1 // Copyright (c) 2017-2022, Lawrence Livermore National Security, LLC and other CEED contributors. 2 // All Rights Reserved. See the top-level LICENSE and NOTICE files for details. 3 // 4 // SPDX-License-Identifier: BSD-2-Clause 5 // 6 // This file is part of CEED: http://github.com/ceed 7 8 /// @file 9 /// Time-stepping functions for Navier-Stokes example using PETSc 10 11 #include "../navierstokes.h" 12 13 // Compute mass matrix for explicit scheme 14 PetscErrorCode ComputeLumpedMassMatrix(Ceed ceed, DM dm, CeedData ceed_data, Vec M) { 15 Vec M_loc; 16 CeedQFunction qf_mass; 17 CeedOperator op_mass; 18 CeedVector m_ceed, ones_vec; 19 CeedInt num_comp_q, q_data_size; 20 PetscFunctionBeginUser; 21 22 // CEED Restriction 23 CeedElemRestrictionGetNumComponents(ceed_data->elem_restr_q, &num_comp_q); 24 CeedElemRestrictionGetNumComponents(ceed_data->elem_restr_qd_i, &q_data_size); 25 CeedElemRestrictionCreateVector(ceed_data->elem_restr_q, &m_ceed, NULL); 26 CeedElemRestrictionCreateVector(ceed_data->elem_restr_q, &ones_vec, NULL); 27 CeedVectorSetValue(ones_vec, 1.0); 28 29 // CEED QFunction 30 PetscCall(CreateMassQFunction(ceed, num_comp_q, q_data_size, &qf_mass)); 31 32 // CEED Operator 33 CeedOperatorCreate(ceed, qf_mass, NULL, NULL, &op_mass); 34 CeedOperatorSetField(op_mass, "u", ceed_data->elem_restr_q, ceed_data->basis_q, CEED_VECTOR_ACTIVE); 35 CeedOperatorSetField(op_mass, "qdata", ceed_data->elem_restr_qd_i, CEED_BASIS_COLLOCATED, ceed_data->q_data); 36 CeedOperatorSetField(op_mass, "v", ceed_data->elem_restr_q, ceed_data->basis_q, CEED_VECTOR_ACTIVE); 37 38 // Place PETSc vector in CEED vector 39 CeedScalar *m; 40 PetscMemType m_mem_type; 41 PetscCall(DMGetLocalVector(dm, &M_loc)); 42 PetscCall(VecGetArrayAndMemType(M_loc, (PetscScalar **)&m, &m_mem_type)); 43 CeedVectorSetArray(m_ceed, MemTypeP2C(m_mem_type), CEED_USE_POINTER, m); 44 45 // Apply CEED Operator 46 CeedOperatorApply(op_mass, ones_vec, m_ceed, CEED_REQUEST_IMMEDIATE); 47 48 // Restore vectors 49 CeedVectorTakeArray(m_ceed, MemTypeP2C(m_mem_type), NULL); 50 PetscCall(VecRestoreArrayReadAndMemType(M_loc, (const PetscScalar **)&m)); 51 52 // Local-to-Global 53 PetscCall(VecZeroEntries(M)); 54 PetscCall(DMLocalToGlobal(dm, M_loc, ADD_VALUES, M)); 55 PetscCall(DMRestoreLocalVector(dm, &M_loc)); 56 57 // Invert diagonally lumped mass vector for RHS function 58 PetscCall(VecReciprocal(M)); 59 60 // Cleanup 61 CeedVectorDestroy(&ones_vec); 62 CeedVectorDestroy(&m_ceed); 63 CeedQFunctionDestroy(&qf_mass); 64 CeedOperatorDestroy(&op_mass); 65 66 PetscFunctionReturn(0); 67 } 68 69 // RHS (Explicit time-stepper) function setup 70 // This is the RHS of the ODE, given as u_t = G(t,u) 71 // This function