honee/problems/eulervortex.c

a515125bSLeila Ghaffari// Copyright (c) 2017, Lawrence Livermore National Security, LLC. Produced at
a515125bSLeila Ghaffari// the Lawrence Livermore National Laboratory. LLNL-CODE-734707. All Rights
a515125bSLeila Ghaffari// reserved. See files LICENSE and NOTICE for details.
a515125bSLeila Ghaffari//
a515125bSLeila Ghaffari// This file is part of CEED, a collection of benchmarks, miniapps, software
a515125bSLeila Ghaffari// libraries and APIs for efficient high-order finite element and spectral
a515125bSLeila Ghaffari// element discretizations for exascale applications. For more information and
a515125bSLeila Ghaffari// source code availability see http://github.com/ceed.
a515125bSLeila Ghaffari//
a515125bSLeila Ghaffari// The CEED research is supported by the Exascale Computing Project 17-SC-20-SC,
a515125bSLeila Ghaffari// a collaborative effort of two U.S. Department of Energy organizations (Office
a515125bSLeila Ghaffari// of Science and the National Nuclear Security Administration) responsible for
a515125bSLeila Ghaffari// the planning and preparation of a capable exascale ecosystem, including
a515125bSLeila Ghaffari// software, applications, hardware, advanced system engineering and early
a515125bSLeila Ghaffari// testbed platforms, in support of the nation's exascale computing imperative.
a515125bSLeila Ghaffari
a515125bSLeila Ghaffari/// @file
a515125bSLeila Ghaffari/// Utility functions for setting up EULER_VORTEX
a515125bSLeila Ghaffari
a515125bSLeila Ghaffari#include "../navierstokes.h"
a515125bSLeila Ghaffari#include "../qfunctions/setupgeo.h"
a515125bSLeila Ghaffari#include "../qfunctions/eulervortex.h"
a515125bSLeila Ghaffari
*05a512bdSLeila GhaffariPetscErrorCode NS_EULER_VORTEX(ProblemData *problem, DM dm, void *setup_ctx,
a515125bSLeila Ghaffari                               void *ctx) {
a515125bSLeila Ghaffari  EulerTestType     euler_test;
a515125bSLeila Ghaffari  SetupContext      setup_context = *(SetupContext *)setup_ctx;
a515125bSLeila Ghaffari  User              user = *(User *)ctx;
139613f2SLeila Ghaffari  StabilizationType stab;
a515125bSLeila Ghaffari  MPI_Comm          comm = PETSC_COMM_WORLD;
a515125bSLeila Ghaffari  PetscBool         implicit;
a515125bSLeila Ghaffari  PetscBool         has_curr_time = PETSC_TRUE;
a515125bSLeila Ghaffari  PetscBool         has_neumann = PETSC_TRUE;
a515125bSLeila Ghaffari  PetscInt          ierr;
a515125bSLeila Ghaffari  PetscFunctionBeginUser;
a515125bSLeila Ghaffari
a515125bSLeila Ghaffari  ierr = PetscCalloc1(1, &user->phys->euler_ctx); CHKERRQ(ierr);
a515125bSLeila Ghaffari
a515125bSLeila Ghaffari  // ------------------------------------------------------
a515125bSLeila Ghaffari  //               SET UP DENSITY_CURRENT
a515125bSLeila Ghaffari  // ------------------------------------------------------
a515125bSLeila Ghaffari  problem->dim                     = 3;
a515125bSLeila Ghaffari  problem->q_data_size_vol         = 10;
a515125bSLeila Ghaffari  problem->q_data_size_sur         = 4;
a515125bSLeila Ghaffari  problem->setup_vol               = Setup;
a515125bSLeila Ghaffari  problem->setup_vol_loc           = Setup_loc;
a515125bSLeila Ghaffari  problem->setup_sur               = SetupBoundary;
a515125bSLeila Ghaffari  problem->setup_sur_loc           = SetupBoundary_loc;
