19ae82921SPaul Mullowney /* 29ae82921SPaul Mullowney Defines the basic matrix operations for the AIJ (compressed row) 3bc3f50f2SPaul Mullowney matrix storage format using the CUSPARSE library, 49ae82921SPaul Mullowney */ 5dced61a5SBarry Smith #define PETSC_SKIP_SPINLOCK 69ae82921SPaul Mullowney 73d13b8fdSMatthew G. Knepley #include <petscconf.h> 83d13b8fdSMatthew G. Knepley #include <../src/mat/impls/aij/seq/aij.h> /*I "petscmat.h" I*/ 9087f3262SPaul Mullowney #include <../src/mat/impls/sbaij/seq/sbaij.h> 103d13b8fdSMatthew G. Knepley #include <../src/vec/vec/impls/dvecimpl.h> 11af0996ceSBarry Smith #include <petsc/private/vecimpl.h> 129ae82921SPaul Mullowney #undef VecType 133d13b8fdSMatthew G. Knepley #include <../src/mat/impls/aij/seq/seqcusparse/cusparsematimpl.h> 14bc3f50f2SPaul Mullowney 15e057df02SPaul Mullowney const char *const MatCUSPARSEStorageFormats[] = {"CSR","ELL","HYB","MatCUSPARSEStorageFormat","MAT_CUSPARSE_",0}; 169ae82921SPaul Mullowney 17087f3262SPaul Mullowney static PetscErrorCode MatICCFactorSymbolic_SeqAIJCUSPARSE(Mat,Mat,IS,const MatFactorInfo*); 18087f3262SPaul Mullowney static PetscErrorCode MatCholeskyFactorSymbolic_SeqAIJCUSPARSE(Mat,Mat,IS,const MatFactorInfo*); 19087f3262SPaul Mullowney static PetscErrorCode MatCholeskyFactorNumeric_SeqAIJCUSPARSE(Mat,Mat,const MatFactorInfo*); 20087f3262SPaul Mullowney 216fa9248bSJed Brown static PetscErrorCode MatILUFactorSymbolic_SeqAIJCUSPARSE(Mat,Mat,IS,IS,const MatFactorInfo*); 226fa9248bSJed Brown static PetscErrorCode MatLUFactorSymbolic_SeqAIJCUSPARSE(Mat,Mat,IS,IS,const MatFactorInfo*); 236fa9248bSJed Brown static PetscErrorCode MatLUFactorNumeric_SeqAIJCUSPARSE(Mat,Mat,const MatFactorInfo*); 24087f3262SPaul Mullowney 256fa9248bSJed Brown static PetscErrorCode MatSolve_SeqAIJCUSPARSE(Mat,Vec,Vec); 266fa9248bSJed Brown static PetscErrorCode MatSolve_SeqAIJCUSPARSE_NaturalOrdering(Mat,Vec,Vec); 276fa9248bSJed Brown static PetscErrorCode MatSolveTranspose_SeqAIJCUSPARSE(Mat,Vec,Vec); 286fa9248bSJed Brown static PetscErrorCode MatSolveTranspose_SeqAIJCUSPARSE_NaturalOrdering(Mat,Vec,Vec); 294416b707SBarry Smith static PetscErrorCode MatSetFromOptions_SeqAIJCUSPARSE(PetscOptionItems *PetscOptionsObject,Mat); 306fa9248bSJed Brown static PetscErrorCode MatMult_SeqAIJCUSPARSE(Mat,Vec,Vec); 316fa9248bSJed Brown static PetscErrorCode MatMultAdd_SeqAIJCUSPARSE(Mat,Vec,Vec,Vec); 326fa9248bSJed Brown static PetscErrorCode MatMultTranspose_SeqAIJCUSPARSE(Mat,Vec,Vec); 336fa9248bSJed Brown static PetscErrorCode MatMultTransposeAdd_SeqAIJCUSPARSE(Mat,Vec,Vec,Vec); 349ae82921SPaul Mullowney 357f756511SDominic Meiser static PetscErrorCode CsrMatrix_Destroy(CsrMatrix**); 36470880abSPatrick Sanan static PetscErrorCode MatSeqAIJCUSPARSEMultStruct_Destroy(Mat_SeqAIJCUSPARSETriFactorStruct**); 37470880abSPatrick Sanan static PetscErrorCode MatSeqAIJCUSPARSEMultStruct_Destroy(Mat_SeqAIJCUSPARSEMultStruct**,MatCUSPARSEStorageFormat); 38470880abSPatrick Sanan static PetscErrorCode MatSeqAIJCUSPARSETriFactors_Destroy(Mat_SeqAIJCUSPARSETriFactors**); 39470880abSPatrick Sanan static PetscErrorCode MatSeqAIJCUSPARSE_Destroy(Mat_SeqAIJCUSPARSE**); 407f756511SDominic Meiser 41b06137fdSPaul Mullowney PetscErrorCode MatCUSPARSESetStream(Mat A,const cudaStream_t stream) 42b06137fdSPaul Mullowney { 43b06137fdSPaul Mullowney cusparseStatus_t stat; 44b06137fdSPaul Mullowney Mat_SeqAIJCUSPARSE *cusparsestruct = (Mat_SeqAIJCUSPARSE*)A->spptr; 45b06137fdSPaul Mullowney 46b06137fdSPaul Mullowney PetscFunctionBegin; 47b06137fdSPaul Mullowney cusparsestruct->stream = stream; 48c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetStream(cusparsestruct->handle,cusparsestruct->stream);CHKERRCUDA(stat); 49b06137fdSPaul Mullowney PetscFunctionReturn(0); 50b06137fdSPaul Mullowney } 51b06137fdSPaul Mullowney 52b06137fdSPaul Mullowney PetscErrorCode MatCUSPARSESetHandle(Mat A,const cusparseHandle_t handle) 53b06137fdSPaul Mullowney { 54b06137fdSPaul Mullowney cusparseStatus_t stat; 55b06137fdSPaul Mullowney Mat_SeqAIJCUSPARSE *cusparsestruct = (Mat_SeqAIJCUSPARSE*)A->spptr; 56b06137fdSPaul Mullowney 57b06137fdSPaul Mullowney PetscFunctionBegin; 586b1cf21dSAlejandro Lamas Daviña if (cusparsestruct->handle != handle) { 5916a2e217SAlejandro Lamas Daviña if (cusparsestruct->handle) { 60c41cb2e2SAlejandro Lamas Daviña stat = cusparseDestroy(cusparsestruct->handle);CHKERRCUDA(stat); 6116a2e217SAlejandro Lamas Daviña } 62b06137fdSPaul Mullowney cusparsestruct->handle = handle; 636b1cf21dSAlejandro Lamas Daviña } 64c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetPointerMode(cusparsestruct->handle, CUSPARSE_POINTER_MODE_DEVICE);CHKERRCUDA(stat); 65b06137fdSPaul Mullowney PetscFunctionReturn(0); 66b06137fdSPaul Mullowney } 67b06137fdSPaul Mullowney 68b06137fdSPaul Mullowney PetscErrorCode MatCUSPARSEClearHandle(Mat A) 69b06137fdSPaul Mullowney { 70b06137fdSPaul Mullowney Mat_SeqAIJCUSPARSE *cusparsestruct = (Mat_SeqAIJCUSPARSE*)A->spptr; 71b06137fdSPaul Mullowney PetscFunctionBegin; 72b06137fdSPaul Mullowney if (cusparsestruct->handle) 73b06137fdSPaul Mullowney cusparsestruct->handle = 0; 74b06137fdSPaul Mullowney PetscFunctionReturn(0); 75b06137fdSPaul Mullowney } 76b06137fdSPaul Mullowney 77ea799195SBarry Smith PetscErrorCode MatFactorGetSolverType_seqaij_cusparse(Mat A,MatSolverType *type) 789ae82921SPaul Mullowney { 799ae82921SPaul Mullowney PetscFunctionBegin; 809ae82921SPaul Mullowney *type = MATSOLVERCUSPARSE; 819ae82921SPaul Mullowney PetscFunctionReturn(0); 829ae82921SPaul Mullowney } 839ae82921SPaul Mullowney 84c708e6cdSJed Brown /*MC 85087f3262SPaul Mullowney MATSOLVERCUSPARSE = "cusparse" - A matrix type providing triangular solvers for seq matrices 86087f3262SPaul Mullowney on a single GPU of type, seqaijcusparse, aijcusparse, or seqaijcusp, aijcusp. Currently supported 87087f3262SPaul Mullowney algorithms are ILU(k) and ICC(k). Typically, deeper factorizations (larger k) results in poorer 88087f3262SPaul Mullowney performance in the triangular solves. Full LU, and Cholesky decompositions can be solved through the 89087f3262SPaul Mullowney CUSPARSE triangular solve algorithm. However, the performance can be quite poor and thus these 90087f3262SPaul Mullowney algorithms are not recommended. This class does NOT support direct solver operations. 91c708e6cdSJed Brown 929ae82921SPaul Mullowney Level: beginner 93c708e6cdSJed Brown 943ca39a21SBarry Smith .seealso: PCFactorSetMatSolverType(), MatSolverType, MatCreateSeqAIJCUSPARSE(), MATAIJCUSPARSE, MatCreateAIJCUSPARSE(), MatCUSPARSESetFormat(), MatCUSPARSEStorageFormat, MatCUSPARSEFormatOperation 95c708e6cdSJed Brown M*/ 969ae82921SPaul Mullowney 9742c9c57cSBarry Smith PETSC_EXTERN PetscErrorCode MatGetFactor_seqaijcusparse_cusparse(Mat A,MatFactorType ftype,Mat *B) 989ae82921SPaul Mullowney { 999ae82921SPaul Mullowney PetscErrorCode ierr; 100bc3f50f2SPaul Mullowney PetscInt n = A->rmap->n; 1019ae82921SPaul Mullowney 1029ae82921SPaul Mullowney PetscFunctionBegin; 103bc3f50f2SPaul Mullowney ierr = MatCreate(PetscObjectComm((PetscObject)A),B);CHKERRQ(ierr); 104404133a2SPaul Mullowney (*B)->factortype = ftype; 105bc3f50f2SPaul Mullowney ierr = MatSetSizes(*B,n,n,n,n);CHKERRQ(ierr); 1069ae82921SPaul Mullowney ierr = MatSetType(*B,MATSEQAIJCUSPARSE);CHKERRQ(ierr); 1072205254eSKarl Rupp 108087f3262SPaul Mullowney if (ftype == MAT_FACTOR_LU || ftype == MAT_FACTOR_ILU || ftype == MAT_FACTOR_ILUDT) { 10933d57670SJed Brown ierr = MatSetBlockSizesFromMats(*B,A,A);CHKERRQ(ierr); 1109ae82921SPaul Mullowney (*B)->ops->ilufactorsymbolic = MatILUFactorSymbolic_SeqAIJCUSPARSE; 1119ae82921SPaul Mullowney (*B)->ops->lufactorsymbolic = MatLUFactorSymbolic_SeqAIJCUSPARSE; 112087f3262SPaul Mullowney } else if (ftype == MAT_FACTOR_CHOLESKY || ftype == MAT_FACTOR_ICC) { 113087f3262SPaul Mullowney (*B)->ops->iccfactorsymbolic = MatICCFactorSymbolic_SeqAIJCUSPARSE; 114087f3262SPaul Mullowney (*B)->ops->choleskyfactorsymbolic = MatCholeskyFactorSymbolic_SeqAIJCUSPARSE; 1159ae82921SPaul Mullowney } else SETERRQ(PETSC_COMM_SELF,PETSC_ERR_SUP,"Factor type not supported for CUSPARSE Matrix Types"); 116bc3f50f2SPaul Mullowney 117fa03d054SJed Brown ierr = MatSeqAIJSetPreallocation(*B,MAT_SKIP_ALLOCATION,NULL);CHKERRQ(ierr); 1183ca39a21SBarry Smith ierr = PetscObjectComposeFunction((PetscObject)(*B),"MatFactorGetSolverType_C",MatFactorGetSolverType_seqaij_cusparse);CHKERRQ(ierr); 1199ae82921SPaul Mullowney PetscFunctionReturn(0); 1209ae82921SPaul Mullowney } 1219ae82921SPaul Mullowney 122bc3f50f2SPaul Mullowney PETSC_INTERN PetscErrorCode MatCUSPARSESetFormat_SeqAIJCUSPARSE(Mat A,MatCUSPARSEFormatOperation op,MatCUSPARSEStorageFormat format) 123ca45077fSPaul Mullowney { 124aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSE *cusparsestruct = (Mat_SeqAIJCUSPARSE*)A->spptr; 1256e111a19SKarl Rupp 126ca45077fSPaul Mullowney PetscFunctionBegin; 1272692e278SPaul Mullowney #if CUDA_VERSION>=4020 128ca45077fSPaul Mullowney switch (op) { 129e057df02SPaul Mullowney case MAT_CUSPARSE_MULT: 130aa372e3fSPaul Mullowney cusparsestruct->format = format; 131ca45077fSPaul Mullowney break; 132e057df02SPaul Mullowney case MAT_CUSPARSE_ALL: 133aa372e3fSPaul Mullowney cusparsestruct->format = format; 134ca45077fSPaul Mullowney break; 135ca45077fSPaul Mullowney default: 13636d62e41SPaul Mullowney SETERRQ1(PETSC_COMM_SELF,PETSC_ERR_SUP,"unsupported operation %d for MatCUSPARSEFormatOperation. MAT_CUSPARSE_MULT and MAT_CUSPARSE_ALL are currently supported.",op); 137ca45077fSPaul Mullowney } 1382692e278SPaul Mullowney #else 1396c4ed002SBarry Smith if (format==MAT_CUSPARSE_ELL || format==MAT_CUSPARSE_HYB) SETERRQ(PETSC_COMM_SELF,PETSC_ERR_SUP,"ELL (Ellpack) and HYB (Hybrid) storage format require CUDA 4.2 or later."); 1402692e278SPaul Mullowney #endif 141ca45077fSPaul Mullowney PetscFunctionReturn(0); 142ca45077fSPaul Mullowney } 1439ae82921SPaul Mullowney 144e057df02SPaul Mullowney /*@ 145e057df02SPaul Mullowney MatCUSPARSESetFormat - Sets the storage format of CUSPARSE matrices for a particular 146e057df02SPaul Mullowney operation. Only the MatMult operation can use different GPU storage formats 147aa372e3fSPaul Mullowney for MPIAIJCUSPARSE matrices. 