1735d7f90SBarry Smith static char help[] = "Demonstrates the use of the COO interface to PETSc matrices for finite element computations\n\n"; 2735d7f90SBarry Smith 3735d7f90SBarry Smith /* 4735d7f90SBarry Smith The COO interface for PETSc matrices provides a convenient way to provide finite element element stiffness matrices to PETSc matrix that should work 5735d7f90SBarry Smith well on both CPUs and GPUs. It is an alternative to using MatSetValues() 6735d7f90SBarry Smith 7735d7f90SBarry Smith This example is intended for people who are NOT using DMPLEX or libCEED or any other higher-level infrastructure for finite elements; 8735d7f90SBarry Smith it is only to demonstrate the concepts in a simple way for those people who are interested and for those people who are using PETSc for 9735d7f90SBarry Smith linear algebra solvers but are managing their own finite element process. 10735d7f90SBarry Smith 11735d7f90SBarry Smith Please do NOT use this example as a starting point to writing your own finite element code from scratch! 12735d7f90SBarry Smith 13735d7f90SBarry Smith Each element in this example has three vertices; hence the the usage below needs to be adjusted for elements of a different number of vertices. 14735d7f90SBarry Smith */ 15735d7f90SBarry Smith 16735d7f90SBarry Smith #include <petscmat.h> 17735d7f90SBarry Smith #include "ex18.h" 18735d7f90SBarry Smith 19735d7f90SBarry Smith static PetscErrorCode CreateFEStruct(FEStruct *fe) 20735d7f90SBarry Smith { 21735d7f90SBarry Smith PetscFunctionBeginUser; 22735d7f90SBarry Smith fe->Nv = 5; 23735d7f90SBarry Smith fe->Ne = 3; 24*5f80ce2aSJacob Faibussowitsch CHKERRQ(PetscMalloc1(3*fe->Ne,&fe->vertices)); 25735d7f90SBarry Smith /* the three vertices associated with each element in order of element */ 26735d7f90SBarry Smith fe->vertices[0 + 0] = 0; 27735d7f90SBarry Smith fe->vertices[0 + 1] = 1; 28735d7f90SBarry Smith fe->vertices[0 + 2] = 2; 29735d7f90SBarry Smith fe->vertices[3 + 0] = 2; 30735d7f90SBarry Smith fe->vertices[3 + 1] = 1; 31735d7f90SBarry Smith fe->vertices[3 + 2] = 3; 32735d7f90SBarry Smith fe->vertices[6 + 0] = 2; 33735d7f90SBarry Smith fe->vertices[6 + 1] = 4; 34735d7f90SBarry Smith fe->vertices[6 + 2] = 3; 35735d7f90SBarry Smith fe->n = 5; 36735d7f90SBarry Smith PetscFunctionReturn(0); 37735d7f90SBarry Smith } 38735d7f90SBarry Smith 39735d7f90SBarry Smith static PetscErrorCode DestroyFEStruct(FEStruct *fe) 40735d7f90SBarry Smith { 41735d7f90SBarry Smith PetscFunctionBeginUser; 42*5f80ce2aSJacob Faibussowitsch CHKERRQ(PetscFree(fe->vertices)); 43*5f80ce2aSJacob Faibussowitsch CHKERRQ(PetscFree(fe->coo)); 44735d7f90SBarry Smith PetscFunctionReturn(0); 45735d7f90SBarry Smith } 46735d7f90SBarry Smith 47735d7f90SBarry Smith static PetscErrorCode CreateMatrix(FEStruct *fe,Mat *A) 48735d7f90SBarry Smith { 49735d7f90SBarry Smith PetscInt *oor,*ooc,cnt = 0; 50735d7f90SBarry Smith 51735d7f90SBarry Smith PetscFunctionBeginUser; 52*5f80ce2aSJacob Faibussowitsch CHKERRQ(MatCreate(PETSC_COMM_WORLD,A)); 53*5f80ce2aSJacob Faibussowitsch CHKERRQ(MatSetSizes(*A,fe->n,fe->n,PETSC_DECIDE,PETSC_DECIDE)); 54*5f80ce2aSJacob Faibussowitsch CHKERRQ(MatSetFromOptions(*A)); 55735d7f90SBarry Smith 56735d7f90SBarry Smith /* determine for each entry in each element stiffness matrix the global row and colum */ 57735d7f90SBarry Smith /* since the element is triangular with piecewise linear basis functions there are three degrees of freedom per element, one for each vertex */ 58*5f80ce2aSJacob Faibussowitsch CHKERRQ(PetscMalloc2(3*3*fe->Ne,&oor,3*3*fe->Ne,&ooc)); 59735d7f90SBarry Smith for (PetscInt e=0; e<fe->Ne; e++) { 60735d7f90SBarry Smith for (PetscInt vi=0; vi<3; vi++) { 61735d7f90SBarry Smith for (PetscInt vj=0; vj<3; vj++) { 62735d7f90SBarry Smith oor[cnt] = fe->vertices[3*e+vi]; 63735d7f90SBarry Smith ooc[cnt++] = fe->vertices[3*e+vj]; 64735d7f90SBarry Smith } 65735d7f90SBarry Smith } 66735d7f90SBarry Smith } 67*5f80ce2aSJacob Faibussowitsch CHKERRQ(MatSetPreallocationCOO(*A,3*3*fe->Ne,oor,ooc)); 68*5f80ce2aSJacob Faibussowitsch CHKERRQ(PetscFree2(oor,ooc)); 69735d7f90SBarry Smith 70735d7f90SBarry Smith /* determine the offset into the COO value array the offset of each element stiffness; there are 9 = 3*3 entries for each element stiffness */ 71735d7f90SBarry Smith /* for lists of elements with different numbers of degrees of freedom assocated with each element the offsets will not be uniform */ 72*5f80ce2aSJacob Faibussowitsch CHKERRQ(PetscMalloc1(fe->Ne,&fe->coo)); 73735d7f90SBarry Smith fe->coo[0] = 0; 74735d7f90SBarry Smith for (PetscInt e=1; e<fe->Ne; e++) { 75735d7f90SBarry Smith fe->coo[e] = fe->coo[e-1] + 3*3; 76735d7f90SBarry Smith } 77735d7f90SBarry Smith PetscFunctionReturn(0); 78735d7f90SBarry Smith } 79735d7f90SBarry Smith 80735d7f90SBarry Smith static PetscErrorCode FillMatrixCPU(FEStruct *fe,Mat A) 81735d7f90SBarry Smith { 82735d7f90SBarry Smith PetscScalar s[9]; 83735d7f90SBarry Smith 84735d7f90SBarry Smith PetscFunctionBeginUser; 85735d7f90SBarry Smith /* simulation of traditional PETSc CPU based finite assembly process */ 86735d7f90SBarry Smith for (PetscInt e=0; e<fe->Ne; e++) { 87735d7f90SBarry Smith for (PetscInt vi=0; vi<3; vi++) { 88735d7f90SBarry Smith for (PetscInt vj=0; vj<3; vj++) { 89735d7f90SBarry Smith s[3*vi+vj] = vi+2*vj; 90735d7f90SBarry Smith } 91735d7f90SBarry Smith } 92*5f80ce2aSJacob Faibussowitsch CHKERRQ(MatSetValues(A,3,fe->vertices + 3*e,3, fe->vertices + 3*e,s,ADD_VALUES)); 93735d7f90SBarry Smith } 94*5f80ce2aSJacob Faibussowitsch CHKERRQ(MatAssemblyBegin(A,MAT_FINAL_ASSEMBLY)); 95*5f80ce2aSJacob Faibussowitsch CHKERRQ(MatAssemblyEnd(A,MAT_FINAL_ASSEMBLY)); 96735d7f90SBarry Smith PetscFunctionReturn(0); 