takes in a state vector Q and writes into G 72 PetscErrorCode RHS_NS(TS ts, PetscReal t, Vec Q, Vec G, void *user_data) { 73 User user = *(User *)user_data; 74 PetscScalar *q, *g; 75 Vec Q_loc = user->Q_loc, G_loc; 76 PetscMemType q_mem_type, g_mem_type; 77 PetscFunctionBeginUser; 78 79 // Get local vector 80 PetscCall(DMGetLocalVector(user->dm, &G_loc)); 81 82 // Update time dependent data 83 if (user->time != t) { 84 PetscCall(DMPlexInsertBoundaryValues(user->dm, PETSC_TRUE, Q_loc, t, NULL, NULL, NULL)); 85 if (user->phys->solution_time_label) { 86 CeedOperatorContextSetDouble(user->op_rhs, user->phys->solution_time_label, &t); 87 } 88 user->time = t; 89 } 90 if (user->phys->timestep_size_label) { 91 PetscScalar dt; 92 PetscCall(TSGetTimeStep(ts, &dt)); 93 if (user->dt != dt) { 94 CeedOperatorContextSetDouble(user->op_rhs, user->phys->timestep_size_label, &dt); 95 user->dt = dt; 96 } 97 } 98 99 // Global-to-local 100 PetscCall(DMGlobalToLocal(user->dm, Q, INSERT_VALUES, Q_loc)); 101 102 // Place PETSc vectors in CEED vectors 103 PetscCall(VecGetArrayReadAndMemType(Q_loc, (const PetscScalar **)&q, &q_mem_type)); 104 PetscCall(VecGetArrayAndMemType(G_loc, &g, &g_mem_type)); 105 CeedVectorSetArray(user->q_ceed, MemTypeP2C(q_mem_type), CEED_USE_POINTER, q); 106 CeedVectorSetArray(user->g_ceed, MemTypeP2C(g_mem_type), CEED_USE_POINTER, g); 107 108 // Apply CEED operator 109 CeedOperatorApply(user->op_rhs, user->q_ceed, user->g_ceed, CEED_REQUEST_IMMEDIATE); 110 111 // Restore vectors 112 CeedVectorTakeArray(user->q_ceed, MemTypeP2C(q_mem_type), NULL); 113 CeedVectorTakeArray(user->g_ceed, MemTypeP2C(g_mem_type), NULL); 114 PetscCall(VecRestoreArrayReadAndMemType(Q_loc, (const PetscScalar **)&q)); 115 PetscCall(VecRestoreArrayAndMemType(G_loc, &g)); 116 117 // Local-to-Global 118 PetscCall(VecZeroEntries(G)); 119 PetscCall(DMLocalToGlobal(user->dm, G_loc, ADD_VALUES, G)); 120 121 // Inverse of the lumped mass matrix (M is Minv) 122 PetscCall(VecPointwiseMult(G, G, user->M)); 123 124 // Restore vectors 125 PetscCall(DMRestoreLocalVector(user->dm, &G_loc)); 126 127 PetscFunctionReturn(0); 128 } 129 130 // Implicit time-stepper function setup 131 PetscErrorCode IFunction_NS(TS ts, PetscReal t, Vec Q, Vec Q_dot, Vec G, void *user_data) { 132 User user = *(User *)user_data; 133 const PetscScalar *q, *q_dot; 134 PetscScalar *g; 135 Vec Q_loc = user->Q_loc, Q_dot_loc = user->Q_dot_loc, G_loc; 136 PetscMemType q_mem_type, q_dot_mem_type, g_mem_type; 137 PetscFunctionBeginUser; 138 139 // Get local vectors 140 PetscCall(DMGetLocalVector(user->dm, &G_loc)); 141 142 // Update time dependent data 143 if (user->time != t) { 144 PetscCall(DMPlexInsertBoundaryValues(user->dm, PETSC_TRUE, Q_loc, t, NULL, NULL, NULL)); 