1e36ced11SJunchao Zhang #include <petsc_kokkos.hpp> 211d22bbfSJunchao Zhang #include <petscvec_kokkos.hpp> 3c0c276a7Ssdargavi #include <petscmat_kokkos.hpp> 4076ba34aSJunchao Zhang #include <petscpkg_version.h> 5152b3e56SJunchao Zhang #include <petsc/private/petscimpl.h> 642550becSJunchao Zhang #include <petsc/private/sfimpl.h> 7aac854edSJunchao Zhang #include <petsc/private/kokkosimpl.hpp> 87233ce55SJed Brown #include <petscsys.h> 98c3ff71bSJunchao Zhang 108c3ff71bSJunchao Zhang #include <Kokkos_Core.hpp> 11f0cf5187SStefano Zampini #include <KokkosBlas.hpp> 128c3ff71bSJunchao Zhang #include <KokkosSparse_CrsMatrix.hpp> 13cc6e31f1SJunchao Zhang 14cc6e31f1SJunchao Zhang // To suppress compiler warnings: 15cc6e31f1SJunchao Zhang // /path/include/KokkosSparse_spmv_bsrmatrix_tpl_spec_decl.hpp:434:63: 16cc6e31f1SJunchao Zhang // warning: 'cusparseStatus_t cusparseDbsrmm(cusparseHandle_t, cusparseDirection_t, cusparseOperation_t, 17cc6e31f1SJunchao Zhang // cusparseOperation_t, int, int, int, int, const double*, cusparseMatDescr_t, const double*, const int*, const int*, 18cc6e31f1SJunchao Zhang // int, const double*, int, const double*, double*, int)' is deprecated: please use cusparseSpMM instead [-Wdeprecated-declarations] 192695cf96SNuno Nobre #define DISABLE_CUSPARSE_DEPRECATED 208c3ff71bSJunchao Zhang #include <KokkosSparse_spmv.hpp> 21cc6e31f1SJunchao Zhang 2286a27549SJunchao Zhang #include <KokkosSparse_spiluk.hpp> 2386a27549SJunchao Zhang #include <KokkosSparse_sptrsv.hpp> 24076ba34aSJunchao Zhang #include <KokkosSparse_spgemm.hpp> 25076ba34aSJunchao Zhang #include <KokkosSparse_spadd.hpp> 269d13fa56SJunchao Zhang #include <KokkosBatched_LU_Decl.hpp> 279d13fa56SJunchao Zhang #include <KokkosBatched_InverseLU_Decl.hpp> 2886a27549SJunchao Zhang 2942550becSJunchao Zhang #include <../src/mat/impls/aij/seq/kokkos/aijkok.hpp> 308c3ff71bSJunchao Zhang 310e3ece09SJunchao Zhang #if PETSC_PKG_KOKKOS_KERNELS_VERSION_GE(3, 7, 0) 32f98996d3SJunchao Zhang #include <KokkosSparse_Utils.hpp> 33f98996d3SJunchao Zhang using KokkosSparse::sort_crs_matrix; 349371c9d4SSatish Balay using KokkosSparse::Impl::transpose_matrix; 35f98996d3SJunchao Zhang #else 36f98996d3SJunchao Zhang #include <KokkosKernels_Sorting.hpp> 37f98996d3SJunchao Zhang using KokkosKernels::sort_crs_matrix; 389371c9d4SSatish Balay using KokkosKernels::Impl::transpose_matrix; 39f98996d3SJunchao Zhang #endif 40f98996d3SJunchao Zhang 41aac854edSJunchao Zhang #if PETSC_PKG_KOKKOS_KERNELS_VERSION_GE(4, 6, 0) 42aac854edSJunchao Zhang using KokkosSparse::spiluk_symbolic; 43aac854edSJunchao Zhang using KokkosSparse::spiluk_numeric; 44aac854edSJunchao Zhang using KokkosSparse::sptrsv_symbolic; 45aac854edSJunchao Zhang using KokkosSparse::sptrsv_solve; 46aac854edSJunchao Zhang using KokkosSparse::Experimental::SPTRSVAlgorithm; 47aac854edSJunchao Zhang using KokkosSparse::Experimental::SPILUKAlgorithm; 48aac854edSJunchao Zhang #else 49aac854edSJunchao Zhang using KokkosSparse::Experimental::spiluk_symbolic; 50aac854edSJunchao Zhang using KokkosSparse::Experimental::spiluk_numeric; 51aac854edSJunchao Zhang using KokkosSparse::Experimental::sptrsv_symbolic; 52aac854edSJunchao Zhang using KokkosSparse::Experimental::sptrsv_solve; 53aac854edSJunchao Zhang using KokkosSparse::Experimental::SPTRSVAlgorithm; 54aac854edSJunchao Zhang using KokkosSparse::Experimental::SPILUKAlgorithm; 55aac854edSJunchao Zhang #endif 56aac854edSJunchao Zhang 578c3ff71bSJunchao Zhang static PetscErrorCode MatSetOps_SeqAIJKokkos(Mat); /* Forward declaration */ 588c3ff71bSJunchao Zhang 59076ba34aSJunchao Zhang /* MatAssemblyEnd_SeqAIJKokkos() happens when we finalized nonzeros of the matrix, either after 60076ba34aSJunchao Zhang we assembled the matrix on host, or after we directly produced the matrix data on device (ex., through MatMatMult). 61076ba34aSJunchao Zhang In the latter case, it is important to set a_dual's sync state correctly. 62076ba34aSJunchao Zhang */ 63d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatAssemblyEnd_SeqAIJKokkos(Mat A, MatAssemblyType mode) 64d71ae5a4SJacob Faibussowitsch { 65076ba34aSJunchao Zhang Mat_SeqAIJ *aijseq; 66076ba34aSJunchao Zhang Mat_SeqAIJKokkos *aijkok; 678c3ff71bSJunchao Zhang 688c3ff71bSJunchao Zhang PetscFunctionBegin; 693ba16761SJacob Faibussowitsch if (mode == MAT_FLUSH_ASSEMBLY) PetscFunctionReturn(PETSC_SUCCESS); 709566063dSJacob Faibussowitsch PetscCall(MatAssemblyEnd_SeqAIJ(A, mode)); 71076ba34aSJunchao Zhang 72076ba34aSJunchao Zhang aijseq = static_cast<Mat_SeqAIJ *>(A->data); 73076ba34aSJunchao Zhang aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 74076ba34aSJunchao Zhang 75076ba34aSJunchao Zhang /* If aijkok does not exist, we just copy i, j to device. 76076ba34aSJunchao Zhang If aijkok already exists, but the device's nonzero pattern does not match with the host's, we assume the latest data is on host. 77076ba34aSJunchao Zhang In both cases, we build a new aijkok structure. 78076ba34aSJunchao Zhang */ 79076ba34aSJunchao Zhang if (!aijkok || aijkok->nonzerostate != A->nonzerostate) { /* aijkok might not exist yet or nonzero pattern has changed */ 8093a54799SPierre Jolivet if (aijkok && aijkok->host_aij_allocated_by_kokkos) { /* Avoid accidentally freeing much needed a,i,j on host when deleting aijkok */ 81d1c799ffSJunchao Zhang PetscCall(PetscShmgetAllocateArray(aijkok->nrows() + 1, sizeof(PetscInt), (void **)&aijseq->i)); 82d1c799ffSJunchao Zhang PetscCall(PetscShmgetAllocateArray(aijkok->nnz(), sizeof(PetscInt), (void **)&aijseq->j)); 83d1c799ffSJunchao Zhang PetscCall(PetscShmgetAllocateArray(aijkok->nnz(), sizeof(PetscInt), (void **)&aijseq->a)); 84d1c799ffSJunchao Zhang PetscCall(PetscArraycpy(aijseq->i, aijkok->i_host_data(), aijkok->nrows() + 1)); 85d1c799ffSJunchao Zhang PetscCall(PetscArraycpy(aijseq->j, aijkok->j_host_data(), aijkok->nnz())); 86d1c799ffSJunchao Zhang PetscCall(PetscArraycpy(aijseq->a, aijkok->a_host_data(), aijkok->nnz())); 87d1c799ffSJunchao Zhang aijseq->free_a = PETSC_TRUE; 88d1c799ffSJunchao Zhang aijseq->free_ij = PETSC_TRUE; 89d1c799ffSJunchao Zhang /* This arises from MatCreateSeqAIJKokkosWithKokkosCsrMatrix() used in MatMatMult, where 90d1c799ffSJunchao Zhang we have the CsrMatrix on device first and then copy to host, followed by 91d1c799ffSJunchao Zhang MatSetMPIAIJWithSplitSeqAIJ() with garray = NULL. 92d1c799ffSJunchao Zhang One could improve it by not using NULL garray. 93d1c799ffSJunchao Zhang */ 94d1c799ffSJunchao Zhang } 95076ba34aSJunchao Zhang delete aijkok; 96*421480d9SBarry Smith aijkok = new Mat_SeqAIJKokkos(A, A->rmap->n, A->cmap->n, aijseq, A->nonzerostate, PETSC_FALSE /* don't copy mat values to device */); 97076ba34aSJunchao Zhang A->spptr = aijkok; 98f4747e26SJunchao Zhang } else if (A->rmap->n && aijkok->diag_dual.extent(0) == 0) { // MatProduct might directly produce AIJ on device, but not the diag. 99*421480d9SBarry Smith const PetscInt *adiag; 100*421480d9SBarry Smith /* the a->diag is created at assmebly here because the rest of the Kokkos AIJ code assumes it always exists. This needs to be fixed since it is now only created when needed! */ 101*421480d9SBarry Smith PetscCall(MatGetDiagonalMarkers_SeqAIJ(A, &adiag, NULL)); 102f4747e26SJunchao Zhang MatRowMapKokkosViewHost diag_h(aijseq->diag, A->rmap->n); 103f4747e26SJunchao Zhang auto diag_d = Kokkos::create_mirror_view_and_copy(DefaultMemorySpace(), diag_h); 104f4747e26SJunchao Zhang aijkok->diag_dual = MatRowMapKokkosDualView(diag_d, diag_h); 105076ba34aSJunchao Zhang } 1063ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 1078c3ff71bSJunchao Zhang } 1088c3ff71bSJunchao Zhang 10986a27549SJunchao Zhang /* Sync CSR data to device if not yet */ 110d71ae5a4SJacob Faibussowitsch PETSC_INTERN PetscErrorCode MatSeqAIJKokkosSyncDevice(Mat A) 111d71ae5a4SJacob Faibussowitsch { 1128c3ff71bSJunchao Zhang Mat_SeqAIJKokkos *aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 1138c3ff71bSJunchao Zhang 1148c3ff71bSJunchao Zhang PetscFunctionBegin; 115aaa8cc7dSPierre Jolivet PetscCheck(A->factortype == MAT_FACTOR_NONE, PetscObjectComm((PetscObject)A), PETSC_ERR_PLIB, "Can't sync factorized matrix from host to device"); 1165f80ce2aSJacob Faibussowitsch PetscCheck(aijkok, PETSC_COMM_WORLD, PETSC_ERR_PLIB, "Unexpected NULL (Mat_SeqAIJKokkos*)A->spptr"); 117076ba34aSJunchao Zhang if (aijkok->a_dual.need_sync_device()) { 118f3d3cd90SZach Atkins PetscCall(KokkosDualViewSyncDevice(aijkok->a_dual, PetscGetKokkosExecutionSpace())); 119580c7c76SPierre Jolivet aijkok->transpose_updated = PETSC_FALSE; /* values of the transpose is out-of-date */ 12086a27549SJunchao Zhang aijkok->hermitian_updated = PETSC_FALSE; 1218c3ff71bSJunchao Zhang } 1223ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 1238c3ff71bSJunchao Zhang } 1248c3ff71bSJunchao Zhang 125076ba34aSJunchao Zhang /* Mark the CSR data on device as modified */ 126d71ae5a4SJacob Faibussowitsch PETSC_INTERN PetscErrorCode MatSeqAIJKokkosModifyDevice(Mat A) 127d71ae5a4SJacob Faibussowitsch { 12886a27549SJunchao Zhang Mat_SeqAIJKokkos *aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 12986a27549SJunchao Zhang 13086a27549SJunchao Zhang PetscFunctionBegin; 1315f80ce2aSJacob Faibussowitsch PetscCheck(A->factortype == MAT_FACTOR_NONE, PetscObjectComm((PetscObject)A), PETSC_ERR_PLIB, "Not supported for factorized matries"); 13286a27549SJunchao Zhang aijkok->a_dual.clear_sync_state(); 13386a27549SJunchao Zhang aijkok->a_dual.modify_device(); 13486a27549SJunchao Zhang aijkok->transpose_updated = PETSC_FALSE; 13586a27549SJunchao Zhang aijkok->hermitian_updated = PETSC_FALSE; 1369566063dSJacob Faibussowitsch PetscCall(PetscObjectStateIncrease((PetscObject)A)); 1373ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 13886a27549SJunchao Zhang } 13986a27549SJunchao Zhang 140d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatSeqAIJKokkosSyncHost(Mat A) 141d71ae5a4SJacob Faibussowitsch { 142f0cf5187SStefano Zampini Mat_SeqAIJKokkos *aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 1434df4a32cSJunchao Zhang auto exec = PetscGetKokkosExecutionSpace(); 144f0cf5187SStefano Zampini 145f0cf5187SStefano Zampini PetscFunctionBegin; 146f0cf5187SStefano Zampini PetscCheckTypeName(A, MATSEQAIJKOKKOS); 14786a27549SJunchao Zhang /* We do not expect one needs factors on host */ 148aaa8cc7dSPierre Jolivet PetscCheck(A->factortype == MAT_FACTOR_NONE, PetscObjectComm((PetscObject)A), PETSC_ERR_PLIB, "Can't sync factorized matrix from device to host"); 1495f80ce2aSJacob Faibussowitsch PetscCheck(aijkok, PetscObjectComm((PetscObject)A), PETSC_ERR_PLIB, "Missing AIJKOK"); 150f3d3cd90SZach Atkins PetscCall(KokkosDualViewSyncHost(aijkok->a_dual, exec)); 1513ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 152f0cf5187SStefano Zampini } 153f0cf5187SStefano Zampini 154d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatSeqAIJGetArray_SeqAIJKokkos(Mat A, PetscScalar *array[]) 155d71ae5a4SJacob Faibussowitsch { 156076ba34aSJunchao Zhang Mat_SeqAIJKokkos *aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 157f0cf5187SStefano Zampini 158f0cf5187SStefano Zampini PetscFunctionBegin; 1595519a089SJose E. Roman /* aijkok contains valid pointers only if the host's nonzerostate matches with the device's. 1605519a089SJose E. Roman Calling MatSeqAIJSetPreallocation() or MatSetValues() on host, where aijseq->{i,j,a} might be 1615519a089SJose E. Roman reallocated, will lead to stale {i,j,a}_dual in aijkok. In both operations, the hosts's nonzerostate 1625519a089SJose E. Roman must have been updated. The stale aijkok will be rebuilt during MatAssemblyEnd. 1635519a089SJose E. Roman */ 1645519a089SJose E. Roman if (aijkok && A->nonzerostate == aijkok->nonzerostate) { 165f3d3cd90SZach Atkins PetscCall(KokkosDualViewSyncHost(aijkok->a_dual, PetscGetKokkosExecutionSpace())); 166076ba34aSJunchao Zhang *array = aijkok->a_dual.view_host().data(); 167076ba34aSJunchao Zhang } else { /* Happens when calling MatSetValues on a newly created matrix */ 168076ba34aSJunchao Zhang *array = static_cast<Mat_SeqAIJ *>(A->data)->a; 169076ba34aSJunchao Zhang } 1703ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 171076ba34aSJunchao Zhang } 172076ba34aSJunchao Zhang 173d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatSeqAIJRestoreArray_SeqAIJKokkos(Mat A, PetscScalar *array[]) 174d71ae5a4SJacob Faibussowitsch { 175076ba34aSJunchao Zhang Mat_SeqAIJKokkos *aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 176076ba34aSJunchao Zhang 177076ba34aSJunchao Zhang PetscFunctionBegin; 1785519a089SJose E. Roman if (aijkok && A->nonzerostate == aijkok->nonzerostate) aijkok->a_dual.modify_host(); 1793ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 180076ba34aSJunchao Zhang } 181076ba34aSJunchao Zhang 182d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatSeqAIJGetArrayRead_SeqAIJKokkos(Mat A, const PetscScalar *array[]) 183d71ae5a4SJacob Faibussowitsch { 184076ba34aSJunchao Zhang Mat_SeqAIJKokkos *aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 185076ba34aSJunchao Zhang 186076ba34aSJunchao Zhang PetscFunctionBegin; 1875519a089SJose E. Roman if (aijkok && A->nonzerostate == aijkok->nonzerostate) { 188f3d3cd90SZach Atkins PetscCall(KokkosDualViewSyncHost(aijkok->a_dual, PetscGetKokkosExecutionSpace())); 189076ba34aSJunchao Zhang *array = aijkok->a_dual.view_host().data(); 1902328674fSJunchao Zhang } else { 1912328674fSJunchao Zhang *array = static_cast<Mat_SeqAIJ *>(A->data)->a; 1922328674fSJunchao Zhang } 1933ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 194076ba34aSJunchao Zhang } 195076ba34aSJunchao Zhang 196d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatSeqAIJRestoreArrayRead_SeqAIJKokkos(Mat A, const PetscScalar *array[]) 197d71ae5a4SJacob Faibussowitsch { 198076ba34aSJunchao Zhang PetscFunctionBegin; 199076ba34aSJunchao Zhang *array = NULL; 2003ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 201076ba34aSJunchao Zhang } 202076ba34aSJunchao Zhang 203d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatSeqAIJGetArrayWrite_SeqAIJKokkos(Mat A, PetscScalar *array[]) 204d71ae5a4SJacob Faibussowitsch { 205076ba34aSJunchao Zhang Mat_SeqAIJKokkos *aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 206076ba34aSJunchao Zhang 207076ba34aSJunchao Zhang PetscFunctionBegin; 2085519a089SJose E. Roman if (aijkok && A->nonzerostate == aijkok->nonzerostate) { 209076ba34aSJunchao Zhang *array = aijkok->a_dual.view_host().data(); 2102328674fSJunchao Zhang } else { /* Ex. happens with MatZeroEntries on a preallocated but not assembled matrix */ 2112328674fSJunchao Zhang *array = static_cast<Mat_SeqAIJ *>(A->data)->a; 2122328674fSJunchao Zhang } 2133ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 214076ba34aSJunchao Zhang } 215076ba34aSJunchao Zhang 216d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatSeqAIJRestoreArrayWrite_SeqAIJKokkos(Mat A, PetscScalar *array[]) 217d71ae5a4SJacob Faibussowitsch { 218076ba34aSJunchao Zhang Mat_SeqAIJKokkos *aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 219076ba34aSJunchao Zhang 220076ba34aSJunchao Zhang PetscFunctionBegin; 2215519a089SJose E. Roman if (aijkok && A->nonzerostate == aijkok->nonzerostate) { 222076ba34aSJunchao Zhang aijkok->a_dual.clear_sync_state(); 223076ba34aSJunchao Zhang aijkok->a_dual.modify_host(); 2242328674fSJunchao Zhang } 2253ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 226f0cf5187SStefano Zampini } 227f0cf5187SStefano Zampini 228d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatSeqAIJGetCSRAndMemType_SeqAIJKokkos(Mat A, const PetscInt **i, const PetscInt **j, PetscScalar **a, PetscMemType *mtype) 229d71ae5a4SJacob Faibussowitsch { 2307ee59b9bSJunchao Zhang Mat_SeqAIJKokkos *aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 2317ee59b9bSJunchao Zhang 2327ee59b9bSJunchao Zhang PetscFunctionBegin; 2337ee59b9bSJunchao Zhang PetscCheck(aijkok != NULL, PetscObjectComm((PetscObject)A), PETSC_ERR_ARG_WRONGSTATE, "aijkok is NULL"); 2347ee59b9bSJunchao Zhang 2357ee59b9bSJunchao Zhang if (i) *i = aijkok->i_device_data(); 2367ee59b9bSJunchao Zhang if (j) *j = aijkok->j_device_data(); 2377ee59b9bSJunchao Zhang if (a) { 238f3d3cd90SZach Atkins PetscCall(KokkosDualViewSyncDevice(aijkok->a_dual, PetscGetKokkosExecutionSpace())); 2397ee59b9bSJunchao Zhang *a = aijkok->a_device_data(); 2407ee59b9bSJunchao Zhang } 2417ee59b9bSJunchao Zhang if (mtype) *mtype = PETSC_MEMTYPE_KOKKOS; 2423ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 2437ee59b9bSJunchao Zhang } 2447ee59b9bSJunchao Zhang 24503db1824SAlex Lindsay static PetscErrorCode MatGetCurrentMemType_SeqAIJKokkos(PETSC_UNUSED Mat A, PetscMemType *mtype) 24603db1824SAlex Lindsay { 24703db1824SAlex Lindsay PetscFunctionBegin; 24803db1824SAlex Lindsay *mtype = PETSC_MEMTYPE_KOKKOS; 24903db1824SAlex Lindsay PetscFunctionReturn(PETSC_SUCCESS); 25003db1824SAlex Lindsay } 25103db1824SAlex Lindsay 2520e3ece09SJunchao Zhang /* 2530e3ece09SJunchao Zhang Generate the sparsity pattern of a MatSeqAIJKokkos matrix's transpose on device. 2540e3ece09SJunchao Zhang 2550e3ece09SJunchao Zhang Input Parameter: 2560e3ece09SJunchao Zhang . A - the MATSEQAIJKOKKOS matrix 2570e3ece09SJunchao Zhang 2580e3ece09SJunchao Zhang Output Parameters: 2590e3ece09SJunchao Zhang + perm_d - the permutation array on device, which connects Ta(i) = Aa(perm(i)) 260aaa8cc7dSPierre Jolivet - T_d - the transpose on device, whose value array is allocated but not initialized 2610e3ece09SJunchao Zhang */ 2620e3ece09SJunchao Zhang static PetscErrorCode MatSeqAIJKokkosGenerateTransposeStructure(Mat A, MatRowMapKokkosView &perm_d, KokkosCsrMatrix &T_d) 263d71ae5a4SJacob Faibussowitsch { 2640e3ece09SJunchao Zhang Mat_SeqAIJ *aseq = static_cast<Mat_SeqAIJ *>(A->data); 2650e3ece09SJunchao Zhang PetscInt nz = aseq->nz, m = A->rmap->N, n = A->cmap->n; 2660e3ece09SJunchao Zhang const PetscInt *Ai = aseq->i, *Aj = aseq->j; 2677b8d4ba6SJunchao Zhang MatRowMapKokkosViewHost Ti_h(NoInit("Ti"), n + 1); 2680e3ece09SJunchao Zhang MatRowMapType *Ti = Ti_h.data(); 2697b8d4ba6SJunchao Zhang MatColIdxKokkosViewHost Tj_h(NoInit("Tj"), nz); 2707b8d4ba6SJunchao Zhang MatRowMapKokkosViewHost perm_h(NoInit("permutation"), nz); 2710e3ece09SJunchao Zhang PetscInt *Tj = Tj_h.data(); 2720e3ece09SJunchao Zhang PetscInt *perm = perm_h.data(); 2730e3ece09SJunchao Zhang PetscInt *offset; 274152b3e56SJunchao Zhang 275152b3e56SJunchao Zhang PetscFunctionBegin; 2760e3ece09SJunchao Zhang // Populate Ti 2770e3ece09SJunchao Zhang PetscCallCXX(Kokkos::deep_copy(Ti_h, 0)); 2780e3ece09SJunchao Zhang Ti++; 2790e3ece09SJunchao Zhang for (PetscInt i = 0; i < nz; i++) Ti[Aj[i]]++; 2800e3ece09SJunchao Zhang Ti--; 2810e3ece09SJunchao Zhang for (PetscInt i = 0; i < n; i++) Ti[i + 1] += Ti[i]; 2820e3ece09SJunchao Zhang 2830e3ece09SJunchao Zhang // Populate Tj and the permutation array 2840e3ece09SJunchao Zhang PetscCall(PetscCalloc1(n, &offset)); // offset in each T row to fill in its column indices 2850e3ece09SJunchao Zhang for (PetscInt i = 0; i < m; i++) { 2860e3ece09SJunchao Zhang for (PetscInt j = Ai[i]; j < Ai[i + 1]; j++) { // A's (i,j) is T's (j,i) 2870e3ece09SJunchao Zhang PetscInt r = Aj[j]; // row r of T 2880e3ece09SJunchao Zhang PetscInt disp = Ti[r] + offset[r]; 2890e3ece09SJunchao Zhang 2900e3ece09SJunchao Zhang Tj[disp] = i; // col i of T 2910e3ece09SJunchao Zhang perm[disp] = j; 2920e3ece09SJunchao Zhang offset[r]++; 293076ba34aSJunchao Zhang } 2940e3ece09SJunchao Zhang } 2950e3ece09SJunchao Zhang PetscCall(PetscFree(offset)); 2960e3ece09SJunchao Zhang 2970e3ece09SJunchao Zhang // Sort each row of T, along with the permutation array 2980e3ece09SJunchao Zhang for (PetscInt i = 0; i < n; i++) PetscCall(PetscSortIntWithArray(Ti[i + 1] - Ti[i], Tj + Ti[i], perm + Ti[i])); 2990e3ece09SJunchao Zhang 3000e3ece09SJunchao Zhang // Output perm and T on device 3010e3ece09SJunchao Zhang auto Ti_d = Kokkos::create_mirror_view_and_copy(DefaultMemorySpace(), Ti_h); 3020e3ece09SJunchao Zhang auto Tj_d = Kokkos::create_mirror_view_and_copy(DefaultMemorySpace(), Tj_h); 3030e3ece09SJunchao Zhang PetscCallCXX(T_d = KokkosCsrMatrix("csrmatT", n, m, nz, MatScalarKokkosView("Ta", nz), Ti_d, Tj_d)); 3040e3ece09SJunchao Zhang PetscCallCXX(perm_d = Kokkos::create_mirror_view_and_copy(DefaultMemorySpace(), perm_h)); 