148e057df02SPaul Mullowney Not Collective 149e057df02SPaul Mullowney 150e057df02SPaul Mullowney Input Parameters: 1518468deeeSKarl Rupp + A - Matrix of type SEQAIJCUSPARSE 15236d62e41SPaul Mullowney . op - MatCUSPARSEFormatOperation. SEQAIJCUSPARSE matrices support MAT_CUSPARSE_MULT and MAT_CUSPARSE_ALL. MPIAIJCUSPARSE matrices support MAT_CUSPARSE_MULT_DIAG, MAT_CUSPARSE_MULT_OFFDIAG, and MAT_CUSPARSE_ALL. 1532692e278SPaul Mullowney - format - MatCUSPARSEStorageFormat (one of MAT_CUSPARSE_CSR, MAT_CUSPARSE_ELL, MAT_CUSPARSE_HYB. The latter two require CUDA 4.2) 154e057df02SPaul Mullowney 155e057df02SPaul Mullowney Output Parameter: 156e057df02SPaul Mullowney 157e057df02SPaul Mullowney Level: intermediate 158e057df02SPaul Mullowney 1598468deeeSKarl Rupp .seealso: MatCUSPARSEStorageFormat, MatCUSPARSEFormatOperation 160e057df02SPaul Mullowney @*/ 161e057df02SPaul Mullowney PetscErrorCode MatCUSPARSESetFormat(Mat A,MatCUSPARSEFormatOperation op,MatCUSPARSEStorageFormat format) 162e057df02SPaul Mullowney { 163e057df02SPaul Mullowney PetscErrorCode ierr; 1646e111a19SKarl Rupp 165e057df02SPaul Mullowney PetscFunctionBegin; 166e057df02SPaul Mullowney PetscValidHeaderSpecific(A, MAT_CLASSID,1); 167e057df02SPaul Mullowney ierr = PetscTryMethod(A, "MatCUSPARSESetFormat_C",(Mat,MatCUSPARSEFormatOperation,MatCUSPARSEStorageFormat),(A,op,format));CHKERRQ(ierr); 168e057df02SPaul Mullowney PetscFunctionReturn(0); 169e057df02SPaul Mullowney } 170e057df02SPaul Mullowney 1714416b707SBarry Smith static PetscErrorCode MatSetFromOptions_SeqAIJCUSPARSE(PetscOptionItems *PetscOptionsObject,Mat A) 1729ae82921SPaul Mullowney { 1739ae82921SPaul Mullowney PetscErrorCode ierr; 174e057df02SPaul Mullowney MatCUSPARSEStorageFormat format; 1759ae82921SPaul Mullowney PetscBool flg; 176a183c035SDominic Meiser Mat_SeqAIJCUSPARSE *cusparsestruct = (Mat_SeqAIJCUSPARSE*)A->spptr; 1776e111a19SKarl Rupp 1789ae82921SPaul Mullowney PetscFunctionBegin; 179e55864a3SBarry Smith ierr = PetscOptionsHead(PetscOptionsObject,"SeqAIJCUSPARSE options");CHKERRQ(ierr); 180e057df02SPaul Mullowney ierr = PetscObjectOptionsBegin((PetscObject)A); 1819ae82921SPaul Mullowney if (A->factortype==MAT_FACTOR_NONE) { 182e057df02SPaul Mullowney ierr = PetscOptionsEnum("-mat_cusparse_mult_storage_format","sets storage format of (seq)aijcusparse gpu matrices for SpMV", 183a183c035SDominic Meiser "MatCUSPARSESetFormat",MatCUSPARSEStorageFormats,(PetscEnum)cusparsestruct->format,(PetscEnum*)&format,&flg);CHKERRQ(ierr); 184e057df02SPaul Mullowney if (flg) { 185e057df02SPaul Mullowney ierr = MatCUSPARSESetFormat(A,MAT_CUSPARSE_MULT,format);CHKERRQ(ierr); 186045c96e1SPaul Mullowney } 1879ae82921SPaul Mullowney } 1884c87dfd4SPaul Mullowney ierr = PetscOptionsEnum("-mat_cusparse_storage_format","sets storage format of (seq)aijcusparse gpu matrices for SpMV and TriSolve", 189a183c035SDominic Meiser "MatCUSPARSESetFormat",MatCUSPARSEStorageFormats,(PetscEnum)cusparsestruct->format,(PetscEnum*)&format,&flg);CHKERRQ(ierr); 1904c87dfd4SPaul Mullowney if (flg) { 1914c87dfd4SPaul Mullowney ierr = MatCUSPARSESetFormat(A,MAT_CUSPARSE_ALL,format);CHKERRQ(ierr); 1924c87dfd4SPaul Mullowney } 1939ae82921SPaul Mullowney ierr = PetscOptionsEnd();CHKERRQ(ierr); 1949ae82921SPaul Mullowney PetscFunctionReturn(0); 1959ae82921SPaul Mullowney 1969ae82921SPaul Mullowney } 1979ae82921SPaul Mullowney 1986fa9248bSJed Brown static PetscErrorCode MatILUFactorSymbolic_SeqAIJCUSPARSE(Mat B,Mat A,IS isrow,IS iscol,const MatFactorInfo *info) 1999ae82921SPaul Mullowney { 2009ae82921SPaul Mullowney PetscErrorCode ierr; 2019ae82921SPaul Mullowney 2029ae82921SPaul Mullowney PetscFunctionBegin; 2039ae82921SPaul Mullowney ierr = MatILUFactorSymbolic_SeqAIJ(B,A,isrow,iscol,info);CHKERRQ(ierr); 2049ae82921SPaul Mullowney B->ops->lufactornumeric = MatLUFactorNumeric_SeqAIJCUSPARSE; 2059ae82921SPaul Mullowney PetscFunctionReturn(0); 2069ae82921SPaul Mullowney } 2079ae82921SPaul Mullowney 2086fa9248bSJed Brown static PetscErrorCode MatLUFactorSymbolic_SeqAIJCUSPARSE(Mat B,Mat A,IS isrow,IS iscol,const MatFactorInfo *info) 2099ae82921SPaul Mullowney { 2109ae82921SPaul Mullowney PetscErrorCode ierr; 2119ae82921SPaul Mullowney 2129ae82921SPaul Mullowney PetscFunctionBegin; 2139ae82921SPaul Mullowney ierr = MatLUFactorSymbolic_SeqAIJ(B,A,isrow,iscol,info);CHKERRQ(ierr); 2149ae82921SPaul Mullowney B->ops->lufactornumeric = MatLUFactorNumeric_SeqAIJCUSPARSE; 2159ae82921SPaul Mullowney PetscFunctionReturn(0); 2169ae82921SPaul Mullowney } 2179ae82921SPaul Mullowney 218087f3262SPaul Mullowney static PetscErrorCode MatICCFactorSymbolic_SeqAIJCUSPARSE(Mat B,Mat A,IS perm,const MatFactorInfo *info) 219087f3262SPaul Mullowney { 220087f3262SPaul Mullowney PetscErrorCode ierr; 221087f3262SPaul Mullowney 222087f3262SPaul Mullowney PetscFunctionBegin; 223087f3262SPaul Mullowney ierr = MatICCFactorSymbolic_SeqAIJ(B,A,perm,info);CHKERRQ(ierr); 224087f3262SPaul Mullowney B->ops->choleskyfactornumeric = MatCholeskyFactorNumeric_SeqAIJCUSPARSE; 225087f3262SPaul Mullowney PetscFunctionReturn(0); 226087f3262SPaul Mullowney } 227087f3262SPaul Mullowney 228087f3262SPaul Mullowney static PetscErrorCode MatCholeskyFactorSymbolic_SeqAIJCUSPARSE(Mat B,Mat A,IS perm,const MatFactorInfo *info) 229087f3262SPaul Mullowney { 230087f3262SPaul Mullowney PetscErrorCode ierr; 231087f3262SPaul Mullowney 232087f3262SPaul Mullowney PetscFunctionBegin; 233087f3262SPaul Mullowney ierr = MatCholeskyFactorSymbolic_SeqAIJ(B,A,perm,info);CHKERRQ(ierr); 234087f3262SPaul Mullowney B->ops->choleskyfactornumeric = MatCholeskyFactorNumeric_SeqAIJCUSPARSE; 235087f3262SPaul Mullowney PetscFunctionReturn(0); 236087f3262SPaul Mullowney } 237087f3262SPaul Mullowney 238087f3262SPaul Mullowney static PetscErrorCode MatSeqAIJCUSPARSEBuildILULowerTriMatrix(Mat A) 2399ae82921SPaul Mullowney { 2409ae82921SPaul Mullowney Mat_SeqAIJ *a = (Mat_SeqAIJ*)A->data; 2419ae82921SPaul Mullowney PetscInt n = A->rmap->n; 2429ae82921SPaul Mullowney Mat_SeqAIJCUSPARSETriFactors *cusparseTriFactors = (Mat_SeqAIJCUSPARSETriFactors*)A->spptr; 243aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSETriFactorStruct *loTriFactor = (Mat_SeqAIJCUSPARSETriFactorStruct*)cusparseTriFactors->loTriFactorPtr; 2449ae82921SPaul Mullowney cusparseStatus_t stat; 2459ae82921SPaul Mullowney const PetscInt *ai = a->i,*aj = a->j,*vi; 2469ae82921SPaul Mullowney const MatScalar *aa = a->a,*v; 2479ae82921SPaul Mullowney PetscInt *AiLo, *AjLo; 2489ae82921SPaul Mullowney PetscScalar *AALo; 2499ae82921SPaul Mullowney PetscInt i,nz, nzLower, offset, rowOffset; 250b175d8bbSPaul Mullowney PetscErrorCode ierr; 2519ae82921SPaul Mullowney 2529ae82921SPaul Mullowney PetscFunctionBegin; 253b8ced49eSKarl Rupp if (A->valid_GPU_matrix == PETSC_OFFLOAD_UNALLOCATED || A->valid_GPU_matrix == PETSC_OFFLOAD_CPU) { 2549ae82921SPaul Mullowney try { 2559ae82921SPaul Mullowney /* first figure out the number of nonzeros in the lower triangular matrix including 1's on the diagonal. */ 2569ae82921SPaul Mullowney nzLower=n+ai[n]-ai[1]; 2579ae82921SPaul Mullowney 2589ae82921SPaul Mullowney /* Allocate Space for the lower triangular matrix */ 259c41cb2e2SAlejandro Lamas Daviña ierr = cudaMallocHost((void**) &AiLo, (n+1)*sizeof(PetscInt));CHKERRCUDA(ierr); 260c41cb2e2SAlejandro Lamas Daviña ierr = cudaMallocHost((void**) &AjLo, nzLower*sizeof(PetscInt));CHKERRCUDA(ierr); 261c41cb2e2SAlejandro Lamas Daviña ierr = cudaMallocHost((void**) &AALo, nzLower*sizeof(PetscScalar));CHKERRCUDA(ierr); 2629ae82921SPaul Mullowney 2639ae82921SPaul Mullowney /* Fill the lower triangular matrix */ 2649ae82921SPaul Mullowney AiLo[0] = (PetscInt) 0; 2659ae82921SPaul Mullowney AiLo[n] = nzLower; 2669ae82921SPaul Mullowney AjLo[0] = (PetscInt) 0; 2679ae82921SPaul Mullowney AALo[0] = (MatScalar) 1.0; 2689ae82921SPaul Mullowney v = aa; 