*RLS_NO r10.2 * PRE_PROCESSING * MAKE_SYSTEM_MATRICES * 1 1 * SOLVE_EQUATION * POST_PROCESSING * 1 1 * STATIC * STEP * AC * TRANSIENT * DISPLACEMENT * NON_LINEAR * TEMP_DEPEND * STEADY_CURRENT* 0 0 0 1 2 1 0 0 * POTENTIAL * NODAL_FORCE_METHOD * PHI_OPTION * FIXED_COORDINATE * 2 0 1 0 * TREE_GAUGE * REGULARIZATION * RENUMBERING * SCALING * LINE_SEARCH * -1 1 0 0 1 * NODE_ORDER * EDGE_ORDER * METRIC_MOD * QUAD_TRI * CALC_IND * THIN_ELEM * 1 1 0 0 0 0 * ICCG_CONV * ACCEL_FACTOR * DIV_FACTOR * DIV_ITER * SOLVER * THETA * THETA_NETWORK * THETA_MOTION * 1e-008 1.05 100 100 0 0.6666667 0.5 0.5 * NON_LINERAR_CONV * RELAXATION * NO_ITERATIONS * INIT_OPTION * ICCG_CONV_RATIO * CHECK_B * 0.0001 1 20 0 0 0.01 * POINTS_IN_1D * POINT_IN_TRIANGLE * MAT_POINTS * 3 7 1 * INITIAL_STEP * DATA_TYPE * INITIAL_PHASE * MULTI * 0 1 0 0 * NO_STEPS * INITIAL_TIME(s) * DELTA_TIME(s)* NO_DATA * CYCLIC * N_CORRECT * 1225 0 6.53595e-005 1 0 0 * INITIAL_STEP * LAST_STEP * STEP_INTERVAL * TIME_DIFFERENCE * RESTART_FILE_OPTION * 1 1224 1 3 0 * INPUT_MESH_FILE * UNIT * NO_MESHES * MESHLESS * 5 1 2 0 * POST_DATA_FILE * ELEM_OUT * NODE_OUT *NUMBER_OUTPUT_MATS * AVERAGE * WIDE * SUF_OPTION * 0 1 0 0 0 0 0 * MESH * CURRENT * MAGNETIC * FORCE_J_B* FORCE_NODAL * DISPLACEMENT * ELEMENT * HEAT * MAGNETIZATION * 1 1 1 0 1 1 0 0 0 * MESH * A * V * B * B_INTEG * J_Q * 0 0 0 0 0 0 * Q_AVERAGE * HEAT * MAG_FLUX * CUR_FLUX * 0 0 0 0 * FORCE_J_B * FORCE_NODAL * MAGNETIC_ENERGY * IRON_LOSS * 0 1 0 0 * GEOMETRY * DELTA_Z(m) or DELTA_THETA(deg)* 1 0.042000 * COORDINATE * NO_COORDINATES * COORDINATE 0 * FAR_BOUNDARY_CONDITION * IMP_BOUNDARY * 0 * DISTANCE_JUDGE(m) * Distance for judgement (m) 1e-005 * NO_BN0_PLANES * 0 * NO_HT0_PLANES * 0 * NO_AT_LINES * 0 * CYCLIC * SYMMETRY * SLIDE_NDIV * SLIDE_MAT * FITNESS * LINE_INPUT * N_CYCLIC * 2 0 408 41 0.000000000 0 1 * ANGLE * 1.8000000e+002 * NO_MAT_IDS * EXTEND_TOTAL * NO_SMAT_IDS 33 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 3 0 1 0 5677 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 4 0 1 0 5677 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 6 0 0 0 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 7 0 0 0 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 11 0 0 0 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 12 0 0 0 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 13 0 0 0 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 14 0 0 0 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 15 0 0 0 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 16 0 0 0 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 17 0 0 0 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 18 0 0 0 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 19 0 0 0 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 20 0 0 0 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 21 0 0 0 