145 if (user->phys->solution_time_label) { 146 CeedOperatorContextSetDouble(user->op_ifunction, user->phys->solution_time_label, &t); 147 } 148 user->time = t; 149 } 150 if (user->phys->timestep_size_label) { 151 PetscScalar dt; 152 PetscCall(TSGetTimeStep(ts, &dt)); 153 if (user->dt != dt) { 154 CeedOperatorContextSetDouble(user->op_ifunction, user->phys->timestep_size_label, &dt); 155 user->dt = dt; 156 } 157 } 158 159 // Global-to-local 160 PetscCall(DMGlobalToLocalBegin(user->dm, Q, INSERT_VALUES, Q_loc)); 161 PetscCall(DMGlobalToLocalBegin(user->dm, Q_dot, INSERT_VALUES, Q_dot_loc)); 162 PetscCall(DMGlobalToLocalEnd(user->dm, Q, INSERT_VALUES, Q_loc)); 163 PetscCall(DMGlobalToLocalEnd(user->dm, Q_dot, INSERT_VALUES, Q_dot_loc)); 164 165 // Place PETSc vectors in CEED vectors 166 PetscCall(VecGetArrayReadAndMemType(Q_loc, &q, &q_mem_type)); 167 PetscCall(VecGetArrayReadAndMemType(Q_dot_loc, &q_dot, &q_dot_mem_type)); 168 PetscCall(VecGetArrayAndMemType(G_loc, &g, &g_mem_type)); 169 CeedVectorSetArray(user->q_ceed, MemTypeP2C(q_mem_type), CEED_USE_POINTER, (PetscScalar *)q); 170 CeedVectorSetArray(user->q_dot_ceed, MemTypeP2C(q_dot_mem_type), CEED_USE_POINTER, (PetscScalar *)q_dot); 171 CeedVectorSetArray(user->g_ceed, MemTypeP2C(g_mem_type), CEED_USE_POINTER, g); 172 173 // Apply CEED operator 174 CeedOperatorApply(user->op_ifunction, user->q_ceed, user->g_ceed, CEED_REQUEST_IMMEDIATE); 175 176 // Restore vectors 177 CeedVectorTakeArray(user->q_ceed, MemTypeP2C(q_mem_type), NULL); 178 CeedVectorTakeArray(user->q_dot_ceed, MemTypeP2C(q_dot_mem_type), NULL); 179 CeedVectorTakeArray(user->g_ceed, MemTypeP2C(g_mem_type), NULL); 180 PetscCall(VecRestoreArrayReadAndMemType(Q_loc, &q)); 181 PetscCall(VecRestoreArrayReadAndMemType(Q_dot_loc, &q_dot)); 182 PetscCall(VecRestoreArrayAndMemType(G_loc, &g)); 183 184 // Local-to-Global 185 PetscCall(VecZeroEntries(G)); 186 PetscCall(DMLocalToGlobal(user->dm, G_loc, ADD_VALUES, G)); 187 188 // Restore vectors 189 PetscCall(DMRestoreLocalVector(user->dm, &G_loc)); 190 191 PetscFunctionReturn(0); 192 } 193 194 static PetscErrorCode MatMult_NS_IJacobian(Mat J, Vec Q, Vec G) { 195 User user; 196 const PetscScalar *q; 197 PetscScalar *g; 198 PetscMemType q_mem_type, g_mem_type; 199 PetscFunctionBeginUser; 200 PetscCall(MatShellGetContext(J, &user)); 201 Vec Q_loc = user->Q_dot_loc, // Note - Q_dot_loc has zero BCs 202 G_loc; 203 204 // Get local vectors 205 PetscCall(DMGetLocalVector(user->dm, &G_loc)); 206 207 // Global-to-local 208 PetscCall(DMGlobalToLocal(user->dm, Q, INSERT_VALUES, Q_loc)); 209 210 // Place PETSc vectors in CEED vectors 211 PetscCall(VecGetArrayReadAndMemType(Q_loc, &q, &q_mem_type)); 