Go to the source code of this file.
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| | exahype2.solvers.rkdg.kernels.create_abstract_solver_declarations (flux_implementation, ncp_implementation, eigenvalues_implementation, source_term_implementation, point_source_implementation, pde_terms_without_state) |
| | exahype2.solvers.rkdg.kernels.create_abstract_solver_definitions (flux_implementation, ncp_implementation, eigenvalues_implementation, source_term_implementation, point_source_implementation, pde_terms_without_state) |
| | exahype2.solvers.rkdg.kernels.create_solver_declarations (flux_implementation, ncp_implementation, eigenvalues_implementation, source_term_implementation, point_source_implementation, pde_terms_without_state) |
| | exahype2.solvers.rkdg.kernels.create_solver_definitions (flux_implementation, ncp_implementation, eigenvalues_implementation, source_term_implementation, point_source_implementation, pde_terms_without_state) |
| | exahype2.solvers.rkdg.kernels.get_face_merge_implementation (patch_overlap) |
| | exahype2.solvers.rkdg.kernels.create_start_time_step_implementation_for_fixed_time_stepping (normalised_time_step_size) |
| | We roll over all reduced data after the last time step, and we plot status info in the first step.
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| | exahype2.solvers.rkdg.kernels.create_volumetric_solver_call (polynomial_basis, solver_variant) |
| | A set of default volumetric kernel calls.
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| | exahype2.solvers.rkdg.kernels.create_add_solver_contributions_call (polynomial_basis) |
| | exahype2.solvers.rkdg.kernels.create_multiply_with_inverted_mass_matrix_call (polynomial_basis) |
1.14.0