3053ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 306152b3e56SJunchao Zhang } 307152b3e56SJunchao Zhang 3080e3ece09SJunchao Zhang // Generate the transpose on device and cache it internally 3090e3ece09SJunchao Zhang // Note: KK transpose_matrix() does not have support symbolic/numeric transpose, so we do it on our own 3100e3ece09SJunchao Zhang PETSC_INTERN PetscErrorCode MatSeqAIJKokkosGenerateTranspose_Private(Mat A, KokkosCsrMatrix *csrmatT) 311d71ae5a4SJacob Faibussowitsch { 3120e3ece09SJunchao Zhang Mat_SeqAIJ *aseq = static_cast<Mat_SeqAIJ *>(A->data); 3130e3ece09SJunchao Zhang Mat_SeqAIJKokkos *akok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 3140e3ece09SJunchao Zhang PetscInt nz = aseq->nz, m = A->rmap->N, n = A->cmap->n; 3150e3ece09SJunchao Zhang KokkosCsrMatrix &T = akok->csrmatT; 316152b3e56SJunchao Zhang 317152b3e56SJunchao Zhang PetscFunctionBegin; 3180e3ece09SJunchao Zhang PetscCheck(akok, PETSC_COMM_WORLD, PETSC_ERR_PLIB, "Unexpected NULL (Mat_SeqAIJKokkos*)A->spptr"); 319f3d3cd90SZach Atkins PetscCall(KokkosDualViewSyncDevice(akok->a_dual, PetscGetKokkosExecutionSpace())); // Sync A's values since we are going to access them on device 3200e3ece09SJunchao Zhang 3210e3ece09SJunchao Zhang const auto &Aa = akok->a_dual.view_device(); 3220e3ece09SJunchao Zhang 3230e3ece09SJunchao Zhang if (A->symmetric == PETSC_BOOL3_TRUE) { 3240e3ece09SJunchao Zhang *csrmatT = akok->csrmat; 3250e3ece09SJunchao Zhang } else { 3260e3ece09SJunchao Zhang // See if we already have a cached transpose and its value is up to date 3270e3ece09SJunchao Zhang if (T.numRows() == n && T.numCols() == m) { // this indicates csrmatT had been generated before, otherwise T has 0 rows/cols after construction 3280e3ece09SJunchao Zhang if (!akok->transpose_updated) { // if the value is out of date, update the cached version 3290e3ece09SJunchao Zhang const auto &perm = akok->transpose_perm; // get the permutation array 3300e3ece09SJunchao Zhang auto &Ta = T.values; 3310e3ece09SJunchao Zhang 332d326c3f1SJunchao Zhang PetscCallCXX(Kokkos::parallel_for(Kokkos::RangePolicy<>(PetscGetKokkosExecutionSpace(), 0, nz), KOKKOS_LAMBDA(const PetscInt i) { Ta(i) = Aa(perm(i)); })); 333076ba34aSJunchao Zhang } 3340e3ece09SJunchao Zhang } else { // Generate T of size n x m for the first time 3350e3ece09SJunchao Zhang MatRowMapKokkosView perm; 3360e3ece09SJunchao Zhang 3370e3ece09SJunchao Zhang PetscCall(MatSeqAIJKokkosGenerateTransposeStructure(A, perm, T)); 3380e3ece09SJunchao Zhang akok->transpose_perm = perm; // cache the perm in this matrix for reuse 339d326c3f1SJunchao Zhang PetscCallCXX(Kokkos::parallel_for(Kokkos::RangePolicy<>(PetscGetKokkosExecutionSpace(), 0, nz), KOKKOS_LAMBDA(const PetscInt i) { T.values(i) = Aa(perm(i)); })); 3400e3ece09SJunchao Zhang } 3410e3ece09SJunchao Zhang akok->transpose_updated = PETSC_TRUE; 3420e3ece09SJunchao Zhang *csrmatT = akok->csrmatT; 3430e3ece09SJunchao Zhang } 3440e3ece09SJunchao Zhang PetscFunctionReturn(PETSC_SUCCESS); 3450e3ece09SJunchao Zhang } 3460e3ece09SJunchao Zhang 3470e3ece09SJunchao Zhang // Generate the Hermitian on device and cache it internally 3480e3ece09SJunchao Zhang static PetscErrorCode MatSeqAIJKokkosGenerateHermitian_Private(Mat A, KokkosCsrMatrix *csrmatH) 3490e3ece09SJunchao Zhang { 3500e3ece09SJunchao Zhang Mat_SeqAIJ *aseq = static_cast<Mat_SeqAIJ *>(A->data); 3510e3ece09SJunchao Zhang Mat_SeqAIJKokkos *akok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 3520e3ece09SJunchao Zhang PetscInt nz = aseq->nz, m = A->rmap->N, n = A->cmap->n; 3530e3ece09SJunchao Zhang KokkosCsrMatrix &T = akok->csrmatH; 3540e3ece09SJunchao Zhang 3550e3ece09SJunchao Zhang PetscFunctionBegin; 3560e3ece09SJunchao Zhang PetscCheck(akok, PETSC_COMM_WORLD, PETSC_ERR_PLIB, "Unexpected NULL (Mat_SeqAIJKokkos*)A->spptr"); 357f3d3cd90SZach Atkins PetscCall(KokkosDualViewSyncDevice(akok->a_dual, PetscGetKokkosExecutionSpace())); // Sync A's values since we are going to access them on device 3580e3ece09SJunchao Zhang 3590e3ece09SJunchao Zhang const auto &Aa = akok->a_dual.view_device(); 3600e3ece09SJunchao Zhang 3610e3ece09SJunchao Zhang if (A->hermitian == PETSC_BOOL3_TRUE) { 3620e3ece09SJunchao Zhang *csrmatH = akok->csrmat; 3630e3ece09SJunchao Zhang } else { 3640e3ece09SJunchao Zhang // See if we already have a cached hermitian and its value is up to date 3650e3ece09SJunchao Zhang if (T.numRows() == n && T.numCols() == m) { // this indicates csrmatT had been generated before, otherwise T has 0 rows/cols after construction 3660e3ece09SJunchao Zhang if (!akok->hermitian_updated) { // if the value is out of date, update the cached version 3670e3ece09SJunchao Zhang const auto &perm = akok->transpose_perm; // get the permutation array 3680e3ece09SJunchao Zhang auto &Ta = T.values; 3690e3ece09SJunchao Zhang 370d326c3f1SJunchao Zhang PetscCallCXX(Kokkos::parallel_for(Kokkos::RangePolicy<>(PetscGetKokkosExecutionSpace(), 0, nz), KOKKOS_LAMBDA(const PetscInt i) { Ta(i) = PetscConj(Aa(perm(i))); })); 3710e3ece09SJunchao Zhang } 3720e3ece09SJunchao Zhang } else { // Generate T of size n x m for the first time 3730e3ece09SJunchao Zhang MatRowMapKokkosView perm; 3740e3ece09SJunchao Zhang 3750e3ece09SJunchao Zhang PetscCall(MatSeqAIJKokkosGenerateTransposeStructure(A, perm, T)); 3760e3ece09SJunchao Zhang akok->transpose_perm = perm; // cache the perm in this matrix for reuse 377d326c3f1SJunchao Zhang PetscCallCXX(Kokkos::parallel_for(Kokkos::RangePolicy<>(PetscGetKokkosExecutionSpace(), 0, nz), KOKKOS_LAMBDA(const PetscInt i) { T.values(i) = PetscConj(Aa(perm(i))); })); 3780e3ece09SJunchao Zhang } 3790e3ece09SJunchao Zhang akok->hermitian_updated = PETSC_TRUE; 3800e3ece09SJunchao Zhang *csrmatH = akok->csrmatH; 3810e3ece09SJunchao Zhang } 3823ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 383152b3e56SJunchao Zhang } 384a587d139SMark 3858c3ff71bSJunchao Zhang /* y = A x */ 386d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatMult_SeqAIJKokkos(Mat A, Vec xx, Vec yy) 387d71ae5a4SJacob Faibussowitsch { 3888c3ff71bSJunchao Zhang Mat_SeqAIJKokkos *aijkok; 389152b3e56SJunchao Zhang ConstPetscScalarKokkosView xv; 390152b3e56SJunchao Zhang PetscScalarKokkosView yv; 3918c3ff71bSJunchao Zhang 3928c3ff71bSJunchao Zhang PetscFunctionBegin; 3939566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeBegin()); 3949566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosSyncDevice(A)); 3959566063dSJacob Faibussowitsch PetscCall(VecGetKokkosView(xx, &xv)); 3969566063dSJacob Faibussowitsch PetscCall(VecGetKokkosViewWrite(yy, &yv)); 3978c3ff71bSJunchao Zhang aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 398d326c3f1SJunchao Zhang PetscCallCXX(KokkosSparse::spmv(PetscGetKokkosExecutionSpace(), "N", 1.0 /*alpha*/, aijkok->csrmat, xv, 0.0 /*beta*/, yv)); /* y = alpha A x + beta y */ 3999566063dSJacob Faibussowitsch PetscCall(VecRestoreKokkosView(xx, &xv)); 4009566063dSJacob Faibussowitsch PetscCall(VecRestoreKokkosViewWrite(yy, &yv)); 401076ba34aSJunchao Zhang /* 2.0*nnz - numRows seems more accurate here but assumes there are no zero-rows. So a little sloppy here. */ 4029566063dSJacob Faibussowitsch PetscCall(PetscLogGpuFlops(2.0 * aijkok->csrmat.nnz())); 4039566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeEnd()); 4043ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 4058c3ff71bSJunchao Zhang } 4068c3ff71bSJunchao Zhang 4078c3ff71bSJunchao Zhang /* y = A^T x */ 408d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatMultTranspose_SeqAIJKokkos(Mat A, Vec xx, Vec yy) 409d71ae5a4SJacob Faibussowitsch { 4108c3ff71bSJunchao Zhang Mat_SeqAIJKokkos *aijkok; 411152b3e56SJunchao Zhang const char *mode; 412152b3e56SJunchao Zhang ConstPetscScalarKokkosView xv; 413152b3e56SJunchao Zhang PetscScalarKokkosView yv; 4140e3ece09SJunchao Zhang KokkosCsrMatrix csrmat; 4158c3ff71bSJunchao Zhang 4168c3ff71bSJunchao Zhang PetscFunctionBegin; 4179566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeBegin()); 4189566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosSyncDevice(A)); 4199566063dSJacob Faibussowitsch PetscCall(VecGetKokkosView(xx, &xv)); 4209566063dSJacob Faibussowitsch PetscCall(VecGetKokkosViewWrite(yy, &yv)); 421152b3e56SJunchao Zhang if (A->form_explicit_transpose) { 4229566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosGenerateTranspose_Private(A, &csrmat)); 423152b3e56SJunchao Zhang mode = "N"; 424152b3e56SJunchao Zhang } else { 425076ba34aSJunchao Zhang aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 4260e3ece09SJunchao Zhang csrmat = aijkok->csrmat; 427152b3e56SJunchao Zhang mode = "T"; 428152b3e56SJunchao Zhang } 429d326c3f1SJunchao Zhang PetscCallCXX(KokkosSparse::spmv(PetscGetKokkosExecutionSpace(), mode, 1.0 /*alpha*/, csrmat, xv, 0.0 /*beta*/, yv)); /* y = alpha A^T x + beta y */ 4309566063dSJacob Faibussowitsch PetscCall(VecRestoreKokkosView(xx, &xv)); 4319566063dSJacob Faibussowitsch PetscCall(VecRestoreKokkosViewWrite(yy, &yv)); 4320e3ece09SJunchao Zhang PetscCall(PetscLogGpuFlops(2.0 * csrmat.nnz())); 4339566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeEnd()); 4343ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 4358c3ff71bSJunchao Zhang } 4368c3ff71bSJunchao Zhang 4378c3ff71bSJunchao Zhang /* y = A^H x */ 438d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatMultHermitianTranspose_SeqAIJKokkos(Mat A, Vec xx, Vec yy) 439d71ae5a4SJacob Faibussowitsch { 4408c3ff71bSJunchao Zhang Mat_SeqAIJKokkos *aijkok; 441152b3e56SJunchao Zhang const char *mode; 442152b3e56SJunchao Zhang ConstPetscScalarKokkosView xv; 443152b3e56SJunchao Zhang PetscScalarKokkosView yv; 4440e3ece09SJunchao Zhang KokkosCsrMatrix csrmat; 4458c3ff71bSJunchao Zhang 4468c3ff71bSJunchao Zhang PetscFunctionBegin; 4479566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeBegin()); 4489566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosSyncDevice(A)); 4499566063dSJacob Faibussowitsch PetscCall(VecGetKokkosView(xx, &xv)); 4509566063dSJacob Faibussowitsch PetscCall(VecGetKokkosViewWrite(yy, &yv)); 451152b3e56SJunchao Zhang if (A->form_explicit_transpose) { 4529566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosGenerateHermitian_Private(A, &csrmat)); 453152b3e56SJunchao Zhang mode = "N"; 454152b3e56SJunchao Zhang } else { 455076ba34aSJunchao Zhang aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 4560e3ece09SJunchao Zhang csrmat = aijkok->csrmat; 457152b3e56SJunchao Zhang mode = "C"; 458152b3e56SJunchao Zhang } 459d326c3f1SJunchao Zhang PetscCallCXX(KokkosSparse::spmv(PetscGetKokkosExecutionSpace(), mode, 1.0 /*alpha*/, csrmat, xv, 0.0 /*beta*/, yv)); /* y = alpha A^H x + beta y */ 4609566063dSJacob Faibussowitsch PetscCall(VecRestoreKokkosView(xx, &xv)); 4619566063dSJacob Faibussowitsch PetscCall(VecRestoreKokkosViewWrite(yy, &yv)); 4620e3ece09SJunchao Zhang PetscCall(PetscLogGpuFlops(2.0 * csrmat.nnz())); 4639566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeEnd()); 4643ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 4658c3ff71bSJunchao Zhang } 4668c3ff71bSJunchao Zhang 4678c3ff71bSJunchao Zhang /* z = A x + y */ 468d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatMultAdd_SeqAIJKokkos(Mat A, Vec xx, Vec yy, Vec zz) 469d71ae5a4SJacob Faibussowitsch { 4708c3ff71bSJunchao Zhang Mat_SeqAIJKokkos *aijkok; 47192896123SJunchao Zhang ConstPetscScalarKokkosView xv; 472152b3e56SJunchao Zhang PetscScalarKokkosView zv; 4738c3ff71bSJunchao Zhang 4748c3ff71bSJunchao Zhang PetscFunctionBegin; 4759566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeBegin()); 4769566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosSyncDevice(A)); 47792896123SJunchao Zhang if (zz != yy) PetscCall(VecCopy(yy, zz)); // depending on yy's sync flags, zz might get its latest data on host 4789566063dSJacob Faibussowitsch PetscCall(VecGetKokkosView(xx, &xv)); 47992896123SJunchao Zhang PetscCall(VecGetKokkosView(zz, &zv)); // do after VecCopy(yy, zz) to get the latest data on device 4808c3ff71bSJunchao Zhang aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 481d326c3f1SJunchao Zhang PetscCallCXX(KokkosSparse::spmv(PetscGetKokkosExecutionSpace(), "N", 1.0 /*alpha*/, aijkok->csrmat, xv, 1.0 /*beta*/, zv)); /* z = alpha A x + beta z */ 4829566063dSJacob Faibussowitsch PetscCall(VecRestoreKokkosView(xx, &xv)); 48392896123SJunchao Zhang PetscCall(VecRestoreKokkosView(zz, &zv)); 4849566063dSJacob Faibussowitsch PetscCall(PetscLogGpuFlops(2.0 * aijkok->csrmat.nnz())); 4859566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeEnd()); 4863ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 4878c3ff71bSJunchao Zhang } 4888c3ff71bSJunchao Zhang 4898c3ff71bSJunchao Zhang /* z = A^T x + y */ 490d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatMultTransposeAdd_SeqAIJKokkos(Mat A, Vec xx, Vec yy, Vec zz) 491d71ae5a4SJacob Faibussowitsch { 4928c3ff71bSJunchao Zhang Mat_SeqAIJKokkos *aijkok; 493152b3e56SJunchao Zhang const char *mode; 49492896123SJunchao Zhang ConstPetscScalarKokkosView xv; 495152b3e56SJunchao Zhang PetscScalarKokkosView zv; 4960e3ece09SJunchao Zhang KokkosCsrMatrix csrmat; 4978c3ff71bSJunchao Zhang 4988c3ff71bSJunchao Zhang PetscFunctionBegin; 4999566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeBegin()); 5009566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosSyncDevice(A)); 50192896123SJunchao Zhang if (zz != yy) PetscCall(VecCopy(yy, zz)); 5029566063dSJacob Faibussowitsch PetscCall(VecGetKokkosView(xx, &xv)); 50392896123SJunchao Zhang PetscCall(VecGetKokkosView(zz, &zv)); 504152b3e56SJunchao Zhang if (A->form_explicit_transpose) { 5059566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosGenerateTranspose_Private(A, &csrmat)); 506152b3e56SJunchao Zhang mode = "N"; 507152b3e56SJunchao Zhang } else { 508076ba34aSJunchao Zhang aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 5090e3ece09SJunchao Zhang csrmat = aijkok->csrmat; 510152b3e56SJunchao Zhang mode = "T"; 511152b3e56SJunchao Zhang } 512d326c3f1SJunchao Zhang PetscCallCXX(KokkosSparse::spmv(PetscGetKokkosExecutionSpace(), mode, 1.0 /*alpha*/, csrmat, xv, 1.0 /*beta*/, zv)); /* z = alpha A^T x + beta z */ 5139566063dSJacob Faibussowitsch PetscCall(VecRestoreKokkosView(xx, &xv)); 51492896123SJunchao Zhang PetscCall(VecRestoreKokkosView(zz, &zv)); 5150e3ece09SJunchao Zhang PetscCall(PetscLogGpuFlops(2.0 * csrmat.nnz())); 5169566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeEnd()); 5173ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 5188c3ff71bSJunchao Zhang } 5198c3ff71bSJunchao Zhang 5208c3ff71bSJunchao Zhang /* z = A^H x + y */ 521d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatMultHermitianTransposeAdd_SeqAIJKokkos(Mat A, Vec xx, Vec yy, Vec zz) 522d71ae5a4SJacob Faibussowitsch { 5238c3ff71bSJunchao Zhang Mat_SeqAIJKokkos *aijkok; 524152b3e56SJunchao Zhang const char *mode; 52592896123SJunchao Zhang ConstPetscScalarKokkosView xv; 526152b3e56SJunchao Zhang PetscScalarKokkosView zv; 5270e3ece09SJunchao Zhang KokkosCsrMatrix csrmat; 5288c3ff71bSJunchao Zhang 5298c3ff71bSJunchao Zhang PetscFunctionBegin; 5309566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeBegin()); 5319566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosSyncDevice(A)); 53292896123SJunchao Zhang if (zz != yy) PetscCall(VecCopy(yy, zz)); 5339566063dSJacob Faibussowitsch PetscCall(VecGetKokkosView(xx, &xv)); 53492896123SJunchao Zhang PetscCall(VecGetKokkosView(zz, &zv)); 535152b3e56SJunchao Zhang if (A->form_explicit_transpose) { 5369566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosGenerateHermitian_Private(A, &csrmat)); 537152b3e56SJunchao Zhang mode = "N"; 538152b3e56SJunchao Zhang } else { 539076ba34aSJunchao Zhang aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 5400e3ece09SJunchao Zhang csrmat = aijkok->csrmat; 541152b3e56SJunchao Zhang mode = "C"; 542152b3e56SJunchao Zhang } 543d326c3f1SJunchao Zhang PetscCallCXX(KokkosSparse::spmv(PetscGetKokkosExecutionSpace(), mode, 1.0 /*alpha*/, csrmat, xv, 1.0 /*beta*/, zv)); /* z = alpha A^H x + beta z */ 5449566063dSJacob Faibussowitsch PetscCall(VecRestoreKokkosView(xx, &xv)); 54592896123SJunchao Zhang PetscCall(VecRestoreKokkosView(zz, &zv)); 5460e3ece09SJunchao Zhang PetscCall(PetscLogGpuFlops(2.0 * csrmat.nnz())); 5479566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeEnd()); 5483ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 549152b3e56SJunchao Zhang } 550152b3e56SJunchao Zhang 55166976f2fSJacob Faibussowitsch static PetscErrorCode MatSetOption_SeqAIJKokkos(Mat A, MatOption op, PetscBool flg) 552d71ae5a4SJacob Faibussowitsch { 553152b3e56SJunchao Zhang Mat_SeqAIJKokkos *aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 554152b3e56SJunchao Zhang 555152b3e56SJunchao Zhang PetscFunctionBegin; 556152b3e56SJunchao Zhang switch (op) { 557152b3e56SJunchao Zhang case MAT_FORM_EXPLICIT_TRANSPOSE: 558152b3e56SJunchao Zhang /* need to destroy the transpose matrix if present to prevent from logic errors if flg is set to true later */ 5599566063dSJacob Faibussowitsch if (A->form_explicit_transpose && !flg && aijkok) PetscCall(aijkok->DestroyMatTranspose()); 560152b3e56SJunchao Zhang A->form_explicit_transpose = flg; 561152b3e56SJunchao Zhang break; 562d71ae5a4SJacob Faibussowitsch default: 563d71ae5a4SJacob Faibussowitsch PetscCall(MatSetOption_SeqAIJ(A, op, flg)); 564d71ae5a4SJacob Faibussowitsch break; 565152b3e56SJunchao Zhang } 5663ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 5678c3ff71bSJunchao Zhang } 5688c3ff71bSJunchao Zhang 569076ba34aSJunchao Zhang /* Depending on reuse, either build a new mat, or use the existing mat */ 570d71ae5a4SJacob Faibussowitsch PETSC_INTERN PetscErrorCode MatConvert_SeqAIJ_SeqAIJKokkos(Mat A, MatType mtype, MatReuse reuse, Mat *newmat) 571d71ae5a4SJacob Faibussowitsch { 572076ba34aSJunchao Zhang Mat_SeqAIJ *aseq; 5738c3ff71bSJunchao Zhang 5748c3ff71bSJunchao Zhang PetscFunctionBegin; 5759566063dSJacob Faibussowitsch PetscCall(PetscKokkosInitializeCheck()); 576076ba34aSJunchao Zhang if (reuse == MAT_INITIAL_MATRIX) { /* Build a brand new mat */ 57751ece73cSJunchao Zhang PetscCall(MatDuplicate(A, MAT_COPY_VALUES, newmat)); 57851ece73cSJunchao Zhang PetscCall(MatSetType(*newmat, mtype)); 5798c3ff71bSJunchao Zhang } else if (reuse == MAT_REUSE_MATRIX) { /* Reuse the mat created before */ 5809566063dSJacob Faibussowitsch PetscCall(MatCopy(A, *newmat, SAME_NONZERO_PATTERN)); /* newmat is already a SeqAIJKokkos */ 581076ba34aSJunchao Zhang } else if (reuse == MAT_INPLACE_MATRIX) { /* newmat is A */ 5825f80ce2aSJacob Faibussowitsch PetscCheck(A == *newmat, PetscObjectComm((PetscObject)A), PETSC_ERR_PLIB, "A != *newmat with MAT_INPLACE_MATRIX"); 5839566063dSJacob Faibussowitsch PetscCall(PetscFree(A->defaultvectype)); 5849566063dSJacob Faibussowitsch PetscCall(PetscStrallocpy(VECKOKKOS, &A->defaultvectype)); /* Allocate and copy the string */ 5859566063dSJacob Faibussowitsch PetscCall(PetscObjectChangeTypeName((PetscObject)A, MATSEQAIJKOKKOS)); 5869566063dSJacob Faibussowitsch PetscCall(MatSetOps_SeqAIJKokkos(A)); 587076ba34aSJunchao Zhang aseq = static_cast<Mat_SeqAIJ *>(A->data); 588394ed5ebSJunchao Zhang if (A->assembled) { /* Copy i, j (but not values) to device for an assembled matrix if not yet */ 5895f80ce2aSJacob Faibussowitsch PetscCheck(!A->spptr, PETSC_COMM_WORLD, PETSC_ERR_PLIB, "Expect NULL (Mat_SeqAIJKokkos*)A->spptr"); 590*421480d9SBarry Smith A->spptr = new Mat_SeqAIJKokkos(A, A->rmap->n, A->cmap->n, aseq, A->nonzerostate, PETSC_FALSE); 5918c3ff71bSJunchao Zhang } 592076ba34aSJunchao Zhang } 5933ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 5948c3ff71bSJunchao Zhang } 5958c3ff71bSJunchao Zhang 596076ba34aSJunchao Zhang /* MatDuplicate always creates a new matrix. MatDuplicate can be called either on an assembled matrix or 597076ba34aSJunchao Zhang an unassembled matrix, even though MAT_COPY_VALUES is not allowed for unassembled matrix. 