2699ae82921SPaul Mullowney vi = aj; 2709ae82921SPaul Mullowney offset = 1; 2719ae82921SPaul Mullowney rowOffset= 1; 2729ae82921SPaul Mullowney for (i=1; i<n; i++) { 2739ae82921SPaul Mullowney nz = ai[i+1] - ai[i]; 274e057df02SPaul Mullowney /* additional 1 for the term on the diagonal */ 2759ae82921SPaul Mullowney AiLo[i] = rowOffset; 2769ae82921SPaul Mullowney rowOffset += nz+1; 2779ae82921SPaul Mullowney 2789ae82921SPaul Mullowney ierr = PetscMemcpy(&(AjLo[offset]), vi, nz*sizeof(PetscInt));CHKERRQ(ierr); 2799ae82921SPaul Mullowney ierr = PetscMemcpy(&(AALo[offset]), v, nz*sizeof(PetscScalar));CHKERRQ(ierr); 2809ae82921SPaul Mullowney 2819ae82921SPaul Mullowney offset += nz; 2829ae82921SPaul Mullowney AjLo[offset] = (PetscInt) i; 2839ae82921SPaul Mullowney AALo[offset] = (MatScalar) 1.0; 2849ae82921SPaul Mullowney offset += 1; 2859ae82921SPaul Mullowney 2869ae82921SPaul Mullowney v += nz; 2879ae82921SPaul Mullowney vi += nz; 2889ae82921SPaul Mullowney } 2892205254eSKarl Rupp 290aa372e3fSPaul Mullowney /* allocate space for the triangular factor information */ 291aa372e3fSPaul Mullowney loTriFactor = new Mat_SeqAIJCUSPARSETriFactorStruct; 2922205254eSKarl Rupp 293aa372e3fSPaul Mullowney /* Create the matrix description */ 294c41cb2e2SAlejandro Lamas Daviña stat = cusparseCreateMatDescr(&loTriFactor->descr);CHKERRCUDA(stat); 295c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatIndexBase(loTriFactor->descr, CUSPARSE_INDEX_BASE_ZERO);CHKERRCUDA(stat); 296c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatType(loTriFactor->descr, CUSPARSE_MATRIX_TYPE_TRIANGULAR);CHKERRCUDA(stat); 297c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatFillMode(loTriFactor->descr, CUSPARSE_FILL_MODE_LOWER);CHKERRCUDA(stat); 298c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatDiagType(loTriFactor->descr, CUSPARSE_DIAG_TYPE_UNIT);CHKERRCUDA(stat); 299aa372e3fSPaul Mullowney 300aa372e3fSPaul Mullowney /* Create the solve analysis information */ 301c41cb2e2SAlejandro Lamas Daviña stat = cusparseCreateSolveAnalysisInfo(&loTriFactor->solveInfo);CHKERRCUDA(stat); 302aa372e3fSPaul Mullowney 303aa372e3fSPaul Mullowney /* set the operation */ 304aa372e3fSPaul Mullowney loTriFactor->solveOp = CUSPARSE_OPERATION_NON_TRANSPOSE; 305aa372e3fSPaul Mullowney 306aa372e3fSPaul Mullowney /* set the matrix */ 307aa372e3fSPaul Mullowney loTriFactor->csrMat = new CsrMatrix; 308aa372e3fSPaul Mullowney loTriFactor->csrMat->num_rows = n; 309aa372e3fSPaul Mullowney loTriFactor->csrMat->num_cols = n; 310aa372e3fSPaul Mullowney loTriFactor->csrMat->num_entries = nzLower; 311aa372e3fSPaul Mullowney 312aa372e3fSPaul Mullowney loTriFactor->csrMat->row_offsets = new THRUSTINTARRAY32(n+1); 313aa372e3fSPaul Mullowney loTriFactor->csrMat->row_offsets->assign(AiLo, AiLo+n+1); 314aa372e3fSPaul Mullowney 315aa372e3fSPaul Mullowney loTriFactor->csrMat->column_indices = new THRUSTINTARRAY32(nzLower); 316aa372e3fSPaul Mullowney loTriFactor->csrMat->column_indices->assign(AjLo, AjLo+nzLower); 317aa372e3fSPaul Mullowney 318aa372e3fSPaul Mullowney loTriFactor->csrMat->values = new THRUSTARRAY(nzLower); 319aa372e3fSPaul Mullowney loTriFactor->csrMat->values->assign(AALo, AALo+nzLower); 320aa372e3fSPaul Mullowney 321aa372e3fSPaul Mullowney /* perform the solve analysis */ 322aa372e3fSPaul Mullowney stat = cusparse_analysis(cusparseTriFactors->handle, loTriFactor->solveOp, 323aa372e3fSPaul Mullowney loTriFactor->csrMat->num_rows, loTriFactor->csrMat->num_entries, loTriFactor->descr, 324aa372e3fSPaul Mullowney loTriFactor->csrMat->values->data().get(), loTriFactor->csrMat->row_offsets->data().get(), 325c41cb2e2SAlejandro Lamas Daviña loTriFactor->csrMat->column_indices->data().get(), loTriFactor->solveInfo);CHKERRCUDA(stat); 326aa372e3fSPaul Mullowney 327aa372e3fSPaul Mullowney /* assign the pointer. Is this really necessary? */ 328aa372e3fSPaul Mullowney ((Mat_SeqAIJCUSPARSETriFactors*)A->spptr)->loTriFactorPtr = loTriFactor; 3292205254eSKarl Rupp 330c41cb2e2SAlejandro Lamas Daviña ierr = cudaFreeHost(AiLo);CHKERRCUDA(ierr); 331c41cb2e2SAlejandro Lamas Daviña ierr = cudaFreeHost(AjLo);CHKERRCUDA(ierr); 332c41cb2e2SAlejandro Lamas Daviña ierr = cudaFreeHost(AALo);CHKERRCUDA(ierr); 3339ae82921SPaul Mullowney } catch(char *ex) { 3349ae82921SPaul Mullowney SETERRQ1(PETSC_COMM_SELF,PETSC_ERR_LIB,"CUSPARSE error: %s", ex); 3359ae82921SPaul Mullowney } 3369ae82921SPaul Mullowney } 3379ae82921SPaul Mullowney PetscFunctionReturn(0); 3389ae82921SPaul Mullowney } 3399ae82921SPaul Mullowney 340087f3262SPaul Mullowney static PetscErrorCode MatSeqAIJCUSPARSEBuildILUUpperTriMatrix(Mat A) 3419ae82921SPaul Mullowney { 3429ae82921SPaul Mullowney Mat_SeqAIJ *a = (Mat_SeqAIJ*)A->data; 3439ae82921SPaul Mullowney PetscInt n = A->rmap->n; 3449ae82921SPaul Mullowney Mat_SeqAIJCUSPARSETriFactors *cusparseTriFactors = (Mat_SeqAIJCUSPARSETriFactors*)A->spptr; 345aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSETriFactorStruct *upTriFactor = (Mat_SeqAIJCUSPARSETriFactorStruct*)cusparseTriFactors->upTriFactorPtr; 3469ae82921SPaul Mullowney cusparseStatus_t stat; 3479ae82921SPaul Mullowney const PetscInt *aj = a->j,*adiag = a->diag,*vi; 3489ae82921SPaul Mullowney const MatScalar *aa = a->a,*v; 3499ae82921SPaul Mullowney PetscInt *AiUp, *AjUp; 3509ae82921SPaul Mullowney PetscScalar *AAUp; 3519ae82921SPaul Mullowney PetscInt i,nz, nzUpper, offset; 3529ae82921SPaul Mullowney PetscErrorCode ierr; 3539ae82921SPaul Mullowney 3549ae82921SPaul Mullowney PetscFunctionBegin; 355b8ced49eSKarl Rupp if (A->valid_GPU_matrix == PETSC_OFFLOAD_UNALLOCATED || A->valid_GPU_matrix == PETSC_OFFLOAD_CPU) { 3569ae82921SPaul Mullowney try { 3579ae82921SPaul Mullowney /* next, figure out the number of nonzeros in the upper triangular matrix. */ 3589ae82921SPaul Mullowney nzUpper = adiag[0]-adiag[n]; 3599ae82921SPaul Mullowney 3609ae82921SPaul Mullowney /* Allocate Space for the upper triangular matrix */ 361c41cb2e2SAlejandro Lamas Daviña ierr = cudaMallocHost((void**) &AiUp, (n+1)*sizeof(PetscInt));CHKERRCUDA(ierr); 362c41cb2e2SAlejandro Lamas Daviña ierr = cudaMallocHost((void**) &AjUp, nzUpper*sizeof(PetscInt));CHKERRCUDA(ierr); 363c41cb2e2SAlejandro Lamas Daviña ierr = cudaMallocHost((void**) &AAUp, nzUpper*sizeof(PetscScalar));CHKERRCUDA(ierr); 3649ae82921SPaul Mullowney 3659ae82921SPaul Mullowney /* Fill the upper triangular matrix */ 3669ae82921SPaul Mullowney AiUp[0]=(PetscInt) 0; 3679ae82921SPaul Mullowney AiUp[n]=nzUpper; 3689ae82921SPaul Mullowney offset = nzUpper; 3699ae82921SPaul Mullowney for (i=n-1; i>=0; i--) { 3709ae82921SPaul Mullowney v = aa + adiag[i+1] + 1; 3719ae82921SPaul Mullowney vi = aj + adiag[i+1] + 1; 3729ae82921SPaul Mullowney 373e057df02SPaul Mullowney /* number of elements NOT on the diagonal */ 3749ae82921SPaul Mullowney nz = adiag[i] - adiag[i+1]-1; 3759ae82921SPaul Mullowney 376e057df02SPaul Mullowney /* decrement the offset */ 3779ae82921SPaul Mullowney offset -= (nz+1); 3789ae82921SPaul Mullowney 379e057df02SPaul Mullowney /* first, set the diagonal elements */ 3809ae82921SPaul Mullowney AjUp[offset] = (PetscInt) i; 38109f51544SAlejandro Lamas Daviña AAUp[offset] = (MatScalar)1./v[nz]; 3829ae82921SPaul Mullowney AiUp[i] = AiUp[i+1] - (nz+1); 3839ae82921SPaul Mullowney 3849ae82921SPaul Mullowney ierr = PetscMemcpy(&(AjUp[offset+1]), vi, nz*sizeof(PetscInt));CHKERRQ(ierr); 3859ae82921SPaul Mullowney ierr = PetscMemcpy(&(AAUp[offset+1]), v, nz*sizeof(PetscScalar));CHKERRQ(ierr); 3869ae82921SPaul Mullowney } 3872205254eSKarl Rupp 388aa372e3fSPaul Mullowney /* allocate space for the triangular factor information */ 389aa372e3fSPaul Mullowney upTriFactor = new Mat_SeqAIJCUSPARSETriFactorStruct; 3902205254eSKarl Rupp 391aa372e3fSPaul Mullowney /* Create the matrix description */ 392c41cb2e2SAlejandro Lamas Daviña stat = cusparseCreateMatDescr(&upTriFactor->descr);CHKERRCUDA(stat); 393c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatIndexBase(upTriFactor->descr, CUSPARSE_INDEX_BASE_ZERO);CHKERRCUDA(stat); 394c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatType(upTriFactor->descr, CUSPARSE_MATRIX_TYPE_TRIANGULAR);CHKERRCUDA(stat); 395c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatFillMode(upTriFactor->descr, CUSPARSE_FILL_MODE_UPPER);CHKERRCUDA(stat); 396c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatDiagType(upTriFactor->descr, CUSPARSE_DIAG_TYPE_NON_UNIT);CHKERRCUDA(stat); 397aa372e3fSPaul Mullowney 398aa372e3fSPaul Mullowney /* Create the solve analysis information */ 399c41cb2e2SAlejandro Lamas Daviña stat = cusparseCreateSolveAnalysisInfo(&upTriFactor->solveInfo);CHKERRCUDA(stat); 400aa372e3fSPaul Mullowney 401aa372e3fSPaul Mullowney /* set the operation */ 402aa372e3fSPaul Mullowney upTriFactor->solveOp = CUSPARSE_OPERATION_NON_TRANSPOSE; 403aa372e3fSPaul Mullowney 404aa372e3fSPaul Mullowney /* set the matrix */ 405aa372e3fSPaul Mullowney upTriFactor->csrMat = new CsrMatrix; 406aa372e3fSPaul Mullowney upTriFactor->csrMat->num_rows = n; 407aa372e3fSPaul