.. DO NOT EDIT. .. THIS FILE WAS AUTOMATICALLY GENERATED BY SPHINX-GALLERY. .. TO MAKE CHANGES, EDIT THE SOURCE PYTHON FILE: .. "gen/examples/running_roxie/input_file_handling.py" .. LINE NUMBERS ARE GIVEN BELOW. .. only:: html .. note:: :class: sphx-glr-download-link-note :ref:`Go to the end ` to download the full example code. .. rst-class:: sphx-glr-example-title .. _sphx_glr_gen_examples_running_roxie_input_file_handling.py: Update Input files before execution =================================== This snippet calls executes roxie, overwriting input files set in the datafile with local files Download Input files * :download:`dipole_iron.data <../../../../../examples/input_files/dipole_iron.data>` * :download:`roxie.cadata <../../../../../examples/input_files/roxie.cadata>` * :download:`roxie.bhdata <../../../../../examples/input_files/roxie.bhdata>` * :download:`dipole_iron.iron <../../../../../examples/input_files/dipole_iron.iron>` .. GENERATED FROM PYTHON SOURCE LINES 17-21 Executing roxie ---------- Set up paths, datafile and execute Roxie as a process .. GENERATED FROM PYTHON SOURCE LINES 21-38 .. code-block:: Python import pathlib import tempfile from roxieapi.tool_adapter.RoxieToolAdapter import TerminalRoxieToolAdapter input_files = [ pathlib.Path("../input_files/dipole_iron.data"), pathlib.Path("../input_files/roxie.cadata"), pathlib.Path("../input_files/roxie.bhdata"), pathlib.Path("../input_files/dipole_iron.iron"), ] runner = TerminalRoxieToolAdapter(input_files=input_files, run_in_tmp_folder=True) result = runner.run() print(f"Run executed with return code {result}") .. rst-class:: sphx-glr-script-out .. code-block:: none Run executed with return code 0 .. GENERATED FROM PYTHON SOURCE LINES 39-41 Check output and errors ------------- .. GENERATED FROM PYTHON SOURCE LINES 41-45 .. code-block:: Python print(runner.output) .. rst-class:: sphx-glr-script-out .. code-block:: none WORKING DIRECTORY : . DATA FILE : dipole_iron.data CADATA FILE : /builds/roxie/roxie-api/examples/running_roxie/../input_files/roxie.cadata BHDATA FILE : /builds/roxie/roxie-api/examples/running_roxie/../input_files/roxie.bhdata IRON FILE : /builds/roxie/roxie-api/examples/running_roxie/../input_files/dipole_iron.iron USE DIRECT HMO FILE : 0 HMO FILE PATH : RRRRRRRRRRR OOOOOOOOO XX XXXX IIII EEEEEEEE RRR RRR OOO OOO XXX XXXX IIII EEEE RRR RRR OOO OOO XXX XXX IIII EEEE RRRRRRRRR OOO OOO XXXXX IIII EEEEEEE RRR RRR OOO OOO XXXXXX IIII EEEE RRR RRR OOO OOO XXXX XXX IIII EEEE RRR RRR OOOOOOOOO XXXX XXX IIII EEEEEEEEE 23.6 Routine for the Optimization of magnet X - sections, Inverse field calculation and coil End design VERS.22, UPDATE 0.1, 2022 (C) BY STEPHAN RUSSENSCHUCK, B. AUCHMANN, M. ALEKSA, M. BONORA, P. HAGEN, S. IZQUIERDO BERMUDEZ, M. LEWIN, R. DE MARIA, S. RAMBERGER, N. SCHWERG, C. VOLLINGER CERN, 1211 GENEVA 23, SWITZERLAND MAIL: stephan.russenschuck@cern.ch matthias.bonora@cern.ch ROXIE HOME PAGE: http://cern.ch/roxie Git commit hash: 25.1.0.b1 DATE ............................................... 7. 3.2025 TIME ............................................... 10.29 Transient plots deactivated, but No Optimization. Changing flag... Device plots deactivated, but no optimization, transient or quench simulation running. Changing flag... INITIAL DATA BEFORE APPLYING SYMMETRY ON BLOCK GROUPS NUMBER OF BLOCKS ..................................... 6 NUMBER OF 2D CONDUCTORS .............................. 40 NUMBER OF 2D STRANDS (LINE CURRENTS) ................. 1320 MAX NUMBER OF CUTS IN Z-DIRECTION .................... 22 HIGHEST ORDER MULTIPOLE .............................. 20 COMMENT: Dipole cross-section NUMBER OF DESIGN VARIABLES FOR THE OPTIMIZATION .... 3 LOWER UPPER START TYPE 20.0000 25.0000 22.0000 PHI 45.0000 50.0000 47.0000 PHI 64.0000 70.0000 66.0000 PHI NUMBER OF OBJECTIVES AND CONSTRAINTS ............... 3 OBJECTIVE IOBJ1 IOBJ2 QUALIFIER CONSTRAINT WEIGHTINGFAC B 3 1 MIN2 0.0000 1.0000 B 5 1 MIN2 0.0000 5.0000 B 7 1 MIN2 0.0000 10.0000 NUMBER OF BLOCK .................................... 1 WITHIN BLOCK GROUP ................................. 1 NUMBER OF CONDUCTORS ............................... 9 POSITIONING ANGLE (DEG) ............................ 0.1570 INCLINATION ANGLE (DEG) ............................ 0.0000 CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 12000.0000 INNER RADIUS OF THE BLOCK (MM)...................... 43.9000 CABLE HEIGHT (MM).(INSULATED) ...................... 15.4000 CABLE INNER WIDTH (MM).(INSULATED) ................. 1.6197 CABLE OUTER WIDTH (MM).(INSULATED) ................. 1.8604 CABLE HEIGHT (MM).(BARE) ........................... 15.1000 CABLE INNER WIDTH (MM).(BARE) ...................... 1.3620 CABLE OUTER WIDTH (MM).(BARE) ...................... 1.5980 RADIAL INSULATION THICKNESS (MM).................... 0.1500 AZIMUTHAL INSULATION THICKNESS (MM)................. 0.1300 NUMBER OF STRANDS .................................. 36 DIAMETER OF STRANDS (MM)............................ 0.8250 CU/SC RATIO ........................................ 1.9000 RESIDUAL RESISTIVITY RATIO.......................... 80.0000 TEMPERATURE AT WHICH JC AND DJC ARE GIVEN (K) ...... 1.9000 LINEAR APPROXIMATION JC( 9.0 T) (A/MM**2)........... 1953.000 LINEAR APPROXIMATION DJC/DB (A/MM**2 T)............. 550.030 CABLING ANGLE (DEG) ................................ 1.421 NUMBER OF DISCRETISATION POINTS AZIMUTHAL .......... 2 NUMBER OF DISCRETISATION POINTS RADIAL ............. 18 CONDUCTOR NAME ..................................... YELLONOU 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 ............................... 