15aed82e4SJeremy L Thompson // Copyright (c) 2017-2024, Lawrence Livermore National Security, LLC and other CEED contributors. 2530ad8c4SKenneth E. Jansen // All Rights Reserved. See the top-level LICENSE and NOTICE files for details. 3530ad8c4SKenneth E. Jansen // 4530ad8c4SKenneth E. Jansen // SPDX-License-Identifier: BSD-2-Clause 5530ad8c4SKenneth E. Jansen // 6530ad8c4SKenneth E. Jansen // This file is part of CEED: http://github.com/ceed 7530ad8c4SKenneth E. Jansen 8530ad8c4SKenneth E. Jansen /// @file 9530ad8c4SKenneth E. Jansen /// Thermodynamic wave propogation for testing freestream/non-reflecting boundary conditions. Proposed in Mengaldo et. al. 2014 10530ad8c4SKenneth E. Jansen #include <ceed.h> 11530ad8c4SKenneth E. Jansen #include <math.h> 12530ad8c4SKenneth E. Jansen 13530ad8c4SKenneth E. Jansen #include "newtonian_state.h" 14530ad8c4SKenneth E. Jansen #include "utils.h" 15530ad8c4SKenneth E. Jansen 16530ad8c4SKenneth E. Jansen typedef struct GaussianWaveContext_ *GaussianWaveContext; 17530ad8c4SKenneth E. Jansen struct GaussianWaveContext_ { 18530ad8c4SKenneth E. Jansen CeedScalar epicenter[3]; // Location of the perturbation 19530ad8c4SKenneth E. Jansen CeedScalar width; // Controls width of the perturbation 20530ad8c4SKenneth E. Jansen CeedScalar amplitude; // Amplitude of the perturbation 21530ad8c4SKenneth E. Jansen State S_infty; // Flow state at infinity 22530ad8c4SKenneth E. Jansen struct NewtonianIdealGasContext_ newt_ctx; 23530ad8c4SKenneth E. Jansen }; 24530ad8c4SKenneth E. Jansen 25be91e165SJames Wright CEED_QFUNCTION_HELPER int IC_GaussianWave(void *ctx, CeedInt Q, const CeedScalar *const *in, CeedScalar *const *out, StateVariable state_var) { 26530ad8c4SKenneth E. Jansen const CeedScalar(*X)[CEED_Q_VLA] = (const CeedScalar(*)[CEED_Q_VLA])in[0]; 27530ad8c4SKenneth E. Jansen 28530ad8c4SKenneth E. Jansen CeedScalar(*q0)[CEED_Q_VLA] = (CeedScalar(*)[CEED_Q_VLA])out[0]; 29530ad8c4SKenneth E. Jansen 30530ad8c4SKenneth E. Jansen const GaussianWaveContext context = (GaussianWaveContext)ctx; 31530ad8c4SKenneth E. Jansen const NewtonianIdealGasContext newt_ctx = &context->newt_ctx; 32530ad8c4SKenneth E. Jansen 33530ad8c4SKenneth E. Jansen const CeedScalar amplitude = context->amplitude; 34530ad8c4SKenneth E. Jansen const CeedScalar width = context->width; 35530ad8c4SKenneth E. Jansen const State S_infty = context->S_infty; 36530ad8c4SKenneth E. Jansen const CeedScalar xc = context->epicenter[0]; 37530ad8c4SKenneth E. Jansen const CeedScalar yc = context->epicenter[1]; 38530ad8c4SKenneth E. Jansen 39530ad8c4SKenneth E. Jansen const CeedScalar gamma = HeatCapacityRatio(newt_ctx); 40530ad8c4SKenneth E. Jansen 41530ad8c4SKenneth E. Jansen CeedPragmaSIMD for (CeedInt i = 0; i < Q; i++) { 42530ad8c4SKenneth E. Jansen CeedScalar U[5] = {0.}, qi[5] = {0.}; 43530ad8c4SKenneth E. Jansen const CeedScalar x[3] = {X[0][i], X[1][i], X[2][i]}; 44530ad8c4SKenneth E. Jansen const CeedScalar x0 = x[0] - xc; 45530ad8c4SKenneth E. Jansen const CeedScalar y0 = x[1] - yc; 46530ad8c4SKenneth E. Jansen const CeedScalar e_kinetic = 0.5 * S_infty.U.density * Dot3(S_infty.Y.velocity, S_infty.Y.velocity); 47530ad8c4SKenneth E. Jansen 48530ad8c4SKenneth E. Jansen const CeedScalar perturbation = 1 + amplitude * exp(-(Square(x0) + Square(y0)) / (2 * Square(width))); 49530ad8c4SKenneth E. Jansen 50530ad8c4SKenneth E. Jansen U[0] = S_infty.U.density * perturbation; 51530ad8c4SKenneth E. Jansen U[1] = S_infty.Y.velocity[0] * U[0]; 52530ad8c4SKenneth E. Jansen U[2] = S_infty.Y.velocity[1] * U[0]; 53530ad8c4SKenneth E. Jansen U[3] = S_infty.Y.velocity[2] * U[0]; 54530ad8c4SKenneth E. Jansen U[4] = S_infty.Y.pressure / (gamma - 1) * perturbation + e_kinetic; 55530ad8c4SKenneth E. Jansen 563bd61617SKenneth E. Jansen State initCond = StateFromU(newt_ctx, U); 57be91e165SJames Wright StateToQ(newt_ctx, initCond, qi, state_var); 58530ad8c4SKenneth E. Jansen 59530ad8c4SKenneth E. Jansen for (CeedInt j = 0; j < 5; j++) q0[j][i] = qi[j]; 60530ad8c4SKenneth E. Jansen } 61530ad8c4SKenneth E. Jansen 62530ad8c4SKenneth E. Jansen return 0; 63530ad8c4SKenneth E. Jansen } 64530ad8c4SKenneth E. Jansen 65530ad8c4SKenneth E. Jansen CEED_QFUNCTION(IC_GaussianWave_Conserv)(void *ctx, CeedInt Q, const CeedScalar *const *in, CeedScalar *const *out) { 66be91e165SJames Wright return IC_GaussianWave(ctx, Q, in, out, STATEVAR_CONSERVATIVE); 67530ad8c4SKenneth E. Jansen } 68530ad8c4SKenneth E. Jansen 69530ad8c4SKenneth E. Jansen CEED_QFUNCTION(IC_GaussianWave_Prim)(void *ctx, CeedInt Q, const CeedScalar *const *in, CeedScalar *const *out) { 70be91e165SJames Wright return IC_GaussianWave(ctx, Q, in, out, STATEVAR_PRIMITIVE); 71530ad8c4SKenneth E. Jansen } 72*a2d72b6fSJames Wright 73*a2d72b6fSJames Wright CEED_QFUNCTION(IC_GaussianWave_Entropy)(void *ctx, CeedInt Q, const CeedScalar *const *in, CeedScalar *const *out) { 74*a2d72b6fSJames Wright return IC_GaussianWave(ctx, Q, in, out, STATEVAR_ENTROPY); 75*a2d72b6fSJames Wright } 76