1a515125bSLeila Ghaffari // Copyright (c) 2017, Lawrence Livermore National Security, LLC. Produced at 2a515125bSLeila Ghaffari // the Lawrence Livermore National Laboratory. LLNL-CODE-734707. All Rights 3a515125bSLeila Ghaffari // reserved. See files LICENSE and NOTICE for details. 4a515125bSLeila Ghaffari // 5a515125bSLeila Ghaffari // This file is part of CEED, a collection of benchmarks, miniapps, software 6a515125bSLeila Ghaffari // libraries and APIs for efficient high-order finite element and spectral 7a515125bSLeila Ghaffari // element discretizations for exascale applications. For more information and 8a515125bSLeila Ghaffari // source code availability see http://github.com/ceed. 9a515125bSLeila Ghaffari // 10a515125bSLeila Ghaffari // The CEED research is supported by the Exascale Computing Project 17-SC-20-SC, 11a515125bSLeila Ghaffari // a collaborative effort of two U.S. Department of Energy organizations (Office 12a515125bSLeila Ghaffari // of Science and the National Nuclear Security Administration) responsible for 13a515125bSLeila Ghaffari // the planning and preparation of a capable exascale ecosystem, including 14a515125bSLeila Ghaffari // software, applications, hardware, advanced system engineering and early 15a515125bSLeila Ghaffari // testbed platforms, in support of the nation's exascale computing imperative. 16a515125bSLeila Ghaffari 17a515125bSLeila Ghaffari /// @file 18a515125bSLeila Ghaffari /// Utility functions for setting up EULER_VORTEX 19a515125bSLeila Ghaffari 20a515125bSLeila Ghaffari #include "../navierstokes.h" 21a515125bSLeila Ghaffari #include "../qfunctions/setupgeo.h" 22a515125bSLeila Ghaffari #include "../qfunctions/eulervortex.h" 23a515125bSLeila Ghaffari 24a515125bSLeila Ghaffari PetscErrorCode NS_EULER_VORTEX(ProblemData *problem, void *setup_ctx, 25a515125bSLeila Ghaffari void *ctx) { 26a515125bSLeila Ghaffari EulerTestType euler_test; 27a515125bSLeila Ghaffari SetupContext setup_context = *(SetupContext *)setup_ctx; 28a515125bSLeila Ghaffari User user = *(User *)ctx; 29139613f2SLeila Ghaffari StabilizationType stab; 30a515125bSLeila Ghaffari MPI_Comm comm = PETSC_COMM_WORLD; 31a515125bSLeila Ghaffari PetscBool implicit; 32a515125bSLeila Ghaffari PetscBool has_curr_time = PETSC_TRUE; 33a515125bSLeila Ghaffari PetscBool has_neumann = PETSC_TRUE; 34a515125bSLeila Ghaffari PetscInt ierr; 35a515125bSLeila Ghaffari PetscFunctionBeginUser; 36a515125bSLeila Ghaffari 37a515125bSLeila Ghaffari ierr = PetscCalloc1(1, &user->phys->euler_ctx); CHKERRQ(ierr); 38a515125bSLeila Ghaffari 39a515125bSLeila Ghaffari // ------------------------------------------------------ 40a515125bSLeila Ghaffari // SET UP DENSITY_CURRENT 41a515125bSLeila Ghaffari // ------------------------------------------------------ 42a515125bSLeila Ghaffari problem->dim = 3; 43a515125bSLeila Ghaffari problem->q_data_size_vol = 10; 44a515125bSLeila Ghaffari problem->q_data_size_sur = 4; 45a515125bSLeila Ghaffari problem->setup_vol = Setup; 46a515125bSLeila Ghaffari problem->setup_vol_loc = Setup_loc; 47a515125bSLeila Ghaffari problem->setup_sur = SetupBoundary; 48a515125bSLeila Ghaffari problem->setup_sur_loc = SetupBoundary_loc; 49a515125bSLeila Ghaffari problem->ics = ICsEuler; 50a515125bSLeila Ghaffari problem->ics_loc = ICsEuler_loc; 51a515125bSLeila Ghaffari problem->apply_vol_rhs = Euler; 52a515125bSLeila Ghaffari problem->apply_vol_rhs_loc = Euler_loc; 53a515125bSLeila Ghaffari problem->apply_vol_ifunction = IFunction_Euler; 54a515125bSLeila Ghaffari problem->apply_vol_ifunction_loc = IFunction_Euler_loc; 55a515125bSLeila Ghaffari problem->apply_sur = Euler_Sur; 56a515125bSLeila Ghaffari problem->apply_sur_loc = Euler_Sur_loc; 57a515125bSLeila Ghaffari problem->bc = Exact_Euler; 58ba5420e5SLeila Ghaffari problem->setup_ctx = SetupContext_EULER_VORTEX; 59a515125bSLeila Ghaffari problem->bc_func = BC_EULER_VORTEX; 60a515125bSLeila Ghaffari problem->non_zero_time = PETSC_TRUE; 61a515125bSLeila Ghaffari problem->print_info = PRINT_EULER_VORTEX; 62a515125bSLeila Ghaffari 63a515125bSLeila Ghaffari // ------------------------------------------------------ 64a515125bSLeila Ghaffari // Create the libCEED context 65a515125bSLeila Ghaffari // ------------------------------------------------------ 66a515125bSLeila Ghaffari CeedScalar vortex_strength = 5.; // - 67*f821ee77SLeila Ghaffari CeedScalar c_tau = 0.5; // - 68d8a22b9eSJed Brown // c_tau = 0.5 is reported as "optimal" in Hughes et al 2010 69a515125bSLeila Ghaffari PetscScalar lx = 1000.; // m 70a515125bSLeila Ghaffari PetscScalar ly = 1000.; // m 71a515125bSLeila Ghaffari PetscScalar lz = 1.; // m 723b451b28SLeila Ghaffari PetscReal center[3], // m 733b451b28SLeila Ghaffari mean_velocity[3] = {1., 1., 0}; // m/s 74a515125bSLeila Ghaffari 75a515125bSLeila Ghaffari // ------------------------------------------------------ 76a515125bSLeila Ghaffari // Create the PETSc context 77a515125bSLeila Ghaffari // ------------------------------------------------------ 78a515125bSLeila Ghaffari PetscScalar meter = 1e-2; // 1 meter in scaled length units 79a515125bSLeila Ghaffari PetscScalar second = 1e-2; // 1 second in scaled time units 80a515125bSLeila Ghaffari 81a515125bSLeila Ghaffari // ------------------------------------------------------ 82a515125bSLeila Ghaffari // Command line Options 83a515125bSLeila Ghaffari // ------------------------------------------------------ 84a515125bSLeila Ghaffari ierr = PetscOptionsBegin(comm, NULL, "Options for EULER_VORTEX problem", 85a515125bSLeila Ghaffari NULL); CHKERRQ(ierr); 86a515125bSLeila Ghaffari // -- Physics 87a515125bSLeila Ghaffari ierr = PetscOptionsScalar("-vortex_strength", "Strength of Vortex", 88a515125bSLeila Ghaffari NULL, vortex_strength, &vortex_strength, NULL); 89a515125bSLeila Ghaffari CHKERRQ(ierr); 90a515125bSLeila Ghaffari PetscInt n = problem->dim; 91a515125bSLeila Ghaffari PetscBool user_velocity; 92a515125bSLeila Ghaffari ierr = PetscOptionsRealArray("-mean_velocity", "Background velocity vector", 93a515125bSLeila Ghaffari NULL, mean_velocity, &n, &user_velocity); 94a515125bSLeila Ghaffari CHKERRQ(ierr); 95a515125bSLeila Ghaffari ierr = PetscOptionsScalar("-lx", "Length scale in x direction", 96a515125bSLeila Ghaffari NULL, lx, &lx, NULL); CHKERRQ(ierr); 97a515125bSLeila Ghaffari ierr = PetscOptionsScalar("-ly", "Length