// Copyright (c) 2017-2026, Lawrence Livermore National Security, LLC and other CEED contributors. // All Rights Reserved. See the top-level LICENSE and NOTICE files for details. // // SPDX-License-Identifier: BSD-2-Clause // // This file is part of CEED: http://github.com/ceed #include "../qfunctions/grid_anisotropy_tensor.h" #include #include "../navierstokes.h" PetscErrorCode GridAnisotropyTensorProjectionSetupApply(Ceed ceed, User user, CeedData ceed_data, CeedElemRestriction *elem_restr_grid_aniso, CeedVector *grid_aniso_vector) { NodalProjectionData grid_aniso_proj; OperatorApplyContext l2_rhs_ctx; CeedOperator op_rhs_assemble, op_mass; CeedQFunction qf_rhs_assemble, qf_mass; CeedBasis basis_grid_aniso; CeedInt q_data_size; MPI_Comm comm = PetscObjectComm((PetscObject)user->dm); KSP ksp; DMLabel domain_label = NULL; PetscInt label_value = 0, height = 0, dm_field = 0; PetscFunctionBeginUser; PetscCall(PetscNew(&grid_aniso_proj)); // -- Create DM for Anisotropic tensor L^2 projection grid_aniso_proj->num_comp = 7; PetscCall(DMClone(user->dm, &grid_aniso_proj->dm)); PetscCall(PetscObjectSetName((PetscObject)grid_aniso_proj->dm, "Grid Anisotropy Tensor Projection")); { // -- Setup DM PetscSection section; PetscCall(DMSetupByOrder_FEM(PETSC_TRUE, PETSC_TRUE, user->app_ctx->degree, 1, user->app_ctx->q_extra, 1, &grid_aniso_proj->num_comp, grid_aniso_proj->dm)); PetscCall(DMGetLocalSection(grid_aniso_proj->dm, §ion)); PetscCall(PetscSectionSetFieldName(section, 0, "")); PetscCall(PetscSectionSetComponentName(section, 0, 0, "KMGridAnisotropyTensorXX")); PetscCall(PetscSectionSetComponentName(section, 0, 1, "KMGridAnisotropyTensorYY")); PetscCall(PetscSectionSetComponentName(section, 0, 2, "KMGridAnisotropyTensorZZ")); PetscCall(PetscSectionSetComponentName(section, 0, 3, "KMGridAnisotropyTensorYZ")); PetscCall(PetscSectionSetComponentName(section, 0, 4, "KMGridAnisotropyTensorXZ")); PetscCall(PetscSectionSetComponentName(section, 0, 5, "KMGridAnisotropyTensorXY")); PetscCall(PetscSectionSetComponentName(section, 0, 6, "GridAnisotropyTensorFrobNorm")); } // -- Get Pre-requisite things PetscCallCeed(ceed, CeedElemRestrictionGetNumComponents(ceed_data->elem_restr_qd_i, &q_data_size)); PetscCall(DMPlexCeedElemRestrictionCreate(ceed, grid_aniso_proj->dm, domain_label, label_value, height, dm_field, elem_restr_grid_aniso)); PetscCall(CreateBasisFromPlex(ceed, grid_aniso_proj->dm, domain_label, label_value, height, dm_field, &basis_grid_aniso)); // -- Build RHS operator PetscCallCeed(ceed, CeedQFunctionCreateInterior(ceed, 1, AnisotropyTensorProjection, AnisotropyTensorProjection_loc, &qf_rhs_assemble)); PetscCallCeed(ceed, CeedQFunctionAddInput(qf_rhs_assemble, "qdata", q_data_size, CEED_EVAL_NONE)); PetscCallCeed(ceed, CeedQFunctionAddOutput(qf_rhs_assemble, "v", grid_aniso_proj->num_comp, CEED_EVAL_INTERP)); PetscCallCeed(ceed, CeedOperatorCreate(ceed, qf_rhs_assemble, NULL, NULL, &op_rhs_assemble)); PetscCallCeed(ceed, CeedOperatorSetField(op_rhs_assemble, "qdata", ceed_data->elem_restr_qd_i, CEED_BASIS_NONE, ceed_data->q_data)); PetscCallCeed(ceed, CeedOperatorSetField(op_rhs_assemble, "v", *elem_restr_grid_aniso, basis_grid_aniso, CEED_VECTOR_ACTIVE)); PetscCall(OperatorApplyContextCreate(user->dm, grid_aniso_proj->dm, ceed, op_rhs_assemble, CEED_VECTOR_NONE, NULL, NULL, NULL, &l2_rhs_ctx)); // -- Build Mass Operator PetscCall(CreateMassQFunction(ceed, grid_aniso_proj->num_comp, q_data_size, &qf_mass)); PetscCallCeed(ceed, CeedOperatorCreate(ceed, qf_mass, NULL, NULL, &op_mass)); PetscCallCeed(ceed, CeedOperatorSetField(op_mass, "u", *elem_restr_grid_aniso, basis_grid_aniso, CEED_VECTOR_ACTIVE)); PetscCallCeed(ceed, CeedOperatorSetField(op_mass, "qdata", ceed_data->elem_restr_qd_i, CEED_BASIS_NONE, ceed_data->q_data)); PetscCallCeed(ceed, CeedOperatorSetField(op_mass, "v", *elem_restr_grid_aniso, basis_grid_aniso, CEED_VECTOR_ACTIVE)); { // -- Setup