1182fbe45STzanio // Copyright (c) 2017, Lawrence Livermore National Security, LLC. Produced at 2182fbe45STzanio // the Lawrence Livermore National Laboratory. LLNL-CODE-734707. All Rights 3182fbe45STzanio // reserved. See files LICENSE and NOTICE for details. 4182fbe45STzanio // 5182fbe45STzanio // This file is part of CEED, a collection of benchmarks, miniapps, software 6182fbe45STzanio // libraries and APIs for efficient high-order finite element and spectral 7182fbe45STzanio // element discretizations for exascale applications. For more information and 8182fbe45STzanio // source code availability see http://github.com/ceed. 9182fbe45STzanio // 10182fbe45STzanio // The CEED research is supported by the Exascale Computing Project 17-SC-20-SC, 11182fbe45STzanio // a collaborative effort of two U.S. Department of Energy organizations (Office 12182fbe45STzanio // of Science and the National Nuclear Security Administration) responsible for 13182fbe45STzanio // the planning and preparation of a capable exascale ecosystem, including 14182fbe45STzanio // software, applications, hardware, advanced system engineering and early 15182fbe45STzanio // testbed platforms, in support of the nation's exascale computing imperative. 16182fbe45STzanio 17182fbe45STzanio /// @file 18182fbe45STzanio /// MFEM mass operator based on libCEED 19182fbe45STzanio 20182fbe45STzanio #include <ceed.h> 21182fbe45STzanio #include <mfem.hpp> 22182fbe45STzanio 23182fbe45STzanio /// A structure used to pass additional data to f_build_mass 24182fbe45STzanio struct BuildContext { CeedInt dim, space_dim; }; 25182fbe45STzanio 26182fbe45STzanio /// libCEED Q-function for building quadrature data for a mass operator 27*54251743Sjeremylt static int f_build_mass(void *ctx, CeedInt Q, 28*54251743Sjeremylt const CeedScalar *const *in, CeedScalar *const *out) { 29*54251743Sjeremylt // in[0] is Jacobians, size (Q x nc x dim) with column-major layout 30*54251743Sjeremylt // in[1] is quadrature weights, size (Q) 31182fbe45STzanio BuildContext *bc = (BuildContext*)ctx; 32*54251743Sjeremylt CeedScalar *v = (CeedScalar*)out[0]; 33*54251743Sjeremylt CeedScalar *qd = (CeedScalar*)in[2]; 34*54251743Sjeremylt CeedScalar *J = (CeedScalar*)in[0], *qw = (CeedScalar*)in[1]; 35182fbe45STzanio switch (bc->dim + 10*bc->space_dim) { 36182fbe45STzanio case 11: 37182fbe45STzanio for (CeedInt i=0; i<Q; i++) { 38182fbe45STzanio qd[i] = J[i] * qw[i]; 39182fbe45STzanio } 40182fbe45STzanio break; 41182fbe45STzanio case 22: 42182fbe45STzanio for (CeedInt i=0; i<Q; i++) { 43182fbe45STzanio // 0 2 44182fbe45STzanio // 1 3 45182fbe45STzanio qd[i] = (J[i+Q*0]*J[i+Q*3] - J[i+Q*1]*J[i+Q*2]) * qw[i]; 46182fbe45STzanio } 47182fbe45STzanio break; 48182fbe45STzanio case 33: 49182fbe45STzanio for (CeedInt i=0; i<Q; i++) { 50182fbe45STzanio // 0 3 6 51182fbe45STzanio // 1 4 7 52182fbe45STzanio // 2 5 8 53182fbe45STzanio qd[i] = (J[i+Q*0]*(J[i+Q*4]*J[i+Q*8] - J[i+Q*5]*J[i+Q*7]) - 54182fbe45STzanio J[i+Q*1]*(J[i+Q*3]*J[i+Q*8] - J[i+Q*5]*J[i+Q*6]) + 55182fbe45STzanio J[i+Q*2]*(J[i+Q*3]*J[i+Q*7] - J[i+Q*4]*J[i+Q*6])) * qw[i]; 56182fbe45STzanio } 57182fbe45STzanio break; 58182fbe45STzanio default: 59182fbe45STzanio return