T) .................................... 16.1845
TEMPERATURE MARGIN TO QUENCH (K) ................... 3.4036
PERCENTAGE OF SHORT SAMPLE CURRENT ................. 59.4166
BLOCK NUMBER ....................................... 6
PEAK FIELD IN CONDUCTOR 14 (T) ................... 7.2344
CURRENT IN CONDUCTOR 14 (A) ....................... 15901.0000
LOWEST FIELD IN CONDUCTOR 13 (T) ................. 2.8880
SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 1446.1273
COPPER CURRENT DENSITY (A/MM2) ..................... 1446.1273
PERCENTAGE ON THE LOAD LINE ........................ 53.4491
QUENCHFIELD (T) .................................... 13.5351
TEMPERATURE MARGIN TO QUENCH (K) ................... 8.9250
PERCENTAGE OF SHORT SAMPLE CURRENT ................. 19.0368
BLOCK NUMBER ....................................... 7
PEAK FIELD IN CONDUCTOR 16 (T) ................... 7.6110
CURRENT IN CONDUCTOR 16 (A) ....................... 15901.0000
LOWEST FIELD IN CONDUCTOR 15 (T) ................. 2.9406
SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 1446.1273
COPPER CURRENT DENSITY (A/MM2) ..................... 1446.1273
PERCENTAGE ON THE LOAD LINE ........................ 55.3948
QUENCHFIELD (T) .................................... 13.7395
TEMPERATURE MARGIN TO QUENCH (K) ................... 8.6495
PERCENTAGE OF SHORT SAMPLE CURRENT ................. 20.2503
BLOCK NUMBER ....................................... 8
PEAK FIELD IN CONDUCTOR 19 (T) ................... 8.4396
CURRENT IN CONDUCTOR 19 (A) ....................... 15901.0000
LOWEST FIELD IN CONDUCTOR 17 (T) ................. 3.2533
SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 1446.1273
COPPER CURRENT DENSITY (A/MM2) ..................... 1446.1273
PERCENTAGE ON THE LOAD LINE ........................ 59.6245
QUENCHFIELD (T) .................................... 14.1547
TEMPERATURE MARGIN TO QUENCH (K) ................... 8.0395
PERCENTAGE OF SHORT SAMPLE CURRENT ................. 23.1602
BLOCK NUMBER ....................................... 9
PEAK FIELD IN CONDUCTOR 22 (T) ................... 9.5091
CURRENT IN CONDUCTOR 22 (A) ....................... 15901.0000
LOWEST FIELD IN CONDUCTOR 20 (T) ................. 4.5307
SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 1446.1273
COPPER CURRENT DENSITY (A/MM2) ..................... 1446.1273
PERCENTAGE ON THE LOAD LINE ........................ 64.9903
QUENCHFIELD (T) .................................... 14.6315
TEMPERATURE MARGIN TO QUENCH (K) ................... 7.2409
PERCENTAGE OF SHORT SAMPLE CURRENT ................. 27.4941
BLOCK NUMBER ....................................... 10
PEAK FIELD IN CONDUCTOR 24 (T) ................... 10.3599
CURRENT IN CONDUCTOR 24 (A) ....................... 15901.0000
LOWEST FIELD IN CONDUCTOR 23 (T) ................. 6.5435
SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 1446.1273
COPPER CURRENT DENSITY (A/MM2) ..................... 1446.1273
PERCENTAGE ON THE LOAD LINE ........................ 69.1955
QUENCHFIELD (T) .................................... 14.9718
TEMPERATURE MARGIN TO QUENCH (K) ................... 6.5919
PERCENTAGE OF SHORT SAMPLE CURRENT ................. 31.5169
BLOCK NUMBER ....................................... 11
PEAK FIELD IN CONDUCTOR 26 (T) ................... 11.4478