Mullowney upTriFactor->csrMat->num_cols = n; 408aa372e3fSPaul Mullowney upTriFactor->csrMat->num_entries = nzUpper; 409aa372e3fSPaul Mullowney 410aa372e3fSPaul Mullowney upTriFactor->csrMat->row_offsets = new THRUSTINTARRAY32(n+1); 411aa372e3fSPaul Mullowney upTriFactor->csrMat->row_offsets->assign(AiUp, AiUp+n+1); 412aa372e3fSPaul Mullowney 413aa372e3fSPaul Mullowney upTriFactor->csrMat->column_indices = new THRUSTINTARRAY32(nzUpper); 414aa372e3fSPaul Mullowney upTriFactor->csrMat->column_indices->assign(AjUp, AjUp+nzUpper); 415aa372e3fSPaul Mullowney 416aa372e3fSPaul Mullowney upTriFactor->csrMat->values = new THRUSTARRAY(nzUpper); 417aa372e3fSPaul Mullowney upTriFactor->csrMat->values->assign(AAUp, AAUp+nzUpper); 418aa372e3fSPaul Mullowney 419aa372e3fSPaul Mullowney /* perform the solve analysis */ 420aa372e3fSPaul Mullowney stat = cusparse_analysis(cusparseTriFactors->handle, upTriFactor->solveOp, 421aa372e3fSPaul Mullowney upTriFactor->csrMat->num_rows, upTriFactor->csrMat->num_entries, upTriFactor->descr, 422aa372e3fSPaul Mullowney upTriFactor->csrMat->values->data().get(), upTriFactor->csrMat->row_offsets->data().get(), 423c41cb2e2SAlejandro Lamas Daviña upTriFactor->csrMat->column_indices->data().get(), upTriFactor->solveInfo);CHKERRCUDA(stat); 424aa372e3fSPaul Mullowney 425aa372e3fSPaul Mullowney /* assign the pointer. Is this really necessary? */ 426aa372e3fSPaul Mullowney ((Mat_SeqAIJCUSPARSETriFactors*)A->spptr)->upTriFactorPtr = upTriFactor; 4272205254eSKarl Rupp 428c41cb2e2SAlejandro Lamas Daviña ierr = cudaFreeHost(AiUp);CHKERRCUDA(ierr); 429c41cb2e2SAlejandro Lamas Daviña ierr = cudaFreeHost(AjUp);CHKERRCUDA(ierr); 430c41cb2e2SAlejandro Lamas Daviña ierr = cudaFreeHost(AAUp);CHKERRCUDA(ierr); 4319ae82921SPaul Mullowney } catch(char *ex) { 4329ae82921SPaul Mullowney SETERRQ1(PETSC_COMM_SELF,PETSC_ERR_LIB,"CUSPARSE error: %s", ex); 4339ae82921SPaul Mullowney } 4349ae82921SPaul Mullowney } 4359ae82921SPaul Mullowney PetscFunctionReturn(0); 4369ae82921SPaul Mullowney } 4379ae82921SPaul Mullowney 438087f3262SPaul Mullowney static PetscErrorCode MatSeqAIJCUSPARSEILUAnalysisAndCopyToGPU(Mat A) 4399ae82921SPaul Mullowney { 4409ae82921SPaul Mullowney PetscErrorCode ierr; 4419ae82921SPaul Mullowney Mat_SeqAIJ *a = (Mat_SeqAIJ*)A->data; 4429ae82921SPaul Mullowney Mat_SeqAIJCUSPARSETriFactors *cusparseTriFactors = (Mat_SeqAIJCUSPARSETriFactors*)A->spptr; 4439ae82921SPaul Mullowney IS isrow = a->row,iscol = a->icol; 4449ae82921SPaul Mullowney PetscBool row_identity,col_identity; 4459ae82921SPaul Mullowney const PetscInt *r,*c; 4469ae82921SPaul Mullowney PetscInt n = A->rmap->n; 4479ae82921SPaul Mullowney 4489ae82921SPaul Mullowney PetscFunctionBegin; 449087f3262SPaul Mullowney ierr = MatSeqAIJCUSPARSEBuildILULowerTriMatrix(A);CHKERRQ(ierr); 450087f3262SPaul Mullowney ierr = MatSeqAIJCUSPARSEBuildILUUpperTriMatrix(A);CHKERRQ(ierr); 4512205254eSKarl Rupp 452e65717acSKarl Rupp cusparseTriFactors->workVector = new THRUSTARRAY(n); 453aa372e3fSPaul Mullowney cusparseTriFactors->nnz=a->nz; 4549ae82921SPaul Mullowney 455b8ced49eSKarl Rupp A->valid_GPU_matrix = PETSC_OFFLOAD_BOTH; 456e057df02SPaul Mullowney /*lower triangular indices */ 4579ae82921SPaul Mullowney ierr = ISGetIndices(isrow,&r);CHKERRQ(ierr); 4589ae82921SPaul Mullowney ierr = ISIdentity(isrow,&row_identity);CHKERRQ(ierr); 4592205254eSKarl Rupp if (!row_identity) { 460aa372e3fSPaul Mullowney cusparseTriFactors->rpermIndices = new THRUSTINTARRAY(n); 461aa372e3fSPaul Mullowney cusparseTriFactors->rpermIndices->assign(r, r+n); 4622205254eSKarl Rupp } 4639ae82921SPaul Mullowney ierr = ISRestoreIndices(isrow,&r);CHKERRQ(ierr); 4649ae82921SPaul Mullowney 465e057df02SPaul Mullowney /*upper triangular indices */ 4669ae82921SPaul Mullowney ierr = ISGetIndices(iscol,&c);CHKERRQ(ierr); 4679ae82921SPaul Mullowney ierr = ISIdentity(iscol,&col_identity);CHKERRQ(ierr); 4682205254eSKarl Rupp if (!col_identity) { 469aa372e3fSPaul Mullowney cusparseTriFactors->cpermIndices = new THRUSTINTARRAY(n); 470aa372e3fSPaul Mullowney cusparseTriFactors->cpermIndices->assign(c, c+n); 4712205254eSKarl Rupp } 4729ae82921SPaul Mullowney ierr = ISRestoreIndices(iscol,&c);CHKERRQ(ierr); 4739ae82921SPaul Mullowney PetscFunctionReturn(0); 4749ae82921SPaul Mullowney } 4759ae82921SPaul Mullowney 476087f3262SPaul Mullowney static PetscErrorCode MatSeqAIJCUSPARSEBuildICCTriMatrices(Mat A) 477087f3262SPaul Mullowney { 478087f3262SPaul Mullowney Mat_SeqAIJ *a = (Mat_SeqAIJ*)A->data; 479087f3262SPaul Mullowney Mat_SeqAIJCUSPARSETriFactors *cusparseTriFactors = (Mat_SeqAIJCUSPARSETriFactors*)A->spptr; 480aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSETriFactorStruct *loTriFactor = (Mat_SeqAIJCUSPARSETriFactorStruct*)cusparseTriFactors->loTriFactorPtr; 481aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSETriFactorStruct *upTriFactor = (Mat_SeqAIJCUSPARSETriFactorStruct*)cusparseTriFactors->upTriFactorPtr; 482087f3262SPaul Mullowney cusparseStatus_t stat; 483087f3262SPaul Mullowney PetscErrorCode ierr; 484087f3262SPaul Mullowney PetscInt *AiUp, *AjUp; 485087f3262SPaul Mullowney PetscScalar *AAUp; 486087f3262SPaul Mullowney PetscScalar *AALo; 487087f3262SPaul Mullowney PetscInt nzUpper = a->nz,n = A->rmap->n,i,offset,nz,j; 488087f3262SPaul Mullowney Mat_SeqSBAIJ *b = (Mat_SeqSBAIJ*)A->data; 489087f3262SPaul Mullowney const PetscInt *ai = b->i,*aj = b->j,*vj; 490087f3262SPaul Mullowney const MatScalar *aa = b->a,*v; 491087f3262SPaul Mullowney 492087f3262SPaul Mullowney PetscFunctionBegin; 493b8ced49eSKarl Rupp if (A->valid_GPU_matrix == PETSC_OFFLOAD_UNALLOCATED || A->valid_GPU_matrix == PETSC_OFFLOAD_CPU) { 494087f3262SPaul Mullowney try { 495087f3262SPaul Mullowney /* Allocate Space for the upper triangular matrix */ 496c41cb2e2SAlejandro Lamas Daviña ierr = cudaMallocHost((void**) &AiUp, (n+1)*sizeof(PetscInt));CHKERRCUDA(ierr); 497c41cb2e2SAlejandro Lamas Daviña ierr = cudaMallocHost((void**) &AjUp, nzUpper*sizeof(PetscInt));CHKERRCUDA(ierr); 498c41cb2e2SAlejandro Lamas Daviña ierr = cudaMallocHost((void**) &AAUp, nzUpper*sizeof(PetscScalar));CHKERRCUDA(ierr); 499c41cb2e2SAlejandro Lamas Daviña ierr = cudaMallocHost((void**) &AALo, nzUpper*sizeof(PetscScalar));CHKERRCUDA(ierr); 500087f3262SPaul Mullowney 501087f3262SPaul Mullowney /* Fill the upper triangular matrix */ 502087f3262SPaul Mullowney AiUp[0]=(PetscInt) 0; 503087f3262SPaul Mullowney AiUp[n]=nzUpper; 504087f3262SPaul Mullowney offset = 0; 505087f3262SPaul Mullowney for (i=0; i<n; i++) { 506087f3262SPaul Mullowney /* set the pointers */ 507087f3262SPaul Mullowney v = aa + ai[i]; 508087f3262SPaul Mullowney vj = aj + ai[i]; 509087f3262SPaul Mullowney nz = ai[i+1] - ai[i] - 1; /* exclude diag[i] */ 510087f3262SPaul Mullowney 511087f3262SPaul Mullowney /* first, set the diagonal elements */ 512087f3262SPaul Mullowney AjUp[offset] = (PetscInt) i; 51309f51544SAlejandro Lamas Daviña AAUp[offset] = (MatScalar)1.0/v[nz]; 514087f3262SPaul Mullowney AiUp[i] = offset; 51509f51544SAlejandro Lamas Daviña AALo[offset] = (MatScalar)1.0/v[nz]; 516087f3262SPaul Mullowney 517087f3262SPaul Mullowney offset+=1; 518087f3262SPaul Mullowney if (nz>0) { 519087f3262SPaul Mullowney ierr = PetscMemcpy(&(AjUp[offset]), vj, nz*sizeof(PetscInt));CHKERRQ(ierr); 520087f3262SPaul Mullowney ierr = PetscMemcpy(&(AAUp[offset]), v, nz*sizeof(PetscScalar));CHKERRQ(ierr); 521087f3262SPaul Mullowney for (j=offset; j<offset+nz; j++) { 522087f3262SPaul Mullowney AAUp[j] = -AAUp[j]; 523087f3262SPaul Mullowney AALo[j] = AAUp[j]/v[nz]; 524087f3262SPaul Mullowney } 525087f3262SPaul Mullowney offset+=nz; 526087f3262SPaul Mullowney } 527087f3262SPaul Mullowney } 528087f3262SPaul Mullowney 529aa372e3fSPaul Mullowney /* allocate space for the triangular factor information */ 530aa372e3fSPaul Mullowney upTriFactor = new Mat_SeqAIJCUSPARSETriFactorStruct; 531087f3262SPaul Mullowney 532aa372e3fSPaul Mullowney /* Create the matrix description */ 533c41cb2e2SAlejandro Lamas Daviña stat = cusparseCreateMatDescr(&upTriFactor->descr);CHKERRCUDA(stat); 534c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatIndexBase(upTriFactor->descr, CUSPARSE_INDEX_BASE_ZERO);CHKERRCUDA(stat); 535c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatType(upTriFactor->descr, CUSPARSE_MATRIX_TYPE_TRIANGULAR);CHKERRCUDA(stat); 536c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatFillMode(upTriFactor->descr, CUSPARSE_FILL_MODE_UPPER);CHKERRCUDA(stat); 537c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatDiagType(upTriFactor->descr, CUSPARSE_DIAG_TYPE_UNIT);CHKERRCUDA(stat); 538087f3262SPaul Mullowney 539aa372e3fSPaul Mullowney /* Create the solve analysis information */ 540c41cb2e2SAlejandro Lamas Daviña stat = cusparseCreateSolveAnalysisInfo(&upTriFactor->solveInfo);CHKERRCUDA(stat); 541aa372e3fSPaul Mullowney 542aa372e3fSPaul Mullowney /* set the operation */ 543aa372e3fSPaul Mullowney upTriFactor->solveOp = CUSPARSE_OPERATION_NON_TRANSPOSE; 544aa372e3fSPaul Mullowney 545aa372e3fSPaul Mullowney /* set