a515125bSLeila Ghaffari  problem->ics                     = ICsEuler;
a515125bSLeila Ghaffari  problem->ics_loc                 = ICsEuler_loc;
a515125bSLeila Ghaffari  problem->apply_vol_rhs           = Euler;
a515125bSLeila Ghaffari  problem->apply_vol_rhs_loc       = Euler_loc;
a515125bSLeila Ghaffari  problem->apply_vol_ifunction     = IFunction_Euler;
a515125bSLeila Ghaffari  problem->apply_vol_ifunction_loc = IFunction_Euler_loc;
a515125bSLeila Ghaffari  problem->apply_sur               = Euler_Sur;
a515125bSLeila Ghaffari  problem->apply_sur_loc           = Euler_Sur_loc;
a515125bSLeila Ghaffari  problem->bc                      = Exact_Euler;
ba5420e5SLeila Ghaffari  problem->setup_ctx               = SetupContext_EULER_VORTEX;
a515125bSLeila Ghaffari  problem->bc_func                 = BC_EULER_VORTEX;
a515125bSLeila Ghaffari  problem->non_zero_time           = PETSC_TRUE;
a515125bSLeila Ghaffari  problem->print_info              = PRINT_EULER_VORTEX;
a515125bSLeila Ghaffari
a515125bSLeila Ghaffari  // ------------------------------------------------------
a515125bSLeila Ghaffari  //             Create the libCEED context
a515125bSLeila Ghaffari  // ------------------------------------------------------
a515125bSLeila Ghaffari  CeedScalar vortex_strength = 5.;          // -
f821ee77SLeila Ghaffari  CeedScalar c_tau           = 0.5;         // -
d8a22b9eSJed Brown  // c_tau = 0.5 is reported as "optimal" in Hughes et al 2010
3b451b28SLeila Ghaffari  PetscReal center[3],                      // m
3b451b28SLeila Ghaffari            mean_velocity[3] = {1., 1., 0}; // m/s
*05a512bdSLeila Ghaffari  PetscReal domain_min[3], domain_max[3], domain_size[3];
*05a512bdSLeila Ghaffari  ierr = DMGetBoundingBox(dm, domain_min, domain_max); CHKERRQ(ierr);
*05a512bdSLeila Ghaffari  for (int i=0; i<3; i++) domain_size[i] = domain_max[i] - domain_min[i];
a515125bSLeila Ghaffari
a515125bSLeila Ghaffari  // ------------------------------------------------------
a515125bSLeila Ghaffari  //             Create the PETSc context
a515125bSLeila Ghaffari  // ------------------------------------------------------
a515125bSLeila Ghaffari  PetscScalar meter    = 1e-2; // 1 meter in scaled length units
a515125bSLeila Ghaffari  PetscScalar second   = 1e-2; // 1 second in scaled time units
a515125bSLeila Ghaffari
a515125bSLeila Ghaffari  // ------------------------------------------------------
a515125bSLeila Ghaffari  //              Command line Options
a515125bSLeila Ghaffari  // ------------------------------------------------------
a515125bSLeila Ghaffari  ierr = PetscOptionsBegin(comm, NULL, "Options for EULER_VORTEX problem",
a515125bSLeila Ghaffari                           NULL); CHKERRQ(ierr);
a515125bSLeila Ghaffari  // -- Physics
a515125bSLeila Ghaffari  ierr = PetscOptionsScalar("-vortex_strength", "Strength of Vortex",
a515125bSLeila Ghaffari                            NULL, vortex_strength, &vortex_strength, NULL);
a515125bSLeila Ghaffari  CHKERRQ(ierr);
a515125bSLeila Ghaffari  PetscInt n = problem->dim;
a515125bSLeila Ghaffari  PetscBool user_velocity;
a515125bSLeila Ghaffari  ierr = PetscOptionsRealArray("-mean_velocity", "Background velocity vector",
a515125bSLeila Ghaffari                               NULL, mean_velocity, &n, &user_velocity);