16 POSITIONING ANGLE (DEG) ............................ 22.0000 INCLINATION ANGLE (DEG) ............................ 27.0000 CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 12000.0000 INNER RADIUS OF THE BLOCK (MM)...................... 43.9000 IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0 TURN ANGLE FOR BLOCK ............................... 0.0000 NUMBER OF BLOCK .................................... 3 WITHIN BLOCK GROUP ................................. 2 NUMBER OF CONDUCTORS ............................... 5 POSITIONING ANGLE (DEG) ............................ 0.2460 INCLINATION ANGLE (DEG) ............................ 0.0000 CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 12000.0000 INNER RADIUS OF THE BLOCK (MM)...................... 28.0000 CABLE HEIGHT (MM).(INSULATED) ...................... 15.4000 CABLE INNER WIDTH (MM).(INSULATED) ................. 1.9728 CABLE OUTER WIDTH (MM).(INSULATED) ................. 2.3073 CABLE HEIGHT (MM).(BARE) ........................... 15.1000 CABLE INNER WIDTH (MM).(BARE) ...................... 1.7360 CABLE OUTER WIDTH (MM).(BARE) ...................... 2.0640 RADIAL INSULATION THICKNESS (MM).................... 0.1500 AZIMUTHAL INSULATION THICKNESS (MM)................. 0.1200 NUMBER OF STRANDS .................................. 28 DIAMETER OF STRANDS (MM)............................ 1.0650 CU/SC RATIO ........................................ 1.6000 RESIDUAL RESISTIVITY RATIO.......................... 70.0000 TEMPERATURE AT WHICH JC AND DJC ARE GIVEN (K) ...... 1.9000 LINEAR APPROXIMATION JC(10.0 T) (A/MM**2)........... 1433.300 LINEAR APPROXIMATION DJC/DB (A/MM**2 T)............. 500.340 CABLING ANGLE (DEG) ................................ 1.440 NUMBER OF DISCRETISATION POINTS AZIMUTHAL .......... 2 NUMBER OF DISCRETISATION POINTS RADIAL ............. 14 CONDUCTOR NAME ..................................... YELLONIN IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0 TURN ANGLE FOR BLOCK ............................... 0.0000 NUMBER OF BLOCK .................................... 4 WITHIN BLOCK GROUP ................................. 2 CABLE IDENTICAL WITH CABLE IN BLOCK ................ 3 NUMBER OF CONDUCTORS ............................... 5 POSITIONING ANGLE (DEG) ............................ 22.0000 INCLINATION ANGLE (DEG) ............................ 24.0000 CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 12000.0000 INNER RADIUS OF THE BLOCK (MM)...................... 28.0000 IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0 TURN ANGLE FOR BLOCK ............................... 0.0000 NUMBER OF BLOCK .................................... 5 WITHIN BLOCK GROUP ................................. 2 CABLE IDENTICAL WITH CABLE IN BLOCK ................ 3 NUMBER OF CONDUCTORS ............................... 3 POSITIONING ANGLE (DEG) ............................ 47.0000 INCLINATION ANGLE (DEG) ............................ 48.0000 CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 12000.0000 INNER RADIUS OF THE BLOCK (MM)...................... 28.0000 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 ................ 3 NUMBER OF CONDUCTORS ............................... 2 POSITIONING ANGLE (DEG) ............................ 66.0000 INCLINATION ANGLE (DEG) ............................ 68.0000 CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 12000.0000 INNER RADIUS OF THE BLOCK (MM)...................... 28.0000 IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0 TURN ANGLE FOR BLOCK ............................... 0.0000 NUMBER OF BLOCK .................................... 7 WITHIN BLOCK GROUP ................................. 1 NUMBER OF CONDUCTORS ............................... 9 POSITIONING ANGLE (DEG) ............................ 0.1570 INCLINATION ANGLE (DEG) ............................ 0.0000 CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -12000.0000 INNER RADIUS OF THE BLOCK (MM)...................... 43.9000 CABLE HEIGHT (MM).(INSULATED) ...................... 15.4000 CABLE INNER WIDTH (MM).(INSULATED) ................. 1.6197 CABLE OUTER WIDTH (MM).(INSULATED) ................. 1.8604 CABLE HEIGHT (MM).(BARE) ........................... 15.1000 CABLE INNER WIDTH (MM).(BARE) ...................... 1.3620 CABLE OUTER WIDTH (MM).(BARE) ...................... 1.5980 RADIAL INSULATION THICKNESS (MM).................... 0.1500 AZIMUTHAL INSULATION THICKNESS (MM)................. 0.1300 NUMBER OF STRANDS .................................. 36 DIAMETER OF STRANDS (MM)............................ 0.8250 CU/SC RATIO ........................................ 1.9000 RESIDUAL RESISTIVITY RATIO.......................... 80.0000 TEMPERATURE AT WHICH JC AND DJC ARE GIVEN (K) ...... 1.9000 LINEAR APPROXIMATION JC( 9.0 T) (A/MM**2)........... 1953.000 LINEAR APPROXIMATION DJC/DB (A/MM**2 T)............. 550.030 CABLING ANGLE (DEG) ................................ 1.421 NUMBER OF DISCRETISATION POINTS AZIMUTHAL .......... 2 NUMBER OF DISCRETISATION POINTS RADIAL ............. 18 CONDUCTOR NAME ..................................... YELLONOU IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1 TURN ANGLE FOR BLOCK ............................... 180.0000 NUMBER OF BLOCK .................................... 8 WITHIN BLOCK GROUP ................................. 1 CABLE IDENTICAL WITH CABLE IN BLOCK ................ 7 NUMBER OF CONDUCTORS ............................... 9 POSITIONING ANGLE (DEG) ............................ 0.1570 INCLINATION ANGLE (DEG) ............................ 