the matrix */ 546aa372e3fSPaul Mullowney upTriFactor->csrMat = new CsrMatrix; 547aa372e3fSPaul Mullowney upTriFactor->csrMat->num_rows = A->rmap->n; 548aa372e3fSPaul Mullowney upTriFactor->csrMat->num_cols = A->cmap->n; 549aa372e3fSPaul Mullowney upTriFactor->csrMat->num_entries = a->nz; 550aa372e3fSPaul Mullowney 551aa372e3fSPaul Mullowney upTriFactor->csrMat->row_offsets = new THRUSTINTARRAY32(A->rmap->n+1); 552aa372e3fSPaul Mullowney upTriFactor->csrMat->row_offsets->assign(AiUp, AiUp+A->rmap->n+1); 553aa372e3fSPaul Mullowney 554aa372e3fSPaul Mullowney upTriFactor->csrMat->column_indices = new THRUSTINTARRAY32(a->nz); 555aa372e3fSPaul Mullowney upTriFactor->csrMat->column_indices->assign(AjUp, AjUp+a->nz); 556aa372e3fSPaul Mullowney 557aa372e3fSPaul Mullowney upTriFactor->csrMat->values = new THRUSTARRAY(a->nz); 558aa372e3fSPaul Mullowney upTriFactor->csrMat->values->assign(AAUp, AAUp+a->nz); 559aa372e3fSPaul Mullowney 560aa372e3fSPaul Mullowney /* perform the solve analysis */ 561aa372e3fSPaul Mullowney stat = cusparse_analysis(cusparseTriFactors->handle, upTriFactor->solveOp, 562aa372e3fSPaul Mullowney upTriFactor->csrMat->num_rows, upTriFactor->csrMat->num_entries, upTriFactor->descr, 563aa372e3fSPaul Mullowney upTriFactor->csrMat->values->data().get(), upTriFactor->csrMat->row_offsets->data().get(), 564c41cb2e2SAlejandro Lamas Daviña upTriFactor->csrMat->column_indices->data().get(), upTriFactor->solveInfo);CHKERRCUDA(stat); 565aa372e3fSPaul Mullowney 566aa372e3fSPaul Mullowney /* assign the pointer. Is this really necessary? */ 567aa372e3fSPaul Mullowney ((Mat_SeqAIJCUSPARSETriFactors*)A->spptr)->upTriFactorPtr = upTriFactor; 568aa372e3fSPaul Mullowney 569aa372e3fSPaul Mullowney /* allocate space for the triangular factor information */ 570aa372e3fSPaul Mullowney loTriFactor = new Mat_SeqAIJCUSPARSETriFactorStruct; 571aa372e3fSPaul Mullowney 572aa372e3fSPaul Mullowney /* Create the matrix description */ 573c41cb2e2SAlejandro Lamas Daviña stat = cusparseCreateMatDescr(&loTriFactor->descr);CHKERRCUDA(stat); 574c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatIndexBase(loTriFactor->descr, CUSPARSE_INDEX_BASE_ZERO);CHKERRCUDA(stat); 575c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatType(loTriFactor->descr, CUSPARSE_MATRIX_TYPE_TRIANGULAR);CHKERRCUDA(stat); 576c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatFillMode(loTriFactor->descr, CUSPARSE_FILL_MODE_UPPER);CHKERRCUDA(stat); 577c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatDiagType(loTriFactor->descr, CUSPARSE_DIAG_TYPE_NON_UNIT);CHKERRCUDA(stat); 578aa372e3fSPaul Mullowney 579aa372e3fSPaul Mullowney /* Create the solve analysis information */ 580c41cb2e2SAlejandro Lamas Daviña stat = cusparseCreateSolveAnalysisInfo(&loTriFactor->solveInfo);CHKERRCUDA(stat); 581aa372e3fSPaul Mullowney 582aa372e3fSPaul Mullowney /* set the operation */ 583aa372e3fSPaul Mullowney loTriFactor->solveOp = CUSPARSE_OPERATION_TRANSPOSE; 584aa372e3fSPaul Mullowney 585aa372e3fSPaul Mullowney /* set the matrix */ 586aa372e3fSPaul Mullowney loTriFactor->csrMat = new CsrMatrix; 587aa372e3fSPaul Mullowney loTriFactor->csrMat->num_rows = A->rmap->n; 588aa372e3fSPaul Mullowney loTriFactor->csrMat->num_cols = A->cmap->n; 589aa372e3fSPaul Mullowney loTriFactor->csrMat->num_entries = a->nz; 590aa372e3fSPaul Mullowney 591aa372e3fSPaul Mullowney loTriFactor->csrMat->row_offsets = new THRUSTINTARRAY32(A->rmap->n+1); 592aa372e3fSPaul Mullowney loTriFactor->csrMat->row_offsets->assign(AiUp, AiUp+A->rmap->n+1); 593aa372e3fSPaul Mullowney 594aa372e3fSPaul Mullowney loTriFactor->csrMat->column_indices = new THRUSTINTARRAY32(a->nz); 595aa372e3fSPaul Mullowney loTriFactor->csrMat->column_indices->assign(AjUp, AjUp+a->nz); 596aa372e3fSPaul Mullowney 597aa372e3fSPaul Mullowney loTriFactor->csrMat->values = new THRUSTARRAY(a->nz); 598aa372e3fSPaul Mullowney loTriFactor->csrMat->values->assign(AALo, AALo+a->nz); 599aa372e3fSPaul Mullowney 600aa372e3fSPaul Mullowney /* perform the solve analysis */ 601aa372e3fSPaul Mullowney stat = cusparse_analysis(cusparseTriFactors->handle, loTriFactor->solveOp, 602aa372e3fSPaul Mullowney loTriFactor->csrMat->num_rows, loTriFactor->csrMat->num_entries, loTriFactor->descr, 603aa372e3fSPaul Mullowney loTriFactor->csrMat->values->data().get(), loTriFactor->csrMat->row_offsets->data().get(), 604c41cb2e2SAlejandro Lamas Daviña loTriFactor->csrMat->column_indices->data().get(), loTriFactor->solveInfo);CHKERRCUDA(stat); 605aa372e3fSPaul Mullowney 606aa372e3fSPaul Mullowney /* assign the pointer. Is this really necessary? */ 607aa372e3fSPaul Mullowney ((Mat_SeqAIJCUSPARSETriFactors*)A->spptr)->loTriFactorPtr = loTriFactor; 608087f3262SPaul Mullowney 609b8ced49eSKarl Rupp A->valid_GPU_matrix = PETSC_OFFLOAD_BOTH; 610c41cb2e2SAlejandro Lamas Daviña ierr = cudaFreeHost(AiUp);CHKERRCUDA(ierr); 611c41cb2e2SAlejandro Lamas Daviña ierr = cudaFreeHost(AjUp);CHKERRCUDA(ierr); 612c41cb2e2SAlejandro Lamas Daviña ierr = cudaFreeHost(AAUp);CHKERRCUDA(ierr); 613c41cb2e2SAlejandro Lamas Daviña ierr = cudaFreeHost(AALo);CHKERRCUDA(ierr); 614087f3262SPaul Mullowney } catch(char *ex) { 615087f3262SPaul Mullowney SETERRQ1(PETSC_COMM_SELF,PETSC_ERR_LIB,"CUSPARSE error: %s", ex); 616087f3262SPaul Mullowney } 617087f3262SPaul Mullowney } 618087f3262SPaul Mullowney PetscFunctionReturn(0); 619087f3262SPaul Mullowney } 620087f3262SPaul Mullowney 621087f3262SPaul Mullowney static PetscErrorCode MatSeqAIJCUSPARSEICCAnalysisAndCopyToGPU(Mat A) 6229ae82921SPaul Mullowney { 6239ae82921SPaul Mullowney PetscErrorCode ierr; 624087f3262SPaul Mullowney Mat_SeqAIJ *a = (Mat_SeqAIJ*)A->data; 625087f3262SPaul Mullowney Mat_SeqAIJCUSPARSETriFactors *cusparseTriFactors = (Mat_SeqAIJCUSPARSETriFactors*)A->spptr; 626087f3262SPaul Mullowney IS ip = a->row; 627087f3262SPaul Mullowney const PetscInt *rip; 628087f3262SPaul Mullowney PetscBool perm_identity; 629087f3262SPaul Mullowney PetscInt n = A->rmap->n; 630087f3262SPaul Mullowney 631087f3262SPaul Mullowney PetscFunctionBegin; 632087f3262SPaul Mullowney ierr = MatSeqAIJCUSPARSEBuildICCTriMatrices(A);CHKERRQ(ierr); 633e65717acSKarl Rupp cusparseTriFactors->workVector = new THRUSTARRAY(n); 634aa372e3fSPaul Mullowney cusparseTriFactors->nnz=(a->nz-n)*2 + n; 635aa372e3fSPaul Mullowney 636087f3262SPaul Mullowney /*lower triangular indices */ 637087f3262SPaul Mullowney ierr = ISGetIndices(ip,&rip);CHKERRQ(ierr); 638087f3262SPaul Mullowney ierr = ISIdentity(ip,&perm_identity);CHKERRQ(ierr); 639087f3262SPaul Mullowney if (!perm_identity) { 640aa372e3fSPaul Mullowney cusparseTriFactors->rpermIndices = new THRUSTINTARRAY(n); 641aa372e3fSPaul Mullowney cusparseTriFactors->rpermIndices->assign(rip, rip+n); 642aa372e3fSPaul Mullowney cusparseTriFactors->cpermIndices = new THRUSTINTARRAY(n); 643aa372e3fSPaul Mullowney cusparseTriFactors->cpermIndices->assign(rip, rip+n); 644087f3262SPaul Mullowney } 645087f3262SPaul Mullowney ierr = ISRestoreIndices(ip,&rip);CHKERRQ(ierr); 646087f3262SPaul Mullowney PetscFunctionReturn(0); 647087f3262SPaul Mullowney } 648087f3262SPaul Mullowney 6496fa9248bSJed Brown static PetscErrorCode MatLUFactorNumeric_SeqAIJCUSPARSE(Mat B,Mat A,const MatFactorInfo *info) 6509ae82921SPaul Mullowney { 6519ae82921SPaul Mullowney Mat_SeqAIJ *b = (Mat_SeqAIJ*)B->data; 6529ae82921SPaul Mullowney IS isrow = b->row,iscol = b->col; 6539ae82921SPaul Mullowney PetscBool row_identity,col_identity; 654b175d8bbSPaul Mullowney PetscErrorCode ierr; 6559ae82921SPaul Mullowney 6569ae82921SPaul Mullowney PetscFunctionBegin; 6579ae82921SPaul Mullowney ierr = MatLUFactorNumeric_SeqAIJ(B,A,info);CHKERRQ(ierr); 658e057df02SPaul Mullowney /* determine which version of MatSolve needs to be used. */ 6599ae82921SPaul Mullowney ierr = ISIdentity(isrow,&row_identity);CHKERRQ(ierr); 6609ae82921SPaul Mullowney ierr = ISIdentity(iscol,&col_identity);CHKERRQ(ierr); 661bda325fcSPaul Mullowney if (row_identity && col_identity) { 662bda325fcSPaul Mullowney B->ops->solve = MatSolve_SeqAIJCUSPARSE_NaturalOrdering; 663bda325fcSPaul Mullowney B->ops->solvetranspose = MatSolveTranspose_SeqAIJCUSPARSE_NaturalOrdering; 664bda325fcSPaul Mullowney } else { 665bda325fcSPaul Mullowney B->ops->solve = MatSolve_SeqAIJCUSPARSE; 666bda325fcSPaul Mullowney B->ops->solvetranspose = MatSolveTranspose_SeqAIJCUSPARSE; 667bda325fcSPaul Mullowney } 6688dc1d2a3SPaul Mullowney 669e057df02SPaul Mullowney /* get the triangular factors */ 670087f3262SPaul Mullowney ierr = MatSeqAIJCUSPARSEILUAnalysisAndCopyToGPU(B);CHKERRQ(ierr); 6719ae82921SPaul Mullowney PetscFunctionReturn(0); 6729ae82921SPaul Mullowney } 6739ae82921SPaul Mullowney 674087f3262SPaul Mullowney static PetscErrorCode MatCholeskyFactorNumeric_SeqAIJCUSPARSE(Mat B,Mat A,const MatFactorInfo *info) 675087f3262SPaul Mullowney { 676087f3262SPaul Mullowney Mat_SeqAIJ *b = (Mat_SeqAIJ*)B->data; 677087f3262SPaul Mullowney IS ip = b->row; 678087f3262SPaul Mullowney PetscBool perm_identity; 679b175d8bbSPaul Mullowney PetscErrorCode ierr; 