CURRENT IN CONDUCTOR 26 (A) ....................... 15901.0000
LOWEST FIELD IN CONDUCTOR 25 (T) ................. 7.9662
SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 1446.1273
COPPER CURRENT DENSITY (A/MM2) ..................... 1446.1273
PERCENTAGE ON THE LOAD LINE ........................ 74.5029
QUENCHFIELD (T) .................................... 15.3656
TEMPERATURE MARGIN TO QUENCH (K) ................... 5.7366
PERCENTAGE OF SHORT SAMPLE CURRENT ................. 37.6022
BLOCK NUMBER ....................................... 12
PEAK FIELD IN CONDUCTOR 28 (T) ................... 12.3209
CURRENT IN CONDUCTOR 28 (A) ....................... 15901.0000
LOWEST FIELD IN CONDUCTOR 27 (T) ................. 9.8024
SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 1446.1273
COPPER CURRENT DENSITY (A/MM2) ..................... 1446.1273
PERCENTAGE ON THE LOAD LINE ........................ 78.7119
QUENCHFIELD (T) .................................... 15.6531
TEMPERATURE MARGIN TO QUENCH (K) ................... 5.0216
PERCENTAGE OF SHORT SAMPLE CURRENT ................. 43.4469
BLOCK NUMBER ....................................... 13
PEAK FIELD IN CONDUCTOR 31 (T) ................... 3.3003
CURRENT IN CONDUCTOR 31 (A) ....................... 15901.0000
LOWEST FIELD IN CONDUCTOR 29 (T) ................. 0.0608
SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 2065.8961
COPPER CURRENT DENSITY (A/MM2) ..................... 2065.8961
PERCENTAGE ON THE LOAD LINE ........................ 36.7042
QUENCHFIELD (T) .................................... 8.9917
TEMPERATURE MARGIN TO QUENCH (K) ................... 11.1950
PERCENTAGE OF SHORT SAMPLE CURRENT ................. 12.9110
BLOCK NUMBER ....................................... 14
PEAK FIELD IN CONDUCTOR 34 (T) ................... 3.8934
CURRENT IN CONDUCTOR 34 (A) ....................... 15901.0000
LOWEST FIELD IN CONDUCTOR 32 (T) ................. 0.9141
SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 2065.8961
COPPER CURRENT DENSITY (A/MM2) ..................... 2065.8961
PERCENTAGE ON THE LOAD LINE ........................ 40.5693
QUENCHFIELD (T) .................................... 9.5969
TEMPERATURE MARGIN TO QUENCH (K) ................... 10.6970
PERCENTAGE OF SHORT SAMPLE CURRENT ................. 14.7455
BLOCK NUMBER ....................................... 15
PEAK FIELD IN CONDUCTOR 37 (T) ................... 4.5498
CURRENT IN CONDUCTOR 37 (A) ....................... 15901.0000
LOWEST FIELD IN CONDUCTOR 35 (T) ................. 1.6053
SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 2065.8961
COPPER CURRENT DENSITY (A/MM2) ..................... 2065.8961
PERCENTAGE ON THE LOAD LINE ........................ 44.6938
QUENCHFIELD (T) .................................... 10.1800
TEMPERATURE MARGIN TO QUENCH (K) ................... 10.1549
PERCENTAGE OF SHORT SAMPLE CURRENT ................. 16.8770
BLOCK NUMBER ....................................... 16
PEAK FIELD IN CONDUCTOR 41 (T) ................... 6.0191
CURRENT IN CONDUCTOR 41 (A) ....................... 15901.0000
LOWEST FIELD IN CONDUCTOR 38 (T) ................. 2.1423
SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 2065.8961
COPPER CURRENT DENSITY (A/MM2) ..................... 2065.8961
PERCENTAGE ON THE LOAD LINE ........................ 53.5003
