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FEM vs PyOM comparison — all MAS test cases

Generated by scripts/compare_all.py on 151 MAS files (98 ok, 1 err, 52 skipped).

Improvements summary (2026-04-17)

Five commits on top of 2824e74:

  • a2de669 — route rectangular-post E-cores (E/EL/EFD/U/C) through Cartesian 2D instead of axisymmetric; all Cartesian runs use the stranded SIF writer (fixes ZMUMPS -10 on circuit matrix); flux-linkage integrator applies _plus/_minus body sign.
  • 162e993resolve_core interpolates μ(f) from permeability.complex.real (log-frequency linear).
  • 915380b — residual-gap reluctance correction rewritten as direct magnetic-circuit model (the previous PyOM-based correction was a silent no-op because the PyOM function reads processedDescription, not the gapping list); bSolver vector b re / b im format detection added (B_peak / P_core extraction was silently returning 0).
  • 8fe7e50 — μ(f) < 1 falls back to DC μ_i (past-Snoek unphysical negatives); gap correction filtered to type == "residual" (non-residual gaps are already in MVB geometry, so correcting for them double-counted the reluctance).
  • 5c158b4 — reject permeability.complex.real data when it disagrees with initial μ_i by > 2× (some materials, notably Kool Mu "98", ship amplitude-dependent permeability curves instead of small-signal μ(f), which silently collapsed L by ~20×).

Stats — before → after

Metric Pre-fixes Post-fixes
ok / err 84 / 15 98 / 1
L-ratio median 0.451 0.784
L-ratio geomean 0.286 0.570
within 20% (0.80–1.25) 10/79 (13%) 31/93 (33%)
within 50% (0.50–2.00) 35/79 (44%) 60/93 (65%)
within 2× (0.33–3.00) 44/79 (56%) 74/93 (80%)

14 previously-failing cases recovered; 0 new failures. Within-20% rate more than doubled; within-2× rate now 80%.

Hero case: Test_Winding_Losses_Eight_Turns_Round_Sinusoidal_Rectangular_Column

E 4 core, 3C97 ferrite, 8 turns, 1 MHz, 5 µm residual gaps. L ratio 4.882 → 1.024.

The trail of fixes here exercises every commit: rect-post Cartesian (geometry), stranded writer (solver stability), μ(f) interpolation (material model), residual-gap reluctance correction (magnetic-circuit), B-field extraction (postprocess). Ungapped-ferrite analytic value for this core is 51.29 µH; FEM with the gap correction computes 10.78 µH vs PyOM 10.51 µH.

Top 12 improved L ratios

File pre post Δ
Test_Winding_Losses_Eight_Turns_..._Rectangular_Column 4.882 1.024 −3.858
no_losses_acme.json 2.826 1.206 −1.620
simple_planar_5_to_1.json 0.070 1.041 −0.890
planar_transformer_complex.json 0.086 1.126 −0.788
simple_planar_imperfect_overlapping.json 0.087 1.161 −0.752
simba_0_length_gap.json 0.053 0.803 −0.750
simple_planar.json 0.088 1.168 −0.744
bug_capacitance_error_4.json 1.976 1.257 −0.719
planar_advise_full_mas_high_current.json 0.057 0.714 −0.657
direct_planar_wire.json 0.279 0.928 −0.650
OM Oyang paper example.json 1.829 0.754 −0.583
test_mas_autocomplete_json_2_548.json 1.595 1.036 −0.558

Recovered from FEM error (14)

bug_rectangular_toroidal_core, bug_toroidal_one_turn_h_field, catalogue_missing_turns, concentric_round_wire_centered_multilayer, concentric_round_wire_full_layer, concentric_round_wire_simple, concentric_round_wire_spread_multilayer, custom_magnetic, dont_worry_this_is_just_a_dummy_mas, forward.mas, negative_losses, test_coiladviser_web_6_2122, toroidal_inductor_rectangular_wires, toroidal_inductor_round_wire_multilayer.