0.0000 CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -12000.0000 INNER RADIUS OF THE BLOCK (MM)...................... 43.9000 IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0 TURN ANGLE FOR BLOCK ............................... 180.0000 NUMBER OF BLOCK .................................... 9 WITHIN BLOCK GROUP ................................. 1 CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1 NUMBER OF CONDUCTORS ............................... 9 POSITIONING ANGLE (DEG) ............................ 0.1570 INCLINATION ANGLE (DEG) ............................ 0.0000 CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 12000.0000 INNER RADIUS OF THE BLOCK (MM)...................... 43.9000 IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1 TURN ANGLE FOR BLOCK ............................... 0.0000 NUMBER OF BLOCK .................................... 10 WITHIN BLOCK GROUP ................................. 1 CABLE IDENTICAL WITH CABLE IN BLOCK ................ 7 NUMBER OF CONDUCTORS ............................... 16 POSITIONING ANGLE (DEG) ............................ 22.0000 INCLINATION ANGLE (DEG) ............................ 27.0000 CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -12000.0000 INNER RADIUS OF THE BLOCK (MM)...................... 43.9000 IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1 TURN ANGLE FOR BLOCK ............................... 180.0000 NUMBER OF BLOCK .................................... 11 WITHIN BLOCK GROUP ................................. 1 CABLE IDENTICAL WITH CABLE IN BLOCK ................ 7 NUMBER OF CONDUCTORS ............................... 16 POSITIONING ANGLE (DEG) ............................ 22.0000 INCLINATION ANGLE (DEG) ............................ 27.0000 CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -12000.0000 INNER RADIUS OF THE BLOCK (MM)...................... 43.9000 IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0 TURN ANGLE FOR BLOCK ............................... 180.0000 NUMBER OF BLOCK .................................... 12 WITHIN BLOCK GROUP ................................. 1 CABLE IDENTICAL WITH CABLE IN BLOCK ................ 1 NUMBER OF CONDUCTORS ............................... 16 POSITIONING ANGLE (DEG) ............................ 22.0000 INCLINATION ANGLE (DEG) ............................ 27.0000 CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 12000.0000 INNER RADIUS OF THE BLOCK (MM)...................... 43.9000 IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1 TURN ANGLE FOR BLOCK ............................... 0.0000 NUMBER OF BLOCK .................................... 13 WITHIN BLOCK GROUP ................................. 2 NUMBER OF CONDUCTORS ............................... 5 POSITIONING ANGLE (DEG) ............................ 0.2460 INCLINATION ANGLE (DEG) ............................ 0.0000 CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -12000.0000 INNER RADIUS OF THE BLOCK (MM)...................... 28.0000 CABLE HEIGHT (MM).(INSULATED) ...................... 15.4000 CABLE INNER WIDTH (MM).(INSULATED) ................. 1.9728 CABLE OUTER WIDTH (MM).(INSULATED) ................. 2.3073 CABLE HEIGHT (MM).(BARE) ........................... 15.1000 CABLE INNER WIDTH (MM).(BARE) ...................... 1.7360 CABLE OUTER WIDTH (MM).(BARE) ...................... 2.0640 RADIAL INSULATION THICKNESS (MM).................... 0.1500 AZIMUTHAL INSULATION THICKNESS (MM)................. 0.1200 NUMBER OF STRANDS .................................. 28 DIAMETER OF STRANDS (MM)............................ 1.0650 CU/SC RATIO ........................................ 1.6000 RESIDUAL RESISTIVITY RATIO.......................... 70.0000 TEMPERATURE AT WHICH JC AND DJC ARE GIVEN (K) ...... 1.9000 LINEAR APPROXIMATION JC(10.0 T) (A/MM**2)........... 1433.300 LINEAR APPROXIMATION DJC/DB (A/MM**2 T)............. 500.340 CABLING ANGLE (DEG) ................................ 1.440 NUMBER OF DISCRETISATION POINTS AZIMUTHAL .......... 2 NUMBER OF DISCRETISATION POINTS RADIAL ............. 14 CONDUCTOR NAME ..................................... YELLONIN IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1 TURN ANGLE FOR BLOCK ............................... 180.0000 NUMBER OF BLOCK .................................... 14 WITHIN BLOCK GROUP ................................. 2 CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13 NUMBER OF CONDUCTORS ............................... 5 POSITIONING ANGLE (DEG) ............................ 0.2460 INCLINATION ANGLE (DEG) ............................ 0.0000 CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -12000.0000 INNER RADIUS OF THE BLOCK (MM)...................... 28.0000 IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0 TURN ANGLE FOR BLOCK ............................... 180.0000 NUMBER OF BLOCK .................................... 15 WITHIN BLOCK GROUP ................................. 2 CABLE IDENTICAL WITH CABLE IN BLOCK ................ 3 NUMBER OF CONDUCTORS ............................... 5 POSITIONING ANGLE (DEG) ............................ 0.2460 INCLINATION ANGLE (DEG) ............................ 0.0000 CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 12000.0000 INNER RADIUS OF THE BLOCK (MM)...................... 28.0000 IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1 TURN ANGLE FOR BLOCK ............................... 0.0000 NUMBER OF BLOCK .................................... 16 WITHIN BLOCK GROUP ................................. 2 CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13 NUMBER OF CONDUCTORS ............................... 