1*5aed82e4SJeremy L Thompson // Copyright (c) 2017-2024, Lawrence Livermore National Security, LLC and other CEED contributors. 23d8e8822SJeremy L Thompson // All Rights Reserved. See the top-level LICENSE and NOTICE files for details. 3cb32e2e7SValeria Barra // 43d8e8822SJeremy L Thompson // SPDX-License-Identifier: BSD-2-Clause 5cb32e2e7SValeria Barra // 63d8e8822SJeremy L Thompson // This file is part of CEED: http://github.com/ceed 7cb32e2e7SValeria Barra 8cb32e2e7SValeria Barra /// @file 9cb32e2e7SValeria Barra /// libCEED QFunctions for diffusion operator example using PETSc 10cb32e2e7SValeria Barra 11f6b55d2cSvaleriabarra #ifndef bp4_h 12f6b55d2cSvaleriabarra #define bp4_h 13f6b55d2cSvaleriabarra 14c9c2c079SJeremy L Thompson #include <ceed.h> 15f6b55d2cSvaleriabarra #include <math.h> 16f6b55d2cSvaleriabarra 17e83e87a5Sjeremylt // ----------------------------------------------------------------------------- 1813921685Svaleriabarra // This QFunction sets up the rhs and true solution for the problem 19cb32e2e7SValeria Barra // ----------------------------------------------------------------------------- 202b730f8bSJeremy L Thompson CEED_QFUNCTION(SetupDiffRhs3)(void *ctx, CeedInt Q, const CeedScalar *const *in, CeedScalar *const *out) { 21cb32e2e7SValeria Barra #ifndef M_PI 22cb32e2e7SValeria Barra #define M_PI 3.14159265358979323846 23cb32e2e7SValeria Barra #endif 24e83e87a5Sjeremylt const CeedScalar *x = in[0], *w = in[1]; 25cb32e2e7SValeria Barra CeedScalar *true_soln = out[0], *rhs = out[1]; 26cb32e2e7SValeria Barra 27cb32e2e7SValeria Barra // Quadrature Point Loop 282b730f8bSJeremy L Thompson CeedPragmaSIMD for (CeedInt i = 0; i < Q; i++) { 29cb32e2e7SValeria Barra const CeedScalar c[3] = {0, 1., 2.}; 30cb32e2e7SValeria Barra const CeedScalar k[3] = {1., 2., 3.}; 31cb32e2e7SValeria Barra 32cb32e2e7SValeria Barra // Component 1 332b730f8bSJeremy L Thompson true_soln[i + 0 * Q] = 342b730f8bSJeremy L Thompson sin(M_PI * (c[0] + k[0] * x[i + Q * 0])) * sin(M_PI * (c[1] + k[1] * x[i + Q * 1])) * sin(M_PI * (c[2] + k[2] * x[i + Q * 2])); 35cb32e2e7SValeria Barra // Component 2 3682311801Sjeremylt true_soln[i + 1 * Q] = 2 * true_soln[i + 0 * Q]; 37cb32e2e7SValeria Barra // Component 3 3882311801Sjeremylt true_soln[i + 2 * Q] = 3 * true_soln[i + 0 * Q]; 39cb32e2e7SValeria Barra 40cb32e2e7SValeria Barra // Component 1 412b730f8bSJeremy L Thompson rhs[i + 0 * Q] = w[i + Q * 0] * M_PI * M_PI * (k[0] * k[0] + k[1] * k[1] + k[2] * k[2]) * true_soln[i + 0 * Q]; 42cb32e2e7SValeria Barra // Component 2 4382311801Sjeremylt rhs[i + 1 * Q] = 2 * rhs[i + 0 * Q]; 44cb32e2e7SValeria Barra // Component 3 4582311801Sjeremylt rhs[i + 2 * Q] = 3 * rhs[i + 0 * Q]; 46cb32e2e7SValeria Barra } // End of Quadrature Point Loop 47cb32e2e7SValeria Barra 48cb32e2e7SValeria Barra return 0; 49cb32e2e7SValeria Barra } 50cb32e2e7SValeria Barra 51e83e87a5Sjeremylt // ----------------------------------------------------------------------------- 52ed264d09SValeria Barra // This QFunction applies the diffusion operator for a vector field of 3 components. 