212 PetscCall(VecGetArrayAndMemType(G_loc, &g, &g_mem_type)); 213 CeedVectorSetArray(user->q_ceed, MemTypeP2C(q_mem_type), CEED_USE_POINTER, (PetscScalar *)q); 214 CeedVectorSetArray(user->g_ceed, MemTypeP2C(g_mem_type), CEED_USE_POINTER, g); 215 216 // Apply CEED operator 217 CeedOperatorApply(user->op_ijacobian, user->q_ceed, user->g_ceed, CEED_REQUEST_IMMEDIATE); 218 219 // Restore vectors 220 CeedVectorTakeArray(user->q_ceed, MemTypeP2C(q_mem_type), NULL); 221 CeedVectorTakeArray(user->g_ceed, MemTypeP2C(g_mem_type), NULL); 222 PetscCall(VecRestoreArrayReadAndMemType(Q_loc, &q)); 223 PetscCall(VecRestoreArrayAndMemType(G_loc, &g)); 224 225 // Local-to-Global 226 PetscCall(VecZeroEntries(G)); 227 PetscCall(DMLocalToGlobal(user->dm, G_loc, ADD_VALUES, G)); 228 229 // Restore vectors 230 PetscCall(DMRestoreLocalVector(user->dm, &G_loc)); 231 PetscFunctionReturn(0); 232 } 233 234 PetscErrorCode MatGetDiagonal_NS_IJacobian(Mat A, Vec D) { 235 User user; 236 Vec D_loc; 237 PetscScalar *d; 238 PetscMemType mem_type; 239 240 PetscFunctionBeginUser; 241 MatShellGetContext(A, &user); 242 PetscCall(DMGetLocalVector(user->dm, &D_loc)); 243 PetscCall(VecGetArrayAndMemType(D_loc, &d, &mem_type)); 244 CeedVectorSetArray(user->g_ceed, MemTypeP2C(mem_type), CEED_USE_POINTER, d); 245 CeedOperatorLinearAssembleDiagonal(user->op_ijacobian, user->g_ceed, CEED_REQUEST_IMMEDIATE); 246 CeedVectorTakeArray(user->g_ceed, MemTypeP2C(mem_type), NULL); 247 PetscCall(VecRestoreArrayAndMemType(D_loc, &d)); 248 PetscCall(VecZeroEntries(D)); 249 PetscCall(DMLocalToGlobal(user->dm, D_loc, ADD_VALUES, D)); 250 PetscCall(DMRestoreLocalVector(user->dm, &D_loc)); 251 VecViewFromOptions(D, NULL, "-diag_vec_view"); 252 PetscFunctionReturn(0); 253 } 254 255 static PetscErrorCode FormPreallocation(User user, PetscBool pbdiagonal, Mat J, CeedVector *coo_values) { 256 PetscCount ncoo; 257 PetscInt *rows, *cols; 258 259 PetscFunctionBeginUser; 260 if (pbdiagonal) { 261 CeedSize l_size; 262 CeedOperatorGetActiveVectorLengths(user->op_ijacobian, &l_size, NULL); 263 ncoo = l_size * 5; 264 rows = malloc(ncoo * sizeof(rows[0])); 265 cols = malloc(ncoo * sizeof(cols[0])); 266 for (PetscCount n = 0; n < l_size / 5; n++) { 267 for (PetscInt i = 0; i < 5; i++) { 268 for (PetscInt j = 0; j < 5; j++) { 269 rows[(n * 5 + i) * 5 + j] = n * 5 + i; 270 cols[(n * 5 + i) * 5 + j] = n * 5 + j; 271 } 272 } 273 } 274 } else { 275 PetscCall(CeedOperatorLinearAssembleSymbolic(user->op_ijacobian, &ncoo, &rows, &cols)); 276 } 277 PetscCall(MatSetPreallocationCOOLocal(J, ncoo, rows, cols)); 278 free(rows); 279 free(cols); 280 CeedVectorCreate(user->ceed, ncoo, coo_values); 281 PetscFunctionReturn(0); 