5 POSITIONING ANGLE (DEG) ............................ 22.0000 INCLINATION ANGLE (DEG) ............................ 24.0000 CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -12000.0000 INNER RADIUS OF THE BLOCK (MM)...................... 28.0000 IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1 TURN ANGLE FOR BLOCK ............................... 180.0000 NUMBER OF BLOCK .................................... 17 WITHIN BLOCK GROUP ................................. 2 CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13 NUMBER OF CONDUCTORS ............................... 5 POSITIONING ANGLE (DEG) ............................ 22.0000 INCLINATION ANGLE (DEG) ............................ 24.0000 CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -12000.0000 INNER RADIUS OF THE BLOCK (MM)...................... 28.0000 IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0 TURN ANGLE FOR BLOCK ............................... 180.0000 NUMBER OF BLOCK .................................... 18 WITHIN BLOCK GROUP ................................. 2 CABLE IDENTICAL WITH CABLE IN BLOCK ................ 3 NUMBER OF CONDUCTORS ............................... 5 POSITIONING ANGLE (DEG) ............................ 22.0000 INCLINATION ANGLE (DEG) ............................ 24.0000 CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 12000.0000 INNER RADIUS OF THE BLOCK (MM)...................... 28.0000 IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1 TURN ANGLE FOR BLOCK ............................... 0.0000 NUMBER OF BLOCK .................................... 19 WITHIN BLOCK GROUP ................................. 2 CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13 NUMBER OF CONDUCTORS ............................... 3 POSITIONING ANGLE (DEG) ............................ 47.0000 INCLINATION ANGLE (DEG) ............................ 48.0000 CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -12000.0000 INNER RADIUS OF THE BLOCK (MM)...................... 28.0000 IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1 TURN ANGLE FOR BLOCK ............................... 180.0000 NUMBER OF BLOCK .................................... 20 WITHIN BLOCK GROUP ................................. 2 CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13 NUMBER OF CONDUCTORS ............................... 3 POSITIONING ANGLE (DEG) ............................ 47.0000 INCLINATION ANGLE (DEG) ............................ 48.0000 CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -12000.0000 INNER RADIUS OF THE BLOCK (MM)...................... 28.0000 IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0 TURN ANGLE FOR BLOCK ............................... 180.0000 NUMBER OF BLOCK .................................... 21 WITHIN BLOCK GROUP ................................. 2 CABLE IDENTICAL WITH CABLE IN BLOCK ................ 3 NUMBER OF CONDUCTORS ............................... 3 POSITIONING ANGLE (DEG) ............................ 47.0000 INCLINATION ANGLE (DEG) ............................ 48.0000 CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 12000.0000 INNER RADIUS OF THE BLOCK (MM)...................... 28.0000 IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1 TURN ANGLE FOR BLOCK ............................... 0.0000 NUMBER OF BLOCK .................................... 22 WITHIN BLOCK GROUP ................................. 2 CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13 NUMBER OF CONDUCTORS ............................... 2 POSITIONING ANGLE (DEG) ............................ 66.0000 INCLINATION ANGLE (DEG) ............................ 68.0000 CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -12000.0000 INNER RADIUS OF THE BLOCK (MM)...................... 28.0000 IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1 TURN ANGLE FOR BLOCK ............................... 180.0000 NUMBER OF BLOCK .................................... 23 WITHIN BLOCK GROUP ................................. 2 CABLE IDENTICAL WITH CABLE IN BLOCK ................ 13 NUMBER OF CONDUCTORS ............................... 2 POSITIONING ANGLE (DEG) ............................ 66.0000 INCLINATION ANGLE (DEG) ............................ 68.0000 CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... -12000.0000 INNER RADIUS OF THE BLOCK (MM)...................... 28.0000 IMAGING AT X AXIS: 1 YES, 0 NO ..................... 0 TURN ANGLE FOR BLOCK ............................... 180.0000 NUMBER OF BLOCK .................................... 24 WITHIN BLOCK GROUP ................................. 2 CABLE IDENTICAL WITH CABLE IN BLOCK ................ 3 NUMBER OF CONDUCTORS ............................... 2 POSITIONING ANGLE (DEG) ............................ 66.0000 INCLINATION ANGLE (DEG) ............................ 68.0000 CURRENT IN EACH CONDUCTOR OF THE BLOCK (A) ......... 12000.0000 INNER RADIUS OF THE BLOCK (MM)...................... 28.0000 IMAGING AT X AXIS: 1 YES, 0 NO ..................... 1 TURN ANGLE FOR BLOCK ............................... 0.0000 TOTAL CU-VOLUME/LENGTH IN STRAIGHT SEC. (MM**2) .... 2182.4760 TOTAL SC-VOLUME/LENGTH IN STRAIGHT SEC. (MM**2) .... 