598076ba34aSJunchao Zhang */ 599d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatDuplicate_SeqAIJKokkos(Mat A, MatDuplicateOption dupOption, Mat *B) 600d71ae5a4SJacob Faibussowitsch { 601076ba34aSJunchao Zhang Mat_SeqAIJ *bseq; 602076ba34aSJunchao Zhang Mat_SeqAIJKokkos *akok = static_cast<Mat_SeqAIJKokkos *>(A->spptr), *bkok; 603076ba34aSJunchao Zhang Mat mat; 6048c3ff71bSJunchao Zhang 6058c3ff71bSJunchao Zhang PetscFunctionBegin; 606076ba34aSJunchao Zhang /* Do not copy values on host as A's latest values might be on device. We don't want to do sync blindly */ 6079566063dSJacob Faibussowitsch PetscCall(MatDuplicate_SeqAIJ(A, MAT_DO_NOT_COPY_VALUES, B)); 608076ba34aSJunchao Zhang mat = *B; 609f4747e26SJunchao Zhang if (A->assembled) { 610076ba34aSJunchao Zhang bseq = static_cast<Mat_SeqAIJ *>(mat->data); 611*421480d9SBarry Smith bkok = new Mat_SeqAIJKokkos(mat, mat->rmap->n, mat->cmap->n, bseq, mat->nonzerostate, PETSC_FALSE); 612076ba34aSJunchao Zhang bkok->a_dual.clear_sync_state(); /* Clear B's sync state as it will be decided below */ 613076ba34aSJunchao Zhang /* Now copy values to B if needed */ 614076ba34aSJunchao Zhang if (dupOption == MAT_COPY_VALUES) { 615076ba34aSJunchao Zhang if (akok->a_dual.need_sync_device()) { 616076ba34aSJunchao Zhang Kokkos::deep_copy(bkok->a_dual.view_host(), akok->a_dual.view_host()); 617076ba34aSJunchao Zhang bkok->a_dual.modify_host(); 618076ba34aSJunchao Zhang } else { /* If device has the latest data, we only copy data on device */ 619076ba34aSJunchao Zhang Kokkos::deep_copy(bkok->a_dual.view_device(), akok->a_dual.view_device()); 620076ba34aSJunchao Zhang bkok->a_dual.modify_device(); 621076ba34aSJunchao Zhang } 622076ba34aSJunchao Zhang } else { /* MAT_DO_NOT_COPY_VALUES or MAT_SHARE_NONZERO_PATTERN. B's values should be zeroed */ 623076ba34aSJunchao Zhang /* B's values on host should be already zeroed by MatDuplicate_SeqAIJ() */ 624076ba34aSJunchao Zhang bkok->a_dual.modify_host(); 625076ba34aSJunchao Zhang } 626076ba34aSJunchao Zhang mat->spptr = bkok; 627076ba34aSJunchao Zhang } 628076ba34aSJunchao Zhang 6299566063dSJacob Faibussowitsch PetscCall(PetscFree(mat->defaultvectype)); 6309566063dSJacob Faibussowitsch PetscCall(PetscStrallocpy(VECKOKKOS, &mat->defaultvectype)); /* Allocate and copy the string */ 6319566063dSJacob Faibussowitsch PetscCall(PetscObjectChangeTypeName((PetscObject)mat, MATSEQAIJKOKKOS)); 6329566063dSJacob Faibussowitsch PetscCall(MatSetOps_SeqAIJKokkos(mat)); 6333ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 6348c3ff71bSJunchao Zhang } 6358c3ff71bSJunchao Zhang 636d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatTranspose_SeqAIJKokkos(Mat A, MatReuse reuse, Mat *B) 637d71ae5a4SJacob Faibussowitsch { 6380ecb592aSJunchao Zhang Mat At; 6390e3ece09SJunchao Zhang KokkosCsrMatrix internT; 6400ecb592aSJunchao Zhang Mat_SeqAIJKokkos *atkok, *bkok; 6410ecb592aSJunchao Zhang 6420ecb592aSJunchao Zhang PetscFunctionBegin; 6437fb60732SBarry Smith if (reuse == MAT_REUSE_MATRIX) PetscCall(MatTransposeCheckNonzeroState_Private(A, *B)); 6449566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosGenerateTranspose_Private(A, &internT)); /* Generate a transpose internally */ 6450ecb592aSJunchao Zhang if (reuse == MAT_INITIAL_MATRIX || reuse == MAT_INPLACE_MATRIX) { 646ff751488SJunchao Zhang /* Deep copy internT, as we want to isolate the internal transpose */ 6470e3ece09SJunchao Zhang PetscCallCXX(atkok = new Mat_SeqAIJKokkos(KokkosCsrMatrix("csrmat", internT))); 6489566063dSJacob Faibussowitsch PetscCall(MatCreateSeqAIJKokkosWithCSRMatrix(PetscObjectComm((PetscObject)A), atkok, &At)); 6490ecb592aSJunchao Zhang if (reuse == MAT_INITIAL_MATRIX) *B = At; 6509566063dSJacob Faibussowitsch else PetscCall(MatHeaderReplace(A, &At)); /* Replace A with At inplace */ 6510ecb592aSJunchao Zhang } else { /* MAT_REUSE_MATRIX, just need to copy values to B on device */ 6520ecb592aSJunchao Zhang if ((*B)->assembled) { 6530ecb592aSJunchao Zhang bkok = static_cast<Mat_SeqAIJKokkos *>((*B)->spptr); 6540e3ece09SJunchao Zhang PetscCallCXX(Kokkos::deep_copy(bkok->a_dual.view_device(), internT.values)); 6559566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosModifyDevice(*B)); 6560ecb592aSJunchao Zhang } else if ((*B)->preallocated) { /* It is ok for B to be only preallocated, as needed in MatTranspose_MPIAIJ */ 6570ecb592aSJunchao Zhang Mat_SeqAIJ *bseq = static_cast<Mat_SeqAIJ *>((*B)->data); 6580e3ece09SJunchao Zhang MatScalarKokkosViewHost a_h(bseq->a, internT.nnz()); /* bseq->nz = 0 if unassembled */ 6590e3ece09SJunchao Zhang MatColIdxKokkosViewHost j_h(bseq->j, internT.nnz()); 6600e3ece09SJunchao Zhang PetscCallCXX(Kokkos::deep_copy(a_h, internT.values)); 6610e3ece09SJunchao Zhang PetscCallCXX(Kokkos::deep_copy(j_h, internT.graph.entries)); 6620ecb592aSJunchao Zhang } else SETERRQ(PetscObjectComm((PetscObject)A), PETSC_ERR_ARG_WRONGSTATE, "B must be assembled or preallocated"); 6630ecb592aSJunchao Zhang } 6643ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 6650ecb592aSJunchao Zhang } 6660ecb592aSJunchao Zhang 667d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatDestroy_SeqAIJKokkos(Mat A) 668d71ae5a4SJacob Faibussowitsch { 66986a27549SJunchao Zhang Mat_SeqAIJKokkos *aijkok; 6708c3ff71bSJunchao Zhang 6718c3ff71bSJunchao Zhang PetscFunctionBegin; 67286a27549SJunchao Zhang if (A->factortype == MAT_FACTOR_NONE) { 67386a27549SJunchao Zhang aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 6748c3ff71bSJunchao Zhang delete aijkok; 67586a27549SJunchao Zhang } else { 67686a27549SJunchao Zhang delete static_cast<Mat_SeqAIJKokkosTriFactors *>(A->spptr); 67786a27549SJunchao Zhang } 678cbc6b225SStefano Zampini A->spptr = NULL; 6799566063dSJacob Faibussowitsch PetscCall(PetscObjectComposeFunction((PetscObject)A, "MatFactorGetSolverType_C", NULL)); 6809566063dSJacob Faibussowitsch PetscCall(PetscObjectComposeFunction((PetscObject)A, "MatSetPreallocationCOO_C", NULL)); 6819566063dSJacob Faibussowitsch PetscCall(PetscObjectComposeFunction((PetscObject)A, "MatSetValuesCOO_C", NULL)); 68257761e9aSJunchao Zhang #if defined(PETSC_HAVE_HYPRE) 68357761e9aSJunchao Zhang PetscCall(PetscObjectComposeFunction((PetscObject)A, "MatConvert_seqaijkokkos_hypre_C", NULL)); 68457761e9aSJunchao Zhang #endif 6859566063dSJacob Faibussowitsch PetscCall(MatDestroy_SeqAIJ(A)); 6863ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 6878c3ff71bSJunchao Zhang } 6888c3ff71bSJunchao Zhang 6893f3ba80aSJunchao Zhang /*MC 6903f3ba80aSJunchao Zhang MATSEQAIJKOKKOS - MATAIJKOKKOS = "(seq)aijkokkos" - A matrix type to be used for sparse matrices with Kokkos 6913f3ba80aSJunchao Zhang 69215229ffcSPierre Jolivet A matrix type using Kokkos-Kernels CrsMatrix type for portability across different device types 6933f3ba80aSJunchao Zhang 6942ef1f0ffSBarry Smith Options Database Key: 69511a5261eSBarry Smith . -mat_type aijkokkos - sets the matrix type to `MATSEQAIJKOKKOS` during a call to `MatSetFromOptions()` 6963f3ba80aSJunchao Zhang 6973f3ba80aSJunchao Zhang Level: beginner 6983f3ba80aSJunchao Zhang 6991cc06b55SBarry Smith .seealso: [](ch_matrices), `Mat`, `MatCreateSeqAIJKokkos()`, `MATMPIAIJKOKKOS` 7003f3ba80aSJunchao Zhang M*/ 701d71ae5a4SJacob Faibussowitsch PETSC_EXTERN PetscErrorCode MatCreate_SeqAIJKokkos(Mat A) 702d71ae5a4SJacob Faibussowitsch { 70386a27549SJunchao Zhang PetscFunctionBegin; 7049566063dSJacob Faibussowitsch PetscCall(PetscKokkosInitializeCheck()); 7059566063dSJacob Faibussowitsch PetscCall(MatCreate_SeqAIJ(A)); 7069566063dSJacob Faibussowitsch PetscCall(MatConvert_SeqAIJ_SeqAIJKokkos(A, MATSEQAIJKOKKOS, MAT_INPLACE_MATRIX, &A)); 7073ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 70886a27549SJunchao Zhang } 70986a27549SJunchao Zhang 710076ba34aSJunchao Zhang /* Merge A, B into a matrix C. A is put before B. C's size would be A->rmap->n by (A->cmap->n + B->cmap->n) */ 711d71ae5a4SJacob Faibussowitsch PetscErrorCode MatSeqAIJKokkosMergeMats(Mat A, Mat B, MatReuse reuse, Mat *C) 712d71ae5a4SJacob Faibussowitsch { 713076ba34aSJunchao Zhang Mat_SeqAIJ *a, *b; 714076ba34aSJunchao Zhang Mat_SeqAIJKokkos *akok, *bkok, *ckok; 715076ba34aSJunchao Zhang MatScalarKokkosView aa, ba, ca; 716076ba34aSJunchao Zhang MatRowMapKokkosView ai, bi, ci; 717076ba34aSJunchao Zhang MatColIdxKokkosView aj, bj, cj; 718076ba34aSJunchao Zhang PetscInt m, n, nnz, aN; 719a3f881fbSStefano Zampini 720a3f881fbSStefano Zampini PetscFunctionBegin; 721076ba34aSJunchao Zhang PetscValidHeaderSpecific(A, MAT_CLASSID, 1); 722076ba34aSJunchao Zhang PetscValidHeaderSpecific(B, MAT_CLASSID, 2); 7234f572ea9SToby Isaac PetscAssertPointer(C, 4); 724076ba34aSJunchao Zhang PetscCheckTypeName(A, MATSEQAIJKOKKOS); 725076ba34aSJunchao Zhang PetscCheckTypeName(B, MATSEQAIJKOKKOS); 7265f80ce2aSJacob Faibussowitsch PetscCheck(A->rmap->n == B->rmap->n, PETSC_COMM_SELF, PETSC_ERR_ARG_SIZ, "Invalid number or rows %" PetscInt_FMT " != %" PetscInt_FMT, A->rmap->n, B->rmap->n); 7275f80ce2aSJacob Faibussowitsch PetscCheck(reuse != MAT_INPLACE_MATRIX, PETSC_COMM_SELF, PETSC_ERR_SUP, "MAT_INPLACE_MATRIX not supported"); 728076ba34aSJunchao Zhang 7299566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosSyncDevice(A)); 7309566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosSyncDevice(B)); 731076ba34aSJunchao Zhang a = static_cast<Mat_SeqAIJ *>(A->data); 732076ba34aSJunchao Zhang b = static_cast<Mat_SeqAIJ *>(B->data); 733076ba34aSJunchao Zhang akok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 734076ba34aSJunchao Zhang bkok = static_cast<Mat_SeqAIJKokkos *>(B->spptr); 735076ba34aSJunchao Zhang aa = akok->a_dual.view_device(); 736076ba34aSJunchao Zhang ai = akok->i_dual.view_device(); 737076ba34aSJunchao Zhang ba = bkok->a_dual.view_device(); 738076ba34aSJunchao Zhang bi = bkok->i_dual.view_device(); 739076ba34aSJunchao Zhang m = A->rmap->n; /* M, N and nnz of C */ 740076ba34aSJunchao Zhang n = A->cmap->n + B->cmap->n; 741076ba34aSJunchao Zhang nnz = a->nz + b->nz; 742076ba34aSJunchao Zhang aN = A->cmap->n; /* N of A */ 743076ba34aSJunchao Zhang if (reuse == MAT_INITIAL_MATRIX) { 744076ba34aSJunchao Zhang aj = akok->j_dual.view_device(); 745076ba34aSJunchao Zhang bj = bkok->j_dual.view_device(); 746ecd797f4SJunchao Zhang auto ca = MatScalarKokkosView("a", aa.extent(0) + ba.extent(0)); 747ecd797f4SJunchao Zhang auto ci = MatRowMapKokkosView("i", ai.extent(0)); 748ecd797f4SJunchao Zhang auto cj = MatColIdxKokkosView("j", aj.extent(0) + bj.extent(0)); 749076ba34aSJunchao Zhang 750076ba34aSJunchao Zhang /* Concatenate A and B in parallel using Kokkos hierarchical parallelism */ 7519371c9d4SSatish Balay Kokkos::parallel_for( 752d326c3f1SJunchao Zhang Kokkos::TeamPolicy<>(PetscGetKokkosExecutionSpace(), m, Kokkos::AUTO()), KOKKOS_LAMBDA(const KokkosTeamMemberType &t) { 753076ba34aSJunchao Zhang PetscInt i = t.league_rank(); /* row i */ 754076ba34aSJunchao Zhang PetscInt coffset = ai(i) + bi(i), alen = ai(i + 1) - ai(i), blen = bi(i + 1) - bi(i); 755076ba34aSJunchao Zhang 756076ba34aSJunchao Zhang Kokkos::single(Kokkos::PerTeam(t), [=]() { /* this side effect only happens once per whole team */ 757076ba34aSJunchao Zhang ci(i) = coffset; 758076ba34aSJunchao Zhang if (i == m - 1) ci(m) = ai(m) + bi(m); 759076ba34aSJunchao Zhang }); 760076ba34aSJunchao Zhang 761076ba34aSJunchao Zhang Kokkos::parallel_for(Kokkos::TeamThreadRange(t, alen + blen), [&](PetscInt k) { 762076ba34aSJunchao Zhang if (k < alen) { 763076ba34aSJunchao Zhang ca(coffset + k) = aa(ai(i) + k); 764076ba34aSJunchao Zhang cj(coffset + k) = aj(ai(i) + k); 765076ba34aSJunchao Zhang } else { 766076ba34aSJunchao Zhang ca(coffset + k) = ba(bi(i) + k - alen); 767076ba34aSJunchao Zhang cj(coffset + k) = bj(bi(i) + k - alen) + aN; /* Entries in B get new column indices in C */ 768076ba34aSJunchao Zhang } 769076ba34aSJunchao Zhang }); 770076ba34aSJunchao Zhang }); 771ecd797f4SJunchao Zhang PetscCallCXX(ckok = new Mat_SeqAIJKokkos(m, n, nnz, ci, cj, ca)); 7729566063dSJacob Faibussowitsch PetscCall(MatCreateSeqAIJKokkosWithCSRMatrix(PETSC_COMM_SELF, ckok, C)); 773076ba34aSJunchao Zhang } else if (reuse == MAT_REUSE_MATRIX) { 774076ba34aSJunchao Zhang PetscValidHeaderSpecific(*C, MAT_CLASSID, 4); 775076ba34aSJunchao Zhang PetscCheckTypeName(*C, MATSEQAIJKOKKOS); 776076ba34aSJunchao Zhang ckok = static_cast<Mat_SeqAIJKokkos *>((*C)->spptr); 777076ba34aSJunchao Zhang ca = ckok->a_dual.view_device(); 778076ba34aSJunchao Zhang ci = ckok->i_dual.view_device(); 779076ba34aSJunchao Zhang 7809371c9d4SSatish Balay Kokkos::parallel_for( 781d326c3f1SJunchao Zhang Kokkos::TeamPolicy<>(PetscGetKokkosExecutionSpace(), m, Kokkos::AUTO()), KOKKOS_LAMBDA(const KokkosTeamMemberType &t) { 782076ba34aSJunchao Zhang PetscInt i = t.league_rank(); /* row i */ 783076ba34aSJunchao Zhang PetscInt alen = ai(i + 1) - ai(i), blen = bi(i + 1) - bi(i); 784076ba34aSJunchao Zhang Kokkos::parallel_for(Kokkos::TeamThreadRange(t, alen + blen), [&](PetscInt k) { 785076ba34aSJunchao Zhang if (k < alen) ca(ci(i) + k) = aa(ai(i) + k); 786076ba34aSJunchao Zhang else ca(ci(i) + k) = ba(bi(i) + k - alen); 787076ba34aSJunchao Zhang }); 788076ba34aSJunchao Zhang }); 7899566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosModifyDevice(*C)); 790076ba34aSJunchao Zhang } 7913ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 792076ba34aSJunchao Zhang } 793076ba34aSJunchao Zhang 794cc1eb50dSBarry Smith static PetscErrorCode MatProductCtxDestroy_SeqAIJKokkos(void **pdata) 795d71ae5a4SJacob Faibussowitsch { 796076ba34aSJunchao Zhang PetscFunctionBegin; 797cc1eb50dSBarry Smith delete *reinterpret_cast<MatProductCtx_SeqAIJKokkos **>(pdata); 7983ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 799a3f881fbSStefano Zampini } 800a3f881fbSStefano Zampini 801d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatProductNumeric_SeqAIJKokkos_SeqAIJKokkos(Mat C) 802d71ae5a4SJacob Faibussowitsch { 803a3f881fbSStefano Zampini Mat_Product *product = C->product; 804a3f881fbSStefano Zampini Mat A, B; 805076ba34aSJunchao Zhang bool transA, transB; /* use bool, since KK needs this type */ 806a3f881fbSStefano Zampini Mat_SeqAIJKokkos *akok, *bkok, *ckok; 807a3f881fbSStefano Zampini Mat_SeqAIJ *c; 808cc1eb50dSBarry Smith MatProductCtx_SeqAIJKokkos *pdata; 8090e3ece09SJunchao Zhang KokkosCsrMatrix csrmatA, csrmatB; 810a3f881fbSStefano Zampini 811a3f881fbSStefano Zampini PetscFunctionBegin; 812a3f881fbSStefano Zampini MatCheckProduct(C, 1); 8135f80ce2aSJacob Faibussowitsch PetscCheck(C->product->data, PetscObjectComm((PetscObject)C), PETSC_ERR_PLIB, "Product data empty"); 814cc1eb50dSBarry Smith pdata = static_cast<MatProductCtx_SeqAIJKokkos *>(C->product->data); 815076ba34aSJunchao Zhang 8160e3ece09SJunchao Zhang // See if numeric has already been done in symbolic (e.g., user calls MatMatMult(A,B,MAT_INITIAL_MATRIX,..,C)). 8170e3ece09SJunchao Zhang // If yes, skip the numeric, but reset the flag so that next time when user calls MatMatMult(E,F,MAT_REUSE_MATRIX,..,C), 8180e3ece09SJunchao Zhang // we still do numeric. 8190e3ece09SJunchao Zhang if (pdata->reusesym) { // numeric reuses results from symbolic 8200e3ece09SJunchao Zhang pdata->reusesym = PETSC_FALSE; 8213ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 822076ba34aSJunchao Zhang } 823076ba34aSJunchao Zhang 824076ba34aSJunchao Zhang switch (product->type) { 8259371c9d4SSatish Balay case MATPRODUCT_AB: 8269371c9d4SSatish Balay transA = false; 8279371c9d4SSatish Balay transB = false; 8289371c9d4SSatish Balay break; 8299371c9d4SSatish Balay case MATPRODUCT_AtB: 8309371c9d4SSatish Balay transA = true; 8319371c9d4SSatish Balay transB = false; 8329371c9d4SSatish Balay break; 8339371c9d4SSatish Balay case MATPRODUCT_ABt: 8349371c9d4SSatish Balay transA = false; 8359371c9d4SSatish Balay transB = true; 8369371c9d4SSatish Balay break; 837d71ae5a4SJacob Faibussowitsch default: 838d71ae5a4SJacob Faibussowitsch SETERRQ(PetscObjectComm((PetscObject)C), PETSC_ERR_PLIB, "Unsupported product type %s", MatProductTypes[product->type]); 839076ba34aSJunchao Zhang } 840076ba34aSJunchao Zhang 841a3f881fbSStefano Zampini A = product->A; 842a3f881fbSStefano Zampini B = product->B; 8439566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosSyncDevice(A)); 8449566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosSyncDevice(B)); 845a3f881fbSStefano Zampini akok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 846a3f881fbSStefano Zampini bkok = static_cast<Mat_SeqAIJKokkos *>(B->spptr); 847a3f881fbSStefano Zampini ckok = static_cast<Mat_SeqAIJKokkos *>(C->spptr); 848076ba34aSJunchao Zhang 8495f80ce2aSJacob Faibussowitsch PetscCheck(ckok, PetscObjectComm((PetscObject)C), PETSC_ERR_PLIB, "Device data structure spptr is empty"); 850076ba34aSJunchao Zhang 8510e3ece09SJunchao Zhang csrmatA = akok->csrmat; 8520e3ece09SJunchao Zhang csrmatB = bkok->csrmat; 853076ba34aSJunchao Zhang 854076ba34aSJunchao Zhang /* TODO: Once KK spgemm implements transpose, we can get rid of the explicit transpose here */ 855076ba34aSJunchao Zhang if (transA) { 8569566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosGenerateTranspose_Private(A, &csrmatA)); 857076ba34aSJunchao Zhang transA = false; 858a3f881fbSStefano Zampini } 859a3f881fbSStefano Zampini 860076ba34aSJunchao Zhang if (transB) { 8619566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosGenerateTranspose_Private(B, &csrmatB)); 862076ba34aSJunchao Zhang transB = false; 863076ba34aSJunchao Zhang } 8649566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeBegin()); 8650e3ece09SJunchao Zhang PetscCallCXX(KokkosSparse::spgemm_numeric(pdata->kh, csrmatA, transA, csrmatB, transB, ckok->csrmat)); 8660e3ece09SJunchao Zhang #if PETSC_PKG_KOKKOS_KERNELS_VERSION_LT(4, 0, 0) 867866eb059SJunchao Zhang auto spgemmHandle = pdata->kh.get_spgemm_handle(); 868866eb059SJunchao Zhang if (spgemmHandle->get_sort_option() != 1) PetscCallCXX(sort_crs_matrix(ckok->csrmat)); /* without sort, mat_tests-ex62_14_seqaijkokkos fails */ 869e944a159SJunchao Zhang #endif 870866eb059SJunchao Zhang 8719566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeEnd()); 8729566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosModifyDevice(C)); 873a3f881fbSStefano Zampini /* shorter version of MatAssemblyEnd_SeqAIJ */ 874a3f881fbSStefano Zampini c = (Mat_SeqAIJ *)C->data; 8759566063dSJacob Faibussowitsch PetscCall(PetscInfo(C, "Matrix size: %" PetscInt_FMT " X %" PetscInt_FMT "; storage space: 0 unneeded,%" PetscInt_FMT " used\n", C->rmap->n, C->cmap->n, c->nz)); 8769566063dSJacob Faibussowitsch PetscCall(PetscInfo(C, "Number of mallocs during MatSetValues() is 0\n")); 8779566063dSJacob Faibussowitsch PetscCall(PetscInfo(C, "Maximum nonzeros in any row is %" PetscInt_FMT "\n", c->rmax)); 878a3f881fbSStefano Zampini c->reallocs = 0; 879076ba34aSJunchao Zhang C->info.mallocs = 0; 880a3f881fbSStefano Zampini C->info.nz_unneeded = 0; 881a3f881fbSStefano Zampini C->assembled = C->was_assembled = PETSC_TRUE; 882a3f881fbSStefano Zampini C->num_ass++; 8833ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 884a3f881fbSStefano Zampini } 885a3f881fbSStefano Zampini 886d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatProductSymbolic_SeqAIJKokkos_SeqAIJKokkos(Mat C) 887d71ae5a4SJacob Faibussowitsch { 888076ba34aSJunchao Zhang Mat_Product *product = C->product; 889076ba34aSJunchao Zhang MatProductType ptype; 890076ba34aSJunchao Zhang Mat A, B; 891076ba34aSJunchao Zhang bool transA, transB; 892076ba34aSJunchao Zhang Mat_SeqAIJKokkos *akok, *bkok, *ckok; 893cc1eb50dSBarry Smith MatProductCtx_SeqAIJKokkos *pdata; 894076ba34aSJunchao Zhang MPI_Comm comm; 8950e3ece09SJunchao Zhang KokkosCsrMatrix csrmatA, csrmatB, csrmatC; 896a3f881fbSStefano Zampini 897a3f881fbSStefano Zampini PetscFunctionBegin; 898a3f881fbSStefano Zampini MatCheckProduct(C, 1); 8999566063dSJacob Faibussowitsch PetscCall(PetscObjectGetComm((PetscObject)C, &comm)); 9005f80ce2aSJacob Faibussowitsch PetscCheck(!product->data, comm, PETSC_ERR_PLIB, "Product data not empty"); 901a3f881fbSStefano Zampini A = product->A; 902a3f881fbSStefano Zampini B = product->B; 9039566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosSyncDevice(A)); 9049566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosSyncDevice(B)); 905a3f881fbSStefano Zampini akok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 906a3f881fbSStefano Zampini bkok = static_cast<Mat_SeqAIJKokkos *>(B->spptr); 9070e3ece09SJunchao Zhang csrmatA = akok->csrmat; 9080e3ece09SJunchao Zhang csrmatB = bkok->csrmat; 909076ba34aSJunchao Zhang 910a3f881fbSStefano Zampini ptype = product->type; 9110e3ece09SJunchao Zhang // Take advantage of the symmetry if true 9120e3ece09SJunchao Zhang if (A->symmetric == PETSC_BOOL3_TRUE && ptype == MATPRODUCT_AtB) { 9130e3ece09SJunchao Zhang ptype = MATPRODUCT_AB; 9140e3ece09SJunchao Zhang product->symbolic_used_the_fact_A_is_symmetric = PETSC_TRUE; 9150e3ece09SJunchao Zhang } 9160e3ece09SJunchao Zhang if (B->symmetric == PETSC_BOOL3_TRUE && ptype == MATPRODUCT_ABt) { 9170e3ece09SJunchao Zhang ptype = MATPRODUCT_AB; 9180e3ece09SJunchao Zhang product->symbolic_used_the_fact_B_is_symmetric = PETSC_TRUE; 9190e3ece09SJunchao Zhang } 9200e3ece09SJunchao Zhang 921a3f881fbSStefano Zampini switch (ptype) { 9229371c9d4SSatish Balay case MATPRODUCT_AB: 9239371c9d4SSatish Balay transA = false; 9249371c9d4SSatish Balay transB = false; 9250e6a1e94SMark Adams PetscCall(MatSetBlockSizesFromMats(C, A, B)); 9269371c9d4SSatish Balay break; 9279371c9d4SSatish Balay case MATPRODUCT_AtB: 9289371c9d4SSatish Balay transA = true; 9299371c9d4SSatish Balay transB = false; 9300e6a1e94SMark Adams if (A->cmap->bs > 0) PetscCall(PetscLayoutSetBlockSize(C->rmap, A->cmap->bs)); 9310e6a1e94SMark Adams if (B->cmap->bs > 0) PetscCall(PetscLayoutSetBlockSize(C->cmap, B->cmap->bs)); 9329371c9d4SSatish Balay break; 9339371c9d4SSatish Balay case MATPRODUCT_ABt: 9349371c9d4SSatish Balay transA = false; 9359371c9d4SSatish Balay transB = true; 9360e6a1e94SMark Adams if (A->rmap->bs > 0) PetscCall(PetscLayoutSetBlockSize(C->rmap, A->rmap->bs)); 9370e6a1e94SMark Adams if (B->rmap->bs > 0) PetscCall(PetscLayoutSetBlockSize(C->cmap, B->rmap->bs)); 9389371c9d4SSatish Balay break; 939d71ae5a4SJacob Faibussowitsch default: 940d71ae5a4SJacob Faibussowitsch SETERRQ(comm, PETSC_ERR_PLIB, "Unsupported product type %s", MatProductTypes[product->type]); 941a3f881fbSStefano Zampini } 942cc1eb50dSBarry Smith PetscCallCXX(product->data = pdata = new MatProductCtx_SeqAIJKokkos()); 943076ba34aSJunchao Zhang pdata->reusesym = product->api_user; 944a3f881fbSStefano Zampini 945076ba34aSJunchao Zhang /* TODO: add command line options to select spgemm algorithms */ 946866eb059SJunchao Zhang auto spgemm_alg = KokkosSparse::SPGEMMAlgorithm::SPGEMM_DEFAULT; /* default alg is TPL if enabled, otherwise KK */ 947866eb059SJunchao Zhang 948866eb059SJunchao Zhang /* CUDA-10.2's spgemm has bugs. We prefer the SpGEMMreuse APIs introduced in cuda-11.4 */ 949866eb059SJunchao Zhang #if defined(KOKKOSKERNELS_ENABLE_TPL_CUSPARSE) 950866eb059SJunchao Zhang #if PETSC_PKG_CUDA_VERSION_LT(11, 4, 0) 951866eb059SJunchao Zhang spgemm_alg = KokkosSparse::SPGEMMAlgorithm::SPGEMM_KK; 952866eb059SJunchao Zhang #endif 953866eb059SJunchao Zhang #endif 9540e3ece09SJunchao Zhang PetscCallCXX(pdata->kh.create_spgemm_handle(spgemm_alg)); 955076ba34aSJunchao Zhang 9569566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeBegin()); 957076ba34aSJunchao Zhang /* TODO: Get rid of the explicit transpose once KK-spgemm implements the transpose option */ 958076ba34aSJunchao Zhang if (transA) { 9599566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosGenerateTranspose_Private(A, &csrmatA)); 960076ba34aSJunchao Zhang transA = false; 961076ba34aSJunchao Zhang } 962076ba34aSJunchao Zhang 963076ba34aSJunchao Zhang if (transB) { 9649566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosGenerateTranspose_Private(B, &csrmatB)); 965076ba34aSJunchao Zhang transB = false; 966076ba34aSJunchao Zhang } 967076ba34aSJunchao Zhang 9680e3ece09SJunchao Zhang PetscCallCXX(KokkosSparse::spgemm_symbolic(pdata->kh, csrmatA, transA, csrmatB, transB, csrmatC)); 969076ba34aSJunchao Zhang /* spgemm_symbolic() only populates C's rowmap, but not C's column indices. 970076ba34aSJunchao Zhang So we have to do a fake spgemm_numeric() here to get csrmatC.j_d setup, before 971076ba34aSJunchao Zhang calling new Mat_SeqAIJKokkos(). 972076ba34aSJunchao Zhang TODO: Remove the fake spgemm_numeric() after KK fixed this problem. 973076ba34aSJunchao Zhang */ 9740e3ece09SJunchao Zhang PetscCallCXX(KokkosSparse::spgemm_numeric(pdata->kh, csrmatA, transA, csrmatB, transB, csrmatC)); 9750e3ece09SJunchao Zhang #if PETSC_PKG_KOKKOS_KERNELS_VERSION_LT(4, 0, 0) 976866eb059SJunchao Zhang /* Query if KK outputs a sorted matrix. If not, we need to sort it */ 977866eb059SJunchao Zhang auto spgemmHandle = pdata->kh.get_spgemm_handle(); 978866eb059SJunchao Zhang if (spgemmHandle->get_sort_option() != 1) PetscCallCXX(sort_crs_matrix(csrmatC)); /* sort_option defaults to -1 in KK!*/ 979e944a159SJunchao Zhang #endif 9809566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeEnd()); 981076ba34aSJunchao Zhang 9829566063dSJacob Faibussowitsch PetscCallCXX(ckok = new Mat_SeqAIJKokkos(csrmatC)); 9839566063dSJacob Faibussowitsch PetscCall(MatSetSeqAIJKokkosWithCSRMatrix(C, ckok)); 984cc1eb50dSBarry Smith C->product->destroy = MatProductCtxDestroy_SeqAIJKokkos; 9853ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 986a3f881fbSStefano Zampini } 987a3f881fbSStefano Zampini 988a3f881fbSStefano Zampini /* handles sparse matrix matrix ops */ 989d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatProductSetFromOptions_SeqAIJKokkos(Mat mat) 990d71ae5a4SJacob Faibussowitsch { 991076ba34aSJunchao Zhang Mat_Product *product = mat->product; 992a3f881fbSStefano Zampini PetscBool Biskok = PETSC_FALSE, Ciskok = PETSC_TRUE; 993a3f881fbSStefano Zampini 994a3f881fbSStefano Zampini PetscFunctionBegin; 995a3f881fbSStefano Zampini MatCheckProduct(mat, 1); 9969566063dSJacob Faibussowitsch PetscCall(PetscObjectTypeCompare((PetscObject)product->B, MATSEQAIJKOKKOS, &Biskok)); 99748a46eb9SPierre Jolivet if (product->type == MATPRODUCT_ABC) PetscCall(PetscObjectTypeCompare((PetscObject)product->C, MATSEQAIJKOKKOS, &Ciskok)); 998a3f881fbSStefano Zampini if (Biskok && Ciskok) { 999a3f881fbSStefano Zampini switch (product->type) { 1000a3f881fbSStefano Zampini case MATPRODUCT_AB: 1001a3f881fbSStefano Zampini case MATPRODUCT_AtB: 1002d71ae5a4SJacob Faibussowitsch case MATPRODUCT_ABt: 1003d71ae5a4SJacob Faibussowitsch mat->ops->productsymbolic = MatProductSymbolic_SeqAIJKokkos_SeqAIJKokkos; 1004d71ae5a4SJacob Faibussowitsch break; 1005a3f881fbSStefano Zampini case MATPRODUCT_PtAP: 1006a3f881fbSStefano Zampini case MATPRODUCT_RARt: 1007d71ae5a4SJacob Faibussowitsch case MATPRODUCT_ABC: 1008d71ae5a4SJacob Faibussowitsch mat->ops->productsymbolic = MatProductSymbolic_ABC_Basic; 1009d71ae5a4SJacob Faibussowitsch break; 1010d71ae5a4SJacob Faibussowitsch default: 1011d71ae5a4SJacob Faibussowitsch break; 1012a3f881fbSStefano Zampini } 1013a3f881fbSStefano Zampini } else { /* fallback for AIJ */ 10149566063dSJacob Faibussowitsch PetscCall(MatProductSetFromOptions_SeqAIJ(mat)); 1015a3f881fbSStefano Zampini } 10163ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 1017a3f881fbSStefano Zampini } 1018a587d139SMark 1019d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatScale_SeqAIJKokkos(Mat A, PetscScalar a) 1020d71ae5a4SJacob Faibussowitsch { 1021f0cf5187SStefano Zampini Mat_SeqAIJKokkos *aijkok; 1022f0cf5187SStefano Zampini 1023f0cf5187SStefano Zampini PetscFunctionBegin; 10249566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeBegin()); 10259566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosSyncDevice(A)); 1026f0cf5187SStefano Zampini aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 1027d326c3f1SJunchao Zhang KokkosBlas::scal(PetscGetKokkosExecutionSpace(), aijkok->a_dual.view_device(), a, aijkok->a_dual.view_device()); 10289566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosModifyDevice(A)); 10299566063dSJacob Faibussowitsch PetscCall(PetscLogGpuFlops(aijkok->a_dual.extent(0))); 10309566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeEnd()); 10313ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 1032f0cf5187SStefano Zampini } 1033f0cf5187SStefano Zampini 1034f4747e26SJunchao Zhang // add a to A's diagonal (if A is square) or main diagonal (if A is rectangular) 1035f4747e26SJunchao Zhang static PetscErrorCode MatShift_SeqAIJKokkos(Mat A, PetscScalar a) 1036f4747e26SJunchao Zhang { 1037f4747e26SJunchao Zhang Mat_SeqAIJ *aijseq = static_cast<Mat_SeqAIJ *>(A->data); 1038f4747e26SJunchao Zhang 1039f4747e26SJunchao Zhang PetscFunctionBegin; 104007425a8dSBarry Smith if (A->assembled && aijseq->diagDense) { // no missing diagonals 1041f4747e26SJunchao Zhang PetscInt n = PetscMin(A->rmap->n, A->cmap->n); 1042f4747e26SJunchao Zhang 1043f4747e26SJunchao Zhang PetscCall(PetscLogGpuTimeBegin()); 1044f4747e26SJunchao Zhang PetscCall(MatSeqAIJKokkosSyncDevice(A)); 1045f4747e26SJunchao Zhang const auto aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 1046f4747e26SJunchao Zhang const auto &Aa = aijkok->a_dual.view_device(); 1047f4747e26SJunchao Zhang const auto &Adiag = aijkok->diag_dual.view_device(); 1048d326c3f1SJunchao Zhang PetscCallCXX(Kokkos::parallel_for(Kokkos::RangePolicy<>(PetscGetKokkosExecutionSpace(), 0, n), KOKKOS_LAMBDA(const PetscInt i) { Aa(Adiag(i)) += a; })); 1049f4747e26SJunchao Zhang PetscCall(MatSeqAIJKokkosModifyDevice(A)); 1050f4747e26SJunchao Zhang PetscCall(PetscLogGpuFlops(n)); 1051f4747e26SJunchao Zhang PetscCall(PetscLogGpuTimeEnd()); 1052f4747e26SJunchao Zhang } else { // need reassembly, very slow! 1053f4747e26SJunchao Zhang PetscCall(MatShift_Basic(A, a)); 1054f4747e26SJunchao Zhang } 1055f4747e26SJunchao Zhang PetscFunctionReturn(PETSC_SUCCESS); 1056f4747e26SJunchao Zhang } 1057f4747e26SJunchao Zhang 1058f4747e26SJunchao Zhang static PetscErrorCode MatDiagonalSet_SeqAIJKokkos(Mat Y, Vec D, InsertMode is) 1059f4747e26SJunchao Zhang { 1060f4747e26SJunchao Zhang Mat_SeqAIJ *aijseq = static_cast<Mat_SeqAIJ *>(Y->data); 1061f4747e26SJunchao Zhang 1062f4747e26SJunchao Zhang PetscFunctionBegin; 106307425a8dSBarry Smith if (Y->assembled && aijseq->diagDense) { // no missing diagonals 1064f4747e26SJunchao Zhang ConstPetscScalarKokkosView dv; 1065f4747e26SJunchao Zhang PetscInt n, nv; 1066f4747e26SJunchao Zhang 1067f4747e26SJunchao Zhang PetscCall(PetscLogGpuTimeBegin()); 1068f4747e26SJunchao Zhang PetscCall(MatSeqAIJKokkosSyncDevice(Y)); 1069f4747e26SJunchao Zhang PetscCall(VecGetKokkosView(D, &dv)); 1070f4747e26SJunchao Zhang PetscCall(VecGetLocalSize(D, &nv)); 1071f4747e26SJunchao Zhang n = PetscMin(Y->rmap->n, Y->cmap->n); 1072f4747e26SJunchao Zhang PetscCheck(n == nv, PetscObjectComm((PetscObject)Y), PETSC_ERR_ARG_SIZ, "Matrix size and vector size do not match"); 1073f4747e26SJunchao Zhang 1074f4747e26SJunchao Zhang const auto aijkok = static_cast<Mat_SeqAIJKokkos *>(Y->spptr); 1075f4747e26SJunchao Zhang const auto &Aa = aijkok->a_dual.view_device(); 1076f4747e26SJunchao Zhang const auto &Adiag = aijkok->diag_dual.view_device(); 1077f4747e26SJunchao Zhang PetscCallCXX(Kokkos::parallel_for( 1078d326c3f1SJunchao Zhang Kokkos::RangePolicy<>(PetscGetKokkosExecutionSpace(), 0, n), KOKKOS_LAMBDA(const PetscInt i) { 1079f4747e26SJunchao Zhang if (is == INSERT_VALUES) Aa(Adiag(i)) = dv(i); 1080f4747e26SJunchao Zhang else Aa(Adiag(i)) += dv(i); 1081f4747e26SJunchao Zhang })); 1082f4747e26SJunchao Zhang PetscCall(VecRestoreKokkosView(D, &dv)); 1083f4747e26SJunchao Zhang PetscCall(MatSeqAIJKokkosModifyDevice(Y)); 1084f4747e26SJunchao Zhang PetscCall(PetscLogGpuFlops(n)); 1085f4747e26SJunchao Zhang PetscCall(PetscLogGpuTimeEnd()); 1086f4747e26SJunchao Zhang } else { // need reassembly, very slow! 1087f4747e26SJunchao Zhang PetscCall(MatDiagonalSet_Default(Y, D, is)); 1088f4747e26SJunchao Zhang } 1089f4747e26SJunchao Zhang PetscFunctionReturn(PETSC_SUCCESS); 1090f4747e26SJunchao Zhang } 1091f4747e26SJunchao Zhang 1092f4747e26SJunchao Zhang static PetscErrorCode MatDiagonalScale_SeqAIJKokkos(Mat A, Vec ll, Vec rr) 1093f4747e26SJunchao Zhang { 1094f4747e26SJunchao Zhang Mat_SeqAIJ *aijseq = static_cast<Mat_SeqAIJ *>(A->data); 1095f4747e26SJunchao Zhang PetscInt m = A->rmap->n, n = A->cmap->n, nz = aijseq->nz; 1096f4747e26SJunchao Zhang ConstPetscScalarKokkosView lv, rv; 1097f4747e26SJunchao Zhang 1098f4747e26SJunchao Zhang PetscFunctionBegin; 1099f4747e26SJunchao Zhang PetscCall(PetscLogGpuTimeBegin()); 1100f4747e26SJunchao Zhang PetscCall(MatSeqAIJKokkosSyncDevice(A)); 1101f4747e26SJunchao Zhang const auto aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 1102f4747e26SJunchao Zhang const auto &Aa = aijkok->a_dual.view_device(); 1103f4747e26SJunchao Zhang const auto &Ai = aijkok->i_dual.view_device(); 1104f4747e26SJunchao Zhang const auto &Aj = aijkok->j_dual.view_device(); 1105f4747e26SJunchao Zhang if (ll) { 1106f4747e26SJunchao Zhang PetscCall(VecGetLocalSize(ll, &m)); 1107f4747e26SJunchao Zhang PetscCheck(m == A->rmap->n, PETSC_COMM_SELF, PETSC_ERR_ARG_SIZ, "Left scaling vector wrong length"); 1108f4747e26SJunchao Zhang PetscCall(VecGetKokkosView(ll, &lv)); 1109f4747e26SJunchao Zhang PetscCallCXX(Kokkos::parallel_for( // for each row 1110d326c3f1SJunchao Zhang Kokkos::TeamPolicy<>(PetscGetKokkosExecutionSpace(), m, Kokkos::AUTO()), KOKKOS_LAMBDA(const KokkosTeamMemberType &t) { 1111f4747e26SJunchao Zhang PetscInt i = t.league_rank(); // row i 1112f4747e26SJunchao Zhang PetscInt len = Ai(i + 1) - Ai(i); 1113f4747e26SJunchao Zhang // scale entries on the row 1114f4747e26SJunchao Zhang Kokkos::parallel_for(Kokkos::TeamThreadRange(t, len), [&](PetscInt j) { Aa(Ai(i) + j) *= lv(i); }); 1115f4747e26SJunchao Zhang })); 1116f4747e26SJunchao Zhang PetscCall(VecRestoreKokkosView(ll, &lv)); 1117f4747e26SJunchao Zhang PetscCall(PetscLogGpuFlops(nz)); 1118f4747e26SJunchao Zhang } 1119f4747e26SJunchao Zhang if (rr) { 1120f4747e26SJunchao Zhang PetscCall(VecGetLocalSize(rr, &n)); 1121f4747e26SJunchao Zhang PetscCheck(n == A->cmap->n, PETSC_COMM_SELF, PETSC_ERR_ARG_SIZ, "Right scaling vector wrong length"); 1122f4747e26SJunchao Zhang PetscCall(VecGetKokkosView(rr, &rv)); 1123f4747e26SJunchao Zhang PetscCallCXX(Kokkos::parallel_for( // for each nonzero 1124d326c3f1SJunchao Zhang Kokkos::RangePolicy<>(PetscGetKokkosExecutionSpace(), 0, nz), KOKKOS_LAMBDA(const PetscInt k) { Aa(k) *= rv(Aj(k)); })); 1125f4747e26SJunchao Zhang PetscCall(VecRestoreKokkosView(rr, &lv)); 1126f4747e26SJunchao Zhang PetscCall(PetscLogGpuFlops(nz)); 1127f4747e26SJunchao Zhang } 1128f4747e26SJunchao Zhang PetscCall(MatSeqAIJKokkosModifyDevice(A)); 1129f4747e26SJunchao Zhang PetscCall(PetscLogGpuTimeEnd()); 1130f4747e26SJunchao Zhang PetscFunctionReturn(PETSC_SUCCESS); 1131f4747e26SJunchao Zhang } 1132f4747e26SJunchao Zhang 1133d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatZeroEntries_SeqAIJKokkos(Mat A) 1134d71ae5a4SJacob Faibussowitsch { 1135076ba34aSJunchao Zhang Mat_SeqAIJKokkos *aijkok; 1136a587d139SMark 1137a587d139SMark PetscFunctionBegin; 1138076ba34aSJunchao Zhang aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 11392328674fSJunchao Zhang if (aijkok) { /* Only zero the device if data is already there */ 1140d326c3f1SJunchao Zhang KokkosBlas::fill(PetscGetKokkosExecutionSpace(), aijkok->a_dual.view_device(), 0.0); 11419566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosModifyDevice(A)); 11422328674fSJunchao Zhang } else { /* Might be preallocated but not assembled */ 11439566063dSJacob Faibussowitsch PetscCall(MatZeroEntries_SeqAIJ(A)); 11442328674fSJunchao Zhang } 11453ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 1146a587d139SMark } 1147a587d139SMark 1148d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatGetDiagonal_SeqAIJKokkos(Mat A, Vec x) 1149d71ae5a4SJacob Faibussowitsch { 1150f78ce678SMark Adams Mat_SeqAIJKokkos *aijkok; 1151f78ce678SMark Adams PetscInt n; 1152f78ce678SMark Adams PetscScalarKokkosView xv; 1153f78ce678SMark Adams 1154f78ce678SMark Adams PetscFunctionBegin; 1155f78ce678SMark Adams PetscCall(VecGetLocalSize(x, &n)); 1156f78ce678SMark Adams PetscCheck(n == A->rmap->n, PETSC_COMM_SELF, PETSC_ERR_ARG_SIZ, "Nonconforming matrix and vector"); 1157f78ce678SMark Adams PetscCheck(A->factortype == MAT_FACTOR_NONE, PETSC_COMM_SELF, PETSC_ERR_SUP, "MatGetDiagonal_SeqAIJKokkos not supported on factored matrices"); 1158f78ce678SMark Adams 1159f78ce678SMark Adams PetscCall(MatSeqAIJKokkosSyncDevice(A)); 1160f78ce678SMark Adams aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 1161f78ce678SMark Adams 1162f78ce678SMark Adams const auto &Aa = aijkok->a_dual.view_device(); 1163f78ce678SMark Adams const auto &Ai = aijkok->i_dual.view_device(); 1164f78ce678SMark Adams const auto &Adiag = aijkok->diag_dual.view_device(); 1165f78ce678SMark Adams 1166f78ce678SMark Adams PetscCall(VecGetKokkosViewWrite(x, &xv)); 11679371c9d4SSatish Balay Kokkos::parallel_for( 1168d326c3f1SJunchao Zhang Kokkos::RangePolicy<>(PetscGetKokkosExecutionSpace(), 0, n), KOKKOS_LAMBDA(const PetscInt i) { 1169f78ce678SMark Adams if (Adiag(i) < Ai(i + 1)) xv(i) = Aa(Adiag(i)); 1170f78ce678SMark Adams else xv(i) = 0; 1171f78ce678SMark Adams }); 1172f78ce678SMark Adams PetscCall(VecRestoreKokkosViewWrite(x, &xv)); 11733ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 1174f78ce678SMark Adams } 1175f78ce678SMark Adams 1176db78de30SJunchao Zhang /* Get a Kokkos View from a mat of type MatSeqAIJKokkos */ 1177d71ae5a4SJacob Faibussowitsch PetscErrorCode MatSeqAIJGetKokkosView(Mat A, ConstMatScalarKokkosView *kv) 1178d71ae5a4SJacob Faibussowitsch { 1179db78de30SJunchao Zhang Mat_SeqAIJKokkos *aijkok; 1180db78de30SJunchao Zhang 1181db78de30SJunchao Zhang PetscFunctionBegin; 1182db78de30SJunchao Zhang PetscValidHeaderSpecific(A, MAT_CLASSID, 1); 11834f572ea9SToby Isaac PetscAssertPointer(kv, 2); 1184db78de30SJunchao Zhang PetscCheckTypeName(A, MATSEQAIJKOKKOS); 11859566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosSyncDevice(A)); 1186db78de30SJunchao Zhang aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 1187076ba34aSJunchao Zhang *kv = aijkok->a_dual.view_device(); 11883ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 1189db78de30SJunchao Zhang } 1190db78de30SJunchao Zhang 1191d71ae5a4SJacob Faibussowitsch PetscErrorCode MatSeqAIJRestoreKokkosView(Mat A, ConstMatScalarKokkosView *kv) 1192d71ae5a4SJacob Faibussowitsch { 1193db78de30SJunchao Zhang PetscFunctionBegin; 1194db78de30SJunchao Zhang PetscValidHeaderSpecific(A, MAT_CLASSID, 1); 11954f572ea9SToby Isaac PetscAssertPointer(kv, 2); 1196db78de30SJunchao Zhang PetscCheckTypeName(A, MATSEQAIJKOKKOS); 11973ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 1198db78de30SJunchao Zhang } 1199db78de30SJunchao Zhang 1200d71ae5a4SJacob Faibussowitsch PetscErrorCode MatSeqAIJGetKokkosView(Mat A, MatScalarKokkosView *kv) 1201d71ae5a4SJacob Faibussowitsch { 1202db78de30SJunchao Zhang Mat_SeqAIJKokkos *aijkok; 1203db78de30SJunchao Zhang 1204db78de30SJunchao Zhang PetscFunctionBegin; 1205db78de30SJunchao Zhang PetscValidHeaderSpecific(A, MAT_CLASSID, 1); 12064f572ea9SToby Isaac PetscAssertPointer(kv, 2); 1207db78de30SJunchao Zhang PetscCheckTypeName(A, MATSEQAIJKOKKOS); 12089566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosSyncDevice(A)); 1209db78de30SJunchao Zhang aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 1210076ba34aSJunchao Zhang *kv = aijkok->a_dual.view_device(); 12113ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 1212db78de30SJunchao Zhang } 1213db78de30SJunchao Zhang 1214d71ae5a4SJacob Faibussowitsch PetscErrorCode MatSeqAIJRestoreKokkosView(Mat A, MatScalarKokkosView *kv) 1215d71ae5a4SJacob Faibussowitsch { 1216db78de30SJunchao Zhang PetscFunctionBegin; 1217db78de30SJunchao Zhang PetscValidHeaderSpecific(A, MAT_CLASSID, 1); 12184f572ea9SToby Isaac PetscAssertPointer(kv, 2); 1219db78de30SJunchao Zhang PetscCheckTypeName(A, MATSEQAIJKOKKOS); 12209566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosModifyDevice(A)); 12213ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 1222db78de30SJunchao Zhang } 1223db78de30SJunchao Zhang 1224d71ae5a4SJacob Faibussowitsch PetscErrorCode MatSeqAIJGetKokkosViewWrite(Mat A, MatScalarKokkosView *kv) 1225d71ae5a4SJacob Faibussowitsch { 1226db78de30SJunchao Zhang Mat_SeqAIJKokkos *aijkok; 1227db78de30SJunchao Zhang 1228db78de30SJunchao Zhang PetscFunctionBegin; 1229db78de30SJunchao Zhang PetscValidHeaderSpecific(A, MAT_CLASSID, 1); 12304f572ea9SToby Isaac PetscAssertPointer(kv, 2); 1231db78de30SJunchao Zhang PetscCheckTypeName(A, MATSEQAIJKOKKOS); 1232db78de30SJunchao Zhang aijkok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 1233076ba34aSJunchao Zhang *kv = aijkok->a_dual.view_device(); 12343ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 1235db78de30SJunchao Zhang } 1236db78de30SJunchao Zhang 1237d71ae5a4SJacob Faibussowitsch PetscErrorCode MatSeqAIJRestoreKokkosViewWrite(Mat A, MatScalarKokkosView *kv) 1238d71ae5a4SJacob Faibussowitsch { 1239db78de30SJunchao Zhang PetscFunctionBegin; 1240db78de30SJunchao Zhang PetscValidHeaderSpecific(A, MAT_CLASSID, 1); 12414f572ea9SToby Isaac PetscAssertPointer(kv, 2); 1242db78de30SJunchao Zhang PetscCheckTypeName(A, MATSEQAIJKOKKOS); 12439566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosModifyDevice(A)); 12443ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 1245db78de30SJunchao Zhang } 1246db78de30SJunchao Zhang 1247c0c276a7Ssdargavi PetscErrorCode MatCreateSeqAIJKokkosWithKokkosViews(MPI_Comm comm, PetscInt m, PetscInt n, Kokkos::View<PetscInt *> &i_d, Kokkos::View<PetscInt *> &j_d, Kokkos::View<PetscScalar *> &a_d, Mat *A) 1248c0c276a7Ssdargavi { 1249c0c276a7Ssdargavi Mat_SeqAIJKokkos *akok; 1250c0c276a7Ssdargavi 1251c0c276a7Ssdargavi PetscFunctionBegin; 1252ecd797f4SJunchao Zhang PetscCallCXX(akok = new Mat_SeqAIJKokkos(m, n, j_d.extent(0), i_d, j_d, a_d)); 1253c0c276a7Ssdargavi PetscCall(MatCreate(comm, A)); 1254c0c276a7Ssdargavi PetscCall(MatSetSeqAIJKokkosWithCSRMatrix(*A, akok)); 1255c0c276a7Ssdargavi PetscFunctionReturn(PETSC_SUCCESS); 1256c0c276a7Ssdargavi } 1257c0c276a7Ssdargavi 1258c17cf699SJunchao Zhang /* Computes Y += alpha X */ 1259d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatAXPY_SeqAIJKokkos(Mat Y, PetscScalar alpha, Mat X, MatStructure pattern) 1260d71ae5a4SJacob Faibussowitsch { 1261a587d139SMark Mat_SeqAIJ *x = (Mat_SeqAIJ *)X->data, *y = (Mat_SeqAIJ *)Y->data; 1262c17cf699SJunchao Zhang Mat_SeqAIJKokkos *xkok, *ykok, *zkok; 1263c17cf699SJunchao Zhang ConstMatScalarKokkosView Xa; 1264c17cf699SJunchao Zhang MatScalarKokkosView Ya; 12654df4a32cSJunchao Zhang auto exec = PetscGetKokkosExecutionSpace(); 1266a587d139SMark 1267a587d139SMark PetscFunctionBegin; 1268c17cf699SJunchao Zhang PetscCheckTypeName(Y, MATSEQAIJKOKKOS); 1269c17cf699SJunchao Zhang PetscCheckTypeName(X, MATSEQAIJKOKKOS); 12709566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosSyncDevice(Y)); 12719566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosSyncDevice(X)); 12729566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeBegin()); 1273db78de30SJunchao Zhang 1274c17cf699SJunchao Zhang if (pattern != SAME_NONZERO_PATTERN && x->nz == y->nz) { 1275a587d139SMark PetscBool e; 12769566063dSJacob Faibussowitsch PetscCall(PetscArraycmp(x->i, y->i, Y->rmap->n + 1, &e)); 1277a587d139SMark if (e) { 12789566063dSJacob Faibussowitsch PetscCall(PetscArraycmp(x->j, y->j, y->nz, &e)); 1279c17cf699SJunchao Zhang if (e) pattern = SAME_NONZERO_PATTERN; 1280a587d139SMark } 1281a587d139SMark } 1282db78de30SJunchao Zhang 1283c17cf699SJunchao Zhang /* cusparseDcsrgeam2() computes C = alpha A + beta B. If one knew sparsity pattern of C, one can skip 1284c17cf699SJunchao Zhang cusparseScsrgeam2_bufferSizeExt() / cusparseXcsrgeam2Nnz(), and directly call cusparseScsrgeam2(). 