282 } 283 284 static PetscErrorCode FormSetValues(User user, PetscBool pbdiagonal, Mat J, CeedVector coo_values) { 285 CeedMemType mem_type = CEED_MEM_HOST; 286 const PetscScalar *values; 287 MatType mat_type; 288 289 PetscFunctionBeginUser; 290 PetscCall(MatGetType(J, &mat_type)); 291 if (strstr(mat_type, "kokkos") || strstr(mat_type, "cusparse")) mem_type = CEED_MEM_DEVICE; 292 if (user->app_ctx->pmat_pbdiagonal) { 293 CeedOperatorLinearAssemblePointBlockDiagonal(user->op_ijacobian, coo_values, CEED_REQUEST_IMMEDIATE); 294 } else { 295 CeedOperatorLinearAssemble(user->op_ijacobian, coo_values); 296 } 297 CeedVectorGetArrayRead(coo_values, mem_type, &values); 298 PetscCall(MatSetValuesCOO(J, values, INSERT_VALUES)); 299 CeedVectorRestoreArrayRead(coo_values, &values); 300 PetscFunctionReturn(0); 301 } 302 303 PetscErrorCode FormIJacobian_NS(TS ts, PetscReal t, Vec Q, Vec Q_dot, PetscReal shift, Mat J, Mat J_pre, void *user_data) { 304 User user = *(User *)user_data; 305 PetscBool J_is_shell, J_is_mffd, J_pre_is_shell; 306 PetscFunctionBeginUser; 307 if (user->phys->ijacobian_time_shift_label) CeedOperatorContextSetDouble(user->op_ijacobian, user->phys->ijacobian_time_shift_label, &shift); 308 PetscCall(PetscObjectTypeCompare((PetscObject)J, MATMFFD, &J_is_mffd)); 309 PetscCall(PetscObjectTypeCompare((PetscObject)J, MATSHELL, &J_is_shell)); 310 PetscCall(PetscObjectTypeCompare((PetscObject)J_pre, MATSHELL, &J_pre_is_shell)); 311 if (!user->matrices_set_up) { 312 if (J_is_shell) { 313 PetscCall(MatShellSetContext(J, user)); 314 PetscCall(MatShellSetOperation(J, MATOP_MULT, (void (*)(void))MatMult_NS_IJacobian)); 315 PetscCall(MatShellSetOperation(J, MATOP_GET_DIAGONAL, (void (*)(void))MatGetDiagonal_NS_IJacobian)); 316 PetscCall(MatSetUp(J)); 317 } 318 if (!J_pre_is_shell) { 319 PetscCall(FormPreallocation(user, user->app_ctx->pmat_pbdiagonal, J_pre, &user->coo_values_pmat)); 320 } 321 if (J != J_pre && !J_is_shell && !J_is_mffd) { 322 PetscCall(FormPreallocation(user, PETSC_FALSE, J, &user->coo_values_amat)); 323 } 324 user->matrices_set_up = true; 325 } 326 if (!J_pre_is_shell) { 327 PetscCall(FormSetValues(user, user->app_ctx->pmat_pbdiagonal, J_pre, user->coo_values_pmat)); 328 } 329 if (user->coo_values_amat) { 330 PetscCall(FormSetValues(user, PETSC_FALSE, J, user->coo_values_amat)); 331 } else if (J_is_mffd) { 332 PetscCall(MatAssemblyBegin(J, MAT_FINAL_ASSEMBLY)); 333 PetscCall(MatAssemblyEnd(J, MAT_FINAL_ASSEMBLY)); 334 } 335 PetscFunctionReturn(0); 336 } 337 338 PetscErrorCode WriteOutput(User user, Vec Q, PetscInt step_no, PetscScalar time) { 339 Vec Q_loc; 340 char file_path[PETSC_MAX_PATH_LEN]; 341 PetscViewer viewer; 342 PetscFunctionBeginUser; 343 