53ed264d09SValeria Barra // 54ed264d09SValeria Barra // Inputs: 55ed264d09SValeria Barra // ug - Input vector Jacobian at quadrature points 569b072555Sjeremylt // q_data - Geometric factors 57ed264d09SValeria Barra // 58ed264d09SValeria Barra // Output: 59ed264d09SValeria Barra // vJ - Output vector (test functions) Jacobian at quadrature points 60cb32e2e7SValeria Barra // ----------------------------------------------------------------------------- 612b730f8bSJeremy L Thompson CEED_QFUNCTION(Diff3)(void *ctx, CeedInt Q, const CeedScalar *const *in, CeedScalar *const *out) { 62cb32e2e7SValeria Barra const CeedScalar *ug = in[0], *qd = in[1]; 63cb32e2e7SValeria Barra CeedScalar *vg = out[0]; 64cb32e2e7SValeria Barra 65cb32e2e7SValeria Barra // Quadrature Point Loop 662b730f8bSJeremy L Thompson CeedPragmaSIMD for (CeedInt i = 0; i < Q; i++) { 67cb32e2e7SValeria Barra // Read spatial derivatives of u components 682b730f8bSJeremy L Thompson const CeedScalar uJ[3][3] = { 692b730f8bSJeremy L Thompson {ug[i + (0 + 0 * 3) * Q], ug[i + (0 + 1 * 3) * Q], ug[i + (0 + 2 * 3) * Q]}, 702b730f8bSJeremy L Thompson {ug[i + (1 + 0 * 3) * Q], ug[i + (1 + 1 * 3) * Q], ug[i + (1 + 2 * 3) * Q]}, 712b730f8bSJeremy L Thompson {ug[i + (2 + 0 * 3) * Q], ug[i + (2 + 1 * 3) * Q], ug[i + (2 + 2 * 3) * Q]} 72cb32e2e7SValeria Barra }; 739b072555Sjeremylt // Read q_data (dXdxdXdx_T symmetric matrix) 742b730f8bSJeremy L Thompson const CeedScalar dXdxdXdx_T[3][3] = { 752b730f8bSJeremy L Thompson {qd[i + 1 * Q], qd[i + 2 * Q], qd[i + 3 * Q]}, 762b730f8bSJeremy L Thompson {qd[i + 2 * Q], qd[i + 4 * Q], qd[i + 5 * Q]}, 772b730f8bSJeremy L Thompson {qd[i + 3 * Q], qd[i + 5 * Q], qd[i + 6 * Q]} 78cb32e2e7SValeria Barra }; 79cb32e2e7SValeria Barra 802b730f8bSJeremy L Thompson for (int k = 0; k < 3; k++) { // k = component 812b730f8bSJeremy L Thompson for (int j = 0; j < 3; j++) { // j = direction of vg 822b730f8bSJeremy L Thompson vg[i + (k + j * 3) * Q] = (uJ[k][0] * dXdxdXdx_T[0][j] + uJ[k][1] * dXdxdXdx_T[1][j] + uJ[k][2] * dXdxdXdx_T[2][j]); 832b730f8bSJeremy L Thompson } 842b730f8bSJeremy L Thompson } 85cb32e2e7SValeria Barra } // End of Quadrature Point Loop 86cb32e2e7SValeria Barra 87cb32e2e7SValeria Barra return 0; 88cb32e2e7SValeria Barra } 89cb32e2e7SValeria Barra // ----------------------------------------------------------------------------- 90f6b55d2cSvaleriabarra 91f6b55d2cSvaleriabarra #endif // bp4_h 92