1285c17cf699SJunchao Zhang If X is SUBSET_NONZERO_PATTERN of Y, we could take advantage of this cusparse feature. However, 1286c17cf699SJunchao Zhang KokkosSparse::spadd(alpha,A,beta,B,C) has symbolic and numeric phases, MatAXPY does not. 1287c17cf699SJunchao Zhang */ 1288c17cf699SJunchao Zhang ykok = static_cast<Mat_SeqAIJKokkos *>(Y->spptr); 1289c17cf699SJunchao Zhang xkok = static_cast<Mat_SeqAIJKokkos *>(X->spptr); 1290c17cf699SJunchao Zhang Xa = xkok->a_dual.view_device(); 1291c17cf699SJunchao Zhang Ya = ykok->a_dual.view_device(); 1292c17cf699SJunchao Zhang 1293c17cf699SJunchao Zhang if (pattern == SAME_NONZERO_PATTERN) { 1294d326c3f1SJunchao Zhang KokkosBlas::axpy(exec, alpha, Xa, Ya); 12959566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosModifyDevice(Y)); 1296c17cf699SJunchao Zhang } else if (pattern == SUBSET_NONZERO_PATTERN) { 1297c17cf699SJunchao Zhang MatRowMapKokkosView Xi = xkok->i_dual.view_device(), Yi = ykok->i_dual.view_device(); 1298c17cf699SJunchao Zhang MatColIdxKokkosView Xj = xkok->j_dual.view_device(), Yj = ykok->j_dual.view_device(); 1299c17cf699SJunchao Zhang 13009371c9d4SSatish Balay Kokkos::parallel_for( 1301d326c3f1SJunchao Zhang Kokkos::TeamPolicy<>(exec, Y->rmap->n, 1), KOKKOS_LAMBDA(const KokkosTeamMemberType &t) { 13020e3ece09SJunchao Zhang PetscInt i = t.league_rank(); // row i 13030e3ece09SJunchao Zhang Kokkos::single(Kokkos::PerTeam(t), [=]() { 13040e3ece09SJunchao Zhang // Only one thread works in a team 1305c17cf699SJunchao Zhang PetscInt p, q = Yi(i); 13060e3ece09SJunchao Zhang for (p = Xi(i); p < Xi(i + 1); p++) { // For each nonzero on row i of X, 13070e3ece09SJunchao Zhang while (Xj(p) != Yj(q) && q < Yi(i + 1)) q++; // find the matching nonzero on row i of Y. 13080e3ece09SJunchao Zhang if (Xj(p) == Yj(q)) { // Found it 1309c17cf699SJunchao Zhang Ya(q) += alpha * Xa(p); 1310c17cf699SJunchao Zhang q++; 1311a587d139SMark } else { 13120e3ece09SJunchao Zhang // If not found, it indicates the input is wrong (X is not a SUBSET_NONZERO_PATTERN of Y). 13130e3ece09SJunchao Zhang // Just insert a NaN at the beginning of row i if it is not empty, to make the result wrong. 13140e3ece09SJunchao Zhang #if PETSC_PKG_KOKKOS_VERSION_GE(3, 7, 0) 13150e3ece09SJunchao Zhang if (Yi(i) != Yi(i + 1)) Ya(Yi(i)) = Kokkos::ArithTraits<PetscScalar>::nan(); 13168b8b16f9SJunchao Zhang #else 13170e3ece09SJunchao Zhang if (Yi(i) != Yi(i + 1)) Ya(Yi(i)) = Kokkos::Experimental::nan("1"); 13188b8b16f9SJunchao Zhang #endif 1319a587d139SMark } 1320c17cf699SJunchao Zhang } 1321c17cf699SJunchao Zhang }); 1322c17cf699SJunchao Zhang }); 13239566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosModifyDevice(Y)); 13240e3ece09SJunchao Zhang } else { // different nonzero patterns 1325c17cf699SJunchao Zhang Mat Z; 1326c17cf699SJunchao Zhang KokkosCsrMatrix zcsr; 1327c17cf699SJunchao Zhang KernelHandle kh; 13280e3ece09SJunchao Zhang kh.create_spadd_handle(true); // X, Y are sorted 1329c17cf699SJunchao Zhang KokkosSparse::spadd_symbolic(&kh, xkok->csrmat, ykok->csrmat, zcsr); 1330c17cf699SJunchao Zhang KokkosSparse::spadd_numeric(&kh, alpha, xkok->csrmat, (PetscScalar)1.0, ykok->csrmat, zcsr); 1331c17cf699SJunchao Zhang zkok = new Mat_SeqAIJKokkos(zcsr); 13329566063dSJacob Faibussowitsch PetscCall(MatCreateSeqAIJKokkosWithCSRMatrix(PETSC_COMM_SELF, zkok, &Z)); 13339566063dSJacob Faibussowitsch PetscCall(MatHeaderReplace(Y, &Z)); 1334c17cf699SJunchao Zhang kh.destroy_spadd_handle(); 1335c17cf699SJunchao Zhang } 13369566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeEnd()); 13370e3ece09SJunchao Zhang PetscCall(PetscLogGpuFlops(xkok->a_dual.extent(0) * 2)); // Because we scaled X and then added it to Y 13383ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 1339a587d139SMark } 1340a587d139SMark 13412c4ab24aSJunchao Zhang struct MatCOOStruct_SeqAIJKokkos { 13422c4ab24aSJunchao Zhang PetscCount n; 13432c4ab24aSJunchao Zhang PetscCount Atot; 13442c4ab24aSJunchao Zhang PetscInt nz; 13452c4ab24aSJunchao Zhang PetscCountKokkosView jmap; 13462c4ab24aSJunchao Zhang PetscCountKokkosView perm; 13472c4ab24aSJunchao Zhang 13482c4ab24aSJunchao Zhang MatCOOStruct_SeqAIJKokkos(const MatCOOStruct_SeqAIJ *coo_h) 13492c4ab24aSJunchao Zhang { 13502c4ab24aSJunchao Zhang nz = coo_h->nz; 13512c4ab24aSJunchao Zhang n = coo_h->n; 13522c4ab24aSJunchao Zhang Atot = coo_h->Atot; 13532c4ab24aSJunchao Zhang jmap = Kokkos::create_mirror_view_and_copy(DefaultMemorySpace(), PetscCountKokkosViewHost(coo_h->jmap, nz + 1)); 13542c4ab24aSJunchao Zhang perm = Kokkos::create_mirror_view_and_copy(DefaultMemorySpace(), PetscCountKokkosViewHost(coo_h->perm, Atot)); 13552c4ab24aSJunchao Zhang } 13562c4ab24aSJunchao Zhang }; 13572c4ab24aSJunchao Zhang 135849abdd8aSBarry Smith static PetscErrorCode MatCOOStructDestroy_SeqAIJKokkos(void **data) 13592c4ab24aSJunchao Zhang { 13602c4ab24aSJunchao Zhang PetscFunctionBegin; 136149abdd8aSBarry Smith PetscCallCXX(delete static_cast<MatCOOStruct_SeqAIJKokkos *>(*data)); 13622c4ab24aSJunchao Zhang PetscFunctionReturn(PETSC_SUCCESS); 13632c4ab24aSJunchao Zhang } 13642c4ab24aSJunchao Zhang 1365d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatSetPreallocationCOO_SeqAIJKokkos(Mat mat, PetscCount coo_n, PetscInt coo_i[], PetscInt coo_j[]) 1366d71ae5a4SJacob Faibussowitsch { 136742550becSJunchao Zhang Mat_SeqAIJKokkos *akok; 136842550becSJunchao Zhang Mat_SeqAIJ *aseq; 136903e76207SPierre Jolivet PetscContainer container_h; 13702c4ab24aSJunchao Zhang MatCOOStruct_SeqAIJ *coo_h; 13712c4ab24aSJunchao Zhang MatCOOStruct_SeqAIJKokkos *coo_d; 137242550becSJunchao Zhang 137342550becSJunchao Zhang PetscFunctionBegin; 13749566063dSJacob Faibussowitsch PetscCall(MatSetPreallocationCOO_SeqAIJ(mat, coo_n, coo_i, coo_j)); 1375394ed5ebSJunchao Zhang aseq = static_cast<Mat_SeqAIJ *>(mat->data); 137642550becSJunchao Zhang akok = static_cast<Mat_SeqAIJKokkos *>(mat->spptr); 1377cbc6b225SStefano Zampini delete akok; 1378*421480d9SBarry Smith mat->spptr = akok = new Mat_SeqAIJKokkos(mat, mat->rmap->n, mat->cmap->n, aseq, mat->nonzerostate + 1, PETSC_FALSE); 13799566063dSJacob Faibussowitsch PetscCall(MatZeroEntries_SeqAIJKokkos(mat)); 13802c4ab24aSJunchao Zhang 13812c4ab24aSJunchao Zhang // Copy the COO struct to device 13822c4ab24aSJunchao Zhang PetscCall(PetscObjectQuery((PetscObject)mat, "__PETSc_MatCOOStruct_Host", (PetscObject *)&container_h)); 13832c4ab24aSJunchao Zhang PetscCall(PetscContainerGetPointer(container_h, (void **)&coo_h)); 13842c4ab24aSJunchao Zhang PetscCallCXX(coo_d = new MatCOOStruct_SeqAIJKokkos(coo_h)); 13852c4ab24aSJunchao Zhang 13862c4ab24aSJunchao Zhang // Put the COO struct in a container and then attach that to the matrix 138703e76207SPierre Jolivet PetscCall(PetscObjectContainerCompose((PetscObject)mat, "__PETSc_MatCOOStruct_Device", coo_d, MatCOOStructDestroy_SeqAIJKokkos)); 13883ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 138942550becSJunchao Zhang } 139042550becSJunchao Zhang 1391d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatSetValuesCOO_SeqAIJKokkos(Mat A, const PetscScalar v[], InsertMode imode) 1392d71ae5a4SJacob Faibussowitsch { 139342550becSJunchao Zhang MatScalarKokkosView Aa; 139442550becSJunchao Zhang ConstMatScalarKokkosView kv; 139542550becSJunchao Zhang PetscMemType memtype; 13962c4ab24aSJunchao Zhang PetscContainer container; 13972c4ab24aSJunchao Zhang MatCOOStruct_SeqAIJKokkos *coo; 139842550becSJunchao Zhang 139942550becSJunchao Zhang PetscFunctionBegin; 14002c4ab24aSJunchao Zhang PetscCall(PetscObjectQuery((PetscObject)A, "__PETSc_MatCOOStruct_Device", (PetscObject *)&container)); 14012c4ab24aSJunchao Zhang PetscCall(PetscContainerGetPointer(container, (void **)&coo)); 14022c4ab24aSJunchao Zhang 14032c4ab24aSJunchao Zhang const auto &n = coo->n; 14042c4ab24aSJunchao Zhang const auto &Annz = coo->nz; 14052c4ab24aSJunchao Zhang const auto &jmap = coo->jmap; 14062c4ab24aSJunchao Zhang const auto &perm = coo->perm; 14072c4ab24aSJunchao Zhang 14089566063dSJacob Faibussowitsch PetscCall(PetscGetMemType(v, &memtype)); 140942550becSJunchao Zhang if (PetscMemTypeHost(memtype)) { /* If user gave v[] in host, we might need to copy it to device if any */ 14102c4ab24aSJunchao Zhang kv = Kokkos::create_mirror_view_and_copy(DefaultMemorySpace(), ConstMatScalarKokkosViewHost(v, n)); 141142550becSJunchao Zhang } else { 14122c4ab24aSJunchao Zhang kv = ConstMatScalarKokkosView(v, n); /* Directly use v[]'s memory */ 141342550becSJunchao Zhang } 141442550becSJunchao Zhang 1415c7b718f4SJunchao Zhang if (imode == INSERT_VALUES) PetscCall(MatSeqAIJGetKokkosViewWrite(A, &Aa)); /* write matrix values */ 1416c7b718f4SJunchao Zhang else PetscCall(MatSeqAIJGetKokkosView(A, &Aa)); /* read & write matrix values */ 141742550becSJunchao Zhang 141808bb9926SJunchao Zhang PetscCall(PetscLogGpuTimeBegin()); 14199371c9d4SSatish Balay Kokkos::parallel_for( 1420d326c3f1SJunchao Zhang Kokkos::RangePolicy<>(PetscGetKokkosExecutionSpace(), 0, Annz), KOKKOS_LAMBDA(const PetscCount i) { 1421c7b718f4SJunchao Zhang PetscScalar sum = 0.0; 1422c7b718f4SJunchao Zhang for (PetscCount k = jmap(i); k < jmap(i + 1); k++) sum += kv(perm(k)); 1423c7b718f4SJunchao Zhang Aa(i) = (imode == INSERT_VALUES ? 0.0 : Aa(i)) + sum; 1424c7b718f4SJunchao Zhang }); 142508bb9926SJunchao Zhang PetscCall(PetscLogGpuTimeEnd()); 1426394ed5ebSJunchao Zhang 14279566063dSJacob Faibussowitsch if (imode == INSERT_VALUES) PetscCall(MatSeqAIJRestoreKokkosViewWrite(A, &Aa)); 14289566063dSJacob Faibussowitsch else PetscCall(MatSeqAIJRestoreKokkosView(A, &Aa)); 14293ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 143042550becSJunchao Zhang } 143142550becSJunchao Zhang 1432d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatSetOps_SeqAIJKokkos(Mat A) 1433d71ae5a4SJacob Faibussowitsch { 1434076ba34aSJunchao Zhang Mat_SeqAIJ *a = (Mat_SeqAIJ *)A->data; 1435076ba34aSJunchao Zhang 14368c3ff71bSJunchao Zhang PetscFunctionBegin; 1437076ba34aSJunchao Zhang A->offloadmask = PETSC_OFFLOAD_KOKKOS; /* We do not really use this flag */ 14386f3d89d0SStefano Zampini A->boundtocpu = PETSC_FALSE; 14396f3d89d0SStefano Zampini 14408c3ff71bSJunchao Zhang A->ops->assemblyend = MatAssemblyEnd_SeqAIJKokkos; 14418c3ff71bSJunchao Zhang A->ops->destroy = MatDestroy_SeqAIJKokkos; 14428c3ff71bSJunchao Zhang A->ops->duplicate = MatDuplicate_SeqAIJKokkos; 1443a587d139SMark A->ops->axpy = MatAXPY_SeqAIJKokkos; 1444f0cf5187SStefano Zampini A->ops->scale = MatScale_SeqAIJKokkos; 1445a587d139SMark A->ops->zeroentries = MatZeroEntries_SeqAIJKokkos; 1446076ba34aSJunchao Zhang A->ops->productsetfromoptions = MatProductSetFromOptions_SeqAIJKokkos; 14478c3ff71bSJunchao Zhang A->ops->mult = MatMult_SeqAIJKokkos; 14488c3ff71bSJunchao Zhang A->ops->multadd = MatMultAdd_SeqAIJKokkos; 14498c3ff71bSJunchao Zhang A->ops->multtranspose = MatMultTranspose_SeqAIJKokkos; 14508c3ff71bSJunchao Zhang A->ops->multtransposeadd = MatMultTransposeAdd_SeqAIJKokkos; 14518c3ff71bSJunchao Zhang A->ops->multhermitiantranspose = MatMultHermitianTranspose_SeqAIJKokkos; 14528c3ff71bSJunchao Zhang A->ops->multhermitiantransposeadd = MatMultHermitianTransposeAdd_SeqAIJKokkos; 1453076ba34aSJunchao Zhang A->ops->productnumeric = MatProductNumeric_SeqAIJKokkos_SeqAIJKokkos; 14540ecb592aSJunchao Zhang A->ops->transpose = MatTranspose_SeqAIJKokkos; 1455152b3e56SJunchao Zhang A->ops->setoption = MatSetOption_SeqAIJKokkos; 1456f78ce678SMark Adams A->ops->getdiagonal = MatGetDiagonal_SeqAIJKokkos; 1457f4747e26SJunchao Zhang A->ops->shift = MatShift_SeqAIJKokkos; 1458f4747e26SJunchao Zhang A->ops->diagonalset = MatDiagonalSet_SeqAIJKokkos; 1459f4747e26SJunchao Zhang A->ops->diagonalscale = MatDiagonalScale_SeqAIJKokkos; 146003db1824SAlex Lindsay A->ops->getcurrentmemtype = MatGetCurrentMemType_SeqAIJKokkos; 1461076ba34aSJunchao Zhang a->ops->getarray = MatSeqAIJGetArray_SeqAIJKokkos; 1462076ba34aSJunchao Zhang a->ops->restorearray = MatSeqAIJRestoreArray_SeqAIJKokkos; 1463076ba34aSJunchao Zhang a->ops->getarrayread = MatSeqAIJGetArrayRead_SeqAIJKokkos; 1464076ba34aSJunchao Zhang a->ops->restorearrayread = MatSeqAIJRestoreArrayRead_SeqAIJKokkos; 1465076ba34aSJunchao Zhang a->ops->getarraywrite = MatSeqAIJGetArrayWrite_SeqAIJKokkos; 1466076ba34aSJunchao Zhang a->ops->restorearraywrite = MatSeqAIJRestoreArrayWrite_SeqAIJKokkos; 14677ee59b9bSJunchao Zhang a->ops->getcsrandmemtype = MatSeqAIJGetCSRAndMemType_SeqAIJKokkos; 146842550becSJunchao Zhang 14699566063dSJacob Faibussowitsch PetscCall(PetscObjectComposeFunction((PetscObject)A, "MatSetPreallocationCOO_C", MatSetPreallocationCOO_SeqAIJKokkos)); 14709566063dSJacob Faibussowitsch PetscCall(PetscObjectComposeFunction((PetscObject)A, "MatSetValuesCOO_C", MatSetValuesCOO_SeqAIJKokkos)); 147157761e9aSJunchao Zhang #if defined(PETSC_HAVE_HYPRE) 147257761e9aSJunchao Zhang PetscCall(PetscObjectComposeFunction((PetscObject)A, "MatConvert_seqaijkokkos_hypre_C", MatConvert_AIJ_HYPRE)); 147357761e9aSJunchao Zhang #endif 14743ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 1475076ba34aSJunchao Zhang } 1476076ba34aSJunchao Zhang 14779d13fa56SJunchao Zhang /* 14789d13fa56SJunchao Zhang Extract the (prescribled) diagonal blocks of the matrix and then invert them 14799d13fa56SJunchao Zhang 14809d13fa56SJunchao Zhang Input Parameters: 14819d13fa56SJunchao Zhang + A - the MATSEQAIJKOKKOS matrix 14829d13fa56SJunchao Zhang . bs - block sizes in 'csr' format, i.e., the i-th block has size bs(i+1) - bs(i) 14839d13fa56SJunchao Zhang . bs2 - square of block sizes in 'csr' format, i.e., the i-th block should be stored at offset bs2(i) in diagVal[] 14849d13fa56SJunchao Zhang . blkMap - map row ids to block ids, i.e., row i belongs to the block blkMap(i) 14859d13fa56SJunchao Zhang - work - a pre-allocated work buffer (as big as diagVal) for use by this routine 14869d13fa56SJunchao Zhang 14879d13fa56SJunchao Zhang Output Parameter: 14889d13fa56SJunchao Zhang . diagVal - the (pre-allocated) buffer to store the inverted blocks (each block is stored in column-major order) 14899d13fa56SJunchao Zhang */ 14909d13fa56SJunchao Zhang PETSC_INTERN PetscErrorCode MatInvertVariableBlockDiagonal_SeqAIJKokkos(Mat A, const PetscIntKokkosView &bs, const PetscIntKokkosView &bs2, const PetscIntKokkosView &blkMap, PetscScalarKokkosView &work, PetscScalarKokkosView &diagVal) 14919d13fa56SJunchao Zhang { 14929d13fa56SJunchao Zhang Mat_SeqAIJKokkos *akok = static_cast<Mat_SeqAIJKokkos *>(A->spptr); 14939d13fa56SJunchao Zhang PetscInt nblocks = bs.extent(0) - 1; 14949d13fa56SJunchao Zhang 14959d13fa56SJunchao Zhang PetscFunctionBegin; 14969d13fa56SJunchao Zhang PetscCall(MatSeqAIJKokkosSyncDevice(A)); // Since we'll access A's value on device 14979d13fa56SJunchao Zhang 14989d13fa56SJunchao Zhang // Pull out the diagonal blocks of the matrix and then invert the blocks 14999d13fa56SJunchao Zhang auto Aa = akok->a_dual.view_device(); 15009d13fa56SJunchao Zhang auto Ai = akok->i_dual.view_device(); 15019d13fa56SJunchao Zhang auto Aj = akok->j_dual.view_device(); 15029d13fa56SJunchao Zhang auto Adiag = akok->diag_dual.view_device(); 15039d13fa56SJunchao Zhang // TODO: how to tune the team size? 150445402d8aSJunchao Zhang #if defined(KOKKOS_ENABLE_UNIFIED_MEMORY) 15059d13fa56SJunchao Zhang auto ts = Kokkos::AUTO(); 15069d13fa56SJunchao Zhang #else 15079d13fa56SJunchao Zhang auto ts = 16; // improved performance 30% over Kokkos::AUTO() with CUDA, but failed with "Kokkos::abort: Requested Team Size is too large!" on CPUs 15089d13fa56SJunchao Zhang #endif 15099d13fa56SJunchao Zhang PetscCallCXX(Kokkos::parallel_for( 1510d326c3f1SJunchao Zhang Kokkos::TeamPolicy<>(PetscGetKokkosExecutionSpace(), nblocks, ts), KOKKOS_LAMBDA(const KokkosTeamMemberType &teamMember) { 15119d13fa56SJunchao Zhang const PetscInt bid = teamMember.league_rank(); // block id 15129d13fa56SJunchao Zhang const PetscInt rstart = bs(bid); // this block starts from this row 15139d13fa56SJunchao Zhang const PetscInt m = bs(bid + 1) - bs(bid); // size of this block 15149d13fa56SJunchao Zhang const auto &B = Kokkos::View<PetscScalar **, Kokkos::LayoutLeft>(&diagVal(bs2(bid)), m, m); // column-major order 15159d13fa56SJunchao Zhang const auto &W = PetscScalarKokkosView(&work(bs2(bid)), m * m); 15169d13fa56SJunchao Zhang 15179d13fa56SJunchao Zhang Kokkos::parallel_for(Kokkos::TeamThreadRange(teamMember, m), [=](const PetscInt &r) { // r-th row in B 15189d13fa56SJunchao Zhang PetscInt i = rstart + r; // i-th row in A 15199d13fa56SJunchao Zhang 15209d13fa56SJunchao Zhang if (Ai(i) <= Adiag(i) && Adiag(i) < Ai(i + 1)) { // if the diagonal exists (common case) 15219d13fa56SJunchao Zhang PetscInt first = Adiag(i) - r; // we start to check nonzeros from here along this row 15229d13fa56SJunchao Zhang 15239d13fa56SJunchao Zhang for (PetscInt c = 0; c < m; c++) { // walk n steps to see what column indices we will meet 15249d13fa56SJunchao Zhang if (first + c < Ai(i) || first + c >= Ai(i + 1)) { // this entry (first+c) is out of range of this row, in other words, its value is zero 15259d13fa56SJunchao Zhang B(r, c) = 0.0; 15269d13fa56SJunchao Zhang } else if (Aj(first + c) == rstart + c) { // this entry is right on the (rstart+c) column 15279d13fa56SJunchao Zhang B(r, c) = Aa(first + c); 15289d13fa56SJunchao Zhang } else { // this entry does not show up in the CSR 15299d13fa56SJunchao Zhang B(r, c) = 