344 if (user->app_ctx->checkpoint_vtk) { 345 // Set up output 346 PetscCall(DMGetLocalVector(user->dm, &Q_loc)); 347 PetscCall(PetscObjectSetName((PetscObject)Q_loc, "StateVec")); 348 PetscCall(VecZeroEntries(Q_loc)); 349 PetscCall(DMGlobalToLocal(user->dm, Q, INSERT_VALUES, Q_loc)); 350 351 // Output 352 PetscCall(PetscSNPrintf(file_path, sizeof file_path, "%s/ns-%03" PetscInt_FMT ".vtu", user->app_ctx->output_dir, step_no)); 353 354 PetscCall(PetscViewerVTKOpen(PetscObjectComm((PetscObject)Q), file_path, FILE_MODE_WRITE, &viewer)); 355 PetscCall(VecView(Q_loc, viewer)); 356 PetscCall(PetscViewerDestroy(&viewer)); 357 if (user->dm_viz) { 358 Vec Q_refined, Q_refined_loc; 359 char file_path_refined[PETSC_MAX_PATH_LEN]; 360 PetscViewer viewer_refined; 361 362 PetscCall(DMGetGlobalVector(user->dm_viz, &Q_refined)); 363 PetscCall(DMGetLocalVector(user->dm_viz, &Q_refined_loc)); 364 PetscCall(PetscObjectSetName((PetscObject)Q_refined_loc, "Refined")); 365 366 PetscCall(MatInterpolate(user->interp_viz, Q, Q_refined)); 367 PetscCall(VecZeroEntries(Q_refined_loc)); 368 PetscCall(DMGlobalToLocal(user->dm_viz, Q_refined, INSERT_VALUES, Q_refined_loc)); 369 370 PetscCall( 371 PetscSNPrintf(file_path_refined, sizeof file_path_refined, "%s/nsrefined-%03" PetscInt_FMT ".vtu", user->app_ctx->output_dir, step_no)); 372 373 PetscCall(PetscViewerVTKOpen(PetscObjectComm((PetscObject)Q_refined), file_path_refined, FILE_MODE_WRITE, &viewer_refined)); 374 PetscCall(VecView(Q_refined_loc, viewer_refined)); 375 PetscCall(DMRestoreLocalVector(user->dm_viz, &Q_refined_loc)); 376 PetscCall(DMRestoreGlobalVector(user->dm_viz, &Q_refined)); 377 PetscCall(PetscViewerDestroy(&viewer_refined)); 378 } 379 PetscCall(DMRestoreLocalVector(user->dm, &Q_loc)); 380 } 381 382 // Save data in a binary file for continuation of simulations 383 if (user->app_ctx->add_stepnum2bin) { 384 PetscCall(PetscSNPrintf(file_path, sizeof file_path, "%s/ns-solution-%" PetscInt_FMT ".bin", user->app_ctx->output_dir, step_no)); 385 } else { 386 PetscCall(PetscSNPrintf(file_path, sizeof file_path, "%s/ns-solution.bin", user->app_ctx->output_dir)); 387 } 388 PetscCall(PetscViewerBinaryOpen(user->comm, file_path, FILE_MODE_WRITE, &viewer)); 389 390 PetscInt token = FLUIDS_FILE_TOKEN; 391 PetscCall(PetscViewerBinaryWrite(viewer, &token, 1, PETSC_INT)); 392 PetscCall(PetscViewerBinaryWrite(viewer, &step_no, 1, PETSC_INT)); 393 time /= user->units->second; // Dimensionalize time back 394 PetscCall(PetscViewerBinaryWrite(viewer, &time, 1, PETSC_REAL)); 395 PetscCall(VecView(Q, viewer)); 396 PetscCall(PetscViewerDestroy(&viewer)); 397 PetscFunctionReturn(0); 398 } 399 400 // User provided TS Monitor 401 PetscErrorCode