CeedError(NULL, 1, "dim=%d, space_dim=%d is not supported", 60182fbe45STzanio bc->dim, bc->space_dim); 61182fbe45STzanio } 62182fbe45STzanio return 0; 63182fbe45STzanio } 64182fbe45STzanio 65182fbe45STzanio /// libCEED Q-function for applying a mass operator 66*54251743Sjeremylt static int f_apply_mass(void *ctx, CeedInt Q, 67*54251743Sjeremylt const CeedScalar *const *in, CeedScalar *const *out) { 68*54251743Sjeremylt CeedScalar *u = (CeedScalar*)in[0]; 69*54251743Sjeremylt CeedScalar *v = (CeedScalar*)out[0]; 70*54251743Sjeremylt CeedScalar *w = (CeedScalar*)in[1]; 71182fbe45STzanio for (CeedInt i=0; i<Q; i++) { 72*54251743Sjeremylt v[i] = w[i] * u[i]; 73182fbe45STzanio } 74182fbe45STzanio return 0; 75182fbe45STzanio } 76182fbe45STzanio 77182fbe45STzanio /// Wrapper for a mass CeedOperator as an mfem::Operator 78182fbe45STzanio class CeedMassOperator : public mfem::Operator { 79182fbe45STzanio protected: 80182fbe45STzanio const mfem::FiniteElementSpace *fes; 81182fbe45STzanio CeedOperator build_oper, oper; 82182fbe45STzanio CeedBasis basis, mesh_basis; 83182fbe45STzanio CeedElemRestriction restr, mesh_restr; 84182fbe45STzanio CeedQFunction apply_qfunc, build_qfunc; 85182fbe45STzanio CeedVector node_coords, qdata; 86182fbe45STzanio 87182fbe45STzanio BuildContext build_ctx; 88182fbe45STzanio 89182fbe45STzanio CeedVector u, v; 90182fbe45STzanio 91182fbe45STzanio static void FESpace2Ceed(const mfem::FiniteElementSpace *fes, 92182fbe45STzanio const mfem::IntegrationRule &ir, 93182fbe45STzanio Ceed ceed, CeedBasis *basis, 94182fbe45STzanio CeedElemRestriction *restr) { 95182fbe45STzanio mfem::Mesh *mesh = fes->GetMesh(); 96182fbe45STzanio const mfem::FiniteElement *fe = fes->GetFE(0); 97182fbe45STzanio const int order = fes->GetOrder(0); 98182fbe45STzanio mfem::Array<int> dof_map; 99182fbe45STzanio switch (mesh->Dimension()) { 100182fbe45STzanio case 1: { 101182fbe45STzanio const mfem::H1_SegmentElement *h1_fe = 102182fbe45STzanio dynamic_cast<const mfem::H1_SegmentElement*>(fe); 103182fbe45STzanio MFEM_VERIFY(h1_fe, "invalid FE"); 104182fbe45STzanio h1_fe->GetDofMap().Copy(dof_map); 105182fbe45STzanio break; 106182fbe45STzanio } 107182fbe45STzanio case 2: { 108182fbe45STzanio const mfem::H1_QuadrilateralElement *h1_fe = 109182fbe45STzanio dynamic_cast<const mfem::H1_QuadrilateralElement*>(fe); 110182fbe45STzanio MFEM_VERIFY(h1_fe, "invalid FE"); 111182fbe45STzanio h1_fe->GetDofMap().Copy(dof_map); 112182fbe45STzanio break; 113182fbe45STzanio } 114182fbe45STzanio case 3: { 115182fbe45STzanio const mfem::H1_HexahedronElement *h1_fe = 116182fbe45STzanio dynamic_cast<const mfem::H1_HexahedronElement*>(fe); 117182fbe45STzanio MFEM_VERIFY(h1_fe, "invalid FE"); 118182fbe45STzanio h1_fe->GetDofMap().Copy(dof_map); 119182fbe45STzanio break; 120182fbe45STzanio } 121182fbe45STzanio } 122182fbe45STzanio const mfem::FiniteElement *fe1d = 123182fbe45STzanio fes->FEColl()->FiniteElementForGeometry(mfem::Geometry::SEGMENT); 124182fbe45STzanio mfem::DenseMatrix shape1d(fe1d->GetDof(), ir.GetNPoints()); 125182fbe45STzanio mfem::DenseMatrix grad1d(fe1d->GetDof(), ir.GetNPoints()); 126182fbe45STzanio mfem::Vector qref1d(ir.GetNPoints()), qweight1d(ir.GetNPoints()); 