a515125bSLeila Ghaffari  CHKERRQ(ierr);
*05a512bdSLeila Ghaffari  for (int i=0; i<3; i++) center[i] = .5*domain_size[i];
a515125bSLeila Ghaffari  n = problem->dim;
a515125bSLeila Ghaffari  ierr = PetscOptionsRealArray("-center", "Location of vortex center",
a515125bSLeila Ghaffari                               NULL, center, &n, NULL); CHKERRQ(ierr);
a515125bSLeila Ghaffari  ierr = PetscOptionsBool("-implicit", "Use implicit (IFunction) formulation",
a515125bSLeila Ghaffari                          NULL, implicit=PETSC_FALSE, &implicit, NULL);
a515125bSLeila Ghaffari  CHKERRQ(ierr);
a515125bSLeila Ghaffari  ierr = PetscOptionsEnum("-euler_test", "Euler test option", NULL,
575f8106SLeila Ghaffari                          EulerTestTypes, (PetscEnum)(euler_test = EULER_TEST_ISENTROPIC_VORTEX),
a515125bSLeila Ghaffari                          (PetscEnum *)&euler_test, NULL); CHKERRQ(ierr);
139613f2SLeila Ghaffari  ierr = PetscOptionsEnum("-stab", "Stabilization method", NULL,
139613f2SLeila Ghaffari                          StabilizationTypes, (PetscEnum)(stab = STAB_NONE),
139613f2SLeila Ghaffari                          (PetscEnum *)&stab, NULL); CHKERRQ(ierr);
d8a22b9eSJed Brown  ierr = PetscOptionsScalar("-c_tau", "Stabilization constant",
d8a22b9eSJed Brown                            NULL, c_tau, &c_tau, NULL); CHKERRQ(ierr);
a515125bSLeila Ghaffari  // -- Units
a515125bSLeila Ghaffari  ierr = PetscOptionsScalar("-units_meter", "1 meter in scaled length units",
a515125bSLeila Ghaffari                            NULL, meter, &meter, NULL); CHKERRQ(ierr);
a515125bSLeila Ghaffari  meter = fabs(meter);
a515125bSLeila Ghaffari  ierr = PetscOptionsScalar("-units_second","1 second in scaled time units",
a515125bSLeila Ghaffari                            NULL, second, &second, NULL); CHKERRQ(ierr);
a515125bSLeila Ghaffari  second = fabs(second);
a515125bSLeila Ghaffari
a515125bSLeila Ghaffari  // -- Warnings
139613f2SLeila Ghaffari  if (stab == STAB_SUPG && !implicit) {
139613f2SLeila Ghaffari    ierr = PetscPrintf(comm,
139613f2SLeila Ghaffari                       "Warning! Use -stab supg only with -implicit\n");
139613f2SLeila Ghaffari    CHKERRQ(ierr);
139613f2SLeila Ghaffari  }
a515125bSLeila Ghaffari  if (user_velocity && (euler_test == EULER_TEST_1
a515125bSLeila Ghaffari                        || euler_test == EULER_TEST_3)) {
a515125bSLeila Ghaffari    ierr = PetscPrintf(comm,
a515125bSLeila Ghaffari                       "Warning! Background velocity vector for -euler_test t1 and -euler_test t3 is (0,0,0)\n");
a515125bSLeila Ghaffari    CHKERRQ(ierr);
a515125bSLeila Ghaffari  }
a515125bSLeila Ghaffari
a515125bSLeila Ghaffari  ierr = PetscOptionsEnd(); CHKERRQ(ierr);
a515125bSLeila Ghaffari
a515125bSLeila Ghaffari  // ------------------------------------------------------
a515125bSLeila Ghaffari  //           Set up the PETSc context
a515125bSLeila Ghaffari  // ------------------------------------------------------
a515125bSLeila Ghaffari  user->units->meter  = meter;
a515125bSLeila Ghaffari  user->units->second = second;
a515125bSLeila Ghaffari
a515125bSLeila Ghaffari  // ------------------------------------------------------
a515125bSLeila Ghaffari  //           Set up the libCEED context