680087f3262SPaul Mullowney 681087f3262SPaul Mullowney PetscFunctionBegin; 682087f3262SPaul Mullowney ierr = MatCholeskyFactorNumeric_SeqAIJ(B,A,info);CHKERRQ(ierr); 683087f3262SPaul Mullowney 684087f3262SPaul Mullowney /* determine which version of MatSolve needs to be used. */ 685087f3262SPaul Mullowney ierr = ISIdentity(ip,&perm_identity);CHKERRQ(ierr); 686087f3262SPaul Mullowney if (perm_identity) { 687087f3262SPaul Mullowney B->ops->solve = MatSolve_SeqAIJCUSPARSE_NaturalOrdering; 688087f3262SPaul Mullowney B->ops->solvetranspose = MatSolveTranspose_SeqAIJCUSPARSE_NaturalOrdering; 689087f3262SPaul Mullowney } else { 690087f3262SPaul Mullowney B->ops->solve = MatSolve_SeqAIJCUSPARSE; 691087f3262SPaul Mullowney B->ops->solvetranspose = MatSolveTranspose_SeqAIJCUSPARSE; 692087f3262SPaul Mullowney } 693087f3262SPaul Mullowney 694087f3262SPaul Mullowney /* get the triangular factors */ 695087f3262SPaul Mullowney ierr = MatSeqAIJCUSPARSEICCAnalysisAndCopyToGPU(B);CHKERRQ(ierr); 696087f3262SPaul Mullowney PetscFunctionReturn(0); 697087f3262SPaul Mullowney } 6989ae82921SPaul Mullowney 699b175d8bbSPaul Mullowney static PetscErrorCode MatSeqAIJCUSPARSEAnalyzeTransposeForSolve(Mat A) 700bda325fcSPaul Mullowney { 701bda325fcSPaul Mullowney Mat_SeqAIJCUSPARSETriFactors *cusparseTriFactors = (Mat_SeqAIJCUSPARSETriFactors*)A->spptr; 702aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSETriFactorStruct *loTriFactor = (Mat_SeqAIJCUSPARSETriFactorStruct*)cusparseTriFactors->loTriFactorPtr; 703aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSETriFactorStruct *upTriFactor = (Mat_SeqAIJCUSPARSETriFactorStruct*)cusparseTriFactors->upTriFactorPtr; 704aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSETriFactorStruct *loTriFactorT = (Mat_SeqAIJCUSPARSETriFactorStruct*)cusparseTriFactors->loTriFactorPtrTranspose; 705aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSETriFactorStruct *upTriFactorT = (Mat_SeqAIJCUSPARSETriFactorStruct*)cusparseTriFactors->upTriFactorPtrTranspose; 706bda325fcSPaul Mullowney cusparseStatus_t stat; 707aa372e3fSPaul Mullowney cusparseIndexBase_t indexBase; 708aa372e3fSPaul Mullowney cusparseMatrixType_t matrixType; 709aa372e3fSPaul Mullowney cusparseFillMode_t fillMode; 710aa372e3fSPaul Mullowney cusparseDiagType_t diagType; 711b175d8bbSPaul Mullowney 712bda325fcSPaul Mullowney PetscFunctionBegin; 713bda325fcSPaul Mullowney 714aa372e3fSPaul Mullowney /*********************************************/ 715aa372e3fSPaul Mullowney /* Now the Transpose of the Lower Tri Factor */ 716aa372e3fSPaul Mullowney /*********************************************/ 717aa372e3fSPaul Mullowney 718aa372e3fSPaul Mullowney /* allocate space for the transpose of the lower triangular factor */ 719aa372e3fSPaul Mullowney loTriFactorT = new Mat_SeqAIJCUSPARSETriFactorStruct; 720aa372e3fSPaul Mullowney 721aa372e3fSPaul Mullowney /* set the matrix descriptors of the lower triangular factor */ 722aa372e3fSPaul Mullowney matrixType = cusparseGetMatType(loTriFactor->descr); 723aa372e3fSPaul Mullowney indexBase = cusparseGetMatIndexBase(loTriFactor->descr); 724aa372e3fSPaul Mullowney fillMode = cusparseGetMatFillMode(loTriFactor->descr)==CUSPARSE_FILL_MODE_UPPER ? 725aa372e3fSPaul Mullowney CUSPARSE_FILL_MODE_LOWER : CUSPARSE_FILL_MODE_UPPER; 726aa372e3fSPaul Mullowney diagType = cusparseGetMatDiagType(loTriFactor->descr); 727aa372e3fSPaul Mullowney 728aa372e3fSPaul Mullowney /* Create the matrix description */ 729c41cb2e2SAlejandro Lamas Daviña stat = cusparseCreateMatDescr(&loTriFactorT->descr);CHKERRCUDA(stat); 730c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatIndexBase(loTriFactorT->descr, indexBase);CHKERRCUDA(stat); 731c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatType(loTriFactorT->descr, matrixType);CHKERRCUDA(stat); 732c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatFillMode(loTriFactorT->descr, fillMode);CHKERRCUDA(stat); 733c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatDiagType(loTriFactorT->descr, diagType);CHKERRCUDA(stat); 734aa372e3fSPaul Mullowney 735aa372e3fSPaul Mullowney /* Create the solve analysis information */ 736c41cb2e2SAlejandro Lamas Daviña stat = cusparseCreateSolveAnalysisInfo(&loTriFactorT->solveInfo);CHKERRCUDA(stat); 737aa372e3fSPaul Mullowney 738aa372e3fSPaul Mullowney /* set the operation */ 739aa372e3fSPaul Mullowney loTriFactorT->solveOp = CUSPARSE_OPERATION_NON_TRANSPOSE; 740aa372e3fSPaul Mullowney 741aa372e3fSPaul Mullowney /* allocate GPU space for the CSC of the lower triangular factor*/ 742aa372e3fSPaul Mullowney loTriFactorT->csrMat = new CsrMatrix; 743aa372e3fSPaul Mullowney loTriFactorT->csrMat->num_rows = loTriFactor->csrMat->num_rows; 744aa372e3fSPaul Mullowney loTriFactorT->csrMat->num_cols = loTriFactor->csrMat->num_cols; 745aa372e3fSPaul Mullowney loTriFactorT->csrMat->num_entries = loTriFactor->csrMat->num_entries; 746aa372e3fSPaul Mullowney loTriFactorT->csrMat->row_offsets = new THRUSTINTARRAY32(loTriFactor->csrMat->num_rows+1); 747aa372e3fSPaul Mullowney loTriFactorT->csrMat->column_indices = new THRUSTINTARRAY32(loTriFactor->csrMat->num_entries); 748aa372e3fSPaul Mullowney loTriFactorT->csrMat->values = new THRUSTARRAY(loTriFactor->csrMat->num_entries); 749aa372e3fSPaul Mullowney 750aa372e3fSPaul Mullowney /* compute the transpose of the lower triangular factor, i.e. the CSC */ 751aa372e3fSPaul Mullowney stat = cusparse_csr2csc(cusparseTriFactors->handle, loTriFactor->csrMat->num_rows, 752aa372e3fSPaul Mullowney loTriFactor->csrMat->num_cols, loTriFactor->csrMat->num_entries, 753aa372e3fSPaul Mullowney loTriFactor->csrMat->values->data().get(), 754aa372e3fSPaul Mullowney loTriFactor->csrMat->row_offsets->data().get(), 755aa372e3fSPaul Mullowney loTriFactor->csrMat->column_indices->data().get(), 756aa372e3fSPaul Mullowney loTriFactorT->csrMat->values->data().get(), 757aa372e3fSPaul Mullowney loTriFactorT->csrMat->column_indices->data().get(), 758aa372e3fSPaul Mullowney loTriFactorT->csrMat->row_offsets->data().get(), 759c41cb2e2SAlejandro Lamas Daviña CUSPARSE_ACTION_NUMERIC, indexBase);CHKERRCUDA(stat); 760aa372e3fSPaul Mullowney 761aa372e3fSPaul Mullowney /* perform the solve analysis on the transposed matrix */ 762aa372e3fSPaul Mullowney stat = cusparse_analysis(cusparseTriFactors->handle, loTriFactorT->solveOp, 763aa372e3fSPaul Mullowney loTriFactorT->csrMat->num_rows, loTriFactorT->csrMat->num_entries, 764aa372e3fSPaul Mullowney loTriFactorT->descr, loTriFactorT->csrMat->values->data().get(), 765aa372e3fSPaul Mullowney loTriFactorT->csrMat->row_offsets->data().get(), loTriFactorT->csrMat->column_indices->data().get(), 766c41cb2e2SAlejandro Lamas Daviña loTriFactorT->solveInfo);CHKERRCUDA(stat); 767aa372e3fSPaul Mullowney 768aa372e3fSPaul Mullowney /* assign the pointer. Is this really necessary? */ 769aa372e3fSPaul Mullowney ((Mat_SeqAIJCUSPARSETriFactors*)A->spptr)->loTriFactorPtrTranspose = loTriFactorT; 770aa372e3fSPaul Mullowney 771aa372e3fSPaul Mullowney /*********************************************/ 772aa372e3fSPaul Mullowney /* Now the Transpose of the Upper Tri Factor */ 773aa372e3fSPaul Mullowney /*********************************************/ 774aa372e3fSPaul Mullowney 775aa372e3fSPaul Mullowney /* allocate space for the transpose of the upper triangular factor */ 776aa372e3fSPaul Mullowney upTriFactorT = new Mat_SeqAIJCUSPARSETriFactorStruct; 777aa372e3fSPaul Mullowney 778aa372e3fSPaul Mullowney /* set the matrix descriptors of the upper triangular factor */ 779aa372e3fSPaul Mullowney matrixType = cusparseGetMatType(upTriFactor->descr); 780aa372e3fSPaul Mullowney indexBase = cusparseGetMatIndexBase(upTriFactor->descr); 781aa372e3fSPaul Mullowney fillMode = cusparseGetMatFillMode(upTriFactor->descr)==CUSPARSE_FILL_MODE_UPPER ? 