0.0; 15309d13fa56SJunchao Zhang } 15319d13fa56SJunchao Zhang } 15329d13fa56SJunchao Zhang } else { // rare case that the diagonal does not exist 15339d13fa56SJunchao Zhang const PetscInt begin = Ai(i); 15349d13fa56SJunchao Zhang const PetscInt end = Ai(i + 1); 15359d13fa56SJunchao Zhang for (PetscInt c = 0; c < m; c++) B(r, c) = 0.0; 15369d13fa56SJunchao Zhang for (PetscInt j = begin; j < end; j++) { // scan the whole row; could use binary search but this is a rare case so we did not. 15379d13fa56SJunchao Zhang if (rstart <= Aj(j) && Aj(j) < rstart + m) B(r, Aj(j) - rstart) = Aa(j); 15389d13fa56SJunchao Zhang else if (Aj(j) >= rstart + m) break; 15399d13fa56SJunchao Zhang } 15409d13fa56SJunchao Zhang } 15419d13fa56SJunchao Zhang }); 15429d13fa56SJunchao Zhang 15439d13fa56SJunchao Zhang // LU-decompose B (w/o pivoting) and then invert B 15449d13fa56SJunchao Zhang KokkosBatched::TeamLU<KokkosTeamMemberType, KokkosBatched::Algo::LU::Unblocked>::invoke(teamMember, B, 0.0); 15459d13fa56SJunchao Zhang KokkosBatched::TeamInverseLU<KokkosTeamMemberType, KokkosBatched::Algo::InverseLU::Unblocked>::invoke(teamMember, B, W); 15469d13fa56SJunchao Zhang })); 15479d13fa56SJunchao Zhang // PetscLogGpuFlops() is done in the caller PCSetUp_VPBJacobi_Kokkos as we don't want to compute the flops in kernels 15489d13fa56SJunchao Zhang PetscFunctionReturn(PETSC_SUCCESS); 15499d13fa56SJunchao Zhang } 15509d13fa56SJunchao Zhang 1551d71ae5a4SJacob Faibussowitsch PETSC_INTERN PetscErrorCode MatSetSeqAIJKokkosWithCSRMatrix(Mat A, Mat_SeqAIJKokkos *akok) 1552d71ae5a4SJacob Faibussowitsch { 1553076ba34aSJunchao Zhang Mat_SeqAIJ *aseq; 1554076ba34aSJunchao Zhang PetscInt i, m, n; 15554df4a32cSJunchao Zhang auto exec = PetscGetKokkosExecutionSpace(); 1556076ba34aSJunchao Zhang 1557076ba34aSJunchao Zhang PetscFunctionBegin; 15585f80ce2aSJacob Faibussowitsch PetscCheck(!A->spptr, PETSC_COMM_SELF, PETSC_ERR_PLIB, "A->spptr is supposed to be empty"); 1559076ba34aSJunchao Zhang 1560076ba34aSJunchao Zhang m = akok->nrows(); 1561076ba34aSJunchao Zhang n = akok->ncols(); 15629566063dSJacob Faibussowitsch PetscCall(MatSetSizes(A, m, n, m, n)); 15639566063dSJacob Faibussowitsch PetscCall(MatSetType(A, MATSEQAIJKOKKOS)); 1564076ba34aSJunchao Zhang 1565076ba34aSJunchao Zhang /* Set up data structures of A as a MATSEQAIJ */ 15669566063dSJacob Faibussowitsch PetscCall(MatSeqAIJSetPreallocation_SeqAIJ(A, MAT_SKIP_ALLOCATION, NULL)); 156757508eceSPierre Jolivet aseq = (Mat_SeqAIJ *)A->data; 1568076ba34aSJunchao Zhang 1569f3d3cd90SZach Atkins PetscCall(KokkosDualViewSyncHost(akok->i_dual, exec)); /* We always need sync'ed i, j on host */ 1570f3d3cd90SZach Atkins PetscCall(KokkosDualViewSyncHost(akok->j_dual, exec)); 1571076ba34aSJunchao Zhang 1572076ba34aSJunchao Zhang aseq->i = akok->i_host_data(); 1573076ba34aSJunchao Zhang aseq->j = akok->j_host_data(); 1574076ba34aSJunchao Zhang aseq->a = akok->a_host_data(); 1575076ba34aSJunchao Zhang aseq->nonew = -1; /*this indicates that inserting a new value in the matrix that generates a new nonzero is an error*/ 1576076ba34aSJunchao Zhang aseq->free_a = PETSC_FALSE; 1577076ba34aSJunchao Zhang aseq->free_ij = PETSC_FALSE; 1578076ba34aSJunchao Zhang aseq->nz = akok->nnz(); 1579076ba34aSJunchao Zhang aseq->maxnz = aseq->nz; 1580076ba34aSJunchao Zhang 15819566063dSJacob Faibussowitsch PetscCall(PetscMalloc1(m, &aseq->imax)); 15829566063dSJacob Faibussowitsch PetscCall(PetscMalloc1(m, &aseq->ilen)); 1583ad540459SPierre Jolivet for (i = 0; i < m; i++) aseq->ilen[i] = aseq->imax[i] = aseq->i[i + 1] - aseq->i[i]; 1584076ba34aSJunchao Zhang 1585076ba34aSJunchao Zhang /* It is critical to set the nonzerostate, as we use it to check if sparsity pattern (hence data) has changed on host in MatAssemblyEnd */ 1586076ba34aSJunchao Zhang akok->nonzerostate = A->nonzerostate; 1587ff751488SJunchao Zhang A->spptr = akok; /* Set A->spptr before MatAssembly so that A->spptr won't be allocated again there */ 15889566063dSJacob Faibussowitsch PetscCall(MatAssemblyBegin(A, MAT_FINAL_ASSEMBLY)); 15899566063dSJacob Faibussowitsch PetscCall(MatAssemblyEnd(A, MAT_FINAL_ASSEMBLY)); 15903ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 1591076ba34aSJunchao Zhang } 1592076ba34aSJunchao Zhang 15930e3ece09SJunchao Zhang PETSC_INTERN PetscErrorCode MatSeqAIJKokkosGetKokkosCsrMatrix(Mat A, KokkosCsrMatrix *csr) 15940e3ece09SJunchao Zhang { 15950e3ece09SJunchao Zhang PetscFunctionBegin; 15960e3ece09SJunchao Zhang PetscCall(MatSeqAIJKokkosSyncDevice(A)); 15970e3ece09SJunchao Zhang *csr = static_cast<Mat_SeqAIJKokkos *>(A->spptr)->csrmat; 15980e3ece09SJunchao Zhang PetscFunctionReturn(PETSC_SUCCESS); 15990e3ece09SJunchao Zhang } 16000e3ece09SJunchao Zhang 16010e3ece09SJunchao Zhang PETSC_INTERN PetscErrorCode MatCreateSeqAIJKokkosWithKokkosCsrMatrix(MPI_Comm comm, KokkosCsrMatrix csr, Mat *A) 16020e3ece09SJunchao Zhang { 16030e3ece09SJunchao Zhang Mat_SeqAIJKokkos *akok; 16044d86920dSPierre Jolivet 16050e3ece09SJunchao Zhang PetscFunctionBegin; 16060e3ece09SJunchao Zhang PetscCallCXX(akok = new Mat_SeqAIJKokkos(csr)); 16070e3ece09SJunchao Zhang PetscCall(MatCreate(comm, A)); 16080e3ece09SJunchao Zhang PetscCall(MatSetSeqAIJKokkosWithCSRMatrix(*A, akok)); 16090e3ece09SJunchao Zhang PetscFunctionReturn(PETSC_SUCCESS); 16100e3ece09SJunchao Zhang } 16110e3ece09SJunchao Zhang 1612076ba34aSJunchao Zhang /* Crete a SEQAIJKOKKOS matrix with a Mat_SeqAIJKokkos data structure 1613076ba34aSJunchao Zhang 1614076ba34aSJunchao Zhang Note we have names like MatSeqAIJSetPreallocationCSR, so I use capitalized CSR 1615076ba34aSJunchao Zhang */ 1616d71ae5a4SJacob Faibussowitsch PETSC_INTERN PetscErrorCode MatCreateSeqAIJKokkosWithCSRMatrix(MPI_Comm comm, Mat_SeqAIJKokkos *akok, Mat *A) 1617d71ae5a4SJacob Faibussowitsch { 1618076ba34aSJunchao Zhang PetscFunctionBegin; 16199566063dSJacob Faibussowitsch PetscCall(MatCreate(comm, A)); 16209566063dSJacob Faibussowitsch PetscCall(MatSetSeqAIJKokkosWithCSRMatrix(*A, akok)); 16213ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 16228c3ff71bSJunchao Zhang } 16238c3ff71bSJunchao Zhang 1624152b3e56SJunchao Zhang /*@C 162511a5261eSBarry Smith MatCreateSeqAIJKokkos - Creates a sparse matrix in `MATSEQAIJKOKKOS` (compressed row) format 16268c3ff71bSJunchao Zhang (the default parallel PETSc format). This matrix will ultimately be handled by 162720f4b53cSBarry Smith Kokkos for calculations. 16288c3ff71bSJunchao Zhang 16298c3ff71bSJunchao Zhang Collective 16308c3ff71bSJunchao Zhang 16318c3ff71bSJunchao Zhang Input Parameters: 163211a5261eSBarry Smith + comm - MPI communicator, set to `PETSC_COMM_SELF` 16338c3ff71bSJunchao Zhang . m - number of rows 16348c3ff71bSJunchao Zhang . n - number of columns 163520f4b53cSBarry Smith . nz - number of nonzeros per row (same for all rows), ignored if `nnz` is provided 163620f4b53cSBarry Smith - nnz - array containing the number of nonzeros in the various rows (possibly different for each row) or `NULL` 16378c3ff71bSJunchao Zhang 16388c3ff71bSJunchao Zhang Output Parameter: 16398c3ff71bSJunchao Zhang . A - the matrix 16408c3ff71bSJunchao Zhang 16412ef1f0ffSBarry Smith Level: intermediate 16422ef1f0ffSBarry Smith 16432ef1f0ffSBarry Smith Notes: 164411a5261eSBarry Smith It is recommended that one use the `MatCreate()`, `MatSetType()` and/or `MatSetFromOptions()`, 16458c3ff71bSJunchao Zhang MatXXXXSetPreallocation() paradgm instead of this routine directly. 164611a5261eSBarry Smith [MatXXXXSetPreallocation() is, for example, `MatSeqAIJSetPreallocation()`] 16478c3ff71bSJunchao Zhang 164811a5261eSBarry Smith The AIJ format, also called 16492ef1f0ffSBarry Smith compressed row storage, is fully compatible with standard Fortran 16508c3ff71bSJunchao Zhang storage. That is, the stored row and column indices can begin at 165120f4b53cSBarry Smith either one (as in Fortran) or zero. 16528c3ff71bSJunchao Zhang 16532ef1f0ffSBarry Smith Specify the preallocated storage with either `nz` or `nnz` (not both). 16542ef1f0ffSBarry Smith Set `nz` = `PETSC_DEFAULT` and `nnz` = `NULL` for PETSc to control dynamic memory 16552ef1f0ffSBarry Smith allocation. 16568c3ff71bSJunchao Zhang 1657fe59aa6dSJacob Faibussowitsch .seealso: [](ch_matrices), `Mat`, `MatCreate()`, `MatCreateAIJ()`, `MatSetValues()`, `MatSeqAIJSetColumnIndices()`, `MatCreateSeqAIJWithArrays()` 16588c3ff71bSJunchao Zhang @*/ 1659d71ae5a4SJacob Faibussowitsch PetscErrorCode MatCreateSeqAIJKokkos(MPI_Comm comm, PetscInt m, PetscInt n, PetscInt nz, const PetscInt nnz[], Mat *A) 1660d71ae5a4SJacob Faibussowitsch { 16618c3ff71bSJunchao Zhang PetscFunctionBegin; 16629566063dSJacob Faibussowitsch PetscCall(PetscKokkosInitializeCheck()); 16639566063dSJacob Faibussowitsch PetscCall(MatCreate(comm, A)); 16649566063dSJacob Faibussowitsch PetscCall(MatSetSizes(*A, m, n, m, n)); 16659566063dSJacob Faibussowitsch PetscCall(MatSetType(*A, MATSEQAIJKOKKOS)); 16669566063dSJacob Faibussowitsch PetscCall(MatSeqAIJSetPreallocation_SeqAIJ(*A, nz, (PetscInt *)nnz)); 16673ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 16688c3ff71bSJunchao Zhang } 1669930e68a5SMark Adams 1670aac854edSJunchao Zhang // After matrix numeric factorization, there are still steps to do before triangular solve can be called. 1671aac854edSJunchao Zhang // For example, for transpose solve, we might need to compute the transpose matrices if the solver does not support it (such as KK, while cusparse does). 1672aac854edSJunchao Zhang // In cusparse, one has to call cusparseSpSV_analysis() with updated triangular matrix values before calling cusparseSpSV_solve(). 1673aac854edSJunchao Zhang // Simiarily, in KK sptrsv_symbolic() has to be called before sptrsv_solve(). We put these steps in MatSeqAIJKokkos{Transpose}SolveCheck. 1674aac854edSJunchao Zhang static PetscErrorCode MatSeqAIJKokkosSolveCheck(Mat A) 1675d71ae5a4SJacob Faibussowitsch { 167686a27549SJunchao Zhang Mat_SeqAIJKokkosTriFactors *factors = (Mat_SeqAIJKokkosTriFactors *)A->spptr; 1677aac854edSJunchao Zhang const PetscBool has_lower = factors->iL_d.extent(0) ? PETSC_TRUE : PETSC_FALSE; // false with Choleksy 1678aac854edSJunchao Zhang const PetscBool has_upper = factors->iU_d.extent(0) ? PETSC_TRUE : PETSC_FALSE; // true with LU and Choleksy 167986a27549SJunchao Zhang 168086a27549SJunchao Zhang PetscFunctionBegin; 1681aac854edSJunchao Zhang if (!factors->sptrsv_symbolic_completed) { // If sptrsv_symbolic was not called yet 1682aac854edSJunchao Zhang if (has_upper) PetscCallCXX(sptrsv_symbolic(&factors->khU, factors->iU_d, factors->jU_d, factors->aU_d)); 1683aac854edSJunchao Zhang if (has_lower) PetscCallCXX(sptrsv_symbolic(&factors->khL, factors->iL_d, factors->jL_d, factors->aL_d)); 168486a27549SJunchao Zhang factors->sptrsv_symbolic_completed = PETSC_TRUE; 168586a27549SJunchao Zhang } 16863ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 168786a27549SJunchao Zhang } 168886a27549SJunchao Zhang 1689d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatSeqAIJKokkosTransposeSolveCheck(Mat A) 1690d71ae5a4SJacob Faibussowitsch { 1691aac854edSJunchao Zhang const PetscInt n = A->rmap->n; 169286a27549SJunchao Zhang Mat_SeqAIJKokkosTriFactors *factors = (Mat_SeqAIJKokkosTriFactors *)A->spptr; 1693aac854edSJunchao Zhang const PetscBool has_lower = factors->iL_d.extent(0) ? PETSC_TRUE : PETSC_FALSE; // false with Choleksy 1694aac854edSJunchao Zhang const PetscBool has_upper = factors->iU_d.extent(0) ? PETSC_TRUE : PETSC_FALSE; // true with LU or Choleksy 169586a27549SJunchao Zhang 169686a27549SJunchao Zhang PetscFunctionBegin; 1697aac854edSJunchao Zhang if (!factors->transpose_updated) { 1698aac854edSJunchao Zhang if (has_upper) { 1699aac854edSJunchao Zhang if (!factors->iUt_d.extent(0)) { // Allocate Ut on device if not yet 1700aac854edSJunchao Zhang factors->iUt_d = MatRowMapKokkosView("factors->iUt_d", n + 1); // KK requires this view to be initialized to 0 to call transpose_matrix 17017b8d4ba6SJunchao Zhang factors->jUt_d = MatColIdxKokkosView(NoInit("factors->jUt_d"), factors->jU_d.extent(0)); 17027b8d4ba6SJunchao Zhang factors->aUt_d = MatScalarKokkosView(NoInit("factors->aUt_d"), factors->aU_d.extent(0)); 1703aac854edSJunchao Zhang } 170486a27549SJunchao Zhang 1705aac854edSJunchao Zhang if (factors->iU_h.extent(0)) { // If U is on host (factorization was done on host), we also compute the transpose on host 1706aac854edSJunchao Zhang if (!factors->U) { 1707aac854edSJunchao Zhang Mat_SeqAIJ *seq; 170886a27549SJunchao Zhang 1709aac854edSJunchao Zhang PetscCall(MatCreateSeqAIJWithArrays(PETSC_COMM_SELF, n, n, factors->iU_h.data(), factors->jU_h.data(), factors->aU_h.data(), &factors->U)); 1710aac854edSJunchao Zhang PetscCall(MatTranspose(factors->U, MAT_INITIAL_MATRIX, &factors->Ut)); 171186a27549SJunchao Zhang 1712aac854edSJunchao Zhang seq = static_cast<Mat_SeqAIJ *>(factors->Ut->data); 1713aac854edSJunchao Zhang factors->iUt_h = MatRowMapKokkosViewHost(seq->i, n + 1); 1714aac854edSJunchao Zhang factors->jUt_h = MatColIdxKokkosViewHost(seq->j, seq->nz); 1715aac854edSJunchao Zhang factors->aUt_h = MatScalarKokkosViewHost(seq->a, seq->nz); 1716aac854edSJunchao Zhang } else { 1717aac854edSJunchao Zhang PetscCall(MatTranspose(factors->U, MAT_REUSE_MATRIX, &factors->Ut)); // Matrix Ut' data is aliased with {i, j, a}Ut_h 1718aac854edSJunchao Zhang } 1719aac854edSJunchao Zhang // Copy Ut from host to device 1720aac854edSJunchao Zhang PetscCallCXX(Kokkos::deep_copy(factors->iUt_d, factors->iUt_h)); 1721aac854edSJunchao Zhang PetscCallCXX(Kokkos::deep_copy(factors->jUt_d, factors->jUt_h)); 1722aac854edSJunchao Zhang PetscCallCXX(Kokkos::deep_copy(factors->aUt_d, factors->aUt_h)); 1723aac854edSJunchao Zhang } else { // If U was computed on device, we also compute the transpose there 1724aac854edSJunchao Zhang // TODO: KK transpose_matrix() does not sort column indices, however cusparse requires sorted indices. We have to sort the indices, until KK provides finer control options. 1725aac854edSJunchao Zhang PetscCallCXX(transpose_matrix<ConstMatRowMapKokkosView, ConstMatColIdxKokkosView, ConstMatScalarKokkosView, MatRowMapKokkosView, MatColIdxKokkosView, MatScalarKokkosView, MatRowMapKokkosView, DefaultExecutionSpace>(n, n, factors->iU_d, 1726aac854edSJunchao Zhang factors->jU_d, factors->aU_d, 1727aac854edSJunchao Zhang factors->iUt_d, factors->jUt_d, 1728aac854edSJunchao Zhang factors->aUt_d)); 1729aac854edSJunchao Zhang PetscCallCXX(sort_crs_matrix<DefaultExecutionSpace, MatRowMapKokkosView, MatColIdxKokkosView, MatScalarKokkosView>(factors->iUt_d, factors->jUt_d, factors->aUt_d)); 1730aac854edSJunchao Zhang } 1731aac854edSJunchao Zhang PetscCallCXX(sptrsv_symbolic(&factors->khUt, factors->iUt_d, factors->jUt_d, factors->aUt_d)); 1732aac854edSJunchao Zhang } 1733aac854edSJunchao Zhang 1734aac854edSJunchao Zhang // do the same for L with LU 1735aac854edSJunchao Zhang if (has_lower) { 1736aac854edSJunchao Zhang if (!factors->iLt_d.extent(0)) { // Allocate Lt on device if not yet 1737aac854edSJunchao Zhang factors->iLt_d = MatRowMapKokkosView("factors->iLt_d", n + 1); // KK requires this view to be initialized to 0 to call transpose_matrix 1738aac854edSJunchao Zhang factors->jLt_d = MatColIdxKokkosView(NoInit("factors->jLt_d"), factors->jL_d.extent(0)); 1739aac854edSJunchao Zhang factors->aLt_d = MatScalarKokkosView(NoInit("factors->aLt_d"), factors->aL_d.extent(0)); 1740aac854edSJunchao Zhang } 1741aac854edSJunchao Zhang 1742aac854edSJunchao Zhang if (factors->iL_h.extent(0)) { // If L is on host, we also compute the transpose on host 1743aac854edSJunchao Zhang if (!factors->L) { 1744aac854edSJunchao Zhang Mat_SeqAIJ *seq; 1745aac854edSJunchao Zhang 1746aac854edSJunchao Zhang PetscCall(MatCreateSeqAIJWithArrays(PETSC_COMM_SELF, n, n, factors->iL_h.data(), factors->jL_h.data(), factors->aL_h.data(), &factors->L)); 1747aac854edSJunchao Zhang PetscCall(MatTranspose(factors->L, MAT_INITIAL_MATRIX, &factors->Lt)); 1748aac854edSJunchao Zhang 1749aac854edSJunchao Zhang seq = static_cast<Mat_SeqAIJ *>(factors->Lt->data); 1750aac854edSJunchao Zhang factors->iLt_h = MatRowMapKokkosViewHost(seq->i, n + 1); 1751aac854edSJunchao Zhang factors->jLt_h = MatColIdxKokkosViewHost(seq->j, seq->nz); 1752aac854edSJunchao Zhang factors->aLt_h = MatScalarKokkosViewHost(seq->a, seq->nz); 1753aac854edSJunchao Zhang } else { 1754aac854edSJunchao Zhang PetscCall(MatTranspose(factors->L, MAT_REUSE_MATRIX, &factors->Lt)); // Matrix Lt' data is aliased with {i, j, a}Lt_h 1755aac854edSJunchao Zhang } 1756aac854edSJunchao Zhang // Copy Lt from host to device 1757aac854edSJunchao Zhang PetscCallCXX(Kokkos::deep_copy(factors->iLt_d, factors->iLt_h)); 1758aac854edSJunchao Zhang PetscCallCXX(Kokkos::deep_copy(factors->jLt_d, factors->jLt_h)); 1759aac854edSJunchao Zhang PetscCallCXX(Kokkos::deep_copy(factors->aLt_d, factors->aLt_h)); 1760aac854edSJunchao Zhang } else { // If L was computed on device, we also compute the transpose there 1761aac854edSJunchao Zhang // TODO: KK transpose_matrix() does not sort column indices, however cusparse requires sorted indices. We have to sort the indices, until KK provides finer control options. 1762aac854edSJunchao Zhang PetscCallCXX(transpose_matrix<ConstMatRowMapKokkosView, ConstMatColIdxKokkosView, ConstMatScalarKokkosView, MatRowMapKokkosView, MatColIdxKokkosView, MatScalarKokkosView, MatRowMapKokkosView, DefaultExecutionSpace>(n, n, factors->iL_d, 1763aac854edSJunchao Zhang factors->jL_d, factors->aL_d, 1764aac854edSJunchao Zhang factors->iLt_d, factors->jLt_d, 1765aac854edSJunchao Zhang factors->aLt_d)); 1766aac854edSJunchao Zhang PetscCallCXX(sort_crs_matrix<DefaultExecutionSpace, MatRowMapKokkosView, MatColIdxKokkosView, MatScalarKokkosView>(factors->iLt_d, factors->jLt_d, factors->aLt_d)); 1767aac854edSJunchao Zhang } 1768aac854edSJunchao Zhang PetscCallCXX(sptrsv_symbolic(&factors->khLt, factors->iLt_d, factors->jLt_d, factors->aLt_d)); 1769aac854edSJunchao Zhang } 1770aac854edSJunchao Zhang 177186a27549SJunchao Zhang factors->transpose_updated = PETSC_TRUE; 177286a27549SJunchao Zhang } 17733ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 177486a27549SJunchao Zhang } 177586a27549SJunchao Zhang 1776aac854edSJunchao Zhang // Solve Ax = b, with RAR = U^T D U, where R is the row (and col) permutation matrix on A. 1777aac854edSJunchao Zhang // R is represented by rowperm in factors. If R is identity (i.e, no reordering), then rowperm is empty. 1778aac854edSJunchao Zhang static PetscErrorCode MatSolve_SeqAIJKokkos_Cholesky(Mat A, Vec bb, Vec xx) 1779d71ae5a4SJacob Faibussowitsch { 1780aac854edSJunchao Zhang auto exec = PetscGetKokkosExecutionSpace(); 178186a27549SJunchao Zhang Mat_SeqAIJKokkosTriFactors *factors = (Mat_SeqAIJKokkosTriFactors *)A->spptr; 1782aac854edSJunchao Zhang PetscInt m = A->rmap->n; 1783aac854edSJunchao Zhang PetscScalarKokkosView D = factors->D_d; 1784aac854edSJunchao Zhang PetscScalarKokkosView X, Y, B; // alias 1785aac854edSJunchao Zhang ConstPetscScalarKokkosView b; 1786aac854edSJunchao Zhang PetscScalarKokkosView x; 1787aac854edSJunchao Zhang PetscIntKokkosView &rowperm = factors->rowperm; 1788aac854edSJunchao Zhang PetscBool identity = rowperm.extent(0) ? PETSC_FALSE : PETSC_TRUE; 178986a27549SJunchao Zhang 179086a27549SJunchao Zhang PetscFunctionBegin; 17919566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeBegin()); 1792aac854edSJunchao Zhang PetscCall(MatSeqAIJKokkosSolveCheck(A)); // for UX = T 1793aac854edSJunchao Zhang PetscCall(MatSeqAIJKokkosTransposeSolveCheck(A)); // for U^T Y = B 1794aac854edSJunchao Zhang PetscCall(VecGetKokkosView(bb, &b)); 1795aac854edSJunchao Zhang PetscCall(VecGetKokkosViewWrite(xx, &x)); 1796aac854edSJunchao Zhang 1797aac854edSJunchao Zhang // Solve U^T Y = B 1798aac854edSJunchao Zhang if (identity) { // Reorder b with the row permutation 1799aac854edSJunchao Zhang B = PetscScalarKokkosView(const_cast<PetscScalar *>(b.data()), b.extent(0)); 1800aac854edSJunchao Zhang Y = factors->workVector; 1801aac854edSJunchao Zhang } else { 1802aac854edSJunchao Zhang B = factors->workVector; 1803aac854edSJunchao Zhang PetscCallCXX(Kokkos::parallel_for(Kokkos::RangePolicy<>(exec, 0, m), KOKKOS_LAMBDA(const PetscInt i) { B(i) = b(rowperm(i)); })); 1804aac854edSJunchao Zhang Y = x; 1805aac854edSJunchao Zhang } 1806aac854edSJunchao Zhang PetscCallCXX(sptrsv_solve(exec, &factors->khUt, factors->iUt_d, factors->jUt_d, factors->aUt_d, B, Y)); 1807aac854edSJunchao Zhang 1808aac854edSJunchao Zhang // Solve diag(D) Y' = Y. 1809aac854edSJunchao Zhang // Actually just do Y' = Y*D since D is already inverted in MatCholeskyFactorNumeric_SeqAIJ(). It is basically a vector element-wise multiplication. 