Remaining regressions (next-session focus)

File pre post Δ
slow_simulation.json 0.502 2.533 +1.036
toroidal_inductor_round_wire_multilayer_with_insulation 0.054 2.381 +0.435
bug_coil_compacting.json 0.826 0.600 +0.227
huge_losses.json 0.775 1.424 +0.200
Test_Winding_Losses_Sixteen_Turns_Planar_No_Fringing 0.638 0.496 +0.141

The two large-magnitude regressions (slow_simulation, toroidal_insulation) both lift L past 1.0 — likely benefited too aggressively from the complex-μ interpolation (before 5c158b4) and now need the reverse guard (reject when complex > initial by > 2× — currently only asymmetric at the low end). Planar sixteen-turn: 2D Cartesian still underestimates — proximity-effect coupling edge case.

Still open (orthogonal): Phase 2 toroid RZ physics mismatch, P_core eddy on stranded single-winding path.

Summary statistics

L ratio (FEM/PyOM): n=93, median=0.784, geo-mean=0.570, within 20%: 31/93 (33%), within 50%: 43/93, within 2×: 60/93

P_cu ratio (FEM/PyOM): n=90, median=1.265, geo-mean=0.654, within 20%: 8/90 (9%), within 50%: 27/90, within 2×: 39/90

Full table

Ratio = FEM/PyOM. Values mean missing or zero.