a515125bSLeila Ghaffari  // ------------------------------------------------------
a515125bSLeila Ghaffari  // -- Scale variables to desired units
3b451b28SLeila Ghaffari  for (int i=0; i<3; i++) {
3b451b28SLeila Ghaffari    center[i] *= meter;
*05a512bdSLeila Ghaffari    domain_size[i] *= meter;
*05a512bdSLeila Ghaffari    mean_velocity[i] *= (meter/second);
3b451b28SLeila Ghaffari  }
*05a512bdSLeila Ghaffari  problem->dm_scale = meter;
a515125bSLeila Ghaffari
a515125bSLeila Ghaffari  // -- Setup Context
*05a512bdSLeila Ghaffari  setup_context->lx        = domain_size[0];
*05a512bdSLeila Ghaffari  setup_context->ly        = domain_size[1];
*05a512bdSLeila Ghaffari  setup_context->lz        = domain_size[2];
a515125bSLeila Ghaffari  setup_context->center[0] = center[0];
a515125bSLeila Ghaffari  setup_context->center[1] = center[1];
a515125bSLeila Ghaffari  setup_context->center[2] = center[2];
a515125bSLeila Ghaffari  setup_context->time      = 0;
a515125bSLeila Ghaffari
a515125bSLeila Ghaffari  // -- QFunction Context
139613f2SLeila Ghaffari  user->phys->stab                        = stab;
a515125bSLeila Ghaffari  user->phys->euler_test                  = euler_test;
a515125bSLeila Ghaffari  user->phys->implicit                    = implicit;
a515125bSLeila Ghaffari  user->phys->has_curr_time               = has_curr_time;
a515125bSLeila Ghaffari  user->phys->has_neumann                 = has_neumann;
a515125bSLeila Ghaffari  user->phys->euler_ctx->curr_time        = 0.;
a515125bSLeila Ghaffari  user->phys->euler_ctx->implicit         = implicit;
a515125bSLeila Ghaffari  user->phys->euler_ctx->euler_test       = euler_test;
a515125bSLeila Ghaffari  user->phys->euler_ctx->center[0]        = center[0];
a515125bSLeila Ghaffari  user->phys->euler_ctx->center[1]        = center[1];
a515125bSLeila Ghaffari  user->phys->euler_ctx->center[2]        = center[2];
a515125bSLeila Ghaffari  user->phys->euler_ctx->vortex_strength  = vortex_strength;
d8a22b9eSJed Brown  user->phys->euler_ctx->c_tau            = c_tau;
a515125bSLeila Ghaffari  user->phys->euler_ctx->mean_velocity[0] = mean_velocity[0];
a515125bSLeila Ghaffari  user->phys->euler_ctx->mean_velocity[1] = mean_velocity[1];
a515125bSLeila Ghaffari  user->phys->euler_ctx->mean_velocity[2] = mean_velocity[2];
139613f2SLeila Ghaffari  user->phys->euler_ctx->stabilization    = stab;
a515125bSLeila Ghaffari
a515125bSLeila Ghaffari  PetscFunctionReturn(0);
a515125bSLeila Ghaffari}
a515125bSLeila Ghaffari
ba5420e5SLeila GhaffariPetscErrorCode SetupContext_EULER_VORTEX(Ceed ceed, CeedData ceed_data,
ba5420e5SLeila Ghaffari    AppCtx app_ctx, SetupContext setup_ctx, Physics phys) {
ba5420e5SLeila Ghaffari  PetscFunctionBeginUser;
ba5420e5SLeila Ghaffari
ba5420e5SLeila Ghaffari  CeedQFunctionContextCreate(ceed, &ceed_data->setup_context);
ba5420e5SLeila Ghaffari  CeedQFunctionContextSetData(ceed_data->setup_context, CEED_MEM_HOST,
ba5420e5SLeila Ghaffari                              CEED_USE_POINTER,
ba5420e5SLeila Ghaffari                              sizeof(*setup_ctx), setup_ctx);
ba5420e5SLeila Ghaffari  CeedQFunctionContextCreate(ceed, &ceed_data->euler_context);
ba5420e5SLeila Ghaffari  CeedQFunctionContextSetData(ceed_data->euler_context, CEED_MEM_HOST,
ba5420e5SLeila Ghaffari                              CEED_USE_POINTER,