1810aac854edSJunchao Zhang PetscCallCXX(Kokkos::parallel_for(Kokkos::RangePolicy<>(exec, 0, m), KOKKOS_LAMBDA(const PetscInt i) { Y(i) = Y(i) * D(i); })); 1811aac854edSJunchao Zhang 1812aac854edSJunchao Zhang // Solve UX = Y 1813aac854edSJunchao Zhang if (identity) { 1814aac854edSJunchao Zhang X = x; 1815aac854edSJunchao Zhang } else { 1816aac854edSJunchao Zhang X = factors->workVector; // B is not needed anymore 1817aac854edSJunchao Zhang } 1818aac854edSJunchao Zhang PetscCallCXX(sptrsv_solve(exec, &factors->khU, factors->iU_d, factors->jU_d, factors->aU_d, Y, X)); 1819aac854edSJunchao Zhang 1820aac854edSJunchao Zhang // Reorder X with the inverse column (row) permutation 18213a7d0413SPierre Jolivet if (!identity) PetscCallCXX(Kokkos::parallel_for(Kokkos::RangePolicy<>(exec, 0, m), KOKKOS_LAMBDA(const PetscInt i) { x(rowperm(i)) = X(i); })); 1822aac854edSJunchao Zhang 1823aac854edSJunchao Zhang PetscCall(VecRestoreKokkosView(bb, &b)); 1824aac854edSJunchao Zhang PetscCall(VecRestoreKokkosViewWrite(xx, &x)); 18259566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeEnd()); 18263ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 182786a27549SJunchao Zhang } 182886a27549SJunchao Zhang 1829aac854edSJunchao Zhang // Solve Ax = b, with RAC = LU, where R and C are row and col permutation matrices on A respectively. 1830aac854edSJunchao Zhang // R and C are represented by rowperm and colperm in factors. 1831aac854edSJunchao Zhang // If R or C is identity (i.e, no reordering), then rowperm or colperm is empty. 1832aac854edSJunchao Zhang static PetscErrorCode MatSolve_SeqAIJKokkos_LU(Mat A, Vec bb, Vec xx) 1833d71ae5a4SJacob Faibussowitsch { 1834aac854edSJunchao Zhang auto exec = PetscGetKokkosExecutionSpace(); 183586a27549SJunchao Zhang Mat_SeqAIJKokkosTriFactors *factors = (Mat_SeqAIJKokkosTriFactors *)A->spptr; 1836aac854edSJunchao Zhang PetscInt m = A->rmap->n; 1837aac854edSJunchao Zhang PetscScalarKokkosView X, Y, B; // alias 1838aac854edSJunchao Zhang ConstPetscScalarKokkosView b; 1839aac854edSJunchao Zhang PetscScalarKokkosView x; 1840aac854edSJunchao Zhang PetscIntKokkosView &rowperm = factors->rowperm; 1841aac854edSJunchao Zhang PetscIntKokkosView &colperm = factors->colperm; 1842aac854edSJunchao Zhang PetscBool row_identity = rowperm.extent(0) ? PETSC_FALSE : PETSC_TRUE; 1843aac854edSJunchao Zhang PetscBool col_identity = colperm.extent(0) ? PETSC_FALSE : PETSC_TRUE; 184486a27549SJunchao Zhang 184586a27549SJunchao Zhang PetscFunctionBegin; 18469566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeBegin()); 1847aac854edSJunchao Zhang PetscCall(MatSeqAIJKokkosSolveCheck(A)); 1848aac854edSJunchao Zhang PetscCall(VecGetKokkosView(bb, &b)); 1849aac854edSJunchao Zhang PetscCall(VecGetKokkosViewWrite(xx, &x)); 185086a27549SJunchao Zhang 1851aac854edSJunchao Zhang // Solve L Y = B (i.e., L (U C^- x) = R b). R b indicates applying the row permutation on b. 1852aac854edSJunchao Zhang if (row_identity) { 1853aac854edSJunchao Zhang B = PetscScalarKokkosView(const_cast<PetscScalar *>(b.data()), b.extent(0)); 1854aac854edSJunchao Zhang Y = factors->workVector; 1855aac854edSJunchao Zhang } else { 1856aac854edSJunchao Zhang B = factors->workVector; 1857aac854edSJunchao Zhang PetscCallCXX(Kokkos::parallel_for(Kokkos::RangePolicy<>(exec, 0, m), KOKKOS_LAMBDA(const PetscInt i) { B(i) = b(rowperm(i)); })); 1858aac854edSJunchao Zhang Y = x; 1859aac854edSJunchao Zhang } 1860aac854edSJunchao Zhang PetscCallCXX(sptrsv_solve(exec, &factors->khL, factors->iL_d, factors->jL_d, factors->aL_d, B, Y)); 1861aac854edSJunchao Zhang 1862aac854edSJunchao Zhang // Solve U C^- x = Y 1863aac854edSJunchao Zhang if (col_identity) { 1864aac854edSJunchao Zhang X = x; 1865aac854edSJunchao Zhang } else { 1866aac854edSJunchao Zhang X = factors->workVector; 1867aac854edSJunchao Zhang } 1868aac854edSJunchao Zhang PetscCallCXX(sptrsv_solve(exec, &factors->khU, factors->iU_d, factors->jU_d, factors->aU_d, Y, X)); 1869aac854edSJunchao Zhang 1870aac854edSJunchao Zhang // x = C X; Reorder X with the inverse col permutation 18713a7d0413SPierre Jolivet if (!col_identity) PetscCallCXX(Kokkos::parallel_for(Kokkos::RangePolicy<>(exec, 0, m), KOKKOS_LAMBDA(const PetscInt i) { x(colperm(i)) = X(i); })); 1872aac854edSJunchao Zhang 1873aac854edSJunchao Zhang PetscCall(VecRestoreKokkosView(bb, &b)); 1874aac854edSJunchao Zhang PetscCall(VecRestoreKokkosViewWrite(xx, &x)); 18759566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeEnd()); 18763ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 187786a27549SJunchao Zhang } 187886a27549SJunchao Zhang 1879aac854edSJunchao Zhang // Solve A^T x = b, with RAC = LU, where R and C are row and col permutation matrices on A respectively. 1880aac854edSJunchao Zhang // R and C are represented by rowperm and colperm in factors. 1881aac854edSJunchao Zhang // If R or C is identity (i.e, no reordering), then rowperm or colperm is empty. 1882aac854edSJunchao Zhang // A = R^-1 L U C^-1, so A^T = C^-T U^T L^T R^-T. But since C^- = C^T, R^- = R^T, we have A^T = C U^T L^T R. 1883aac854edSJunchao Zhang static PetscErrorCode MatSolveTranspose_SeqAIJKokkos_LU(Mat A, Vec bb, Vec xx) 1884aac854edSJunchao Zhang { 1885aac854edSJunchao Zhang auto exec = PetscGetKokkosExecutionSpace(); 1886aac854edSJunchao Zhang Mat_SeqAIJKokkosTriFactors *factors = (Mat_SeqAIJKokkosTriFactors *)A->spptr; 1887aac854edSJunchao Zhang PetscInt m = A->rmap->n; 1888aac854edSJunchao Zhang PetscScalarKokkosView X, Y, B; // alias 1889aac854edSJunchao Zhang ConstPetscScalarKokkosView b; 1890aac854edSJunchao Zhang PetscScalarKokkosView x; 1891aac854edSJunchao Zhang PetscIntKokkosView &rowperm = factors->rowperm; 1892aac854edSJunchao Zhang PetscIntKokkosView &colperm = factors->colperm; 1893aac854edSJunchao Zhang PetscBool row_identity = rowperm.extent(0) ? PETSC_FALSE : PETSC_TRUE; 1894aac854edSJunchao Zhang PetscBool col_identity = colperm.extent(0) ? PETSC_FALSE : PETSC_TRUE; 1895aac854edSJunchao Zhang 1896aac854edSJunchao Zhang PetscFunctionBegin; 1897aac854edSJunchao Zhang PetscCall(PetscLogGpuTimeBegin()); 1898aac854edSJunchao Zhang PetscCall(MatSeqAIJKokkosTransposeSolveCheck(A)); // Update L^T, U^T if needed, and do sptrsv symbolic for L^T, U^T 1899aac854edSJunchao Zhang PetscCall(VecGetKokkosView(bb, &b)); 1900aac854edSJunchao Zhang PetscCall(VecGetKokkosViewWrite(xx, &x)); 1901aac854edSJunchao Zhang 1902aac854edSJunchao Zhang // Solve U^T Y = B (i.e., U^T (L^T R x) = C^- b). Note C^- b = C^T b, which means applying the column permutation on b. 1903aac854edSJunchao Zhang if (col_identity) { // Reorder b with the col permutation 1904aac854edSJunchao Zhang B = PetscScalarKokkosView(const_cast<PetscScalar *>(b.data()), b.extent(0)); 1905aac854edSJunchao Zhang Y = factors->workVector; 1906aac854edSJunchao Zhang } else { 1907aac854edSJunchao Zhang B = factors->workVector; 1908aac854edSJunchao Zhang PetscCallCXX(Kokkos::parallel_for(Kokkos::RangePolicy<>(exec, 0, m), KOKKOS_LAMBDA(const PetscInt i) { B(i) = b(colperm(i)); })); 1909aac854edSJunchao Zhang Y = x; 1910aac854edSJunchao Zhang } 1911aac854edSJunchao Zhang PetscCallCXX(sptrsv_solve(exec, &factors->khUt, factors->iUt_d, factors->jUt_d, factors->aUt_d, B, Y)); 1912aac854edSJunchao Zhang 1913aac854edSJunchao Zhang // Solve L^T X = Y 1914aac854edSJunchao Zhang if (row_identity) { 1915aac854edSJunchao Zhang X = x; 1916aac854edSJunchao Zhang } else { 1917aac854edSJunchao Zhang X = factors->workVector; 1918aac854edSJunchao Zhang } 1919aac854edSJunchao Zhang PetscCallCXX(sptrsv_solve(exec, &factors->khLt, factors->iLt_d, factors->jLt_d, factors->aLt_d, Y, X)); 1920aac854edSJunchao Zhang 1921aac854edSJunchao Zhang // x = R^- X = R^T X; Reorder X with the inverse row permutation 19223a7d0413SPierre Jolivet if (!row_identity) PetscCallCXX(Kokkos::parallel_for(Kokkos::RangePolicy<>(exec, 0, m), KOKKOS_LAMBDA(const PetscInt i) { x(rowperm(i)) = X(i); })); 1923aac854edSJunchao Zhang 1924aac854edSJunchao Zhang PetscCall(VecRestoreKokkosView(bb, &b)); 1925aac854edSJunchao Zhang PetscCall(VecRestoreKokkosViewWrite(xx, &x)); 1926aac854edSJunchao Zhang PetscCall(PetscLogGpuTimeEnd()); 1927aac854edSJunchao Zhang PetscFunctionReturn(PETSC_SUCCESS); 1928aac854edSJunchao Zhang } 1929aac854edSJunchao Zhang 1930aac854edSJunchao Zhang static PetscErrorCode MatLUFactorNumeric_SeqAIJKokkos(Mat B, Mat A, const MatFactorInfo *info) 1931aac854edSJunchao Zhang { 1932aac854edSJunchao Zhang PetscFunctionBegin; 1933aac854edSJunchao Zhang PetscCall(MatSeqAIJKokkosSyncHost(A)); 1934aac854edSJunchao Zhang PetscCall(MatLUFactorNumeric_SeqAIJ(B, A, info)); 1935aac854edSJunchao Zhang 1936aac854edSJunchao Zhang if (!info->solveonhost) { // if solve on host, then we don't need to copy L, U to device 1937aac854edSJunchao Zhang Mat_SeqAIJKokkosTriFactors *factors = (Mat_SeqAIJKokkosTriFactors *)B->spptr; 1938aac854edSJunchao Zhang Mat_SeqAIJ *b = static_cast<Mat_SeqAIJ *>(B->data); 1939aac854edSJunchao Zhang const PetscInt *Bi = b->i, *Bj = b->j, *Bdiag = b->diag; 1940aac854edSJunchao Zhang const MatScalar *Ba = b->a; 1941aac854edSJunchao Zhang PetscInt m = B->rmap->n, n = B->cmap->n; 1942aac854edSJunchao Zhang 1943aac854edSJunchao Zhang if (factors->iL_h.extent(0) == 0) { // Allocate memory and copy the L, U structure for the first time 1944aac854edSJunchao Zhang // Allocate memory and copy the structure 1945aac854edSJunchao Zhang factors->iL_h = MatRowMapKokkosViewHost(NoInit("iL_h"), m + 1); 1946aac854edSJunchao Zhang factors->jL_h = MatColIdxKokkosViewHost(NoInit("jL_h"), (Bi[m] - Bi[0]) + m); // + the diagonal entries 1947aac854edSJunchao Zhang factors->aL_h = MatScalarKokkosViewHost(NoInit("aL_h"), (Bi[m] - Bi[0]) + m); 1948aac854edSJunchao Zhang factors->iU_h = MatRowMapKokkosViewHost(NoInit("iU_h"), m + 1); 1949aac854edSJunchao Zhang factors->jU_h = MatColIdxKokkosViewHost(NoInit("jU_h"), (Bdiag[0] - Bdiag[m])); 1950aac854edSJunchao Zhang factors->aU_h = MatScalarKokkosViewHost(NoInit("aU_h"), (Bdiag[0] - Bdiag[m])); 1951aac854edSJunchao Zhang 1952aac854edSJunchao Zhang PetscInt *Li = factors->iL_h.data(); 1953aac854edSJunchao Zhang PetscInt *Lj = factors->jL_h.data(); 1954aac854edSJunchao Zhang PetscInt *Ui = factors->iU_h.data(); 1955aac854edSJunchao Zhang PetscInt *Uj = factors->jU_h.data(); 1956aac854edSJunchao Zhang 1957aac854edSJunchao Zhang Li[0] = Ui[0] = 0; 1958aac854edSJunchao Zhang for (PetscInt i = 0; i < m; i++) { 1959aac854edSJunchao Zhang PetscInt llen = Bi[i + 1] - Bi[i]; // exclusive of the diagonal entry 1960aac854edSJunchao Zhang PetscInt ulen = Bdiag[i] - Bdiag[i + 1]; // inclusive of the diagonal entry 1961aac854edSJunchao Zhang 196264dc1d19SNuno Nobre PetscCall(PetscArraycpy(Lj + Li[i], Bj + Bi[i], llen)); // entries of L on the left of the diagonal 1963aac854edSJunchao Zhang Lj[Li[i] + llen] = i; // diagonal entry of L 1964aac854edSJunchao Zhang 1965aac854edSJunchao Zhang Uj[Ui[i]] = i; // diagonal entry of U 196664dc1d19SNuno Nobre PetscCall(PetscArraycpy(Uj + Ui[i] + 1, Bj + Bdiag[i + 1] + 1, ulen - 1)); // entries of U on the right of the diagonal 1967aac854edSJunchao Zhang 1968aac854edSJunchao Zhang Li[i + 1] = Li[i] + llen + 1; 1969aac854edSJunchao Zhang Ui[i + 1] = Ui[i] + ulen; 1970aac854edSJunchao Zhang } 1971aac854edSJunchao Zhang 1972aac854edSJunchao Zhang factors->iL_d = Kokkos::create_mirror_view_and_copy(DefaultMemorySpace(), factors->iL_h); 1973aac854edSJunchao Zhang factors->jL_d = Kokkos::create_mirror_view_and_copy(DefaultMemorySpace(), factors->jL_h); 1974aac854edSJunchao Zhang factors->iU_d = Kokkos::create_mirror_view_and_copy(DefaultMemorySpace(), factors->iU_h); 1975aac854edSJunchao Zhang factors->jU_d = Kokkos::create_mirror_view_and_copy(DefaultMemorySpace(), factors->jU_h); 1976aac854edSJunchao Zhang factors->aL_d = Kokkos::create_mirror_view(DefaultMemorySpace(), factors->aL_h); 1977aac854edSJunchao Zhang factors->aU_d = Kokkos::create_mirror_view(DefaultMemorySpace(), factors->aU_h); 1978aac854edSJunchao Zhang 1979aac854edSJunchao Zhang // Copy row/col permutation to device 1980aac854edSJunchao Zhang IS rowperm = ((Mat_SeqAIJ *)B->data)->row; 1981aac854edSJunchao Zhang PetscBool row_identity; 1982aac854edSJunchao Zhang PetscCall(ISIdentity(rowperm, &row_identity)); 1983aac854edSJunchao Zhang if (!row_identity) { 1984aac854edSJunchao Zhang const PetscInt *ip; 1985aac854edSJunchao Zhang 1986aac854edSJunchao Zhang PetscCall(ISGetIndices(rowperm, &ip)); 1987aac854edSJunchao Zhang factors->rowperm = PetscIntKokkosView(NoInit("rowperm"), m); 1988aac854edSJunchao Zhang PetscCallCXX(Kokkos::deep_copy(factors->rowperm, PetscIntKokkosViewHost(const_cast<PetscInt *>(ip), m))); 1989aac854edSJunchao Zhang PetscCall(ISRestoreIndices(rowperm, &ip)); 1990aac854edSJunchao Zhang PetscCall(PetscLogCpuToGpu(m * sizeof(PetscInt))); 1991aac854edSJunchao Zhang } 1992aac854edSJunchao Zhang 1993aac854edSJunchao Zhang IS colperm = ((Mat_SeqAIJ *)B->data)->col; 1994aac854edSJunchao Zhang PetscBool col_identity; 1995aac854edSJunchao Zhang PetscCall(ISIdentity(colperm, &col_identity)); 1996aac854edSJunchao Zhang if (!col_identity) { 1997aac854edSJunchao Zhang const PetscInt *ip; 1998aac854edSJunchao Zhang 1999aac854edSJunchao Zhang PetscCall(ISGetIndices(colperm, &ip)); 2000aac854edSJunchao Zhang factors->colperm = PetscIntKokkosView(NoInit("colperm"), n); 2001aac854edSJunchao Zhang PetscCallCXX(Kokkos::deep_copy(factors->colperm, PetscIntKokkosViewHost(const_cast<PetscInt *>(ip), n))); 2002aac854edSJunchao Zhang PetscCall(ISRestoreIndices(colperm, &ip)); 2003aac854edSJunchao Zhang PetscCall(PetscLogCpuToGpu(n * sizeof(PetscInt))); 2004aac854edSJunchao Zhang } 2005aac854edSJunchao Zhang 2006aac854edSJunchao Zhang /* Create sptrsv handles for L, U and their transpose */ 2007aac854edSJunchao Zhang #if defined(KOKKOSKERNELS_ENABLE_TPL_CUSPARSE) 2008aac854edSJunchao Zhang auto sptrsv_alg = SPTRSVAlgorithm::SPTRSV_CUSPARSE; 2009aac854edSJunchao Zhang #else 2010aac854edSJunchao Zhang auto sptrsv_alg = SPTRSVAlgorithm::SEQLVLSCHD_TP1; 2011aac854edSJunchao Zhang #endif 2012aac854edSJunchao Zhang factors->khL.create_sptrsv_handle(sptrsv_alg, m, true /* L is lower tri */); 2013aac854edSJunchao Zhang factors->khU.create_sptrsv_handle(sptrsv_alg, m, false /* U is not lower tri */); 2014aac854edSJunchao Zhang factors->khLt.create_sptrsv_handle(sptrsv_alg, m, false /* L^T is not lower tri */); 2015aac854edSJunchao Zhang factors->khUt.create_sptrsv_handle(sptrsv_alg, m, true /* U^T is lower tri */); 2016aac854edSJunchao Zhang } 2017aac854edSJunchao Zhang 2018aac854edSJunchao Zhang // Copy the value 2019aac854edSJunchao Zhang for (PetscInt i = 0; i < m; i++) { 2020aac854edSJunchao Zhang PetscInt llen = Bi[i + 1] - Bi[i]; 2021aac854edSJunchao Zhang PetscInt ulen = Bdiag[i] - Bdiag[i + 1]; 2022aac854edSJunchao Zhang const PetscInt *Li = factors->iL_h.data(); 2023aac854edSJunchao Zhang const PetscInt *Ui = factors->iU_h.data(); 2024aac854edSJunchao Zhang 2025aac854edSJunchao Zhang PetscScalar *La = factors->aL_h.data(); 2026aac854edSJunchao Zhang PetscScalar *Ua = factors->aU_h.data(); 2027aac854edSJunchao Zhang 202864dc1d19SNuno Nobre PetscCall(PetscArraycpy(La + Li[i], Ba + Bi[i], llen)); // entries of L 2029aac854edSJunchao Zhang La[Li[i] + llen] = 1.0; // diagonal entry 2030aac854edSJunchao Zhang 2031aac854edSJunchao Zhang Ua[Ui[i]] = 1.0 / Ba[Bdiag[i]]; // diagonal entry 203264dc1d19SNuno Nobre PetscCall(PetscArraycpy(Ua + Ui[i] + 1, Ba + Bdiag[i + 1] + 1, ulen - 1)); // entries of U 2033aac854edSJunchao Zhang } 2034aac854edSJunchao Zhang 2035aac854edSJunchao Zhang PetscCallCXX(Kokkos::deep_copy(factors->aL_d, factors->aL_h)); 2036aac854edSJunchao Zhang PetscCallCXX(Kokkos::deep_copy(factors->aU_d, factors->aU_h)); 2037aac854edSJunchao Zhang // Once the factors' values have changed, we need to update their transpose and redo sptrsv symbolic 2038aac854edSJunchao Zhang factors->transpose_updated = PETSC_FALSE; 2039aac854edSJunchao Zhang factors->sptrsv_symbolic_completed = PETSC_FALSE; 2040aac854edSJunchao Zhang 2041aac854edSJunchao Zhang B->ops->solve = MatSolve_SeqAIJKokkos_LU; 2042aac854edSJunchao Zhang B->ops->solvetranspose = MatSolveTranspose_SeqAIJKokkos_LU; 2043aac854edSJunchao Zhang } 2044aac854edSJunchao Zhang 2045aac854edSJunchao Zhang B->ops->matsolve = NULL; 2046aac854edSJunchao Zhang B->ops->matsolvetranspose = NULL; 2047aac854edSJunchao Zhang PetscFunctionReturn(PETSC_SUCCESS); 2048aac854edSJunchao Zhang } 2049aac854edSJunchao Zhang 2050aac854edSJunchao Zhang static PetscErrorCode MatILUFactorNumeric_SeqAIJKokkos_ILU0(Mat B, Mat A, const MatFactorInfo *info) 2051d71ae5a4SJacob Faibussowitsch { 205286a27549SJunchao Zhang Mat_SeqAIJKokkos *aijkok = (Mat_SeqAIJKokkos *)A->spptr; 205386a27549SJunchao Zhang Mat_SeqAIJKokkosTriFactors *factors = (Mat_SeqAIJKokkosTriFactors *)B->spptr; 205486a27549SJunchao Zhang PetscInt fill_lev = info->levels; 205586a27549SJunchao Zhang 205686a27549SJunchao Zhang PetscFunctionBegin; 20579566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeBegin()); 2058aac854edSJunchao Zhang PetscCheck(!info->factoronhost, PetscObjectComm((PetscObject)A), PETSC_ERR_PLIB, "MatFactorInfo.factoronhost should be false"); 20599566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosSyncDevice(A)); 2060076ba34aSJunchao Zhang 2061076ba34aSJunchao Zhang auto a_d = aijkok->a_dual.view_device(); 2062076ba34aSJunchao Zhang auto i_d = aijkok->i_dual.view_device(); 2063076ba34aSJunchao Zhang auto j_d = aijkok->j_dual.view_device(); 2064076ba34aSJunchao Zhang 2065aac854edSJunchao Zhang PetscCallCXX(spiluk_numeric(&factors->kh, fill_lev, i_d, j_d, a_d, factors->iL_d, factors->jL_d, factors->aL_d, factors->iU_d, factors->jU_d, factors->aU_d)); 206686a27549SJunchao Zhang 206786a27549SJunchao Zhang B->assembled = PETSC_TRUE; 206886a27549SJunchao Zhang B->preallocated = PETSC_TRUE; 2069aac854edSJunchao Zhang B->ops->solve = MatSolve_SeqAIJKokkos_LU; 2070aac854edSJunchao Zhang B->ops->solvetranspose = MatSolveTranspose_SeqAIJKokkos_LU; 207186a27549SJunchao Zhang B->ops->matsolve = NULL; 207286a27549SJunchao Zhang B->ops->matsolvetranspose = NULL; 207386a27549SJunchao Zhang 207486a27549SJunchao Zhang /* Once the factors' value changed, we need to update their transpose and sptrsv handle */ 207586a27549SJunchao Zhang factors->transpose_updated = PETSC_FALSE; 207686a27549SJunchao Zhang factors->sptrsv_symbolic_completed = PETSC_FALSE; 2077eeadb341SJunchao Zhang /* TODO: log flops, but how to know that? */ 20789566063dSJacob Faibussowitsch PetscCall(PetscLogGpuTimeEnd()); 20793ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 208086a27549SJunchao Zhang } 208186a27549SJunchao Zhang 2082aac854edSJunchao Zhang // Use KK's spiluk_symbolic() to do ILU0 symbolic factorization, with no row/col reordering 2083aac854edSJunchao Zhang static PetscErrorCode MatILUFactorSymbolic_SeqAIJKokkos_ILU0(Mat B, Mat A, IS, IS, const MatFactorInfo *info) 2084d71ae5a4SJacob Faibussowitsch { 208586a27549SJunchao Zhang Mat_SeqAIJKokkos *aijkok; 208686a27549SJunchao Zhang Mat_SeqAIJ *b; 208786a27549SJunchao Zhang Mat_SeqAIJKokkosTriFactors *factors = (Mat_SeqAIJKokkosTriFactors *)B->spptr; 208886a27549SJunchao Zhang PetscInt fill_lev = info->levels; 208986a27549SJunchao Zhang PetscInt nnzA = ((Mat_SeqAIJ *)A->data)->nz, nnzL, nnzU; 209086a27549SJunchao Zhang PetscInt n = A->rmap->n; 209186a27549SJunchao Zhang 209286a27549SJunchao Zhang PetscFunctionBegin; 2093aac854edSJunchao Zhang PetscCheck(!info->factoronhost, PetscObjectComm((PetscObject)A), PETSC_ERR_PLIB, "MatFactorInfo's factoronhost should be false as we are doing it on device right now"); 20949566063dSJacob Faibussowitsch PetscCall(MatSeqAIJKokkosSyncDevice(A)); 209586a27549SJunchao Zhang 209686a27549SJunchao Zhang /* Create a spiluk handle and then do symbolic factorization */ 209786a27549SJunchao Zhang nnzL = nnzU = PetscRealIntMultTruncate(info->fill, nnzA); 2098aac854edSJunchao Zhang