# File L_m FEM L_pp PyOM L ratio P_cu FEM P_cu PyOM P_cu ratio P_core FEM P_core PyOM B_peak FEM
1 220kW_trafo.json 0.000346 H 0.000349 H 0.993 7.48e+04 W 1.36e+03 W 54.963 9.52 W 32.7 W 0.2 T
2 220kW_trafo_diffreent_wire_diameter.json 0.000345 H 0.000348 H 0.990 2.34e+05 W 1.18e+04 W 19.759 9.51 W 32.7 W 0.2 T
3 EQ41_solo3khz.json 2.3e-05 H 2.91e-05 H 0.791 1.19 W 1.25 W 0.951 1.19 W 0.825 T
4 Error_inductance_with_Csv.json 2.84e-05 H 3.63e-05 H 0.784 52.7 W 9.25 W 5.703 0.154 W 0.492 W 0.0415 T
5 LLC_trafo_first.json 0.00115 H 0.00105 H 1.092 32.9 W 14.9 W 2.209 0.482 W 3.58 W 0.075 T
6 OM Oyang paper example.json 0.000523 H 0.000693 H 0.754 43 W 3.07 W 14.031 0.795 W 1.44 W 0.0902 T
7 PFC_Inputs.mas.json
8 Test_Winding_Losses_Eight_Turns_Round_Sinusoidal 1.08e-05 H 1.05e-05 H 1.024 0.0236 W 0.12 W 0.197 12.7 W 22.5 W 1.23 T
9 Test_Winding_Losses_One_Turn_Planar_Sinusoidal_F 5.22e-08 H 3.13e-07 H 0.167 395 W 128 W 3.075 13.4 W 584 W 0.262 T
10 Test_Winding_Losses_One_Turn_Planar_Sinusoidal_N 8.47e-06 H 1.92e-05 H 0.441 69 W 97.7 W 0.706 4.4e+06 W 1.14e+07 W 50.8 T
11 Test_Winding_Losses_One_Turn_Rectangular_Sinusoi 5.98e-08 H 1.14e-07 H 0.523 5.58e+03 W 2.22e+03 W 2.518 1.42e+03 W 1.78e+04 W 0.573 T
12 Test_Winding_Losses_One_Turn_Rectangular_Sinusoi 9.58e-06 H 5.22e-06 H 1.837 0.00212 W 0.0027 W 0.787 20.3 W 10.7 W 0.0791 T
13 Test_Winding_Losses_One_Turn_Round_Sinusoidal.js 2.93e-06 H 2.43e-06 H 1.202 0.00347 W 0.0045 W 0.771 0.427 W 0.638 W 0.0449 T
14 Test_Winding_Losses_One_Turn_Round_Sinusoidal_Fr 4.81e-08 H 5.92e-08 H 0.813 255 W 1.63e+08 W 0.000 2.2 W 16.4 W 0.404 T
15 Test_Winding_Losses_One_Turn_Round_Sinusoidal_Fr 5.81e-08 H 5.92e-08 H 0.981 217 W 3.31e+07 W 0.000 3.75 W 16.4 W 0.477 T
16 Test_Winding_Losses_Sixteen_Turns_Planar_Sinusoi 4.11e-08 H 3.13e-07 H 0.131 135 W 6.41e+03 W 0.021 0.527 W 44.2 W 0.241 T
17 Test_Winding_Losses_Sixteen_Turns_Planar_Sinusoi 5.45e-08 H 3.13e-07 H 0.174 100 W 1.57e+03 W 0.064 0.869 W 44.2 W 0.275 T
18 Test_Winding_Losses_Sixteen_Turns_Planar_Sinusoi 9.53e-06 H 1.92e-05 H 0.496 154 W 2.7e+03 W 0.057 5.96e+06 W 1.13e+07 W 57.5 T
19 Test_Winding_Losses_Sixteen_Turns_Planar_Sinusoi 1.04e-05 H 1.92e-05 H 0.541 63.4 W 53.7 W 1.181 3.51e+07 W 1.25e+07 W 60.2 T
20 Test_Winding_Losses_Ten_Turns_Round_Sinusoidal.j 6.42e-07 H 1.97e-05 H 0.033 0.147 W 0.164 W 0.896 0.00331 W 35.8 W 0.0604 T
21 Test_Winding_Losses_Twelve_Turns_Round_Sinusoida 9.64e-07 H 2.83e-05 H 0.034 0.187 W 0.179 W 1.049 0.00651 W 55.4 W 0.078 T
22 Test_Winding_Losses_Twelve_Turns_Round_Sinusoida 2.68e-07 H 7.12e-06 H 0.038 0.0851 W 0.142 W 0.600 0.00158 W 2.15e-15 W 0.0582 T
23 Test_Winding_Losses_Twelve_Turns_Round_Sinusoida 2.67e-07 H 7.12e-06 H 0.037 0.0899 W 0.137 W 0.656 0.00177 W 2.15e-15 W 0.056 T
24 Test_Winding_Losses_Twelve_Turns_Round_Sinusoida 5.31e-05 H 0.15 W 0.461 W 0.325 98.6 W 3.76e-16 W 0.921 T
25 buck_inductor one layer.json 3.15e-06 H 5.03e-06 H 0.627 0.0768 W 0.114 W 0.674 0.00238 W 0.022 T
26 buck_inductor three layers.json 2.85e-05 H 4.53e-05 H 0.629 0.267 W 0.38 W 0.703 0.0275 W 0.0651 T
27 buck_inductor two layers.json 1.26e-05 H 2.01e-05 H 0.627 0.166 W 0.241 W 0.688 0.0112 W 0.0438 T