TSMonitor_NS(TS ts, PetscInt step_no, PetscReal time, Vec Q, void *ctx) { 402 User user = ctx; 403 PetscFunctionBeginUser; 404 405 // Print every 'checkpoint_interval' steps 406 if (user->app_ctx->checkpoint_interval <= 0 || step_no % user->app_ctx->checkpoint_interval != 0 || 407 (user->app_ctx->cont_steps == step_no && step_no != 0)) 408 PetscFunctionReturn(0); 409 410 PetscCall(WriteOutput(user, Q, step_no, time)); 411 412 PetscFunctionReturn(0); 413 } 414 415 // TS: Create, setup, and solve 416 PetscErrorCode TSSolve_NS(DM dm, User user, AppCtx app_ctx, Physics phys, Vec *Q, PetscScalar *f_time, TS *ts) { 417 MPI_Comm comm = user->comm; 418 TSAdapt adapt; 419 PetscScalar final_time; 420 PetscFunctionBeginUser; 421 422 PetscCall(TSCreate(comm, ts)); 423 PetscCall(TSSetDM(*ts, dm)); 424 if (phys->implicit) { 425 PetscCall(TSSetType(*ts, TSBDF)); 426 if (user->op_ifunction) { 427 PetscCall(TSSetIFunction(*ts, NULL, IFunction_NS, &user)); 428 } else { // Implicit integrators can fall back to using an RHSFunction 429 PetscCall(TSSetRHSFunction(*ts, NULL, RHS_NS, &user)); 430 } 431 if (user->op_ijacobian) { 432 PetscCall(DMTSSetIJacobian(dm, FormIJacobian_NS, &user)); 433 if (app_ctx->amat_type) { 434 Mat Pmat, Amat; 435 PetscCall(DMCreateMatrix(dm, &Pmat)); 436 PetscCall(DMSetMatType(dm, app_ctx->amat_type)); 437 PetscCall(DMCreateMatrix(dm, &Amat)); 438 PetscCall(TSSetIJacobian(*ts, Amat, Pmat, NULL, NULL)); 439 PetscCall(MatDestroy(&Amat)); 440 PetscCall(MatDestroy(&Pmat)); 441 } 442 } 443 } else { 444 if (!user->op_rhs) SETERRQ(comm, PETSC_ERR_ARG_NULL, "Problem does not provide RHSFunction"); 445 PetscCall(TSSetType(*ts, TSRK)); 446 PetscCall(TSRKSetType(*ts, TSRK5F)); 447 PetscCall(TSSetRHSFunction(*ts, NULL, RHS_NS, &user)); 448 } 449 PetscCall(TSSetMaxTime(*ts, 500. * user->units->second)); 450 PetscCall(TSSetExactFinalTime(*ts, TS_EXACTFINALTIME_STEPOVER)); 451 PetscCall(TSSetErrorIfStepFails(*ts, PETSC_FALSE)); 452 PetscCall(TSSetTimeStep(*ts, 1.e-2 * user->units->second)); 453 if (app_ctx->test_mode) { 454 PetscCall(TSSetMaxSteps(*ts, 10)); 455 } 456 PetscCall(TSGetAdapt(*ts, &adapt)); 457 PetscCall(TSAdaptSetStepLimits(adapt, 1.e-12 * user->units->second, 1.e2 * user->units->second)); 458 PetscCall(TSSetFromOptions(*ts)); 459 user->time = -1.0; // require all BCs and ctx to be updated 460 user->dt = -1.0; 461 if (!app_ctx->cont_steps) { // print initial condition 462 if (!app_ctx->test_mode) { 463 PetscCall(TSMonitor_NS(*ts, 0, 0., *Q, user)); 464 } 465 } else { // continue from time of last output 466 PetscInt count; 467 PetscViewer viewer; 468 469 if (app_ctx->cont_time <= 0) { // Legacy files did not include step number and time 470 