127182fbe45STzanio mfem::Vector shape_i(shape1d.Height()); 128182fbe45STzanio mfem::DenseMatrix grad_i(grad1d.Height(), 1); 129182fbe45STzanio const mfem::H1_SegmentElement *h1_fe1d = 130182fbe45STzanio dynamic_cast<const mfem::H1_SegmentElement*>(fe1d); 131182fbe45STzanio MFEM_VERIFY(h1_fe1d, "invalid FE"); 132182fbe45STzanio const mfem::Array<int> &dof_map_1d = h1_fe1d->GetDofMap(); 133182fbe45STzanio for (int i = 0; i < ir.GetNPoints(); i++) { 134182fbe45STzanio const mfem::IntegrationPoint &ip = ir.IntPoint(i); 135182fbe45STzanio qref1d(i) = ip.x; 136182fbe45STzanio qweight1d(i) = ip.weight; 137182fbe45STzanio fe1d->CalcShape(ip, shape_i); 138182fbe45STzanio fe1d->CalcDShape(ip, grad_i); 139182fbe45STzanio for (int j = 0; j < shape1d.Height(); j++) { 140182fbe45STzanio shape1d(j,i) = shape_i(dof_map_1d[j]); 141182fbe45STzanio grad1d(j,i) = grad_i(dof_map_1d[j],0); 142182fbe45STzanio } 143182fbe45STzanio } 144182fbe45STzanio CeedBasisCreateTensorH1(ceed, mesh->Dimension(), fes->GetVDim(), order+1, 145182fbe45STzanio ir.GetNPoints(), shape1d.GetData(), 146182fbe45STzanio grad1d.GetData(), qref1d.GetData(), 147182fbe45STzanio qweight1d.GetData(), basis); 148182fbe45STzanio 149182fbe45STzanio const mfem::Table &el_dof = fes->GetElementToDofTable(); 150182fbe45STzanio mfem::Array<int> tp_el_dof(el_dof.Size_of_connections()); 151182fbe45STzanio for (int i = 0; i < mesh->GetNE(); i++) { 152182fbe45STzanio const int el_offset = fe->GetDof()*i; 153182fbe45STzanio for (int j = 0; j < fe->GetDof(); j++) { 154182fbe45STzanio tp_el_dof[j + el_offset] = el_dof.GetJ()[dof_map[j] + el_offset]; 155182fbe45STzanio } 156182fbe45STzanio } 157182fbe45STzanio CeedElemRestrictionCreate(ceed, mesh->GetNE(), fe->GetDof(), 158*54251743Sjeremylt fes->GetNDofs(), 1, CEED_MEM_HOST, CEED_COPY_VALUES, 159182fbe45STzanio tp_el_dof.GetData(), restr); 160182fbe45STzanio } 161182fbe45STzanio 162182fbe45STzanio public: 163182fbe45STzanio /// Constructor. Assumes @a fes is a scalar FE space. 164182fbe45STzanio CeedMassOperator(Ceed ceed, const mfem::FiniteElementSpace *fes) 165182fbe45STzanio : Operator(fes->GetNDofs()), 166182fbe45STzanio fes(fes) { 167182fbe45STzanio mfem::Mesh *mesh = fes->GetMesh(); 168182fbe45STzanio const int order = fes->GetOrder(0); 169182fbe45STzanio const int ir_order = 2*(order + 2) - 1; // <----- 170182fbe45STzanio const mfem::IntegrationRule &ir = 171182fbe45STzanio mfem::IntRules.Get(mfem::Geometry::SEGMENT, ir_order); 172182fbe45STzanio 173182fbe45STzanio FESpace2Ceed(fes, ir, ceed, &basis, &restr); 174182fbe45STzanio 175182fbe45STzanio const mfem::FiniteElementSpace *mesh_fes = mesh->GetNodalFESpace(); 176182fbe45STzanio MFEM_VERIFY(mesh_fes, "the Mesh has no nodal FE space"); 177182fbe45STzanio FESpace2Ceed(mesh_fes, ir, ceed, &mesh_basis, &mesh_restr); 178182fbe45STzanio 179182fbe45STzanio CeedVectorCreate(ceed, mesh->GetNodes()->Size(), &node_coords); 180182fbe45STzanio CeedVectorSetArray(node_coords, CEED_MEM_HOST, CEED_USE_POINTER, 181182fbe45STzanio mesh->GetNodes()->GetData()); 182182fbe45STzanio 183182fbe45STzanio build_ctx.dim = mesh->Dimension(); 184182fbe45STzanio build_ctx.space_dim = mesh->SpaceDimension(); 185182fbe45STzanio 