ba5420e5SLeila Ghaffari                              sizeof(*phys->euler_ctx), phys->euler_ctx);
ba5420e5SLeila Ghaffari  if (ceed_data->qf_ics)
ba5420e5SLeila Ghaffari    CeedQFunctionSetContext(ceed_data->qf_ics, ceed_data->euler_context);
ba5420e5SLeila Ghaffari  if (ceed_data->qf_apply_sur)
ba5420e5SLeila Ghaffari    CeedQFunctionSetContext(ceed_data->qf_apply_sur, ceed_data->euler_context);
139613f2SLeila Ghaffari  if (ceed_data->qf_rhs_vol)
139613f2SLeila Ghaffari    CeedQFunctionSetContext(ceed_data->qf_rhs_vol, ceed_data->euler_context);
139613f2SLeila Ghaffari  if (ceed_data->qf_ifunction_vol)
139613f2SLeila Ghaffari    CeedQFunctionSetContext(ceed_data->qf_ifunction_vol, ceed_data->euler_context);
ba5420e5SLeila Ghaffari
ba5420e5SLeila Ghaffari  PetscFunctionReturn(0);
ba5420e5SLeila Ghaffari}
ba5420e5SLeila Ghaffari
a515125bSLeila GhaffariPetscErrorCode BC_EULER_VORTEX(DM dm, SimpleBC bc, Physics phys,
a515125bSLeila Ghaffari                               void *setup_ctx) {
a515125bSLeila Ghaffari  PetscErrorCode ierr;
a515125bSLeila Ghaffari  PetscFunctionBeginUser;
a515125bSLeila Ghaffari
a515125bSLeila Ghaffari  // Define boundary conditions
a515125bSLeila Ghaffari  bc->num_slip[2] = 2; bc->slips[2][0] = 1; bc->slips[2][1] = 2;
a515125bSLeila Ghaffari
a515125bSLeila Ghaffari  // Set boundary conditions
a515125bSLeila Ghaffari  DMLabel label;
a515125bSLeila Ghaffari  ierr = DMGetLabel(dm, "Face Sets", &label); CHKERRQ(ierr);
a515125bSLeila Ghaffari  PetscInt comps[1] = {3};
b9842f74SJeremy L Thompson  ierr = DMAddBoundary(dm, DM_BC_ESSENTIAL, "slipz", label,
a515125bSLeila Ghaffari                       bc->num_slip[2], bc->slips[2], 0, 1, comps,
a515125bSLeila Ghaffari                       (void(*)(void))NULL, NULL, setup_ctx, NULL);
a515125bSLeila Ghaffari  CHKERRQ(ierr);
a515125bSLeila Ghaffari
a515125bSLeila Ghaffari  PetscFunctionReturn(0);
a515125bSLeila Ghaffari}
a515125bSLeila Ghaffari
a515125bSLeila GhaffariPetscErrorCode PRINT_EULER_VORTEX(Physics phys, SetupContext setup_ctx,
a515125bSLeila Ghaffari                                  AppCtx app_ctx) {
a515125bSLeila Ghaffari  MPI_Comm       comm = PETSC_COMM_WORLD;
a515125bSLeila Ghaffari  PetscErrorCode ierr;
a515125bSLeila Ghaffari  PetscFunctionBeginUser;
a515125bSLeila Ghaffari
a515125bSLeila Ghaffari  ierr = PetscPrintf(comm,
a515125bSLeila Ghaffari                     "  Problem:\n"
a515125bSLeila Ghaffari                     "    Problem Name                       : %s\n"
a515125bSLeila Ghaffari                     "    Test Case                          : %s\n"
139613f2SLeila Ghaffari                     "    Background Velocity                : %f,%f,%f\n"
139613f2SLeila Ghaffari                     "    Stabilization                      : %s\n",
a515125bSLeila Ghaffari                     app_ctx->problem_name, EulerTestTypes[phys->euler_test],
a515125bSLeila Ghaffari                     phys->euler_ctx->mean_velocity[0],
139613f2SLeila Ghaffari                     phys->euler_ctx->mean_velocity[1],
139613f2SLeila Ghaffari                     phys->euler_ctx->mean_velocity[2],
139613f2SLeila Ghaffari                     StabilizationTypes[phys->stab]); CHKERRQ(ierr);
a515125bSLeila Ghaffari
a515125bSLeila Ghaffari  PetscFunctionReturn(0);
a515125bSLeila Ghaffari}