28 bug_capacitance_error.json 6.05e-06 H 1.45e-05 H 0.417 2.79 W 0.266 W 10.481 0.0169 W 0.153 W 0.155 T
29 bug_capacitance_error_2.json 0.0183 H 0.0172 H 1.064 0.641 W 0.906 W 0.707 9.21e+03 W 0.0491 W 2.86 T
30 bug_capacitance_error_3.json 0.000404 H 0.000443 H 0.912 6.36 W 2.08 W 3.054 0.101 W 1.71 W 0.089 T
31 bug_capacitance_error_4.json 9.49e-06 H 7.55e-06 H 1.257 0.00271 W 1.33 W 0.002 1.64e+07 W 7.74 W 206 T
32 bug_coil_compacting.json 6.66e-07 H 1.11e-06 H 0.600 0.135 W 1.43 W 0.094 0.242 W 88.6 W 0.208 T
33 bug_coil_compacting_2.json 7.03e-06 H 7.74e-06 H 0.908 0.00837 W 6.2 W 0.001 171 W 0.0668 T
34 bug_contiguous.json 1.8e-05 H 2.37e-05 H 0.756 4.9 W 0.681 W 0.494 W 0.039 T
35 bug_empty_field.json 0.000964 H 0.00109 H 0.887 90.2 W 6.72 W 13.424 2.26 W 0.467 T
36 bug_nan_losses_per_turn.json 0.000806 H 0.000814 H 0.991 8.37 W 1.71 W 4.883 25 W 32.2 W 0.494 T
37 bug_rectangular_toroidal_core.json 5.53e-06 H 2.93e-05 H 0.189 0.0715 W 0.13 W 0.549 0.198 T
38 bug_toroidal_one_turn_h_field.json 5.61e-06 H 5.64e-06 H 0.996 0.00648 W 0.00749 W 0.865 1.14e-05 W 2.7 T
39 bug_toroidal_several_turns_e_field.json 0.00183 H 0.00138 H 1.329 4.15 W 2.71 W 1.529 0.0315 W 0.832 W 0.058 T
40 bug_unstable_leakage.json 6.7e-06 H 5.3e-05 H 0.126 19.4 W 12.6 W 1.542 26.5 W 5.26 W 0.609 T
41 bug_winding_losses_sweep.json 9.31e-05 H 0.000126 H 0.742 11.8 W 0.00249 W 0.122 W 0.0488 T
42 calculate_leakage_inductance_for_a_planar_magnet
43 calculate_leakage_inductance_for_a_planar_magnet
44 calculate_leakage_inductance_for_a_planar_magnet
45 catalogue_missing_turns.json 1.1e-05 H 1.45e-05 H 0.761 4.36 W 3.91 W 1.115 31.1 W 3.55 W 0.927 T
46 cmc_impedance_bug.json 0.00121 H 0.0012 H 1.010 0.125 W 1.56 W 0.080 4.79e-06 W 0.194 T
47 concentric_flyback_rectangular_column.json 5.38e-05 H 6.47e-05 H 0.832 1.26 W 3.36 W 0.375 0.0366 W 3.97 W 0.0583 T
48 concentric_litz_foil.json 9.05e-05 H 0.000167 H 0.541 3.35 W 0.277 W 12.113 0.181 W 5.48 W 0.219 T
49 concentric_planar.json 1.46e-05 H 2.93e-05 H 0.499 16.7 W 2.3 W 7.274 0.0261 W 0.22 W 0.14 T
50 concentric_round_wire_centered_multilayer.json 0.00176 H 0.000869 H 2.021 1.74 W 1.27 W 1.369 0.624 W 0.276 T
51 concentric_round_wire_full_layer.json 8.71e-05 H 4.41e-05 H 1.975 0.295 W 0.231 W 1.276 0.0307 W 0.0623 T
52 concentric_round_wire_insulation_layers.json 3.62e-05 H 9.03e-05 H 0.401 1.38 W 0.756 W 1.821 0.396 W 6.02 W 0.407 T
53 concentric_round_wire_insulation_layers_simple.j 4.79e-06 H 3.13e-06 H 1.529 0.00704 W 0.0862 W 0.082 125 W 4.21e+03 W 2.82 T
54 concentric_round_wire_simple.json 7.16e-07 H 2.82e-07 H 2.537 0.00989 W 0.00747 W 1.325 0.000186 W 0.00565 T
55 concentric_round_wire_spread_multilayer.json 0.00173 H 0.000869 H 1.987 1.7 W 1.27 W 1.338 0.624 W 0.272 T
56 concentric_transformer.json 0.000842 H 0.000743 H 1.134 0.429 W 0.183 W 2.344 0.0289 W 1.25 W 0.0475 T
57 concentric_transformer_contiguous_rectangular_wi 5.58e-05 H 8.09e-05 H 0.690 23.2 W 5.1 W 4.550 0.0392 W 3.97 W 0.0596 T
58 custom_magnetic.json 5.53e-06 H 2.93e-05 H 0.189 0.0715 W 0.13 W 0.549 0.198 T
