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KratosMultiphysics
KRATOS Multiphysics (Kratos) is a framework for building parallel, multi-disciplinary simulation software, aiming at modularity, extensibility, and high performance. Kratos is written in C++, and counts with an extensive Python interface.
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Classes | |
| class | DecompressedMaterialTriaxialTest |
| class | DecompressedMaterialBTSTest |
Variables | |
| parameters = KratosMultiphysics.Parameters(parameter_file.read()) | |
| string | machine_learning_file = "machine_learning_data.grf" |
| machine_learning_data = open(machine_learning_file, 'w') | |
| list | confinement_pressure_list = [0.34, 6.9, 13.8] |
| int | num_of_discretization_points = 10 |
| bool | run_also_bts = True |
| bool | print_images = False |
| number_of_triaxials = len(confinement_pressure_list) | |
| list | simulation_number_list = [i for i in range(1, number_of_triaxials + 1)] |
| model = KratosMultiphysics.Model() | |
| list decompressed_material_triaxials_and_bts_tests.confinement_pressure_list = [0.34, 6.9, 13.8] |
| decompressed_material_triaxials_and_bts_tests.machine_learning_data = open(machine_learning_file, 'w') |
| string decompressed_material_triaxials_and_bts_tests.machine_learning_file = "machine_learning_data.grf" |
| decompressed_material_triaxials_and_bts_tests.model = KratosMultiphysics.Model() |
| int decompressed_material_triaxials_and_bts_tests.num_of_discretization_points = 10 |
| decompressed_material_triaxials_and_bts_tests.number_of_triaxials = len(confinement_pressure_list) |
| decompressed_material_triaxials_and_bts_tests.parameters = KratosMultiphysics.Parameters(parameter_file.read()) |
| bool decompressed_material_triaxials_and_bts_tests.print_images = False |
| bool decompressed_material_triaxials_and_bts_tests.run_also_bts = True |
| list decompressed_material_triaxials_and_bts_tests.simulation_number_list = [i for i in range(1, number_of_triaxials + 1)] |
1.9.1