QUENCHFIELD (T) .................................... 11.2507
TEMPERATURE MARGIN TO QUENCH (K) ................... 8.9565
PERCENTAGE OF SHORT SAMPLE CURRENT ................. 22.1968
BLOCK NUMBER ....................................... 17
PEAK FIELD IN CONDUCTOR 45 (T) ................... 7.6652
CURRENT IN CONDUCTOR 45 (A) ....................... 15901.0000
LOWEST FIELD IN CONDUCTOR 42 (T) ................. 3.4802
SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 2065.8961
COPPER CURRENT DENSITY (A/MM2) ..................... 2065.8961
PERCENTAGE ON THE LOAD LINE ........................ 62.8782
QUENCHFIELD (T) .................................... 12.1906
TEMPERATURE MARGIN TO QUENCH (K) ................... 7.6075
PERCENTAGE OF SHORT SAMPLE CURRENT ................. 29.4454
BLOCK NUMBER ....................................... 18
PEAK FIELD IN CONDUCTOR 49 (T) ................... 9.7576
CURRENT IN CONDUCTOR 49 (A) ....................... 15901.0000
LOWEST FIELD IN CONDUCTOR 46 (T) ................. 5.1030
SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 2065.8961
COPPER CURRENT DENSITY (A/MM2) ..................... 2065.8961
PERCENTAGE ON THE LOAD LINE ........................ 74.2969
QUENCHFIELD (T) .................................... 13.1333
TEMPERATURE MARGIN TO QUENCH (K) ................... 5.8244
PERCENTAGE OF SHORT SAMPLE CURRENT ................. 41.6648
BLOCK NUMBER ....................................... 19
PEAK FIELD IN CONDUCTOR 51 (T) ................... 10.9052
CURRENT IN CONDUCTOR 51 (A) ....................... 15901.0000
LOWEST FIELD IN CONDUCTOR 50 (T) ................. 7.8718
SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 2065.8961
COPPER CURRENT DENSITY (A/MM2) ..................... 2065.8961
PERCENTAGE ON THE LOAD LINE ........................ 80.3833
QUENCHFIELD (T) .................................... 13.5665
TEMPERATURE MARGIN TO QUENCH (K) ................... 4.7790
PERCENTAGE OF SHORT SAMPLE CURRENT ................. 50.4647
BLOCK NUMBER ....................................... 20
PEAK FIELD IN CONDUCTOR 53 (T) ................... 6.7270
CURRENT IN CONDUCTOR 53 (A) ....................... 15901.0000
LOWEST FIELD IN CONDUCTOR 52 (T) ................. 1.5138
SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 2065.8961
COPPER CURRENT DENSITY (A/MM2) ..................... 2065.8961
PERCENTAGE ON THE LOAD LINE ........................ 57.5851
QUENCHFIELD (T) .................................... 11.6818
TEMPERATURE MARGIN TO QUENCH (K) ................... 8.3792
PERCENTAGE OF SHORT SAMPLE CURRENT ................. 25.1155
BLOCK NUMBER ....................................... 21
PEAK FIELD IN CONDUCTOR 58 (T) ................... 6.3064
CURRENT IN CONDUCTOR 58 (A) ....................... 15901.0000
LOWEST FIELD IN CONDUCTOR 56 (T) ................. 2.2226
SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 2065.8961
COPPER CURRENT DENSITY (A/MM2) ..................... 2065.8961
PERCENTAGE ON THE LOAD LINE ........................ 55.1683
QUENCHFIELD (T) .................................... 11.4311
TEMPERATURE MARGIN TO QUENCH (K) ................... 8.7226
PERCENTAGE OF SHORT SAMPLE CURRENT ................. 23.3489
BLOCK NUMBER ....................................... 22
PEAK FIELD IN CONDUCTOR 63 (T) ................... 6.3776