1239.5854 ----------------------------------------------------------------- Automatic mesh generation: Remeshing ----------------------------------------------------------------- Created new mesh successfully! ----------------------------------------------------------------- BEMFEM (C) R. Bosch GmbH, STUTTGART STARTING NONLINEAR CALCULATION INFO: NUMBER OF BEM-BOUNDARY ELEMENTS : 74 INFO 002: THE BASE FILE NAME IS "bemfem" ============================================================================== INFO 242: EULER STEP 1, TIME= 0.0000E+00, DELTA= 0.0000E+00 APPROXIMATING THE BEM-MATRICES (ACCURACY= 0.1000E-03) ... >>>>>>>>>>>> NEWTON STEP 1, RESIDUAL= 0.9118E+00 ( 0.00 DB) COMPUTING THE GLOBAL MATRIX... GMRES STEP 1, RESIDUAL= 0.9118E+00 ( 0.00 DB) GMRES STEP 2, RESIDUAL= 0.2004E+00 ( -6.58 DB) GMRES STEP 3, RESIDUAL= 0.1625E-02 ( -27.49 DB) GMRES STEP 4, RESIDUAL= 0.2623E-03 ( -35.41 DB) GMRES STEP 5, RESIDUAL= 0.1367E-04 ( -48.24 DB) INFO 240: GMRES STEP 5, RESIDUAL= 0.1367E-04 ( -48.24 DB). >>>>>>>>>>>> NEWTON STEP 2, RESIDUAL= 0.4758E-01 ( -19.50 DB) COMPUTING THE GLOBAL MATRIX... GMRES STEP 6, RESIDUAL= 0.1470E+01 ( 0.00 DB) GMRES STEP 7, RESIDUAL= 0.2289E-01 ( -18.08 DB) GMRES STEP 8, RESIDUAL= 0.5089E-02 ( -24.61 DB) GMRES STEP 9, RESIDUAL= 0.6987E-03 ( -33.23 DB) GMRES STEP 10, RESIDUAL= 0.1010E-03 ( -41.63 DB) GMRES STEP 11, RESIDUAL= 0.3272E-04 ( -46.52 DB) GMRES STEP 12, RESIDUAL= 0.7625E-05 ( -52.85 DB) GMRES STEP 13, RESIDUAL= 0.2531E-05 ( -57.64 DB) GMRES STEP 14, RESIDUAL= 0.5633E-06 ( -64.17 DB) INFO 240: GMRES STEP 14, RESIDUAL= 0.5633E-06 ( -64.17 DB). >>>>>>>>>>>> NEWTON STEP 3, RESIDUAL= 0.1229E-01 ( -25.84 DB) COMPUTING THE GLOBAL MATRIX... GMRES STEP 15, RESIDUAL= 0.1470E+01 ( 0.00 DB) GMRES STEP 16, RESIDUAL= 0.1606E-02 ( -29.62 DB) GMRES STEP 17, RESIDUAL= 0.4916E-03 ( -34.76 DB) GMRES STEP 18, RESIDUAL= 0.5695E-04 ( -44.12 DB) GMRES STEP 19, RESIDUAL= 0.1361E-04 ( -50.34 DB) GMRES STEP 20, RESIDUAL= 0.4291E-05 ( -55.35 DB) GMRES STEP 21, RESIDUAL= 0.9417E-06 ( -61.93 DB) INFO 240: GMRES STEP 21, RESIDUAL= 0.9417E-06 ( -61.93 DB). >>>>>>>>>>>> NEWTON STEP 4, RESIDUAL= 0.1092E-02 ( -36.40 DB) COMPUTING THE GLOBAL MATRIX... GMRES STEP 22, RESIDUAL= 0.1470E+01 ( 0.00 DB) GMRES STEP 23, RESIDUAL= 0.3827E-03 ( -35.84 DB) GMRES STEP 24, RESIDUAL= 0.5273E-04 ( -44.45 DB) GMRES STEP 25, RESIDUAL= 0.1310E-04 ( -50.50 DB) GMRES STEP 26, RESIDUAL= 0.2541E-05 ( -57.62 DB) GMRES STEP 27, RESIDUAL= 0.7118E-06 ( -63.15 DB) INFO 240: GMRES STEP 27, RESIDUAL= 0.7118E-06 ( -63.15 DB). >>>>>>>>>>>> NEWTON STEP 5, RESIDUAL= 0.2623E-03 ( -42.60 DB) COMPUTING THE GLOBAL MATRIX... GMRES STEP 28, RESIDUAL= 0.1470E+01 ( 0.00 DB) GMRES STEP 29, RESIDUAL= 0.1031E-03 ( -41.54 DB) GMRES STEP 30, RESIDUAL= 0.1064E-04 ( -51.41 DB) GMRES STEP 31, RESIDUAL= 0.2914E-05 ( -57.03 DB) GMRES STEP 32, RESIDUAL= 0.8928E-06 ( -62.17 DB) INFO 240: GMRES STEP 32, RESIDUAL= 0.8928E-06 ( -62.17 DB). >>>>>>>>>>>> NEWTON STEP 6, RESIDUAL= 0.3538E-04 ( -51.31 DB) INFO 240: >>>>>>>>>>>> NEWTON STEP 6, RESIDUAL= 0.3538E-04 ( -51.31 DB). INFO 296: SOLVER INFORMATION NUMBER OF TIME STEPS = 1 NUMBER OF NON-LINEAR STEPS = 6 AVERAGE PER TIME STEP = 6.0 NUMBER OF LINEAR STEPS = 32 AVERAGE PER NON-LINEAR STEP = 5.3 INFO 005: MEMORY INFORMATION SIZE OF BEM OBJECTS = 370.7 KB SIZE OF FEM OBJECTS = 1.0 MB PEAK MEMORY USAGE = 25.0 MB INFO 013: END OF THIS BEMFEM CALCULATION 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 -0.5663E+04 -0.1354E+06 0.5049E+02 0.7873E+01 2 0.4751E+06 -0.5769E+06 0.3914E+02 0.3090E+02 3 0.3371E+06 -0.3138E+05 0.3501E+02 0.5433E+01 4 0.3735E+06 -0.5226E+05 0.3036E+02 0.1827E+02 5 0.2608E+06 -0.5289E+05 0.2176E+02 0.2823E+02 6 0.1810E+06 -0.2983E+05 0.1228E+02 0.3350E+02 7 0.5663E+04 -0.1354E+06 -0.5049E+02 0.7873E+01 8 0.5663E+04 0.1354E+06 -0.5049E+02 -0.7873E+01 9 -0.5663E+04 0.1354E+06 0.5049E+02 -0.7873E+01 10 -0.4751E+06 -0.5769E+06 -0.3914E+02 0.3090E+02 11 -0.4751E+06 0.5769E+06 -0.3914E+02 -0.3090E+02 12 0.4751E+06 0.5769E+06 0.3914E+02 -0.3090E+02 13 -0.3371E+06 -0.3138E+05 -0.3501E+02 0.5433E+01 14 -0.3371E+06 0.3138E+05 -0.3501E+02 -0.5433E+01 15 0.3371E+06 0.3138E+05 0.3501E+02 -0.5433E+01 16 -0.3735E+06 -0.5226E+05 -0.3036E+02 0.1827E+02 17 -0.3735E+06 0.5226E+05 -0.3036E+02 -0.1827E+02 18 0.3735E+06 0.5226E+05 0.3036E+02 -0.1827E+02 19 -0.2608E+06 -0.5289E+05 -0.2176E+02 0.2823E+02 20 -0.2608E+06 0.5289E+05 -0.2176E+02 -0.2823E+02 21 0.2608E+06 0.5289E+05 0.2176E+02 -0.2823E+02 22 -0.1810E+06 -0.2983E+05 -0.1228E+02 0.3350E+02 23 -0.1810E+06 0.2983E+05 -0.1228E+02 -0.3350E+02 24 0.1810E+06 0.2983E+05 0.1228E+02 -0.3350E+02 SUMM: 0.1616E-06 0.3700E-08 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 -0.1853E+05 -0.1354E+06 0.5049E+02 0.7873E+01 2 0.4812E+05 -0.7525E+06 0.3914E+02 0.3090E+02 3 0.3341E+06 -0.4962E+05 0.3501E+02 0.5433E+01 4 0.3075E+06 -0.2169E+06 0.3036E+02 0.1827E+02 5 0.1274E+06 -0.2334E+06 0.2176E+02 0.2823E+02 6 0.3618E+05 -0.1799E+06 0.1228E+02 0.3350E+02 7 -0.1853E+05 0.1354E+06 -0.5049E+02 0.7873E+01 8 -0.1853E+05 -0.1354E+06 -0.5049E+02 -0.7873E+01 9 -0.1853E+05 0.1354E+06 0.5049E+02 -0.7873E+01 10 0.4812E+05 0.7525E+06 -0.3914E+02 0.3090E+02 11 0.4812E+05 -0.7525E+06 -0.3914E+02 -0.3090E+02 12 0.4812E+05 0.7525E+06 0.3914E+02 -0.3090E+02 13 0.3341E+06 0.4962E+05 -0.3501E+02 0.5433E+01 14 0.3341E+06 -0.4962E+05 -0.3501E+02 -0.5433E+01 15 0.3341E+06 0.4962E+05 0.3501E+02 -0.5433E+01 16 0.3075E+06 0.2169E+06 -0.3036E+02 0.1827E+02 17 0.3075E+06 -0.2169E+06 -0.3036E+02 -0.1827E+02 18 0.3075E+06 0.2169E+06 0.3036E+02 -0.1827E+02 19 0.1274E+06 0.2334E+06 -0.2176E+02 0.2823E+02 20 0.1274E+06 -0.2334E+06 -0.2176E+02 -0.2823E+02 21 0.1274E+06 0.2334E+06 0.2176E+02 -0.2823E+02 22 0.3618E+05 0.1799E+06 -0.1228E+02 0.3350E+02 23 0.3618E+05 -0.1799E+06 -0.1228E+02 -0.3350E+02 24 0.3618E+05 0.1799E+06 0.1228E+02 -0.3350E+02 SUMM: 0.3339E+07 0.7014E-07 Version 1.29/04 of HIGZ started BLOCK NUMBER ....................................... 