59 direct_planar.json 4.11e-05 H 9.92e-05 H 0.414 3.58 W 0.144 W 24.819 3.88 W 24.8 W 1.01 T
60 direct_planar_wire.json 0.000102 H 0.00011 H 0.928 8.2 W 5.09 W 1.611 1.52 W 2.78 W 0.273 T
61 dont_worry_this_is_just_a_dummy_mas.json 2.08e-05 H 2.6e-05 H 0.800 0.00245 W 0.38 W 0.006 4.82e-05 W 0.176 W 0.0151 T
62 error_C_shape.json 2.68e-09 H 0.0067 W 7.62e-11 W
63 error_paint_field.json 0.000226 H 0.000138 H 1.638 1.9 W 0.665 W 2.862 2.3 W 1.32 W 0.309 T
64 example_basic.json 1.17e-06 H 0.00247 W 5.14e-07 W 0.00132 T
65 fast_adviser_flyback_65W_bug.json
66 fast_adviser_llc_300W_segfault.json
67 fast_adviser_llc_300W_segfault_input.json
68 fast_adviser_llc_lm_zero.json
69 forward.mas.json 0.000422 H 0.000128 H 3.292 1.25 W 0.0578 W 0.735 W 0.022 T
70 huge_losses.json 0.000302 H 0.000212 H 1.424 2.56 W 1.13 W 2.272 0.271 W 0.249 W 0.16 T
71 ladder_planar.json 7.49e-05 H 0.000192 H 0.390 0.161 W 0.371 W 0.433 0.232 W 0.342 W 0.452 T
72 leakage_inductance_planar.json 2.71e-05 H 3.3e-05 H 0.820 0.297 W 0.14 W 2.112 0.00299 W 0.0057 W 0.0871 T
73 low_filling_inductor.json 7.97e-05 H 0.000143 H 0.559 0.22 W 0.365 W 0.603 61.5 W 175 W 1.47 T
74 low_filling_transformer.json 0.00122 H 0.0021 H 0.578 0.0313 W 0.374 W 0.084 4.28 W 3.31 W 0.466 T
75 magnetic_adviser_flyback_bug.json
76 magnetic_adviser_inductor_bug.json
77 mas_autocomplete_bug.json 0.00122 H 0.0021 H 0.578 0.0306 W 0.0749 W 0.409 4.28 W 3.31 W 0.466 T
78 negative_losses.json 1.04e-05 H 8.67e-06 H 1.201 59.5 W 3.33e+07 W 0.000 6.19 W 0.0894 T
79 no_losses_acme.json 0.00946 H 0.00784 H 1.206 21.6 W 1.03e-06 W 0.0485 T
80 planar_10_layers.json 2.59e-06 H 9.44e-05 H 0.027 0.165 W 0.0139 W 11.884 289 W 5.34 W 3.33 T
81 planar_advise.json
82 planar_advise_from_mas_inputs.json
83 planar_advise_full_mas.json 2.67e-06 H 9.43e-05 H 0.028 0.638 W 0.0316 W 20.179 264 W 5.34 W 3.22 T
84 planar_advise_full_mas_high_current.json 6.74e-05 H 9.44e-05 H 0.714 15.4 W 1.48 W 10.424 23.1 W 5.34 W 2.91 T
85 planar_advise_inputs_only.json
86 planar_fringing_losses.json 1.09e-05 H 4.04e-05 H 0.269 1.48 W 1.12 W 1.320 0.318 W 5.38 W 0.286 T
87 planar_leakage_inductance.json 2.71e-05 H 3.3e-05 H 0.820 0.297 W 0.14 W 2.112 0.00299 W 0.0057 W 0.0871 T
88 planar_proximity_losses_1.json 6.71e-06 H 5.3e-05 H 0.127 15.9 W 12.6 W 1.265 26.4 W 5.26 W 0.609 T
89 planar_proximity_losses_2.json 6.71e-06 H 5.3e-05 H 0.127 20.3 W 12.6 W 1.614 26.7 W 5.26 W 0.609 T
90 planar_proximity_losses_3.json 6.68e-06 H 5.3e-05 H 0.126 18.9 W 12.6 W 1.506 26.6 W 5.26 W 0.61 T
91 planar_transformer_complex.json 0.000161 H 0.000143 H 1.126 0.846 W 0.578 W 1.464 0.0846 W 3.23 W 0.114 T
92 planar_with_csv.json 3.68e-06 H 3.36e-05 H 0.110 23.8 W 10.9 W 2.188 37.3 W 3.95 W 0.482 T
93 process_converter_llc_segfault.json
94 simba_0_length_gap.json 0.000393 H 0.000489 H 0.803 0.419 W 0.297 W 1.411 1.54e+03 W 6.64e+03 W 6.24 T
95 simple_flyback.json 0.0014 H 7.51e+04 W 0.0266 W 1.31e+05 W 0.0219 T
96 simple_forward.json 0.0014 H 7.51e+04 W 0.0266 W 1.13 W 0.0219 T
97 simple_inductor.json 9.1e-05 H 9.63e-05 H 0.945 18.1 W 1.21 W 14.980 1.88 W 2.73 W 0.574 T
98 simple_planar.json 8.54e-05 H 7.32e-05 H 1.168 1.21 W 1.01 W 1.197 0.204 W 8.12 W 0.15 T