factors->kh.create_spiluk_handle(SPILUKAlgorithm::SEQLVLSCHD_TP1, n, nnzL, nnzU); 209986a27549SJunchao Zhang 210086a27549SJunchao Zhang auto spiluk_handle = factors->kh.get_spiluk_handle(); 210186a27549SJunchao Zhang 210286a27549SJunchao Zhang Kokkos::realloc(factors->iL_d, n + 1); /* Free old arrays and realloc */ 210386a27549SJunchao Zhang Kokkos::realloc(factors->jL_d, spiluk_handle->get_nnzL()); 210486a27549SJunchao Zhang Kokkos::realloc(factors->iU_d, n + 1); 210586a27549SJunchao Zhang Kokkos::realloc(factors->jU_d, spiluk_handle->get_nnzU()); 210686a27549SJunchao Zhang 210786a27549SJunchao Zhang aijkok = (Mat_SeqAIJKokkos *)A->spptr; 2108076ba34aSJunchao Zhang auto i_d = aijkok->i_dual.view_device(); 2109076ba34aSJunchao Zhang auto j_d = aijkok->j_dual.view_device(); 2110aac854edSJunchao Zhang PetscCallCXX(spiluk_symbolic(&factors->kh, fill_lev, i_d, j_d, factors->iL_d, factors->jL_d, factors->iU_d, factors->jU_d)); 211186a27549SJunchao Zhang /* TODO: if spiluk_symbolic is asynchronous, do we need to sync before calling get_nnzL()? */ 211286a27549SJunchao Zhang 211386a27549SJunchao Zhang Kokkos::resize(factors->jL_d, spiluk_handle->get_nnzL()); /* Shrink or expand, and retain old value */ 211486a27549SJunchao Zhang Kokkos::resize(factors->jU_d, spiluk_handle->get_nnzU()); 211586a27549SJunchao Zhang Kokkos::realloc(factors->aL_d, spiluk_handle->get_nnzL()); /* No need to retain old value */ 211686a27549SJunchao Zhang Kokkos::realloc(factors->aU_d, spiluk_handle->get_nnzU()); 211786a27549SJunchao Zhang 211886a27549SJunchao Zhang /* TODO: add options to select sptrsv algorithms */ 211986a27549SJunchao Zhang /* Create sptrsv handles for L, U and their transpose */ 212086a27549SJunchao Zhang #if defined(KOKKOSKERNELS_ENABLE_TPL_CUSPARSE) 2121aac854edSJunchao Zhang auto sptrsv_alg = SPTRSVAlgorithm::SPTRSV_CUSPARSE; 212286a27549SJunchao Zhang #else 2123aac854edSJunchao Zhang auto sptrsv_alg = SPTRSVAlgorithm::SEQLVLSCHD_TP1; 212486a27549SJunchao Zhang #endif 212586a27549SJunchao Zhang 212686a27549SJunchao Zhang factors->khL.create_sptrsv_handle(sptrsv_alg, n, true /* L is lower tri */); 212786a27549SJunchao Zhang factors->khU.create_sptrsv_handle(sptrsv_alg, n, false /* U is not lower tri */); 212886a27549SJunchao Zhang factors->khLt.create_sptrsv_handle(sptrsv_alg, n, false /* L^T is not lower tri */); 212986a27549SJunchao Zhang factors->khUt.create_sptrsv_handle(sptrsv_alg, n, true /* U^T is lower tri */); 213086a27549SJunchao Zhang 213186a27549SJunchao Zhang /* Fill fields of the factor matrix B */ 21329566063dSJacob Faibussowitsch PetscCall(MatSeqAIJSetPreallocation_SeqAIJ(B, MAT_SKIP_ALLOCATION, NULL)); 213386a27549SJunchao Zhang b = (Mat_SeqAIJ *)B->data; 213486a27549SJunchao Zhang b->nz = b->maxnz = spiluk_handle->get_nnzL() + spiluk_handle->get_nnzU(); 213586a27549SJunchao Zhang B->info.fill_ratio_given = info->fill; 2136a1e4e190SStefano Zampini B->info.fill_ratio_needed = nnzA > 0 ? ((PetscReal)b->nz) / ((PetscReal)nnzA) : 1.0; 213786a27549SJunchao Zhang 2138aac854edSJunchao Zhang B->ops->lufactornumeric = MatILUFactorNumeric_SeqAIJKokkos_ILU0; 21393ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 2140930e68a5SMark Adams } 2141930e68a5SMark Adams 2142aac854edSJunchao Zhang static PetscErrorCode MatLUFactorSymbolic_SeqAIJKokkos(Mat B, Mat A, IS isrow, IS iscol, const MatFactorInfo *info) 2143aac854edSJunchao Zhang { 2144aac854edSJunchao Zhang PetscFunctionBegin; 2145aac854edSJunchao Zhang PetscCall(MatLUFactorSymbolic_SeqAIJ(B, A, isrow, iscol, info)); 2146aac854edSJunchao Zhang PetscCheck(!B->spptr, PETSC_COMM_SELF, PETSC_ERR_ARG_WRONGSTATE, "Expected a NULL spptr"); 2147aac854edSJunchao Zhang PetscCallCXX(B->spptr = new Mat_SeqAIJKokkosTriFactors(B->rmap->n)); 2148aac854edSJunchao Zhang B->ops->lufactornumeric = MatLUFactorNumeric_SeqAIJKokkos; 2149aac854edSJunchao Zhang PetscFunctionReturn(PETSC_SUCCESS); 2150aac854edSJunchao Zhang } 2151aac854edSJunchao Zhang 2152aac854edSJunchao Zhang static PetscErrorCode MatILUFactorSymbolic_SeqAIJKokkos(Mat B, Mat A, IS isrow, IS iscol, const MatFactorInfo *info) 2153aac854edSJunchao Zhang { 2154aac854edSJunchao Zhang PetscBool row_identity = PETSC_FALSE, col_identity = PETSC_FALSE; 2155aac854edSJunchao Zhang 2156aac854edSJunchao Zhang PetscFunctionBegin; 2157aac854edSJunchao Zhang if (!info->factoronhost) { 2158aac854edSJunchao Zhang PetscCall(ISIdentity(isrow, &row_identity)); 2159aac854edSJunchao Zhang PetscCall(ISIdentity(iscol, &col_identity)); 2160aac854edSJunchao Zhang } 2161aac854edSJunchao Zhang 2162aac854edSJunchao Zhang PetscCheck(!B->spptr, PETSC_COMM_SELF, PETSC_ERR_ARG_WRONGSTATE, "Expected a NULL spptr"); 2163aac854edSJunchao Zhang PetscCallCXX(B->spptr = new Mat_SeqAIJKokkosTriFactors(B->rmap->n)); 2164aac854edSJunchao Zhang 2165aac854edSJunchao Zhang if (!info->factoronhost && !info->levels && row_identity && col_identity) { // if level 0 and no reordering 2166aac854edSJunchao Zhang PetscCall(MatILUFactorSymbolic_SeqAIJKokkos_ILU0(B, A, isrow, iscol, info)); 2167aac854edSJunchao Zhang } else { 2168aac854edSJunchao Zhang PetscCall(MatILUFactorSymbolic_SeqAIJ(B, A, isrow, iscol, info)); // otherwise, use PETSc's ILU on host 2169aac854edSJunchao Zhang B->ops->lufactornumeric = MatLUFactorNumeric_SeqAIJKokkos; 2170aac854edSJunchao Zhang } 2171aac854edSJunchao Zhang PetscFunctionReturn(PETSC_SUCCESS); 2172aac854edSJunchao Zhang } 2173aac854edSJunchao Zhang 2174aac854edSJunchao Zhang static PetscErrorCode MatCholeskyFactorNumeric_SeqAIJKokkos(Mat B, Mat A, const MatFactorInfo *info) 2175aac854edSJunchao Zhang { 2176aac854edSJunchao Zhang PetscFunctionBegin; 2177aac854edSJunchao Zhang PetscCall(MatSeqAIJKokkosSyncHost(A)); 2178aac854edSJunchao Zhang PetscCall(MatCholeskyFactorNumeric_SeqAIJ(B, A, info)); 2179aac854edSJunchao Zhang 2180aac854edSJunchao Zhang if (!info->solveonhost) { // if solve on host, then we don't need to copy L, U to device 2181aac854edSJunchao Zhang Mat_SeqAIJKokkosTriFactors *factors = (Mat_SeqAIJKokkosTriFactors *)B->spptr; 2182aac854edSJunchao Zhang Mat_SeqAIJ *b = static_cast<Mat_SeqAIJ *>(B->data); 2183aac854edSJunchao Zhang const PetscInt *Bi = b->i, *Bj = b->j, *Bdiag = b->diag; 2184aac854edSJunchao Zhang const MatScalar *Ba = b->a; 2185aac854edSJunchao Zhang PetscInt m = B->rmap->n; 2186aac854edSJunchao Zhang 2187aac854edSJunchao Zhang if (factors->iU_h.extent(0) == 0) { // First time of numeric factorization 2188aac854edSJunchao Zhang // Allocate memory and copy the structure 2189aac854edSJunchao Zhang factors->iU_h = PetscIntKokkosViewHost(const_cast<PetscInt *>(Bi), m + 1); // wrap Bi as iU_h 2190aac854edSJunchao Zhang factors->jU_h = MatColIdxKokkosViewHost(NoInit("jU_h"), Bi[m]); 2191aac854edSJunchao Zhang factors->aU_h = MatScalarKokkosViewHost(NoInit("aU_h"), Bi[m]); 2192aac854edSJunchao Zhang factors->D_h = MatScalarKokkosViewHost(NoInit("D_h"), m); 2193aac854edSJunchao Zhang factors->aU_d = Kokkos::create_mirror_view(DefaultMemorySpace(), factors->aU_h); 2194aac854edSJunchao Zhang factors->D_d = Kokkos::create_mirror_view(DefaultMemorySpace(), factors->D_h); 2195aac854edSJunchao Zhang 2196aac854edSJunchao Zhang // Build jU_h from the skewed Aj 2197aac854edSJunchao Zhang PetscInt *Uj = factors->jU_h.data(); 2198aac854edSJunchao Zhang for (PetscInt i = 0; i < m; i++) { 2199aac854edSJunchao Zhang PetscInt ulen = Bi[i + 1] - Bi[i]; 2200aac854edSJunchao Zhang Uj[Bi[i]] = i; // diagonal entry 2201aac854edSJunchao Zhang PetscCall(PetscArraycpy(Uj + Bi[i] + 1, Bj + Bi[i], ulen - 1)); // entries of U on the right of the diagonal 2202aac854edSJunchao Zhang } 2203aac854edSJunchao Zhang 2204aac854edSJunchao Zhang // Copy iU, jU to device 2205aac854edSJunchao Zhang PetscCallCXX(factors->iU_d = Kokkos::create_mirror_view_and_copy(DefaultMemorySpace(), factors->iU_h)); 2206aac854edSJunchao Zhang PetscCallCXX(factors->jU_d = Kokkos::create_mirror_view_and_copy(DefaultMemorySpace(), factors->jU_h)); 2207aac854edSJunchao Zhang 2208aac854edSJunchao Zhang // Copy row/col permutation to device 2209aac854edSJunchao Zhang IS rowperm = ((Mat_SeqAIJ *)B->data)->row; 2210aac854edSJunchao Zhang PetscBool row_identity; 2211aac854edSJunchao Zhang PetscCall(ISIdentity(rowperm, &row_identity)); 2212aac854edSJunchao Zhang if (!row_identity) { 2213aac854edSJunchao Zhang const PetscInt *ip; 2214aac854edSJunchao Zhang 2215aac854edSJunchao Zhang PetscCall(ISGetIndices(rowperm, &ip)); 2216aac854edSJunchao Zhang PetscCallCXX(factors->rowperm = PetscIntKokkosView(NoInit("rowperm"), m)); 2217aac854edSJunchao Zhang PetscCallCXX(Kokkos::deep_copy(factors->rowperm, PetscIntKokkosViewHost(const_cast<PetscInt *>(ip), m))); 2218aac854edSJunchao Zhang PetscCall(ISRestoreIndices(rowperm, &ip)); 2219aac854edSJunchao Zhang PetscCall(PetscLogCpuToGpu(m * sizeof(PetscInt))); 2220aac854edSJunchao Zhang } 2221aac854edSJunchao Zhang 2222aac854edSJunchao Zhang // Create sptrsv handles for U and U^T 2223aac854edSJunchao Zhang #if defined(KOKKOSKERNELS_ENABLE_TPL_CUSPARSE) 2224aac854edSJunchao Zhang auto sptrsv_alg = SPTRSVAlgorithm::SPTRSV_CUSPARSE; 2225aac854edSJunchao Zhang #else 2226aac854edSJunchao Zhang auto sptrsv_alg = SPTRSVAlgorithm::SEQLVLSCHD_TP1; 2227aac854edSJunchao Zhang #endif 2228aac854edSJunchao Zhang factors->khU.create_sptrsv_handle(sptrsv_alg, m, false /* U is not lower tri */); 2229aac854edSJunchao Zhang factors->khUt.create_sptrsv_handle(sptrsv_alg, m, true /* U^T is lower tri */); 2230aac854edSJunchao Zhang } 2231aac854edSJunchao Zhang // These pointers were set MatCholeskyFactorNumeric_SeqAIJ(), so we always need to update them 2232aac854edSJunchao Zhang B->ops->solve = MatSolve_SeqAIJKokkos_Cholesky; 2233aac854edSJunchao Zhang B->ops->solvetranspose = MatSolve_SeqAIJKokkos_Cholesky; 2234aac854edSJunchao Zhang 2235aac854edSJunchao Zhang // Copy the value 2236aac854edSJunchao Zhang PetscScalar *Ua = factors->aU_h.data(); 2237aac854edSJunchao Zhang PetscScalar *D = factors->D_h.data(); 2238aac854edSJunchao Zhang for (PetscInt i = 0; i < m; i++) { 2239aac854edSJunchao Zhang D[i] = Ba[Bdiag[i]]; // actually Aa[Adiag[i]] is the inverse of the diagonal 2240aac854edSJunchao Zhang Ua[Bi[i]] = (PetscScalar)1.0; // set the unit diagonal for U 2241aac854edSJunchao Zhang for (PetscInt k = 0; k < Bi[i + 1] - Bi[i] - 1; k++) Ua[Bi[i] + 1 + k] = -Ba[Bi[i] + k]; 2242aac854edSJunchao Zhang } 2243aac854edSJunchao Zhang PetscCallCXX(Kokkos::deep_copy(factors->aU_d, factors->aU_h)); 2244aac854edSJunchao Zhang PetscCallCXX(Kokkos::deep_copy(factors->D_d, factors->D_h)); 2245aac854edSJunchao Zhang 2246aac854edSJunchao Zhang factors->sptrsv_symbolic_completed = PETSC_FALSE; // When numeric value changed, we must do these again 2247aac854edSJunchao Zhang factors->transpose_updated = PETSC_FALSE; 2248aac854edSJunchao Zhang } 2249aac854edSJunchao Zhang 2250aac854edSJunchao Zhang B->ops->matsolve = NULL; 2251aac854edSJunchao Zhang B->ops->matsolvetranspose = NULL; 2252aac854edSJunchao Zhang PetscFunctionReturn(PETSC_SUCCESS); 2253aac854edSJunchao Zhang } 2254aac854edSJunchao Zhang 2255aac854edSJunchao Zhang static PetscErrorCode MatICCFactorSymbolic_SeqAIJKokkos(Mat B, Mat A, IS perm, const MatFactorInfo *info) 2256aac854edSJunchao Zhang { 2257aac854edSJunchao Zhang PetscFunctionBegin; 2258aac854edSJunchao Zhang if (info->solveonhost) { 2259aac854edSJunchao Zhang // If solve on host, we have to change the type, as eventually we need to call MatSolve_SeqSBAIJ_1_NaturalOrdering() etc. 2260aac854edSJunchao Zhang PetscCall(MatSetType(B, MATSEQSBAIJ)); 2261aac854edSJunchao Zhang PetscCall(MatSeqSBAIJSetPreallocation(B, 1, MAT_SKIP_ALLOCATION, NULL)); 2262aac854edSJunchao Zhang } 2263aac854edSJunchao Zhang 2264aac854edSJunchao Zhang PetscCall(MatICCFactorSymbolic_SeqAIJ(B, A, perm, info)); 2265aac854edSJunchao Zhang 2266aac854edSJunchao Zhang if (!info->solveonhost) { 2267bfe80ac4SPierre Jolivet // If solve on device, B is still a MATSEQAIJKOKKOS, so we are good to allocate B->spptr 2268aac854edSJunchao Zhang PetscCheck(!B->spptr, PETSC_COMM_SELF, PETSC_ERR_ARG_WRONGSTATE, "Expected a NULL spptr"); 2269aac854edSJunchao Zhang PetscCallCXX(B->spptr = new Mat_SeqAIJKokkosTriFactors(B->rmap->n)); 2270aac854edSJunchao Zhang B->ops->choleskyfactornumeric = MatCholeskyFactorNumeric_SeqAIJKokkos; 2271aac854edSJunchao Zhang } 2272aac854edSJunchao Zhang PetscFunctionReturn(PETSC_SUCCESS); 2273aac854edSJunchao Zhang } 2274aac854edSJunchao Zhang 2275aac854edSJunchao Zhang static PetscErrorCode MatCholeskyFactorSymbolic_SeqAIJKokkos(Mat B, Mat A, IS perm, const MatFactorInfo *info) 2276aac854edSJunchao Zhang { 2277aac854edSJunchao Zhang PetscFunctionBegin; 2278aac854edSJunchao Zhang if (info->solveonhost) { 2279aac854edSJunchao Zhang // If solve on host, we have to change the type, as eventually we need to call MatSolve_SeqSBAIJ_1_NaturalOrdering() etc. 2280aac854edSJunchao Zhang PetscCall(MatSetType(B, MATSEQSBAIJ)); 2281aac854edSJunchao Zhang PetscCall(MatSeqSBAIJSetPreallocation(B, 1, MAT_SKIP_ALLOCATION, NULL)); 2282aac854edSJunchao Zhang } 2283aac854edSJunchao Zhang 2284aac854edSJunchao Zhang PetscCall(MatCholeskyFactorSymbolic_SeqAIJ(B, A, perm, info)); // it sets B's two ISes ((Mat_SeqAIJ*)B->data)->{row, col} to perm 2285aac854edSJunchao Zhang 2286aac854edSJunchao Zhang if (!info->solveonhost) { 2287bfe80ac4SPierre Jolivet // If solve on device, B is still a MATSEQAIJKOKKOS, so we are good to allocate B->spptr 2288aac854edSJunchao Zhang PetscCheck(!B->spptr, PETSC_COMM_SELF, PETSC_ERR_ARG_WRONGSTATE, "Expected a NULL spptr"); 2289aac854edSJunchao Zhang PetscCallCXX(B->spptr = new Mat_SeqAIJKokkosTriFactors(B->rmap->n)); 2290aac854edSJunchao Zhang B->ops->choleskyfactornumeric = MatCholeskyFactorNumeric_SeqAIJKokkos; 2291aac854edSJunchao Zhang } 2292aac854edSJunchao Zhang PetscFunctionReturn(PETSC_SUCCESS); 2293aac854edSJunchao Zhang } 2294aac854edSJunchao Zhang 2295aac854edSJunchao Zhang // The _Kokkos suffix means we will use Kokkos as a solver for the SeqAIJKokkos matrix 2296aac854edSJunchao Zhang static PetscErrorCode MatFactorGetSolverType_SeqAIJKokkos_Kokkos(Mat A, MatSolverType *type) 2297d71ae5a4SJacob Faibussowitsch { 2298930e68a5SMark Adams PetscFunctionBegin; 2299930e68a5SMark Adams *type = MATSOLVERKOKKOS; 23003ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 2301930e68a5SMark Adams } 2302930e68a5SMark Adams 2303930e68a5SMark Adams /*MC 230486a27549SJunchao Zhang MATSOLVERKOKKOS = "Kokkos" - A matrix solver type providing triangular solvers for sequential matrices 230511a5261eSBarry Smith on a single GPU of type, `MATSEQAIJKOKKOS`, `MATAIJKOKKOS`. 2306930e68a5SMark Adams 2307930e68a5SMark Adams Level: beginner 2308930e68a5SMark Adams 2309e255e071SSatish Balay .seealso: [](ch_matrices), `Mat`, `PCFactorSetMatSolverType()`, `MatSolverType`, `MatCreateSeqAIJKokkos()`, `MATAIJKOKKOS` 2310930e68a5SMark Adams M*/ 231186a27549SJunchao Zhang PETSC_EXTERN PetscErrorCode MatGetFactor_SeqAIJKokkos_Kokkos(Mat A, MatFactorType ftype, Mat *B) /* MatGetFactor_<MatType>_<MatSolverType> */ 2312930e68a5SMark Adams { 2313930e68a5SMark Adams PetscInt n = A->rmap->n; 2314aac854edSJunchao Zhang MPI_Comm comm; 2315930e68a5SMark Adams 2316930e68a5SMark Adams PetscFunctionBegin; 2317aac854edSJunchao Zhang PetscCall(PetscObjectGetComm((PetscObject)A, &comm)); 2318aac854edSJunchao Zhang PetscCall(MatCreate(comm, B)); 23199566063dSJacob Faibussowitsch PetscCall(MatSetSizes(*B, n, n, n, n)); 2320aac854edSJunchao Zhang PetscCall(MatSetBlockSizesFromMats(*B, A, A)); 2321930e68a5SMark Adams (*B)->factortype = ftype; 23229566063dSJacob Faibussowitsch PetscCall(MatSetType(*B, MATSEQAIJKOKKOS)); 23239566063dSJacob Faibussowitsch PetscCall(MatSeqAIJSetPreallocation(*B, MAT_SKIP_ALLOCATION, NULL)); 2324aac854edSJunchao Zhang PetscCheck(!(*B)->spptr, PETSC_COMM_SELF, PETSC_ERR_ARG_WRONGSTATE, "Expected a NULL spptr"); 2325aac854edSJunchao Zhang 2326aac854edSJunchao Zhang if (ftype == MAT_FACTOR_LU || ftype == MAT_FACTOR_ILU || ftype == MAT_FACTOR_ILUDT) { 2327aac854edSJunchao Zhang (*B)->ops->lufactorsymbolic = MatLUFactorSymbolic_SeqAIJKokkos; 2328aac854edSJunchao Zhang (*B)->ops->ilufactorsymbolic = MatILUFactorSymbolic_SeqAIJKokkos; 2329aac854edSJunchao Zhang PetscCall(PetscStrallocpy(MATORDERINGND, (char **)&(*B)->preferredordering[MAT_FACTOR_LU])); 2330aac854edSJunchao Zhang PetscCall(PetscStrallocpy(MATORDERINGNATURAL, (char **)&(*B)->preferredordering[MAT_FACTOR_ILU])); 2331aac854edSJunchao Zhang PetscCall(PetscStrallocpy(MATORDERINGNATURAL, (char **)&(*B)->preferredordering[MAT_FACTOR_ILUDT])); 2332aac854edSJunchao Zhang } else if (ftype == MAT_FACTOR_CHOLESKY || ftype == MAT_FACTOR_ICC) { 2333aac854edSJunchao Zhang (*B)->ops->iccfactorsymbolic = MatICCFactorSymbolic_SeqAIJKokkos; 2334aac854edSJunchao Zhang (*B)->ops->choleskyfactorsymbolic = MatCholeskyFactorSymbolic_SeqAIJKokkos; 2335aac854edSJunchao Zhang PetscCall(PetscStrallocpy(MATORDERINGND, (char **)&(*B)->preferredordering[MAT_FACTOR_CHOLESKY])); 2336aac854edSJunchao Zhang PetscCall(PetscStrallocpy(MATORDERINGNATURAL, (char **)&(*B)->preferredordering[MAT_FACTOR_ICC])); 2337aac854edSJunchao Zhang } else SETERRQ(comm, PETSC_ERR_SUP, "MatFactorType %s is not supported by MatType SeqAIJKokkos", MatFactorTypes[ftype]); 2338aac854edSJunchao Zhang 2339aac854edSJunchao Zhang // The factorization can use the ordering provided in MatLUFactorSymbolic(), MatCholeskyFactorSymbolic() etc, though we do it on host 2340aac854edSJunchao Zhang (*B)->canuseordering = PETSC_TRUE; 2341aac854edSJunchao Zhang PetscCall(PetscObjectComposeFunction((PetscObject)*B, "MatFactorGetSolverType_C", MatFactorGetSolverType_SeqAIJKokkos_Kokkos)); 23423ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 2343930e68a5SMark Adams } 23448f7e8f9dSMark Adams 2345aac854edSJunchao Zhang PETSC_INTERN PetscErrorCode MatSolverTypeRegister_Kokkos(void) 2346d71ae5a4SJacob Faibussowitsch { 234786a27549SJunchao Zhang PetscFunctionBegin; 23489566063dSJacob Faibussowitsch PetscCall(MatSolverTypeRegister(MATSOLVERKOKKOS, MATSEQAIJKOKKOS, MAT_FACTOR_LU, MatGetFactor_SeqAIJKokkos_Kokkos)); 2349aac854edSJunchao Zhang PetscCall(MatSolverTypeRegister(MATSOLVERKOKKOS, MATSEQAIJKOKKOS, MAT_FACTOR_CHOLESKY, MatGetFactor_SeqAIJKokkos_Kokkos)); 23509566063dSJacob Faibussowitsch PetscCall(MatSolverTypeRegister(MATSOLVERKOKKOS, MATSEQAIJKOKKOS, MAT_FACTOR_ILU, MatGetFactor_SeqAIJKokkos_Kokkos)); 2351aac854edSJunchao Zhang PetscCall(MatSolverTypeRegister(MATSOLVERKOKKOS, MATSEQAIJKOKKOS, MAT_FACTOR_ICC, MatGetFactor_SeqAIJKokkos_Kokkos)); 23523ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 235386a27549SJunchao Zhang } 235486a27549SJunchao Zhang 2355076ba34aSJunchao Zhang /* Utility to print out a KokkosCsrMatrix for debugging */ 2356d71ae5a4SJacob Faibussowitsch PETSC_INTERN PetscErrorCode PrintCsrMatrix(const KokkosCsrMatrix &csrmat) 2357d71ae5a4SJacob Faibussowitsch { 235845402d8aSJunchao Zhang const auto &iv = Kokkos::create_mirror_view_and_copy(HostMirrorMemorySpace(), csrmat.graph.row_map); 235945402d8aSJunchao Zhang const auto &jv = Kokkos::create_mirror_view_and_copy(HostMirrorMemorySpace(), csrmat.graph.entries); 236045402d8aSJunchao Zhang const auto &av = Kokkos::create_mirror_view_and_copy(HostMirrorMemorySpace(), csrmat.values); 2361076ba34aSJunchao Zhang const PetscInt *i = iv.data(); 2362076ba34aSJunchao Zhang const PetscInt *j = jv.data(); 2363076ba34aSJunchao Zhang const PetscScalar *a = av.data(); 2364076ba34aSJunchao Zhang PetscInt m = csrmat.numRows(), n = csrmat.numCols(), nnz = csrmat.nnz(); 2365076ba34aSJunchao Zhang 2366076ba34aSJunchao Zhang PetscFunctionBegin; 23679566063dSJacob Faibussowitsch PetscCall(PetscPrintf(PETSC_COMM_SELF, "%" PetscInt_FMT " x %" PetscInt_FMT " SeqAIJKokkos, with %" PetscInt_FMT " nonzeros\n", m, n, nnz)); 2368076ba34aSJunchao Zhang for (PetscInt k = 0; k < m; k++) { 23699566063dSJacob Faibussowitsch PetscCall(PetscPrintf(PETSC_COMM_SELF, "%" PetscInt_FMT ": ", k)); 237048a46eb9SPierre Jolivet for (PetscInt p = i[k]; p < i[k + 1]; p++) PetscCall(PetscPrintf(PETSC_COMM_SELF, "%" PetscInt_FMT "(%.1f), ", j[p], (double)PetscRealPart(a[p]))); 23719566063dSJacob Faibussowitsch PetscCall(PetscPrintf(PETSC_COMM_SELF, "\n")); 2372076ba34aSJunchao Zhang } 23733ba16761SJacob Faibussowitsch PetscFunctionReturn(PETSC_SUCCESS); 2374076ba34aSJunchao Zhang } 2375