1 PEAK FIELD IN CONDUCTOR 8 (T) ................... 3.8074 CURRENT IN CONDUCTOR 8 (A) ...................... 12000.0000 LOWEST FIELD IN CONDUCTOR 1 (T) ................. 0.0356 SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 1808.3353 COPPER CURRENT DENSITY (A/MM2) ..................... 951.7554 PERCENTAGE ON THE LOAD LINE ........................ 56.5318 QUENCHFIELD (T) .................................... 6.7351 PERCENTAGE OF SHORT SAMPLE CURRENT ................. 62.3973 BLOCK NUMBER ....................................... 2 PEAK FIELD IN CONDUCTOR 25 (T) ................... 7.6348 CURRENT IN CONDUCTOR 25 (A) ...................... 12000.0000 LOWEST FIELD IN CONDUCTOR 10 (T) ................. 1.2340 SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 1808.3353 COPPER CURRENT DENSITY (A/MM2) ..................... 951.7554 PERCENTAGE ON THE LOAD LINE ........................ 87.0271 QUENCHFIELD (T) .................................... 8.7729 PERCENTAGE OF SHORT SAMPLE CURRENT ................. 33.1209 BLOCK NUMBER ....................................... 3 PEAK FIELD IN CONDUCTOR 27 (T) ................... 8.3676 CURRENT IN CONDUCTOR 27 (A) ...................... 12000.0000 LOWEST FIELD IN CONDUCTOR 26 (T) ................. 3.2186 SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 1250.8564 COPPER CURRENT DENSITY (A/MM2) ..................... 781.7853 PERCENTAGE ON THE LOAD LINE ........................ 84.4764 QUENCHFIELD (T) .................................... 9.9052 PERCENTAGE OF SHORT SAMPLE CURRENT ................. 44.4080 BLOCK NUMBER ....................................... 4 PEAK FIELD IN CONDUCTOR 34 (T) ................... 8.4902 CURRENT IN CONDUCTOR 34 (A) ...................... 12000.0000 LOWEST FIELD IN CONDUCTOR 31 (T) ................. 3.5878 SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 1250.8564 COPPER CURRENT DENSITY (A/MM2) ..................... 781.7853 PERCENTAGE ON THE LOAD LINE ........................ 85.4297 QUENCHFIELD (T) .................................... 9.9383 PERCENTAGE OF SHORT SAMPLE CURRENT ................. 42.8494 BLOCK NUMBER ....................................... 5 PEAK FIELD IN CONDUCTOR 38 (T) ................... 8.5920 CURRENT IN CONDUCTOR 38 (A) ...................... 12000.0000 LOWEST FIELD IN CONDUCTOR 36 (T) ................. 6.2462 SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 1250.8564 COPPER CURRENT DENSITY (A/MM2) ..................... 781.7853 PERCENTAGE ON THE LOAD LINE ........................ 86.2206 QUENCHFIELD (T) .................................... 9.9651 PERCENTAGE OF SHORT SAMPLE CURRENT ................. 41.4885 BLOCK NUMBER ....................................... 6 PEAK FIELD IN CONDUCTOR 40 (T) ................... 8.7254 CURRENT IN CONDUCTOR 40 (A) ...................... 12000.0000 LOWEST FIELD IN CONDUCTOR 39 (T) ................. 6.5574 SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 1250.8564 COPPER CURRENT DENSITY (A/MM2) ..................... 781.7853 PERCENTAGE ON THE LOAD LINE ........................ 87.2581 QUENCHFIELD (T) .................................... 9.9996 PERCENTAGE OF SHORT SAMPLE CURRENT ................. 39.6017 BLOCK NUMBER ....................................... 7 PEAK FIELD IN CONDUCTOR 48 (T) ................... 3.8074 CURRENT IN CONDUCTOR 48 (A) ...................... -12000.0000 LOWEST FIELD IN CONDUCTOR 41 (T) ................. 0.0356 SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. -1808.3353 COPPER CURRENT DENSITY (A/MM2) ..................... -951.7554 PERCENTAGE ON THE LOAD LINE ........................ 56.5318 QUENCHFIELD (T) .................................... 6.7351 PERCENTAGE OF SHORT SAMPLE CURRENT ................. 62.3973 BLOCK NUMBER ....................................... 8 PEAK FIELD IN CONDUCTOR 57 (T) ................... 3.8074 CURRENT IN CONDUCTOR 57 (A) ...................... -12000.0000 LOWEST FIELD IN CONDUCTOR 50 (T) ................. 0.0356 SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. -1808.3353 COPPER CURRENT DENSITY (A/MM2) ..................... -951.7554 PERCENTAGE ON THE LOAD LINE ........................ 56.5318 QUENCHFIELD (T) .................................... 6.7351 PERCENTAGE OF SHORT SAMPLE CURRENT ................. 62.3973 BLOCK NUMBER ....................................... 9 PEAK FIELD IN CONDUCTOR 66 (T) ................... 3.8074 CURRENT IN CONDUCTOR 66 (A) ...................... 12000.0000 LOWEST FIELD IN CONDUCTOR 59 (T) ................. 0.0356 SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 1808.3353 COPPER CURRENT DENSITY (A/MM2) ..................... 951.7554 PERCENTAGE ON THE LOAD LINE ........................ 56.5318 QUENCHFIELD (T) .................................... 6.7351 PERCENTAGE OF SHORT SAMPLE CURRENT ................. 62.3973 BLOCK NUMBER ....................................... 10 PEAK FIELD IN CONDUCTOR 83 (T) ................... 7.6348 CURRENT IN CONDUCTOR 83 (A) ...................... -12000.0000 LOWEST FIELD IN CONDUCTOR 68 (T) ................. 1.2340 SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. -1808.3353 COPPER CURRENT DENSITY (A/MM2) ..................... -951.7554 PERCENTAGE ON THE LOAD LINE ........................ 87.0271 QUENCHFIELD (T) .................................... 8.7729 PERCENTAGE OF SHORT SAMPLE CURRENT ................. 33.1209 BLOCK NUMBER ....................................... 11 PEAK FIELD IN CONDUCTOR 99 (T) ................... 7.6348 CURRENT IN CONDUCTOR 99 (A) ...................... -12000.0000 LOWEST FIELD IN CONDUCTOR 84 (T) ................. 