97735d7f90SBarry Smith } 98735d7f90SBarry Smith 99735d7f90SBarry Smith /* 100735d7f90SBarry Smith Shows an example of tracking element offsets explicitly, which allows for 101735d7f90SBarry Smith mixed-topology meshes and combining both volume and surface parts into the weak form. 102735d7f90SBarry Smith */ 103735d7f90SBarry Smith static PetscErrorCode FillMatrixCPUCOO(FEStruct *fe,Mat A) 104735d7f90SBarry Smith { 105735d7f90SBarry Smith PetscScalar *v,*s; 106735d7f90SBarry Smith 107735d7f90SBarry Smith PetscFunctionBeginUser; 108735d7f90SBarry Smith /* simulation of CPU based finite assembly process with COO */ 109*5f80ce2aSJacob Faibussowitsch CHKERRQ(PetscMalloc1(3*3*fe->Ne,&v)); 110735d7f90SBarry Smith for (PetscInt e=0; e<fe->Ne; e++) { 111735d7f90SBarry Smith s = v + fe->coo[e]; /* point to location in COO of current element stiffness */ 112735d7f90SBarry Smith for (PetscInt vi=0; vi<3; vi++) { 113735d7f90SBarry Smith for (PetscInt vj=0; vj<3; vj++) { 114735d7f90SBarry Smith s[3*vi+vj] = vi+2*vj; 115735d7f90SBarry Smith } 116735d7f90SBarry Smith } 117735d7f90SBarry Smith } 118*5f80ce2aSJacob Faibussowitsch CHKERRQ(MatSetValuesCOO(A,v,ADD_VALUES)); 119*5f80ce2aSJacob Faibussowitsch CHKERRQ(PetscFree(v)); 120735d7f90SBarry Smith PetscFunctionReturn(0); 121735d7f90SBarry Smith } 122735d7f90SBarry Smith 123735d7f90SBarry Smith /* 124735d7f90SBarry Smith Uses a multi-dimensional indexing technique that works for homogeneous meshes 125735d7f90SBarry Smith such as single-topology with volume integral only. 126735d7f90SBarry Smith */ 127735d7f90SBarry Smith static PetscErrorCode FillMatrixCPUCOO3d(FEStruct *fe,Mat A) 128735d7f90SBarry Smith { 129735d7f90SBarry Smith PetscScalar (*s)[3][3]; 130735d7f90SBarry Smith 131735d7f90SBarry Smith PetscFunctionBeginUser; 132735d7f90SBarry Smith /* simulation of CPU based finite assembly process with COO */ 133*5f80ce2aSJacob Faibussowitsch CHKERRQ(PetscMalloc1(fe->Ne,&s)); 134735d7f90SBarry Smith for (PetscInt e=0; e<fe->Ne; e++) { 135735d7f90SBarry Smith for (PetscInt vi=0; vi<3; vi++) { 136735d7f90SBarry Smith for (PetscInt vj=0; vj<3; vj++) { 137735d7f90SBarry Smith s[e][vi][vj] = vi+2*vj; 138735d7f90SBarry Smith } 139735d7f90SBarry Smith } 140735d7f90SBarry Smith } 141*5f80ce2aSJacob Faibussowitsch CHKERRQ(MatSetValuesCOO(A,(PetscScalar*)s,INSERT_VALUES)); 142*5f80ce2aSJacob Faibussowitsch CHKERRQ(PetscFree(s)); 143735d7f90SBarry Smith PetscFunctionReturn(0); 144735d7f90SBarry Smith } 145735d7f90SBarry Smith 146735d7f90SBarry Smith int main(int argc, char **args) 147735d7f90SBarry Smith { 148735d7f90SBarry Smith Mat A; 149735d7f90SBarry Smith PetscErrorCode ierr; 150735d7f90SBarry Smith FEStruct fe; 151735d7f90SBarry Smith PetscMPIInt size; 152735d7f90SBarry Smith PetscBool is_kokkos,is_cuda; 153735d7f90SBarry Smith 154735d7f90SBarry Smith ierr = PetscInitialize(&argc,&args,(char*)0,help);if (ierr) return ierr; 155*5f80ce2aSJacob Faibussowitsch CHKERRMPI(MPI_Comm_size(PETSC_COMM_WORLD,&size)); 15654c59aa7SJacob Faibussowitsch PetscCheck(size <= 1,PETSC_COMM_WORLD,PETSC_ERR_WRONG_MPI_SIZE,"Demonstration is only for sequential runs"); 157735d7f90SBarry Smith 158*5f80ce2aSJacob Faibussowitsch CHKERRQ(CreateFEStruct(&fe)); 159*5f80ce2aSJacob Faibussowitsch CHKERRQ(CreateMatrix(&fe,&A)); 160735d7f90SBarry Smith 161*5f80ce2aSJacob Faibussowitsch CHKERRQ(FillMatrixCPU(&fe,A)); 162*5f80ce2aSJacob Faibussowitsch CHKERRQ(MatView(A,PETSC_VIEWER_STDOUT_WORLD)); 163735d7f90SBarry Smith 164*5f80ce2aSJacob Faibussowitsch CHKERRQ(MatZeroEntries(A)); 165*5f80ce2aSJacob Faibussowitsch CHKERRQ(FillMatrixCPUCOO(&fe,A)); 166*5f80ce2aSJacob Faibussowitsch CHKERRQ(MatView(A,PETSC_VIEWER_STDOUT_WORLD)); 167735d7f90SBarry Smith 168*5f80ce2aSJacob Faibussowitsch CHKERRQ(MatZeroEntries(A)); 169*5f80ce2aSJacob Faibussowitsch CHKERRQ(FillMatrixCPUCOO3d(&fe,A)); 170*5f80ce2aSJacob Faibussowitsch CHKERRQ(MatView(A,PETSC_VIEWER_STDOUT_WORLD)); 171735d7f90SBarry Smith 172*5f80ce2aSJacob Faibussowitsch CHKERRQ(MatZeroEntries(A)); 173*5f80ce2aSJacob Faibussowitsch CHKERRQ(PetscObjectBaseTypeCompare((PetscObject)A,MATSEQAIJKOKKOS,&is_kokkos)); 174*5f80ce2aSJacob Faibussowitsch CHKERRQ(PetscObjectBaseTypeCompare((PetscObject)A,MATSEQAIJCUSPARSE,&is_cuda)); 175735d7f90SBarry Smith #if defined(PETSC_HAVE_KOKKOS) 176*5f80ce2aSJacob Faibussowitsch if (is_kokkos) CHKERRQ(FillMatrixKokkosCOO(&fe,A)); 177735d7f90SBarry Smith #endif 178735d7f90SBarry Smith #if defined(PETSC_HAVE_CUDA) 179*5f80ce2aSJacob Faibussowitsch if (is_cuda) CHKERRQ(FillMatrixCUDACOO(&fe,A)); 180735d7f90SBarry Smith #endif 181*5f80ce2aSJacob Faibussowitsch CHKERRQ(MatView(A,PETSC_VIEWER_STDOUT_WORLD)); 182735d7f90SBarry Smith 183*5f80ce2aSJacob Faibussowitsch CHKERRQ(MatDestroy(&A)); 184*5f80ce2aSJacob Faibussowitsch CHKERRQ(DestroyFEStruct(&fe)); 185735d7f90SBarry Smith ierr = PetscFinalize(); 186735d7f90SBarry Smith return ierr; 187735d7f90SBarry Smith } 188735d7f90SBarry Smith 189735d7f90SBarry Smith /*TEST 190735d7f90SBarry Smith build: 191735d7f90SBarry Smith requires: cuda kokkos_kernels 192735d7f90SBarry Smith depends: ex18cu.cu ex18kok.kokkos.cxx 193735d7f90SBarry Smith 194735d7f90SBarry Smith testset: 195735d7f90SBarry Smith filter: grep -v "type" 196735d7f90SBarry Smith output_file: output/ex18_1.out 197735d7f90SBarry Smith 198735d7f90SBarry Smith test: 199735d7f90SBarry Smith suffix: kok 200735d7f90SBarry Smith requires: kokkos_kernels 201735d7f90SBarry Smith args: -mat_type aijkokkos 202735d7f90SBarry Smith 203735d7f90SBarry Smith test: 204735d7f90SBarry Smith suffix: cuda 205735d7f90SBarry Smith requires: cuda 206735d7f90SBarry Smith args: -mat_type aijcusparse 207735d7f90SBarry Smith 208735d7f90SBarry Smith TEST*/ 209