scale in y direction", 98a515125bSLeila Ghaffari NULL, ly, &ly, NULL); CHKERRQ(ierr); 99a515125bSLeila Ghaffari ierr = PetscOptionsScalar("-lz", "Length scale in z direction", 100a515125bSLeila Ghaffari NULL, lz, &lz, NULL); CHKERRQ(ierr); 101a515125bSLeila Ghaffari n = problem->dim; 102a515125bSLeila Ghaffari center[0] = 0.5 * lx; 103a515125bSLeila Ghaffari center[1] = 0.5 * ly; 104a515125bSLeila Ghaffari center[2] = 0.5 * lz; 105a515125bSLeila Ghaffari ierr = PetscOptionsRealArray("-center", "Location of vortex center", 106a515125bSLeila Ghaffari NULL, center, &n, NULL); CHKERRQ(ierr); 107a515125bSLeila Ghaffari ierr = PetscOptionsBool("-implicit", "Use implicit (IFunction) formulation", 108a515125bSLeila Ghaffari NULL, implicit=PETSC_FALSE, &implicit, NULL); 109a515125bSLeila Ghaffari CHKERRQ(ierr); 110a515125bSLeila Ghaffari ierr = PetscOptionsEnum("-euler_test", "Euler test option", NULL, 111575f8106SLeila Ghaffari EulerTestTypes, (PetscEnum)(euler_test = EULER_TEST_ISENTROPIC_VORTEX), 112a515125bSLeila Ghaffari (PetscEnum *)&euler_test, NULL); CHKERRQ(ierr); 113139613f2SLeila Ghaffari ierr = PetscOptionsEnum("-stab", "Stabilization method", NULL, 114139613f2SLeila Ghaffari StabilizationTypes, (PetscEnum)(stab = STAB_NONE), 115139613f2SLeila Ghaffari (PetscEnum *)&stab, NULL); CHKERRQ(ierr); 116d8a22b9eSJed Brown ierr = PetscOptionsScalar("-c_tau", "Stabilization constant", 117d8a22b9eSJed Brown NULL, c_tau, &c_tau, NULL); CHKERRQ(ierr); 118a515125bSLeila Ghaffari // -- Units 119a515125bSLeila Ghaffari ierr = PetscOptionsScalar("-units_meter", "1 meter in scaled length units", 120a515125bSLeila Ghaffari NULL, meter, &meter, NULL); CHKERRQ(ierr); 121a515125bSLeila Ghaffari meter = fabs(meter); 122a515125bSLeila Ghaffari ierr = PetscOptionsScalar("-units_second","1 second in scaled time units", 123a515125bSLeila Ghaffari NULL, second, &second, NULL); CHKERRQ(ierr); 124a515125bSLeila Ghaffari second = fabs(second); 125a515125bSLeila Ghaffari 126a515125bSLeila Ghaffari // -- Warnings 127139613f2SLeila Ghaffari if (stab == STAB_SUPG && !implicit) { 128139613f2SLeila Ghaffari ierr = PetscPrintf(comm, 129139613f2SLeila Ghaffari "Warning! Use -stab supg only with -implicit\n"); 130139613f2SLeila Ghaffari CHKERRQ(ierr); 131139613f2SLeila Ghaffari } 132a515125bSLeila Ghaffari if (user_velocity && (euler_test == EULER_TEST_1 133a515125bSLeila Ghaffari || euler_test == EULER_TEST_3)) { 134a515125bSLeila Ghaffari ierr = PetscPrintf(comm, 135a515125bSLeila Ghaffari "Warning! Background velocity vector for -euler_test t1 and -euler_test t3 is (0,0,0)\n"); 136a515125bSLeila Ghaffari CHKERRQ(ierr); 137a515125bSLeila Ghaffari } 138a515125bSLeila Ghaffari 139a515125bSLeila Ghaffari ierr = PetscOptionsEnd(); CHKERRQ(ierr); 140a515125bSLeila Ghaffari 141a515125bSLeila Ghaffari // ------------------------------------------------------ 142a515125bSLeila Ghaffari // Set up the PETSc context 143a515125bSLeila Ghaffari // ------------------------------------------------------ 144a515125bSLeila Ghaffari user->units->meter = meter; 145a515125bSLeila Ghaffari user->units->second = second; 146a515125bSLeila Ghaffari 147a515125bSLeila