CURRENT IN CONDUCTOR 63 (A) ....................... 15901.0000
LOWEST FIELD IN CONDUCTOR 60 (T) ................. 2.4169
SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 2065.8961
COPPER CURRENT DENSITY (A/MM2) ..................... 2065.8961
PERCENTAGE ON THE LOAD LINE ........................ 55.5799
QUENCHFIELD (T) .................................... 11.4747
TEMPERATURE MARGIN TO QUENCH (K) ................... 8.6645
PERCENTAGE OF SHORT SAMPLE CURRENT ................. 23.6414
BLOCK NUMBER ....................................... 23
PEAK FIELD IN CONDUCTOR 67 (T) ................... 6.7593
CURRENT IN CONDUCTOR 67 (A) ....................... 15901.0000
LOWEST FIELD IN CONDUCTOR 64 (T) ................. 3.5137
SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 2065.8961
COPPER CURRENT DENSITY (A/MM2) ..................... 2065.8961
PERCENTAGE ON THE LOAD LINE ........................ 57.7696
QUENCHFIELD (T) .................................... 11.7005
TEMPERATURE MARGIN TO QUENCH (K) ................... 8.3528
PERCENTAGE OF SHORT SAMPLE CURRENT ................. 25.2554
BLOCK NUMBER ....................................... 24
PEAK FIELD IN CONDUCTOR 73 (T) ................... 9.4068
CURRENT IN CONDUCTOR 73 (A) ....................... 15901.0000
LOWEST FIELD IN CONDUCTOR 68 (T) ................. 4.5857
SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 2065.8961
COPPER CURRENT DENSITY (A/MM2) ..................... 2065.8961
PERCENTAGE ON THE LOAD LINE ........................ 72.4136
QUENCHFIELD (T) .................................... 12.9904
TEMPERATURE MARGIN TO QUENCH (K) ................... 6.1322
PERCENTAGE OF SHORT SAMPLE CURRENT ................. 39.3126
MAXIMUM LOADLINE IN BLOCK 5 (%) ................. 87.3373
MINIMUM TEMPERATURE MARGIN IN BLOCK 5 (T) ....... 3.4036
HARMONIC ANALYSIS NUMBER ........................... 1
MAIN HARMONIC ...................................... 1
REFERENCE RADIUS (mm) .............................. 17.0000
X-POSITION OF THE HARMONIC COIL (mm) ............... 0.0000
Y-POSITION OF THE HARMONIC COIL (mm) ............... 0.0000
MEASUREMENT TYPE ........................ ALL FIELD CONTRIBUTIONS
ERROR OF HARMONIC ANALYSIS OF Br ................... 0.2802E-03
SUM (Br(p) - SUM (An cos(np) + Bn sin(np))
MAIN FIELD (T) ..................................... -13.614419
MAGNET STRENGTH (T/(m^(n-1)) ....................... -13.6144
NORMAL RELATIVE MULTIPOLES (1.D-4):
b 1: 10000.00000 b 2: -0.00000 b 3: 4.37494
b 4: -0.00000 b 5: -7.56478 b 6: 0.00000
b 7: 10.00894 b 8: -0.00000 b 9: -0.97841
b10: 0.00000 b11: 0.85371 b12: -0.00000
b13: -0.14831 b14: 0.00000 b15: -0.06916
b16: -0.00000 b17: 0.01328 b18: 0.00000
b19: -0.02864 b20: -0.00000 b
SKEW RELATIVE MULTIPOLES (1.D-4):
a 1: -0.00000 a 2: -0.00000 a 3: 0.00000
a 4: 0.00000 a 5: -0.00000 a 6: 0.00000
a 7: 0.00000 a 8: -0.00000 a 9: -0.00000
a10: 0.00000 a11: -0.00000 a12: -0.00000
a13: 0.00000 a14: 0.00000 a15: -0.00000
a16: -0.00000 a17: -0.00000 a18: 0.00000
a19: 0.00000 a20: -0.00000 a
NUMBER OF OBJECTIVES AND CONSTRAINTS ............... 10
OBJECTIVE S1 S2 OPER OBJECTIVE WEIGHTED OBJ
B 3 1 MINABS 0.4375E+01 0.4375E+01
B 5 1 MINABS -0.7565E+01 0.7565E+01
B 7 1 MINABS 0.1001E+02 0.1001E+02
MARGMI 0 0 =2 0.1266E+02 0.1603E+03
LOADLI 5 0 =2 0.8734E+02 0.7628E+04