99 simple_planar_5_to_1.json 7.61e-05 H 7.32e-05 H 1.041 2.37 W 0.523 W 4.527 0.325 W 8.12 W 0.451 T
100 simple_planar_imperfect_overlapping.json 8.52e-05 H 7.34e-05 H 1.161 1.54 W 0.606 W 2.537 0.209 W 8.12 W 0.162 T
101 simplest_leakage_inductance_planar.json 1.06e-07 H 8.29e-07 H 0.128 1.96 W 13.3 W 0.147 2.81e+04 W 8.8e+03 W 4.91 T
102 simplest_transformer.json 2.25e-06 H 4e-06 H 0.564 0.000314 W 0.0487 W 0.006 2.75e-05 W 4.69e+03 W 0.00266 T
103 slow_simulation.json 0.0153 H 0.00604 H 2.533 2.64 W 1.45 W 1.818 0.0229 W 0.0488 T
104 test_catalogueadviser_web_1_2218.json
105 test_catalogueadviser_web_2_2241.json
106 test_catalogueadviser_web_3_2256.json
107 test_catalogueadviser_web_5_2310.json
108 test_circuitsimulatorexporter_simba_json_87.json
109 test_circuitsimulatorexporter_simba_json_ep_core
110 test_circuitsimulatorexporter_simba_json_toroida
111 test_circuitsimulatorexporter_simba_json_ur_74.j
112 test_coil_json_10_359.json
113 test_coil_json_5_180.json
114 test_coil_json_8_282.json
115 test_coil_magnetic_field_painter_web_0.json
116 test_coil_magnetic_field_painter_web_0_609.json
117 test_coil_painter_web_1_1429.json
118 test_coil_painter_web_2_1446.json
119 test_coil_painter_web_3_1473.json
120 test_coil_painter_web_4_1493.json
121 test_coil_painter_web_4_1494.json
122 test_coil_painter_web_5_1513.json
123 test_coil_painter_web_6_1530.json
124 test_coiladviser_random_17_1964.json 3.46e-05 H 3.37e-05 H 1.029 0.0672 W 0.0967 W 0.694 0.000116 W 46.2 W 0.00815 T
125 test_coiladviser_web_3_2049.json
126 test_coiladviser_web_4_2064.json 3.53e-05 H 8.12e-05 H 0.435 0.296 W 2.13 W 0.139 1.37 W 12.4 W 0.422 T
127 test_coiladviser_web_5_2093.json 0.00198 H 0.00466 H 0.424 11.2 W 8.6 W 1.305 0.0034 W 0.0466 W 0.0677 T
128 test_coiladviser_web_6_2122.json 2.83e-05 H 4.53e-05 H 0.626 0.0899 W 0.116 W 0.772 0.0275 W 0.066 T
129 test_coreadviser_web_7_1006.json
130 test_coreadviser_web_8_1070.json
131 test_coreadviser_web_9_1162.json
132 test_field_painter_web_0_3410.json
133 test_field_painter_web_1_3429.json
134 test_field_painter_web_3_3469.json
135 test_inductance_bug_web_0_1009.json
136 test_kool_mu_ultra_60_2563.json
137 test_magneticadviser_web_0_844.json
138 test_magneticadviser_web_4_906.json
139 test_magneticadviser_web_5_922.json
140 test_magneticadviser_web_6_946.json
141 test_mas_autocomplete_json_2_548.json 0.00355 H 0.00343 H 1.036 0.511 W 0.154 W 3.326 12.9 W 0.387 T
142 test_microsign_encoding.json 4.33e-05 H 9.17e-05 H 0.473 8.3 W 1.14 W 7.254 6.16 W 45.1 W 1.06 T
143 test_npf_26_2589.json
144 test_simulator_web_0_1084.json
145 test_simulator_web_1_1095.json
146 test_simulator_web_1_1096.json
147 test_sweeper_winding_losses_over_frequency_web_1
148 toroidal_inductor_rectangular_wires.json 8.66e-05 H 8.24e-05 H 1.051 7.27 W 9.23 W 0.788 677 W 0.705 T
149 toroidal_inductor_round_wire_multilayer.json 0.00157 H 0.0015 H 1.047 1.52 W 1.46 W 1.047 1.12 W 0.222 T
150 toroidal_inductor_round_wire_multilayer_with_ins 0.0484 H 0.0203 H 2.381 2.08 W 4.4 W 0.474 3.07e+06 W 49.2 T
151 turns_misaligned.json 1.15e-05 H 0.0406 W 5.71e+03 W 2.03e+03 W 4.91 T