1.2340 SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. -1808.3353 COPPER CURRENT DENSITY (A/MM2) ..................... -951.7554 PERCENTAGE ON THE LOAD LINE ........................ 87.0271 QUENCHFIELD (T) .................................... 8.7729 PERCENTAGE OF SHORT SAMPLE CURRENT ................. 33.1209 BLOCK NUMBER ....................................... 12 PEAK FIELD IN CONDUCTOR 115 (T) ................... 7.6348 CURRENT IN CONDUCTOR 115 (A) ...................... 12000.0000 LOWEST FIELD IN CONDUCTOR 100 (T) ................. 1.2340 SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 1808.3353 COPPER CURRENT DENSITY (A/MM2) ..................... 951.7554 PERCENTAGE ON THE LOAD LINE ........................ 87.0271 QUENCHFIELD (T) .................................... 8.7729 PERCENTAGE OF SHORT SAMPLE CURRENT ................. 33.1209 BLOCK NUMBER ....................................... 13 PEAK FIELD IN CONDUCTOR 117 (T) ................... 8.3676 CURRENT IN CONDUCTOR 117 (A) ...................... -12000.0000 LOWEST FIELD IN CONDUCTOR 116 (T) ................. 3.2186 SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. -1250.8564 COPPER CURRENT DENSITY (A/MM2) ..................... -781.7853 PERCENTAGE ON THE LOAD LINE ........................ 84.4764 QUENCHFIELD (T) .................................... 9.9052 PERCENTAGE OF SHORT SAMPLE CURRENT ................. 44.4080 BLOCK NUMBER ....................................... 14 PEAK FIELD IN CONDUCTOR 122 (T) ................... 8.3676 CURRENT IN CONDUCTOR 122 (A) ...................... -12000.0000 LOWEST FIELD IN CONDUCTOR 121 (T) ................. 3.2186 SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. -1250.8564 COPPER CURRENT DENSITY (A/MM2) ..................... -781.7853 PERCENTAGE ON THE LOAD LINE ........................ 84.4764 QUENCHFIELD (T) .................................... 9.9052 PERCENTAGE OF SHORT SAMPLE CURRENT ................. 44.4080 BLOCK NUMBER ....................................... 15 PEAK FIELD IN CONDUCTOR 127 (T) ................... 8.3676 CURRENT IN CONDUCTOR 127 (A) ...................... 12000.0000 LOWEST FIELD IN CONDUCTOR 126 (T) ................. 3.2186 SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 1250.8564 COPPER CURRENT DENSITY (A/MM2) ..................... 781.7853 PERCENTAGE ON THE LOAD LINE ........................ 84.4764 QUENCHFIELD (T) .................................... 9.9052 PERCENTAGE OF SHORT SAMPLE CURRENT ................. 44.4080 BLOCK NUMBER ....................................... 16 PEAK FIELD IN CONDUCTOR 134 (T) ................... 8.4902 CURRENT IN CONDUCTOR 134 (A) ...................... -12000.0000 LOWEST FIELD IN CONDUCTOR 131 (T) ................. 3.5878 SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. -1250.8564 COPPER CURRENT DENSITY (A/MM2) ..................... -781.7853 PERCENTAGE ON THE LOAD LINE ........................ 85.4297 QUENCHFIELD (T) .................................... 9.9383 PERCENTAGE OF SHORT SAMPLE CURRENT ................. 42.8494 BLOCK NUMBER ....................................... 17 PEAK FIELD IN CONDUCTOR 139 (T) ................... 8.4902 CURRENT IN CONDUCTOR 139 (A) ...................... -12000.0000 LOWEST FIELD IN CONDUCTOR 136 (T) ................. 3.5878 SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. -1250.8564 COPPER CURRENT DENSITY (A/MM2) ..................... -781.7853 PERCENTAGE ON THE LOAD LINE ........................ 85.4297 QUENCHFIELD (T) .................................... 9.9383 PERCENTAGE OF SHORT SAMPLE CURRENT ................. 42.8494 BLOCK NUMBER ....................................... 18 PEAK FIELD IN CONDUCTOR 144 (T) ................... 8.4902 CURRENT IN CONDUCTOR 144 (A) ...................... 12000.0000 LOWEST FIELD IN CONDUCTOR 141 (T) ................. 3.5878 SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 1250.8564 COPPER CURRENT DENSITY (A/MM2) ..................... 781.7853 PERCENTAGE ON THE LOAD LINE ........................ 85.4297 QUENCHFIELD (T) .................................... 9.9383 PERCENTAGE OF SHORT SAMPLE CURRENT ................. 42.8494 BLOCK NUMBER ....................................... 19 PEAK FIELD IN CONDUCTOR 148 (T) ................... 8.5920 CURRENT IN CONDUCTOR 148 (A) ...................... -12000.0000 LOWEST FIELD IN CONDUCTOR 146 (T) ................. 6.2462 SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. -1250.8564 COPPER CURRENT DENSITY (A/MM2) ..................... -781.7853 PERCENTAGE ON THE LOAD LINE ........................ 86.2206 QUENCHFIELD (T) .................................... 9.9651 PERCENTAGE OF SHORT SAMPLE CURRENT ................. 41.4885 BLOCK NUMBER ....................................... 20 PEAK FIELD IN CONDUCTOR 151 (T) ................... 8.5920 CURRENT IN CONDUCTOR 151 (A) ...................... -12000.0000 LOWEST FIELD IN CONDUCTOR 149 (T) ................. 6.2462 SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. -1250.8564 COPPER CURRENT DENSITY (A/MM2) ..................... -781.7853 PERCENTAGE ON THE LOAD LINE ........................ 86.2206 QUENCHFIELD (T) .................................... 9.9651 PERCENTAGE OF SHORT SAMPLE CURRENT ................. 41.4885 BLOCK NUMBER ....................................... 21 PEAK FIELD IN CONDUCTOR 154 (T) ................... 8.5920 CURRENT IN CONDUCTOR 154 (A) ...................... 12000.0000 LOWEST FIELD IN CONDUCTOR 152 (T) ................. 6.2462 SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 1250.8564 COPPER CURRENT DENSITY (A/MM2) ..................... 