LOADLI 12 0 =2 0.7871E+02 0.6196E+04
LOADLI 19 0 =2 0.8038E+02 0.6461E+04
LOADLI 24 0 =2 0.7241E+02 0.5244E+04
BIGB 1 1 =2 -0.1361E+02 0.1854E+03
INCLM 0 0 MINABS 0.1785E+04 0.1785E+04
OBJECTIVE FUNCTION VALUE : 0.2768087E+05
PENALTY TERM FOR VIOLATED BOUNDS : 0.7905050-321
SUMM OF ALL TERMS : 0.2768087E+05
DURATION ............................................ 0: 0:28
*****************************************************************
* END OF THIS ROXIE CALCULATION *
*****************************************************************
Coil Data¶
if full_output:
xml_path = roxie.xml_output_file_path
roxie.correct_xml_file(xml_path, xml_path)
strand_data = roxie.parse_roxie_xml(xml_path)
roxie.plotly_results(strand_data, column='|B|', xlim=(0, 95), ylim=(0, 95))
# roxie.plotly_results(strand_data, column='B3', xlim=(0, 95), ylim=(0, 95))
# roxie.plotly_results(strand_data, column='B5', xlim=(0, 95), ylim=(0, 95))
# roxie.plotly_results(strand_data, column='B7', xlim=(0, 95), ylim=(0, 95))
roxie.plotly_results(strand_data, column='MARG', xlim=(0, 95), ylim=(0, 95))
Figures of Merit¶
fom_df = roxie.read_figures_of_merit_table()
fom_dct = roxie.convert_figures_of_merit_to_dict(fom_df)
fom_df
| S1 | S2 | OPER | OBJECTIVE.1 | WEIGHTED OBJ | |
|---|---|---|---|---|---|
| OBJECTIVE | |||||
| B | 3 | 1 | MINABS | 4.375 | 4.375 |
| B | 5 | 1 | MINABS | -7.565 | 7.565 |
| B | 7 | 1 | MINABS | 10.010 | 10.010 |
| MARGMI | 0 | 0 | =2 | 12.660 | 160.300 |
| LOADLI | 5 | 0 | =2 | 87.340 | 7628.000 |
| LOADLI | 12 | 0 | =2 | 78.710 | 6196.000 |
| LOADLI | 19 | 0 | =2 | 80.380 | 6461.000 |
| LOADLI | 24 | 0 | =2 | 72.410 | 5244.000 |
| BIGB | 1 | 1 | =2 | -13.610 | 185.400 |
| INCLM | 0 | 0 | MINABS | 1785.000 | 1785.000 |
Scale Lorentz Force for ANSYS¶
roxie.update_force2d_with_field_scaling(os.path.join(roxie.input_folder_rel_dir, 'roxie.force2d'),
os.path.join(roxie.input_folder_rel_dir, '../../mechanical/input/SM_CT_stiff_structure/roxie_scaled.force2d'),
abs(fom_dct['BIGB_1_1']),
mechanical_target_field)
!jupyter nbconvert --to html $'ROXIE.ipynb' --output $'ROXIE.html'
[NbConvertApp] Converting notebook ROXIE.ipynb to html
/Users/auchmann/opt/anaconda3/lib/python3.8/site-packages/nbconvert/filters/widgetsdatatypefilter.py:69: UserWarning: Your element with mimetype(s) dict_keys(['application/scrapbook.scrap.json+json']) is not able to be represented.
warn("Your element with mimetype(s) {mimetypes}"
[NbConvertApp] Writing 7981029 bytes to ROXIE.html
Save Figures of Merit as an Output¶
fom_dct['B_3_1'] = abs(fom_dct['B_3_1'])**2
fom_dct['B_5_1'] = abs(fom_dct['B_5_1'])**2
fom_dct['B_7_1'] = abs(fom_dct['B_7_1'])**2
fom_dct['INCLM_0_0'] = abs(fom_dct['INCLM_0_0'])
# margin calculation
#Bc = abs(fom_dct['BIGB_1_1'])/(1-fom_dct['MARGMI_0_0']/100.0)
#fom_dct['MARGMI_0_0'] = ((Bc-magnetic_target_field)/Bc)*100
fom_dct['BIGB_1_1'] = 1000/abs(fom_dct['BIGB_1_1'])**2
sb.glue('model_results', data=fom_dct, encoder='json')
#Bc = abs(fom_dct['BIGB_1_1'])/(1-fom_dct['MARGMI_0_0']/100.0)
pd.DataFrame.from_dict(fom_dct, orient='index')
| 0 | |
|---|---|
| B_3_1 | 19.140625 |
| B_5_1 | 57.229225 |
| B_7_1 | 100.200100 |
| MARGMI_0_0 | 12.660000 |
| LOADLI_5_0 | 87.340000 |
| LOADLI_12_0 | 78.710000 |
| LOADLI_19_0 | 80.380000 |
| LOADLI_24_0 | 72.410000 |
| BIGB_1_1 | 5.398632 |
| INCLM_0_0 | 1785.000000 |