KSP for L^2 projection Mat mat_mass; PetscCall(MatCreateCeed(grid_aniso_proj->dm, grid_aniso_proj->dm, op_mass, NULL, &mat_mass)); PetscCall(KSPCreate(comm, &ksp)); PetscCall(KSPSetOptionsPrefix(ksp, "grid_anisotropy_tensor_projection_")); { PC pc; PetscCall(KSPGetPC(ksp, &pc)); PetscCall(PCSetType(pc, PCJACOBI)); PetscCall(PCJacobiSetType(pc, PC_JACOBI_DIAGONAL)); PetscCall(KSPSetType(ksp, KSPCG)); PetscCall(KSPSetNormType(ksp, KSP_NORM_NATURAL)); PetscCall(KSPSetTolerances(ksp, 1e-10, PETSC_DEFAULT, PETSC_DEFAULT, PETSC_DEFAULT)); } PetscCall(KSPSetFromOptions_WithMatCeed(ksp, mat_mass)); PetscCall(MatDestroy(&mat_mass)); } { // -- Project anisotropy data and store in CeedVector Vec Grid_Anisotropy, grid_anisotropy_loc; // Get L^2 Projection RHS PetscCall(DMGetGlobalVector(grid_aniso_proj->dm, &Grid_Anisotropy)); PetscCall(ApplyCeedOperatorLocalToGlobal(NULL, Grid_Anisotropy, l2_rhs_ctx)); // Solve projection problem PetscCall(KSPSolve(ksp, Grid_Anisotropy, Grid_Anisotropy)); // Copy anisotropy tensor data to CeedVector PetscCall(DMGetLocalVector(grid_aniso_proj->dm, &grid_anisotropy_loc)); PetscCallCeed(ceed, CeedElemRestrictionCreateVector(*elem_restr_grid_aniso, grid_aniso_vector, NULL)); PetscCall(DMGlobalToLocal(grid_aniso_proj->dm, Grid_Anisotropy, INSERT_VALUES, grid_anisotropy_loc)); PetscCall(VecCopyPetscToCeed(grid_anisotropy_loc, *grid_aniso_vector)); PetscCall(DMRestoreLocalVector(grid_aniso_proj->dm, &grid_anisotropy_loc)); PetscCall(DMRestoreGlobalVector(grid_aniso_proj->dm, &Grid_Anisotropy)); } // -- Cleanup PetscCall(NodalProjectionDataDestroy(grid_aniso_proj)); PetscCall(OperatorApplyContextDestroy(l2_rhs_ctx)); PetscCallCeed(ceed, CeedQFunctionDestroy(&qf_rhs_assemble)); PetscCallCeed(ceed, CeedQFunctionDestroy(&qf_mass)); PetscCallCeed(ceed, CeedBasisDestroy(&basis_grid_aniso)); PetscCallCeed(ceed, CeedOperatorDestroy(&op_rhs_assemble)); PetscCallCeed(ceed, CeedOperatorDestroy(&op_mass)); PetscCall(KSPDestroy(&ksp)); PetscFunctionReturn(PETSC_SUCCESS); } PetscErrorCode GridAnisotropyTensorCalculateCollocatedVector(Ceed ceed, User user, CeedData ceed_data, CeedElemRestriction *elem_restr_grid_aniso, CeedVector *aniso_colloc_ceed, PetscInt *num_comp_aniso) { CeedInt q_data_size, num_nodes; CeedQFunction qf_colloc; CeedOperator op_colloc; DMLabel domain_label = NULL; PetscInt label_value = 0, height = 0; PetscFunctionBeginUser; *num_comp_aniso = 7; PetscCallCeed(ceed, CeedBasisGetNumNodes(ceed_data->basis_q, &num_nodes)); PetscCallCeed(ceed, CeedElemRestrictionGetNumComponents(ceed_data->elem_restr_qd_i, &q_data_size)); PetscCall(DMPlexCeedElemRestrictionQDataCreate(ceed, user->dm, domain_label, label_value, height, *num_comp_aniso, elem_restr_grid_aniso)); // -- Build collocation operator PetscCallCeed(ceed, CeedQFunctionCreateInterior(ceed, 1, AnisotropyTensorCollocate, AnisotropyTensorCollocate_loc, &qf_colloc)); PetscCallCeed(ceed, CeedQFunctionAddInput(qf_colloc, "qdata", q_data_size, CEED_EVAL_NONE)); PetscCallCeed(ceed, CeedQFunctionAddOutput(qf_colloc, "v", *num_comp_aniso, CEED_EVAL_NONE)); PetscCallCeed(ceed, CeedOperatorCreate(ceed, qf_colloc, NULL, NULL, &op_colloc)); PetscCallCeed(ceed, CeedOperatorSetField(op_colloc, "qdata", ceed_data->elem_restr_qd_i, CEED_BASIS_NONE, ceed_data->q_data)); PetscCallCeed(ceed, CeedOperatorSetField(op_colloc, "v", *elem_restr_grid_aniso, CEED_BASIS_NONE, CEED_VECTOR_ACTIVE)); PetscCallCeed(ceed, CeedElemRestrictionCreateVector(*elem_restr_grid_aniso, aniso_colloc_ceed, NULL)); PetscCallCeed(ceed, CeedOperatorApply(op_colloc, CEED_VECTOR_NONE, *aniso_colloc_ceed, CEED_REQUEST_IMMEDIATE)); PetscCallCeed(ceed, CeedQFunctionDestroy(&qf_colloc)); PetscCallCeed(ceed, CeedOperatorDestroy(&op_colloc)); PetscFunctionReturn(PETSC_SUCCESS); }