781.7853 PERCENTAGE ON THE LOAD LINE ........................ 86.2206 QUENCHFIELD (T) .................................... 9.9651 PERCENTAGE OF SHORT SAMPLE CURRENT ................. 41.4885 BLOCK NUMBER ....................................... 22 PEAK FIELD IN CONDUCTOR 156 (T) ................... 8.7254 CURRENT IN CONDUCTOR 156 (A) ...................... -12000.0000 LOWEST FIELD IN CONDUCTOR 155 (T) ................. 6.5574 SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. -1250.8564 COPPER CURRENT DENSITY (A/MM2) ..................... -781.7853 PERCENTAGE ON THE LOAD LINE ........................ 87.2581 QUENCHFIELD (T) .................................... 9.9996 PERCENTAGE OF SHORT SAMPLE CURRENT ................. 39.6017 BLOCK NUMBER ....................................... 23 PEAK FIELD IN CONDUCTOR 158 (T) ................... 8.7254 CURRENT IN CONDUCTOR 158 (A) ...................... -12000.0000 LOWEST FIELD IN CONDUCTOR 157 (T) ................. 6.5574 SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. -1250.8564 COPPER CURRENT DENSITY (A/MM2) ..................... -781.7853 PERCENTAGE ON THE LOAD LINE ........................ 87.2581 QUENCHFIELD (T) .................................... 9.9996 PERCENTAGE OF SHORT SAMPLE CURRENT ................. 39.6017 BLOCK NUMBER ....................................... 24 PEAK FIELD IN CONDUCTOR 160 (T) ................... 8.7254 CURRENT IN CONDUCTOR 160 (A) ...................... 12000.0000 LOWEST FIELD IN CONDUCTOR 159 (T) ................. 6.5574 SUPERCONDUCTOR CURRENT DENSITY (A/MM2) ............. 1250.8564 COPPER CURRENT DENSITY (A/MM2) ..................... 781.7853 PERCENTAGE ON THE LOAD LINE ........................ 87.2581 QUENCHFIELD (T) .................................... 9.9996 PERCENTAGE OF SHORT SAMPLE CURRENT ................. 39.6017 MAXIMUM LOADLINE IN BLOCK 22 (%) ................. 87.2581 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 ................... 0.3160E-03 SUM (Br(p) - SUM (An cos(np) + Bn sin(np)) MAIN FIELD (T) ..................................... -8.298684 MAGNET STRENGTH (T/(m^(n-1)) ....................... -8.2987 NORMAL RELATIVE MULTIPOLES (1.D-4): b 1: 10000.00000 b 2: -0.00000 b 3: -2.43921 b 4: -0.00000 b 5: -4.36395 b 6: -0.00000 b 7: 1.54427 b 8: -0.00000 b 9: 0.11930 b10: -0.00000 b11: 0.59740 b12: 0.00000 b13: 0.04453 b14: -0.00000 b15: 0.03703 b16: -0.00000 b17: -0.04723 b18: -0.00000 b19: -0.00093 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 WARNING: FIELD VECTOR MATRIX NOT VALID IN IMAGED REGIONS MAXIMUM FIELD LEVEL (T) ............................ 9.1710 MEAN ABSOLUTE FIELD LEVEL (T) ...................... 5.2428 STANDARD DEVIATION ABSOLUTE (T) .................... 2.1727 MEAN VECTORIAL FIELD (T) ........................... 4.0961 STANDARD DEVIATION VECTORIAL (T) ................... 3.9301 SURFACE OF ALL FEM-ELEMENTS (MM**2) ................ 20498.8861 GRAPH: 1 N ABSCISSA ORDINATE 1 , 0.000000000E+00 , 0.832143745E+01 2 , 0.545454545E+00 , 0.831962242E+01 3 , 0.109090909E+01 , 0.831642117E+01 4 , 0.163636364E+01 , 0.831296929E+01 5 , 0.218181818E+01 , 0.830966515E+01 6 , 0.272727273E+01 , 0.830667062E+01 7 , 0.327272727E+01 , 0.830404936E+01 8 , 0.381818182E+01 , 0.830181646E+01 9 , 0.436363636E+01 , 0.829996055E+01 10 , 0.490909091E+01 , 0.829845545E+01 11 , 0.545454545E+01 , 0.829726717E+01 12 , 0.600000000E+01 , 0.829635824E+01 13 , 0.654545455E+01 , 0.829569059E+01 14 , 0.709090909E+01 , 0.829522747E+01 15 , 0.763636364E+01 , 0.829493457E+01 16 , 0.818181818E+01 , 0.829478078E+01 17 , 0.872727273E+01 , 0.829473846E+01 18 , 0.927272727E+01 , 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GENERATED FROM PYTHON SOURCE LINES 46-48 List Artefacts and download --------------------------- .. GENERATED FROM PYTHON SOURCE LINES 48-58 .. code-block:: Python print(runner.get_artefact_list()) with tempfile.TemporaryDirectory() as tmp_folder_name: tmp_folder_path = pathlib.Path(tmp_folder_name) print(tmp_folder_path) print(tmp_folder_path.is_dir()) runner.download_artefacts(tmp_folder_path) for file in tmp_folder_path.iterdir(): print(f"Downloaded file: {file.name}") .. rst-class:: sphx-glr-script-out .. code-block:: none ['warn_exist', 'bemfem.hmo', 'bemfem.DAPA', 'eval.loc', 'fort.90', 'dipole_iron.pdf', 'bemfem.r2ini', 'dipole_iron.vfem', 'dipole_iron.post.xml', 'bemfem.data', 'dipole_iron.output', 'dipole_iron.post', 'dipole_iron.matrf', 'bemfem.sol'] /tmp/tmpjcu9g_30 True Downloaded file: bemfem.DAPA Downloaded file: bemfem.hmo Downloaded file: warn_exist Downloaded file: dipole_iron.pdf Downloaded file: bemfem.r2ini Downloaded file: bemfem.sol Downloaded file: dipole_iron.matrf Downloaded file: eval.loc Downloaded file: bemfem.data Downloaded file: dipole_iron.post.xml Downloaded file: dipole_iron.output Downloaded file: dipole_iron.vfem Downloaded file: dipole_iron.post Downloaded file: fort.90 .. rst-class:: sphx-glr-timing **Total running time of the script:** (0 minutes 10.202 seconds) .. _sphx_glr_download_gen_examples_running_roxie_input_file_handling.py: .. only:: html .. container:: sphx-glr-footer sphx-glr-footer-example .. container:: sphx-glr-download sphx-glr-download-jupyter :download:`Download Jupyter notebook: input_file_handling.ipynb ` .. container:: sphx-glr-download sphx-glr-download-python :download:`Download Python source code: input_file_handling.py ` .. container:: sphx-glr-download sphx-glr-download-zip :download:`Download zipped: input_file_handling.zip ` .. only:: html .. rst-class:: sphx-glr-signature `Gallery generated by Sphinx-Gallery `_