PetscCall(PetscViewerBinaryOpen(comm, app_ctx->cont_time_file, FILE_MODE_READ, &viewer)); 471 PetscCall(PetscViewerBinaryRead(viewer, &app_ctx->cont_time, 1, &count, PETSC_REAL)); 472 PetscCall(PetscViewerDestroy(&viewer)); 473 PetscCheck(app_ctx->cont_steps != -1, comm, PETSC_ERR_ARG_INCOMP, 474 "-continue step number not specified, but checkpoint file does not contain a step number (likely written by older code version)"); 475 } 476 PetscCall(TSSetTime(*ts, app_ctx->cont_time * user->units->second)); 477 PetscCall(TSSetStepNumber(*ts, app_ctx->cont_steps)); 478 } 479 if (!app_ctx->test_mode) { 480 PetscCall(TSMonitorSet(*ts, TSMonitor_NS, user, NULL)); 481 if (app_ctx->stats_enable) { 482 PetscCall(TSMonitorSet(*ts, TSMonitor_Statistics, user, NULL)); 483 } 484 } 485 486 // Solve 487 PetscReal start_time; 488 PetscInt start_step; 489 PetscCall(TSGetTime(*ts, &start_time)); 490 PetscCall(TSGetStepNumber(*ts, &start_step)); 491 492 PetscPreLoadBegin(PETSC_FALSE, "Fluids Solve"); 493 PetscCall(TSSetTime(*ts, start_time)); 494 PetscCall(TSSetStepNumber(*ts, start_step)); 495 if (PetscPreLoadingOn) { 496 // LCOV_EXCL_START 497 SNES snes; 498 Vec Q_preload; 499 PetscReal rtol; 500 PetscCall(VecDuplicate(*Q, &Q_preload)); 501 PetscCall(VecCopy(*Q, Q_preload)); 502 PetscCall(TSGetSNES(*ts, &snes)); 503 PetscCall(SNESGetTolerances(snes, NULL, &rtol, NULL, NULL, NULL)); 504 PetscCall(SNESSetTolerances(snes, PETSC_DEFAULT, .99, PETSC_DEFAULT, PETSC_DEFAULT, PETSC_DEFAULT)); 505 PetscCall(TSSetSolution(*ts, *Q)); 506 PetscCall(TSStep(*ts)); 507 PetscCall(SNESSetTolerances(snes, PETSC_DEFAULT, rtol, PETSC_DEFAULT, PETSC_DEFAULT, PETSC_DEFAULT)); 508 PetscCall(VecDestroy(&Q_preload)); 509 // LCOV_EXCL_STOP 510 } else { 511 PetscCall(PetscBarrier((PetscObject)*ts)); 512 PetscCall(TSSolve(*ts, *Q)); 513 } 514 PetscPreLoadEnd(); 515 516 PetscCall(TSGetSolveTime(*ts, &final_time)); 517 *f_time = final_time; 518 519 if (!app_ctx->test_mode) { 520 PetscInt step_no; 521 PetscCall(TSGetStepNumber(*ts, &step_no)); 522 if (user->app_ctx->checkpoint_interval > 0 || user->app_ctx->checkpoint_interval == -1) { 523 PetscCall(WriteOutput(user, *Q, step_no, final_time)); 524 } 525 if (app_ctx->stats_enable && (user->app_ctx->stats_write_interval > 0 || user->app_ctx->stats_write_interval == -1)) { 526 PetscCall(StatsCollectFinalCall(user, final_time, *Q)); 527 } 528 529 PetscLogEvent stage_id; 530 PetscStageLog stage_log; 531 532 PetscCall(PetscLogStageGetId("Fluids Solve", &stage_id)); 533 PetscCall(PetscLogGetStageLog(&stage_log)); 534 PetscCall(PetscPrintf(PETSC_COMM_WORLD, "Time taken for solution (sec): %g\n", stage_log->stageInfo[stage_id].perfInfo.time)); 535 } 536 PetscFunctionReturn(0); 537 } 538