Ghaffari // ------------------------------------------------------ 148a515125bSLeila Ghaffari // Set up the libCEED context 149a515125bSLeila Ghaffari // ------------------------------------------------------ 150a515125bSLeila Ghaffari // -- Scale variables to desired units 151a515125bSLeila Ghaffari lx = fabs(lx) * meter; 152a515125bSLeila Ghaffari ly = fabs(ly) * meter; 153a515125bSLeila Ghaffari lz = fabs(lz) * meter; 1543b451b28SLeila Ghaffari for (int i=0; i<3; i++) { 1553b451b28SLeila Ghaffari center[i] *= meter; 1563b451b28SLeila Ghaffari mean_velocity[i] = mean_velocity[i] * (meter/second); 1573b451b28SLeila Ghaffari } 158a515125bSLeila Ghaffari 159a515125bSLeila Ghaffari // -- Setup Context 160a515125bSLeila Ghaffari setup_context->lx = lx; 161a515125bSLeila Ghaffari setup_context->ly = ly; 162a515125bSLeila Ghaffari setup_context->lz = lz; 163a515125bSLeila Ghaffari setup_context->center[0] = center[0]; 164a515125bSLeila Ghaffari setup_context->center[1] = center[1]; 165a515125bSLeila Ghaffari setup_context->center[2] = center[2]; 166a515125bSLeila Ghaffari setup_context->time = 0; 167a515125bSLeila Ghaffari 168a515125bSLeila Ghaffari // -- QFunction Context 169139613f2SLeila Ghaffari user->phys->stab = stab; 170a515125bSLeila Ghaffari user->phys->euler_test = euler_test; 171a515125bSLeila Ghaffari user->phys->implicit = implicit; 172a515125bSLeila Ghaffari user->phys->has_curr_time = has_curr_time; 173a515125bSLeila Ghaffari user->phys->has_neumann = has_neumann; 174a515125bSLeila Ghaffari user->phys->euler_ctx->curr_time = 0.; 175a515125bSLeila Ghaffari user->phys->euler_ctx->implicit = implicit; 176a515125bSLeila Ghaffari user->phys->euler_ctx->euler_test = euler_test; 177a515125bSLeila Ghaffari user->phys->euler_ctx->center[0] = center[0]; 178a515125bSLeila Ghaffari user->phys->euler_ctx->center[1] = center[1]; 179a515125bSLeila Ghaffari user->phys->euler_ctx->center[2] = center[2]; 180a515125bSLeila Ghaffari user->phys->euler_ctx->vortex_strength = vortex_strength; 181d8a22b9eSJed Brown user->phys->euler_ctx->c_tau = c_tau; 182a515125bSLeila Ghaffari user->phys->euler_ctx->mean_velocity[0] = mean_velocity[0]; 183a515125bSLeila Ghaffari user->phys->euler_ctx->mean_velocity[1] = mean_velocity[1]; 184a515125bSLeila Ghaffari user->phys->euler_ctx->mean_velocity[2] = mean_velocity[2]; 185139613f2SLeila Ghaffari user->phys->euler_ctx->stabilization = stab; 186a515125bSLeila Ghaffari 187a515125bSLeila Ghaffari PetscFunctionReturn(0); 188a515125bSLeila Ghaffari } 189a515125bSLeila Ghaffari 190ba5420e5SLeila Ghaffari PetscErrorCode SetupContext_EULER_VORTEX(Ceed ceed, CeedData ceed_data, 191ba5420e5SLeila Ghaffari AppCtx app_ctx, SetupContext setup_ctx, Physics phys) { 192ba5420e5SLeila Ghaffari PetscFunctionBeginUser; 193ba5420e5SLeila Ghaffari 194ba5420e5SLeila Ghaffari CeedQFunctionContextCreate(ceed, &ceed_data->setup_context); 195ba5420e5SLeila Ghaffari CeedQFunctionContextSetData(ceed_data->setup_context, CEED_MEM_HOST, 196ba5420e5SLeila Ghaffari CEED_USE_POINTER, 197ba5420e5SLeila Ghaffari sizeof(*setup_ctx), setup_ctx); 198ba5420e5SLeila Ghaffari CeedQFunctionContextCreate(ceed, &ceed_data->euler_context); 