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 22 0 0 0 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 51 0 0 2.9841e+007 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 52 0 0 2.9841e+007 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 53 0 0 2.9841e+007 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 54 0 0 2.9841e+007 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 55 0 0 2.9841e+007 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 56 0 0 2.9841e+007 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 57 0 0 2.9841e+007 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 58 0 0 2.9841e+007 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 59 0 0 2.9841e+007 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 60 0 0 2.9841e+007 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 61 0 0 2.9841e+007 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 62 0 0 2.9841e+007 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 63 0 0 2.9841e+007 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 64 0 0 2.9841e+007 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 65 0 0 2.9841e+007 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 66 0 0 2.9841e+007 1 1 0 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS 67 0 0 2.9841e+007 1 1 0 0 *SOURCES Definitions* SOURCE * ELMCUR * SERIES_NO * NO_MAT_IDS * OPTION * ELMCUR 1 4 1 * MAT_ID * IN_SURFACE * OUT_SURFACE * CURENT * SIGMA * 13 1 2 -888480 0 14 1 2 -888480 0 19 1 2 888480 0 20 1 2 888480 0 * ELMCUR * SERIES_NO * NO_MAT_IDS * OPTION * ELMCUR 2 4 1 * MAT_ID * IN_SURFACE * OUT_SURFACE * CURENT * SIGMA * 21 1 2 -888480 0 22 1 2 -888480 0 11 1 2 888480 0 12 1 2 888480 0 * ELMCUR * SERIES_NO * NO_MAT_IDS * OPTION * ELMCUR 3 4 1 * MAT_ID * IN_SURFACE * OUT_SURFACE * CURENT * SIGMA * 17 1 2 -888480 0 18 1 2 -888480 0 15 1 2 888480 0 16 1 2 888480 0 * SUFCUR * SERIES_NO * TIME_ID * SURFACE_MAT_ID * CURRENT * IN_ROTOR * SUFCUR 11 0 51 1 1 * SUFCUR * SERIES_NO * TIME_ID * SURFACE_MAT_ID * CURRENT * IN_ROTOR * SUFCUR 12 0 52 1 1 * SUFCUR * SERIES_NO * TIME_ID * SURFACE_MAT_ID * CURRENT * IN_ROTOR * SUFCUR 13 0 53 1 1 * SUFCUR * SERIES_NO * TIME_ID * SURFACE_MAT_ID * CURRENT * IN_ROTOR * SUFCUR 14 0 54 1 1 * SUFCUR * SERIES_NO * TIME_ID * SURFACE_MAT_ID * CURRENT * IN_ROTOR * SUFCUR 15 0 55 1 1 * SUFCUR * SERIES_NO * TIME_ID * SURFACE_MAT_ID * CURRENT * IN_ROTOR * SUFCUR 16 0 56 1 1 * SUFCUR * SERIES_NO * TIME_ID * SURFACE_MAT_ID * CURRENT * IN_ROTOR * SUFCUR 17 0 57 1 1 * SUFCUR * SERIES_NO * TIME_ID * SURFACE_MAT_ID * CURRENT * IN_ROTOR * SUFCUR 18 0 58 1 1 * SUFCUR * SERIES_NO * TIME_ID * SURFACE_MAT_ID * CURRENT * IN_ROTOR * SUFCUR 19 0 59 1 1 * SUFCUR * SERIES_NO * TIME_ID * SURFACE_MAT_ID * CURRENT * IN_ROTOR * SUFCUR 20 0 60 1 1 * SUFCUR * SERIES_NO * TIME_ID * SURFACE_MAT_ID * CURRENT * IN_ROTOR * SUFCUR 21 0 61 1 1 * SUFCUR * SERIES_NO * TIME_ID * SURFACE_MAT_ID * CURRENT * IN_ROTOR * SUFCUR 22 0 62 1 1 * SUFCUR * SERIES_NO * TIME_ID * SURFACE_MAT_ID * CURRENT * IN_ROTOR * SUFCUR 23 0 63 1 1 * SUFCUR * SERIES_NO * TIME_ID * SURFACE_MAT_ID * CURRENT * IN_ROTOR * SUFCUR 24 0 64 1 1 * SUFCUR * SERIES_NO * TIME_ID * SURFACE_MAT_ID * CURRENT * IN_ROTOR * SUFCUR 25 0 65 1 1 * SUFCUR * SERIES_NO * TIME_ID * SURFACE_MAT_ID * CURRENT * IN_ROTOR * SUFCUR 26 0 66 1 1 * SUFCUR * SERIES_NO * TIME_ID * SURFACE_MAT_ID * CURRENT * IN_ROTOR * SUFCUR 27 0 67 1 1 * NETWORK * REGION_FACTOR * NETWORK 2.000000 FEM 101 106 110 1 FEM 102 107 111 2 FEM 103 108 112 3 R 115 105 106 2.92 R 116 105 107 2.92 R 117 105 108 2.92 VPS 130 120 110 1 VPS 131 120 111 2 VPS 132 120 112 3 FEM 1 1 201 11 FEM 2 2 202 12 FEM 3 3 203 13 FEM 4 4 204 14 FEM 5 5 205 15 FEM 6 6 206 16 FEM 7 7 207 17 FEM 8 8 208 18 FEM 9 9 209 19 FEM 10 10 210 20 FEM 11 11 211 21 FEM 12 12 212 22 FEM 13 13 213 23 FEM 14 14 214 24 FEM 15 15 215 25 FEM 16 16 216 26 FEM 17 17 217 27 R 21 1 2 2.1e-005 R 22 2 3 2.1e-005 R 23 3 4 2.1e-005 R 24 4 5 2.1e-005 R 25 5 6 2.1e-005 R 26 6 7 2.1e-005 R 27 7 8 2.1e-005 R 28 8 9 2.1e-005 R 29 9 10 2.1e-005 R 30 10 11 2.1e-005 R 31 11 12 2.1e-005 R 32 12 13 2.1e-005 R 33 13 14 2.1e-005 R 34 14 15 2.1e-005 R 35 15 16 2.1e-005 R 36 16 17 2.1e-005 R 37 17 1 2.1e-005 R 41 201 202 2.1e-005 R 42 202 203 2.1e-005 R 43 203 204 2.1e-005 R 44 204 205 2.1e-005 R 45 205 206 2.1e-005 R 46 206 207 2.1e-005 R 47 207 208 2.1e-005 R 48 208 209 2.1e-005 R 49 209 210 2.1e-005 R 50 210 211 2.1e-005 R 51 211 212 2.1e-005 R 52 212 213 2.1e-005 R 53 213 214 2.1e-005 R 54 214 215 2.1e-005 R 55 215 216 2.1e-005 R 56 216 217 2.1e-005 R 57 217 201 2.1e-005 * END NETWORK * END END * NO_DATA * 4 * TIME_ID * OPTION * 1 2 * AMPLITUDE * TCYCLE * PHASE * 81.649 0.02 0 * TIME_ID * OPTION * 2 2 * AMPLITUDE * TCYCLE * PHASE * 81.649 0.02 -120 * TIME_ID * OPTION * 3 2 * AMPLITUDE * TCYCLE * PHASE * 81.649 0.02 -240 * TIME_ID * OPTION * 11 0 * C0 * C1 * C2 * C3 * C4 * C5 * C6 * 0 6750 0 0 0 0 0 * TEXP * TCYCLE * 0 0 * MOTION * NO_MOTION_DATA * MOTION 1 * MOTION_ID * X_TIME_ID * Y_TIME_ID * Z_TIME_ID * PHI_TIME_ID * COORD_ID 1 0 0 0 11 0 * GLOBAL_MOTION_ID * SUBERI_S * 1 0.00000000000000 * NO_BH_CURVES * 1 * BH_CURVE_ID * NO_DATA * 1 24 * H [A/m] * B [T] * 0.00000000 0.00000000 20.00000000 0.07000000 30.00000000 0.13000000 40.00000000 0.22000000 50.00000000 0.33000000 60.00000000 0.47000000 70.00000000 0.61000000 80.00000000 0.73000000 90.00000000 0.82000000 100.00000000 0.88000000 150.00000000 1.07000000 200.00000000 1.16000000 300.00000000 1.28000000 400.00000000 1.34000000 500.00000000 1.38000000 700.00000000 1.44000000 1000.00000000 1.48000000 2000.00000000 1.56000000 4000.00000000 1.64000000 7000.00000000 1.73000000 10000.00000000 1.78000000 20000.00000000 1.90000000 40000.00000000 2.02000000 835774.70000000 3.02000000