782aa372e3fSPaul Mullowney CUSPARSE_FILL_MODE_LOWER : CUSPARSE_FILL_MODE_UPPER; 783aa372e3fSPaul Mullowney diagType = cusparseGetMatDiagType(upTriFactor->descr); 784aa372e3fSPaul Mullowney 785aa372e3fSPaul Mullowney /* Create the matrix description */ 786c41cb2e2SAlejandro Lamas Daviña stat = cusparseCreateMatDescr(&upTriFactorT->descr);CHKERRCUDA(stat); 787c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatIndexBase(upTriFactorT->descr, indexBase);CHKERRCUDA(stat); 788c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatType(upTriFactorT->descr, matrixType);CHKERRCUDA(stat); 789c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatFillMode(upTriFactorT->descr, fillMode);CHKERRCUDA(stat); 790c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatDiagType(upTriFactorT->descr, diagType);CHKERRCUDA(stat); 791aa372e3fSPaul Mullowney 792aa372e3fSPaul Mullowney /* Create the solve analysis information */ 793c41cb2e2SAlejandro Lamas Daviña stat = cusparseCreateSolveAnalysisInfo(&upTriFactorT->solveInfo);CHKERRCUDA(stat); 794aa372e3fSPaul Mullowney 795aa372e3fSPaul Mullowney /* set the operation */ 796aa372e3fSPaul Mullowney upTriFactorT->solveOp = CUSPARSE_OPERATION_NON_TRANSPOSE; 797aa372e3fSPaul Mullowney 798aa372e3fSPaul Mullowney /* allocate GPU space for the CSC of the upper triangular factor*/ 799aa372e3fSPaul Mullowney upTriFactorT->csrMat = new CsrMatrix; 800aa372e3fSPaul Mullowney upTriFactorT->csrMat->num_rows = upTriFactor->csrMat->num_rows; 801aa372e3fSPaul Mullowney upTriFactorT->csrMat->num_cols = upTriFactor->csrMat->num_cols; 802aa372e3fSPaul Mullowney upTriFactorT->csrMat->num_entries = upTriFactor->csrMat->num_entries; 803aa372e3fSPaul Mullowney upTriFactorT->csrMat->row_offsets = new THRUSTINTARRAY32(upTriFactor->csrMat->num_rows+1); 804aa372e3fSPaul Mullowney upTriFactorT->csrMat->column_indices = new THRUSTINTARRAY32(upTriFactor->csrMat->num_entries); 805aa372e3fSPaul Mullowney upTriFactorT->csrMat->values = new THRUSTARRAY(upTriFactor->csrMat->num_entries); 806aa372e3fSPaul Mullowney 807aa372e3fSPaul Mullowney /* compute the transpose of the upper triangular factor, i.e. the CSC */ 808aa372e3fSPaul Mullowney stat = cusparse_csr2csc(cusparseTriFactors->handle, upTriFactor->csrMat->num_rows, 809aa372e3fSPaul Mullowney upTriFactor->csrMat->num_cols, upTriFactor->csrMat->num_entries, 810aa372e3fSPaul Mullowney upTriFactor->csrMat->values->data().get(), 811aa372e3fSPaul Mullowney upTriFactor->csrMat->row_offsets->data().get(), 812aa372e3fSPaul Mullowney upTriFactor->csrMat->column_indices->data().get(), 813aa372e3fSPaul Mullowney upTriFactorT->csrMat->values->data().get(), 814aa372e3fSPaul Mullowney upTriFactorT->csrMat->column_indices->data().get(), 815aa372e3fSPaul Mullowney upTriFactorT->csrMat->row_offsets->data().get(), 816c41cb2e2SAlejandro Lamas Daviña CUSPARSE_ACTION_NUMERIC, indexBase);CHKERRCUDA(stat); 817aa372e3fSPaul Mullowney 818aa372e3fSPaul Mullowney /* perform the solve analysis on the transposed matrix */ 819aa372e3fSPaul Mullowney stat = cusparse_analysis(cusparseTriFactors->handle, upTriFactorT->solveOp, 820aa372e3fSPaul Mullowney upTriFactorT->csrMat->num_rows, upTriFactorT->csrMat->num_entries, 821aa372e3fSPaul Mullowney upTriFactorT->descr, upTriFactorT->csrMat->values->data().get(), 822aa372e3fSPaul Mullowney upTriFactorT->csrMat->row_offsets->data().get(), upTriFactorT->csrMat->column_indices->data().get(), 823c41cb2e2SAlejandro Lamas Daviña upTriFactorT->solveInfo);CHKERRCUDA(stat); 824aa372e3fSPaul Mullowney 825aa372e3fSPaul Mullowney /* assign the pointer. Is this really necessary? */ 826aa372e3fSPaul Mullowney ((Mat_SeqAIJCUSPARSETriFactors*)A->spptr)->upTriFactorPtrTranspose = upTriFactorT; 827bda325fcSPaul Mullowney PetscFunctionReturn(0); 828bda325fcSPaul Mullowney } 829bda325fcSPaul Mullowney 830b175d8bbSPaul Mullowney static PetscErrorCode MatSeqAIJCUSPARSEGenerateTransposeForMult(Mat A) 831bda325fcSPaul Mullowney { 832aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSE *cusparsestruct = (Mat_SeqAIJCUSPARSE*)A->spptr; 833aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSEMultStruct *matstruct = (Mat_SeqAIJCUSPARSEMultStruct*)cusparsestruct->mat; 834aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSEMultStruct *matstructT = (Mat_SeqAIJCUSPARSEMultStruct*)cusparsestruct->matTranspose; 835bda325fcSPaul Mullowney Mat_SeqAIJ *a = (Mat_SeqAIJ*)A->data; 836bda325fcSPaul Mullowney cusparseStatus_t stat; 837aa372e3fSPaul Mullowney cusparseIndexBase_t indexBase; 838b06137fdSPaul Mullowney cudaError_t err; 839b175d8bbSPaul Mullowney 840bda325fcSPaul Mullowney PetscFunctionBegin; 841aa372e3fSPaul Mullowney 842aa372e3fSPaul Mullowney /* allocate space for the triangular factor information */ 843aa372e3fSPaul Mullowney matstructT = new Mat_SeqAIJCUSPARSEMultStruct; 844c41cb2e2SAlejandro Lamas Daviña stat = cusparseCreateMatDescr(&matstructT->descr);CHKERRCUDA(stat); 845aa372e3fSPaul Mullowney indexBase = cusparseGetMatIndexBase(matstruct->descr); 846c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatIndexBase(matstructT->descr, indexBase);CHKERRCUDA(stat); 847c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatType(matstructT->descr, CUSPARSE_MATRIX_TYPE_GENERAL);CHKERRCUDA(stat); 848aa372e3fSPaul Mullowney 849b06137fdSPaul Mullowney /* set alpha and beta */ 850c41cb2e2SAlejandro Lamas Daviña err = cudaMalloc((void **)&(matstructT->alpha),sizeof(PetscScalar));CHKERRCUDA(err); 851c41cb2e2SAlejandro Lamas Daviña err = cudaMemcpy(matstructT->alpha,&ALPHA,sizeof(PetscScalar),cudaMemcpyHostToDevice);CHKERRCUDA(err); 852c41cb2e2SAlejandro Lamas Daviña err = cudaMalloc((void **)&(matstructT->beta),sizeof(PetscScalar));CHKERRCUDA(err); 853c41cb2e2SAlejandro Lamas Daviña err = cudaMemcpy(matstructT->beta,&BETA,sizeof(PetscScalar),cudaMemcpyHostToDevice);CHKERRCUDA(err); 854c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetPointerMode(cusparsestruct->handle, CUSPARSE_POINTER_MODE_DEVICE);CHKERRCUDA(stat); 855b06137fdSPaul Mullowney 856aa372e3fSPaul Mullowney if (cusparsestruct->format==MAT_CUSPARSE_CSR) { 857aa372e3fSPaul Mullowney CsrMatrix *matrix = (CsrMatrix*)matstruct->mat; 858aa372e3fSPaul Mullowney CsrMatrix *matrixT= new CsrMatrix; 859554b8892SKarl Rupp matrixT->num_rows = A->cmap->n; 860554b8892SKarl Rupp matrixT->num_cols = A->rmap->n; 861aa372e3fSPaul Mullowney matrixT->num_entries = a->nz; 862aa372e3fSPaul Mullowney matrixT->row_offsets = new THRUSTINTARRAY32(A->rmap->n+1); 863aa372e3fSPaul Mullowney matrixT->column_indices = new THRUSTINTARRAY32(a->nz); 864aa372e3fSPaul Mullowney matrixT->values = new THRUSTARRAY(a->nz); 865aa372e3fSPaul Mullowney 866aa372e3fSPaul Mullowney /* compute the transpose of the upper triangular factor, i.e. the CSC */ 867aa372e3fSPaul Mullowney indexBase = cusparseGetMatIndexBase(matstruct->descr); 868aa372e3fSPaul Mullowney stat = cusparse_csr2csc(cusparsestruct->handle, matrix->num_rows, 869aa372e3fSPaul Mullowney matrix->num_cols, matrix->num_entries, 870aa372e3fSPaul Mullowney matrix->values->data().get(), 871aa372e3fSPaul Mullowney matrix->row_offsets->data().get(), 872aa372e3fSPaul Mullowney matrix->column_indices->data().get(), 873aa372e3fSPaul Mullowney matrixT->values->data().get(), 874aa372e3fSPaul Mullowney matrixT->column_indices->data().get(), 875aa372e3fSPaul Mullowney matrixT->row_offsets->data().get(), 876c41cb2e2SAlejandro Lamas Daviña CUSPARSE_ACTION_NUMERIC, indexBase);CHKERRCUDA(stat); 877aa372e3fSPaul Mullowney 878aa372e3fSPaul Mullowney /* assign the pointer */ 879aa372e3fSPaul Mullowney matstructT->mat = matrixT; 880aa372e3fSPaul Mullowney 881aa372e3fSPaul Mullowney } else if (cusparsestruct->format==MAT_CUSPARSE_ELL || cusparsestruct->format==MAT_CUSPARSE_HYB) { 8822692e278SPaul Mullowney #if CUDA_VERSION>=5000 883aa372e3fSPaul Mullowney /* First convert HYB to CSR */ 884aa372e3fSPaul Mullowney CsrMatrix *temp= new CsrMatrix; 885aa372e3fSPaul Mullowney temp->num_rows = A->rmap->n; 886aa372e3fSPaul Mullowney temp->num_cols = A->cmap->n; 887aa372e3fSPaul Mullowney temp->num_entries = a->nz; 888aa372e3fSPaul Mullowney temp->row_offsets = new THRUSTINTARRAY32(A->rmap->n+1); 889aa372e3fSPaul Mullowney temp->column_indices = new THRUSTINTARRAY32(a->nz); 890aa372e3fSPaul Mullowney temp->values = new THRUSTARRAY(a->nz); 891aa372e3fSPaul Mullowney 8922692e278SPaul Mullowney 893aa372e3fSPaul Mullowney stat = cusparse_hyb2csr(cusparsestruct->handle, 894aa372e3fSPaul Mullowney matstruct->descr, (cusparseHybMat_t)matstruct->mat, 895aa372e3fSPaul Mullowney temp->values->data().get(), 896aa372e3fSPaul Mullowney temp->row_offsets->data().get(), 897c41cb2e2SAlejandro Lamas Daviña temp->column_indices->data().get());CHKERRCUDA(stat); 898aa372e3fSPaul Mullowney 899aa372e3fSPaul Mullowney /* Next, convert CSR to CSC (i.e. the matrix transpose) */ 900aa372e3fSPaul Mullowney CsrMatrix *tempT= new CsrMatrix; 901aa372e3fSPaul Mullowney tempT->num_rows = A->rmap->n; 902aa372e3fSPaul Mullowney tempT->num_cols = A->cmap->n; 903aa372e3fSPaul Mullowney tempT->num_entries = a->nz; 904aa372e3fSPaul Mullowney tempT->row_offsets = new THRUSTINTARRAY32(A->rmap->n+1); 905aa372e3fSPaul Mullowney tempT->column_indices = new THRUSTINTARRAY32(a->nz); 906aa372e3fSPaul Mullowney tempT->values = new THRUSTARRAY(a->nz); 907aa372e3fSPaul Mullowney 908aa372e3fSPaul Mullowney stat = cusparse_csr2csc(cusparsestruct->handle, temp->num_rows, 909aa372e3fSPaul Mullowney temp->num_cols, temp->num_entries, 910aa372e3fSPaul Mullowney temp->values->data().get(), 911aa372e3fSPaul Mullowney temp->row_offsets->data().get(), 912aa372e3fSPaul Mullowney temp->column_indices->data().get(), 913aa372e3fSPaul Mullowney tempT->values->data().get(), 914aa372e3fSPaul Mullowney tempT->column_indices->data().get(), 915aa372e3fSPaul Mullowney tempT->row_offsets->data().get(), 916c41cb2e2SAlejandro Lamas Daviña CUSPARSE_ACTION_NUMERIC, indexBase);CHKERRCUDA(stat); 917aa372e3fSPaul Mullowney 918aa372e3fSPaul Mullowney /* Last, convert CSC to HYB */ 919aa372e3fSPaul Mullowney cusparseHybMat_t hybMat; 920c41cb2e2SAlejandro Lamas Daviña stat = cusparseCreateHybMat(&hybMat);CHKERRCUDA(stat); 921aa372e3fSPaul Mullowney cusparseHybPartition_t partition = cusparsestruct->format==MAT_CUSPARSE_ELL ? 