199ba5420e5SLeila Ghaffari CeedQFunctionContextSetData(ceed_data->euler_context, CEED_MEM_HOST, 200ba5420e5SLeila Ghaffari CEED_USE_POINTER, 201ba5420e5SLeila Ghaffari sizeof(*phys->euler_ctx), phys->euler_ctx); 202ba5420e5SLeila Ghaffari if (ceed_data->qf_ics) 203ba5420e5SLeila Ghaffari CeedQFunctionSetContext(ceed_data->qf_ics, ceed_data->euler_context); 204ba5420e5SLeila Ghaffari if (ceed_data->qf_apply_sur) 205ba5420e5SLeila Ghaffari CeedQFunctionSetContext(ceed_data->qf_apply_sur, ceed_data->euler_context); 206139613f2SLeila Ghaffari if (ceed_data->qf_rhs_vol) 207139613f2SLeila Ghaffari CeedQFunctionSetContext(ceed_data->qf_rhs_vol, ceed_data->euler_context); 208139613f2SLeila Ghaffari if (ceed_data->qf_ifunction_vol) 209139613f2SLeila Ghaffari CeedQFunctionSetContext(ceed_data->qf_ifunction_vol, ceed_data->euler_context); 210ba5420e5SLeila Ghaffari 211ba5420e5SLeila Ghaffari PetscFunctionReturn(0); 212ba5420e5SLeila Ghaffari } 213ba5420e5SLeila Ghaffari 214a515125bSLeila Ghaffari PetscErrorCode BC_EULER_VORTEX(DM dm, SimpleBC bc, Physics phys, 215a515125bSLeila Ghaffari void *setup_ctx) { 216a515125bSLeila Ghaffari PetscErrorCode ierr; 217a515125bSLeila Ghaffari PetscFunctionBeginUser; 218a515125bSLeila Ghaffari 219a515125bSLeila Ghaffari // Define boundary conditions 220a515125bSLeila Ghaffari bc->num_slip[2] = 2; bc->slips[2][0] = 1; bc->slips[2][1] = 2; 221a515125bSLeila Ghaffari 222a515125bSLeila Ghaffari // Set boundary conditions 223a515125bSLeila Ghaffari DMLabel label; 224a515125bSLeila Ghaffari ierr = DMGetLabel(dm, "Face Sets", &label); CHKERRQ(ierr); 225a515125bSLeila Ghaffari PetscInt comps[1] = {3}; 226a515125bSLeila Ghaffari ierr = DMAddBoundary(dm, DM_BC_ESSENTIAL, "slipz", label, "Face Sets", 227a515125bSLeila Ghaffari bc->num_slip[2], bc->slips[2], 0, 1, comps, 228a515125bSLeila Ghaffari (void(*)(void))NULL, NULL, setup_ctx, NULL); 229a515125bSLeila Ghaffari CHKERRQ(ierr); 230a515125bSLeila Ghaffari 231a515125bSLeila Ghaffari PetscFunctionReturn(0); 232a515125bSLeila Ghaffari } 233a515125bSLeila Ghaffari 234a515125bSLeila Ghaffari PetscErrorCode PRINT_EULER_VORTEX(Physics phys, SetupContext setup_ctx, 235a515125bSLeila Ghaffari AppCtx app_ctx) { 236a515125bSLeila Ghaffari MPI_Comm comm = PETSC_COMM_WORLD; 237a515125bSLeila Ghaffari PetscErrorCode ierr; 238a515125bSLeila Ghaffari PetscFunctionBeginUser; 239a515125bSLeila Ghaffari 240a515125bSLeila Ghaffari ierr = PetscPrintf(comm, 241a515125bSLeila Ghaffari " Problem:\n" 242a515125bSLeila Ghaffari " Problem Name : %s\n" 243a515125bSLeila Ghaffari " Test Case : %s\n" 244139613f2SLeila Ghaffari " Background Velocity : %f,%f,%f\n" 245139613f2SLeila Ghaffari " Stabilization : %s\n", 246a515125bSLeila Ghaffari app_ctx->problem_name, EulerTestTypes[phys->euler_test], 247a515125bSLeila Ghaffari phys->euler_ctx->mean_velocity[0], 248139613f2SLeila Ghaffari phys->euler_ctx->mean_velocity[1], 249139613f2SLeila Ghaffari phys->euler_ctx->mean_velocity[2], 250139613f2SLeila Ghaffari StabilizationTypes[phys->stab]); CHKERRQ(ierr); 251a515125bSLeila Ghaffari 252a515125bSLeila Ghaffari PetscFunctionReturn(0); 253a515125bSLeila Ghaffari } 254