Errors / skips

  • PFC_Inputs.mas.json: FEM skip
  • Test_Winding_Losses_Twelve_Turns_Round_Sinusoidal_No_Interleaving_2.json: PyOM L err: 'magnitude'
  • calculate_leakage_inductance_for_a_planar_magnetic_from_the_web_2_643.json: FEM skip
  • calculate_leakage_inductance_for_a_planar_magnetic_from_the_web_2_644.json: FEM skip
  • calculate_leakage_inductance_for_a_planar_magnetic_from_the_web_631.json: FEM skip
  • error_C_shape.json: FEM error
  • example_basic.json: PyOM L err: 'magnitude' | PyOM core err: [INVALID_BOBBIN_DATA] Unknown bobbin family, avail
  • fast_adviser_flyback_65W_bug.json: FEM skip
  • fast_adviser_llc_300W_segfault.json: FEM skip
  • fast_adviser_llc_300W_segfault_input.json: FEM skip
  • fast_adviser_llc_lm_zero.json: FEM skip
  • magnetic_adviser_flyback_bug.json: FEM skip
  • magnetic_adviser_inductor_bug.json: FEM skip
  • planar_advise.json: FEM skip
  • planar_advise_from_mas_inputs.json: FEM skip
  • planar_advise_inputs_only.json: FEM skip
  • process_converter_llc_segfault.json: FEM skip
  • simple_flyback.json: PyOM L err: 'magnitude'
  • simple_forward.json: PyOM L err: 'magnitude'
  • test_catalogueadviser_web_1_2218.json: FEM skip
  • test_catalogueadviser_web_2_2241.json: FEM skip
  • test_catalogueadviser_web_3_2256.json: FEM skip
  • test_catalogueadviser_web_5_2310.json: FEM skip
  • test_circuitsimulatorexporter_simba_json_87.json: FEM skip
  • test_circuitsimulatorexporter_simba_json_ep_core_113.json: FEM skip
  • test_circuitsimulatorexporter_simba_json_toroidal_core_100.json: FEM skip
  • test_circuitsimulatorexporter_simba_json_ur_74.json: FEM skip
  • test_coil_json_10_359.json: FEM skip
  • test_coil_json_5_180.json: FEM skip
  • test_coil_json_8_282.json: FEM skip
  • test_coil_magnetic_field_painter_web_0.json: FEM skip
  • test_coil_magnetic_field_painter_web_0_609.json: FEM skip
  • test_coil_painter_web_1_1429.json: FEM skip
  • test_coil_painter_web_2_1446.json: FEM skip
  • test_coil_painter_web_3_1473.json: FEM skip
  • test_coil_painter_web_4_1493.json: FEM skip
  • test_coil_painter_web_4_1494.json: FEM skip
  • test_coil_painter_web_5_1513.json: FEM skip
  • test_coil_painter_web_6_1530.json: FEM skip
  • test_coiladviser_web_3_2049.json: FEM skip
  • test_coreadviser_web_7_1006.json: FEM skip
  • test_coreadviser_web_8_1070.json: FEM skip
  • test_coreadviser_web_9_1162.json: FEM skip
  • test_field_painter_web_0_3410.json: FEM skip
  • test_field_painter_web_1_3429.json: FEM skip
  • test_field_painter_web_3_3469.json: FEM skip
  • test_inductance_bug_web_0_1009.json: FEM skip
  • test_kool_mu_ultra_60_2563.json: FEM skip
  • test_magneticadviser_web_0_844.json: FEM skip
  • test_magneticadviser_web_4_906.json: FEM skip
  • test_magneticadviser_web_5_922.json: FEM skip
  • test_magneticadviser_web_6_946.json: FEM skip
  • test_mas_autocomplete_json_2_548.json: PyOM core err: [INVALID_WIRE_DATA] Missing wire outer width
  • test_npf_26_2589.json: FEM skip
  • test_simulator_web_0_1084.json: FEM skip
  • test_simulator_web_1_1095.json: FEM skip
  • test_simulator_web_1_1096.json: FEM skip
  • test_sweeper_winding_losses_over_frequency_web_1_955.json: FEM skip
  • turns_misaligned.json: PyOM L err: 'magnitude'