186*54251743Sjeremylt CeedQFunctionCreateInterior(ceed, 1, f_build_mass, 187182fbe45STzanio __FILE__":f_build_mass", &build_qfunc); 188*54251743Sjeremylt CeedQFunctionAddInput(build_qfunc, "x", 1, CEED_EVAL_INTERP); 189*54251743Sjeremylt CeedQFunctionAddInput(build_qfunc, "weight", 1, CEED_EVAL_WEIGHT); 190*54251743Sjeremylt CeedQFunctionAddOutput(build_qfunc, "qdata", 1, CEED_EVAL_NONE); 191*54251743Sjeremylt 192*54251743Sjeremylt CeedOperatorCreate(ceed, build_qfunc, NULL, NULL, &build_oper); 193*54251743Sjeremylt CeedOperatorSetField(build_oper, "x", mesh_restr, mesh_basis, 194*54251743Sjeremylt CEED_VECTOR_ACTIVE); 195*54251743Sjeremylt CeedOperatorSetField(build_oper, "weight", CEED_RESTRICTION_IDENTITY, 196*54251743Sjeremylt mesh_basis, CEED_VECTOR_NONE); 197*54251743Sjeremylt CeedOperatorSetField(build_oper, "qfunc", CEED_RESTRICTION_IDENTITY, 198*54251743Sjeremylt CEED_BASIS_COLOCATED, CEED_VECTOR_ACTIVE); 199*54251743Sjeremylt CeedOperatorApply(build_oper, node_coords, qdata, 200182fbe45STzanio CEED_REQUEST_IMMEDIATE); 201182fbe45STzanio 202*54251743Sjeremylt CeedQFunctionCreateInterior(ceed, 1, f_apply_mass, 203182fbe45STzanio __FILE__":f_apply_mass", &apply_qfunc); 204*54251743Sjeremylt CeedQFunctionAddInput(apply_qfunc, "u", 1, CEED_EVAL_INTERP); 205*54251743Sjeremylt CeedQFunctionAddInput(apply_qfunc, "qdata", 1, CEED_EVAL_NONE); 206*54251743Sjeremylt CeedQFunctionAddOutput(apply_qfunc, "v", 1, CEED_EVAL_INTERP); 207*54251743Sjeremylt 208*54251743Sjeremylt CeedOperatorCreate(ceed, apply_qfunc, NULL, NULL, &oper); 209*54251743Sjeremylt CeedOperatorSetField(oper, "u", restr, basis, CEED_VECTOR_ACTIVE); 210*54251743Sjeremylt CeedOperatorSetField(oper, "qdata", CEED_RESTRICTION_IDENTITY, 211*54251743Sjeremylt CEED_BASIS_COLOCATED, qdata); 212*54251743Sjeremylt CeedOperatorSetField(oper, "v", restr, basis, CEED_VECTOR_ACTIVE); 213182fbe45STzanio 214182fbe45STzanio CeedVectorCreate(ceed, fes->GetNDofs(), &u); 215182fbe45STzanio CeedVectorCreate(ceed, fes->GetNDofs(), &v); 216182fbe45STzanio } 217182fbe45STzanio 218182fbe45STzanio /// Destructor 219182fbe45STzanio ~CeedMassOperator() { 220182fbe45STzanio CeedVectorDestroy(&v); 221182fbe45STzanio CeedVectorDestroy(&u); 222182fbe45STzanio CeedOperatorDestroy(&oper); 223182fbe45STzanio CeedQFunctionDestroy(&apply_qfunc); 224*54251743Sjeremylt CeedVectorDestroy(&qdata); 225182fbe45STzanio CeedOperatorDestroy(&build_oper); 226182fbe45STzanio CeedQFunctionDestroy(&build_qfunc); 227182fbe45STzanio CeedVectorDestroy(&node_coords); 228182fbe45STzanio CeedElemRestrictionDestroy(&mesh_restr); 229182fbe45STzanio CeedBasisDestroy(&mesh_basis); 230182fbe45STzanio CeedElemRestrictionDestroy(&restr); 231182fbe45STzanio CeedBasisDestroy(&basis); 232182fbe45STzanio } 233182fbe45STzanio 234182fbe45STzanio /// Operator action 235182fbe45STzanio virtual void Mult(const mfem::Vector &x, mfem::Vector &y) const { 236182fbe45STzanio CeedVectorSetArray(u, CEED_MEM_HOST, CEED_USE_POINTER, x.GetData()); 237182fbe45STzanio CeedVectorSetArray(v, CEED_MEM_HOST, CEED_USE_POINTER, y.GetData()); 238*54251743Sjeremylt CeedOperatorApply(oper, u, v, CEED_REQUEST_IMMEDIATE); 239182fbe45STzanio } 240182fbe45STzanio }; 241