922aa372e3fSPaul Mullowney CUSPARSE_HYB_PARTITION_MAX : CUSPARSE_HYB_PARTITION_AUTO; 923aa372e3fSPaul Mullowney stat = cusparse_csr2hyb(cusparsestruct->handle, A->rmap->n, A->cmap->n, 924aa372e3fSPaul Mullowney matstructT->descr, tempT->values->data().get(), 925aa372e3fSPaul Mullowney tempT->row_offsets->data().get(), 926aa372e3fSPaul Mullowney tempT->column_indices->data().get(), 927c41cb2e2SAlejandro Lamas Daviña hybMat, 0, partition);CHKERRCUDA(stat); 928aa372e3fSPaul Mullowney 929aa372e3fSPaul Mullowney /* assign the pointer */ 930aa372e3fSPaul Mullowney matstructT->mat = hybMat; 931aa372e3fSPaul Mullowney 932aa372e3fSPaul Mullowney /* delete temporaries */ 933aa372e3fSPaul Mullowney if (tempT) { 934aa372e3fSPaul Mullowney if (tempT->values) delete (THRUSTARRAY*) tempT->values; 935aa372e3fSPaul Mullowney if (tempT->column_indices) delete (THRUSTINTARRAY32*) tempT->column_indices; 936aa372e3fSPaul Mullowney if (tempT->row_offsets) delete (THRUSTINTARRAY32*) tempT->row_offsets; 937aa372e3fSPaul Mullowney delete (CsrMatrix*) tempT; 938087f3262SPaul Mullowney } 939aa372e3fSPaul Mullowney if (temp) { 940aa372e3fSPaul Mullowney if (temp->values) delete (THRUSTARRAY*) temp->values; 941aa372e3fSPaul Mullowney if (temp->column_indices) delete (THRUSTINTARRAY32*) temp->column_indices; 942aa372e3fSPaul Mullowney if (temp->row_offsets) delete (THRUSTINTARRAY32*) temp->row_offsets; 943aa372e3fSPaul Mullowney delete (CsrMatrix*) temp; 944aa372e3fSPaul Mullowney } 9452692e278SPaul Mullowney #else 9462692e278SPaul Mullowney SETERRQ(PETSC_COMM_SELF,PETSC_ERR_SUP,"ELL (Ellpack) and HYB (Hybrid) storage format for the Matrix Transpose (in MatMultTranspose) require CUDA 5.0 or later."); 9472692e278SPaul Mullowney #endif 948aa372e3fSPaul Mullowney } 949aa372e3fSPaul Mullowney /* assign the compressed row indices */ 950aa372e3fSPaul Mullowney matstructT->cprowIndices = new THRUSTINTARRAY; 951554b8892SKarl Rupp matstructT->cprowIndices->resize(A->cmap->n); 952554b8892SKarl Rupp thrust::sequence(matstructT->cprowIndices->begin(), matstructT->cprowIndices->end()); 953aa372e3fSPaul Mullowney 954aa372e3fSPaul Mullowney /* assign the pointer */ 955aa372e3fSPaul Mullowney ((Mat_SeqAIJCUSPARSE*)A->spptr)->matTranspose = matstructT; 956bda325fcSPaul Mullowney PetscFunctionReturn(0); 957bda325fcSPaul Mullowney } 958bda325fcSPaul Mullowney 9596fa9248bSJed Brown static PetscErrorCode MatSolveTranspose_SeqAIJCUSPARSE(Mat A,Vec bb,Vec xx) 960bda325fcSPaul Mullowney { 961c41cb2e2SAlejandro Lamas Daviña PetscInt n = xx->map->n; 962465f34aeSAlejandro Lamas Daviña const PetscScalar *barray; 963465f34aeSAlejandro Lamas Daviña PetscScalar *xarray; 964465f34aeSAlejandro Lamas Daviña thrust::device_ptr<const PetscScalar> bGPU; 965465f34aeSAlejandro Lamas Daviña thrust::device_ptr<PetscScalar> xGPU; 966bda325fcSPaul Mullowney cusparseStatus_t stat; 967bda325fcSPaul Mullowney Mat_SeqAIJCUSPARSETriFactors *cusparseTriFactors = (Mat_SeqAIJCUSPARSETriFactors*)A->spptr; 968aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSETriFactorStruct *loTriFactorT = (Mat_SeqAIJCUSPARSETriFactorStruct*)cusparseTriFactors->loTriFactorPtrTranspose; 969aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSETriFactorStruct *upTriFactorT = (Mat_SeqAIJCUSPARSETriFactorStruct*)cusparseTriFactors->upTriFactorPtrTranspose; 970aa372e3fSPaul Mullowney THRUSTARRAY *tempGPU = (THRUSTARRAY*)cusparseTriFactors->workVector; 971b175d8bbSPaul Mullowney PetscErrorCode ierr; 972bda325fcSPaul Mullowney 973bda325fcSPaul Mullowney PetscFunctionBegin; 974aa372e3fSPaul Mullowney /* Analyze the matrix and create the transpose ... on the fly */ 975aa372e3fSPaul Mullowney if (!loTriFactorT && !upTriFactorT) { 976bda325fcSPaul Mullowney ierr = MatSeqAIJCUSPARSEAnalyzeTransposeForSolve(A);CHKERRQ(ierr); 977aa372e3fSPaul Mullowney loTriFactorT = (Mat_SeqAIJCUSPARSETriFactorStruct*)cusparseTriFactors->loTriFactorPtrTranspose; 978aa372e3fSPaul Mullowney upTriFactorT = (Mat_SeqAIJCUSPARSETriFactorStruct*)cusparseTriFactors->upTriFactorPtrTranspose; 979bda325fcSPaul Mullowney } 980bda325fcSPaul Mullowney 981bda325fcSPaul Mullowney /* Get the GPU pointers */ 982c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDAGetArrayWrite(xx,&xarray);CHKERRQ(ierr); 983c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDAGetArrayRead(bb,&barray);CHKERRQ(ierr); 984c41cb2e2SAlejandro Lamas Daviña xGPU = thrust::device_pointer_cast(xarray); 985c41cb2e2SAlejandro Lamas Daviña bGPU = thrust::device_pointer_cast(barray); 986bda325fcSPaul Mullowney 987aa372e3fSPaul Mullowney /* First, reorder with the row permutation */ 988c41cb2e2SAlejandro Lamas Daviña thrust::copy(thrust::make_permutation_iterator(bGPU, cusparseTriFactors->rpermIndices->begin()), 989c41cb2e2SAlejandro Lamas Daviña thrust::make_permutation_iterator(bGPU+n, cusparseTriFactors->rpermIndices->end()), 990c41cb2e2SAlejandro Lamas Daviña xGPU); 991aa372e3fSPaul Mullowney 992aa372e3fSPaul Mullowney /* First, solve U */ 993aa372e3fSPaul Mullowney stat = cusparse_solve(cusparseTriFactors->handle, upTriFactorT->solveOp, 994aa372e3fSPaul Mullowney upTriFactorT->csrMat->num_rows, &ALPHA, upTriFactorT->descr, 995aa372e3fSPaul Mullowney upTriFactorT->csrMat->values->data().get(), 996aa372e3fSPaul Mullowney upTriFactorT->csrMat->row_offsets->data().get(), 997aa372e3fSPaul Mullowney upTriFactorT->csrMat->column_indices->data().get(), 998aa372e3fSPaul Mullowney upTriFactorT->solveInfo, 999c41cb2e2SAlejandro Lamas Daviña xarray, tempGPU->data().get());CHKERRCUDA(stat); 1000aa372e3fSPaul Mullowney 1001aa372e3fSPaul Mullowney /* Then, solve L */ 1002aa372e3fSPaul Mullowney stat = cusparse_solve(cusparseTriFactors->handle, loTriFactorT->solveOp, 1003aa372e3fSPaul Mullowney loTriFactorT->csrMat->num_rows, &ALPHA, loTriFactorT->descr, 1004aa372e3fSPaul Mullowney loTriFactorT->csrMat->values->data().get(), 1005aa372e3fSPaul Mullowney loTriFactorT->csrMat->row_offsets->data().get(), 1006aa372e3fSPaul Mullowney loTriFactorT->csrMat->column_indices->data().get(), 1007aa372e3fSPaul Mullowney loTriFactorT->solveInfo, 1008c41cb2e2SAlejandro Lamas Daviña tempGPU->data().get(), xarray);CHKERRCUDA(stat); 1009aa372e3fSPaul Mullowney 1010aa372e3fSPaul Mullowney /* Last, copy the solution, xGPU, into a temporary with the column permutation ... can't be done in place. */ 1011c41cb2e2SAlejandro Lamas Daviña thrust::copy(thrust::make_permutation_iterator(xGPU, cusparseTriFactors->cpermIndices->begin()), 1012c41cb2e2SAlejandro Lamas Daviña thrust::make_permutation_iterator(xGPU+n, cusparseTriFactors->cpermIndices->end()), 1013aa372e3fSPaul Mullowney tempGPU->begin()); 1014aa372e3fSPaul Mullowney 1015aa372e3fSPaul Mullowney /* Copy the temporary to the full solution. */ 1016c41cb2e2SAlejandro Lamas Daviña thrust::copy(tempGPU->begin(), tempGPU->end(), xGPU); 1017bda325fcSPaul Mullowney 1018bda325fcSPaul Mullowney /* restore */ 1019c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDARestoreArrayRead(bb,&barray);CHKERRQ(ierr); 1020c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDARestoreArrayWrite(xx,&xarray);CHKERRQ(ierr); 1021c41cb2e2SAlejandro Lamas Daviña ierr = WaitForGPU();CHKERRCUDA(ierr); 1022087f3262SPaul Mullowney 1023aa372e3fSPaul Mullowney ierr = PetscLogFlops(2.0*cusparseTriFactors->nnz - A->cmap->n);CHKERRQ(ierr); 1024bda325fcSPaul Mullowney PetscFunctionReturn(0); 1025bda325fcSPaul Mullowney } 1026bda325fcSPaul Mullowney 10276fa9248bSJed Brown static PetscErrorCode MatSolveTranspose_SeqAIJCUSPARSE_NaturalOrdering(Mat A,Vec bb,Vec xx) 1028bda325fcSPaul Mullowney { 1029465f34aeSAlejandro Lamas Daviña const PetscScalar *barray; 1030465f34aeSAlejandro Lamas Daviña PetscScalar *xarray; 1031bda325fcSPaul Mullowney cusparseStatus_t stat; 1032bda325fcSPaul Mullowney Mat_SeqAIJCUSPARSETriFactors *cusparseTriFactors = (Mat_SeqAIJCUSPARSETriFactors*)A->spptr; 1033aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSETriFactorStruct *loTriFactorT = (Mat_SeqAIJCUSPARSETriFactorStruct*)cusparseTriFactors->loTriFactorPtrTranspose; 1034aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSETriFactorStruct *upTriFactorT = (Mat_SeqAIJCUSPARSETriFactorStruct*)cusparseTriFactors->upTriFactorPtrTranspose; 1035aa372e3fSPaul Mullowney THRUSTARRAY *tempGPU = (THRUSTARRAY*)cusparseTriFactors->workVector; 1036b175d8bbSPaul Mullowney PetscErrorCode ierr; 1037bda325fcSPaul Mullowney 1038bda325fcSPaul Mullowney PetscFunctionBegin; 1039aa372e3fSPaul Mullowney /* Analyze the matrix and create the transpose ... on the fly */ 1040aa372e3fSPaul Mullowney if (!loTriFactorT && !upTriFactorT) { 1041bda325fcSPaul Mullowney ierr = MatSeqAIJCUSPARSEAnalyzeTransposeForSolve(A);CHKERRQ(ierr); 1042aa372e3fSPaul Mullowney loTriFactorT = (Mat_SeqAIJCUSPARSETriFactorStruct*)cusparseTriFactors->loTriFactorPtrTranspose; 1043aa372e3fSPaul Mullowney upTriFactorT = (Mat_SeqAIJCUSPARSETriFactorStruct*)cusparseTriFactors->upTriFactorPtrTranspose; 1044bda325fcSPaul Mullowney } 1045bda325fcSPaul Mullowney 1046bda325fcSPaul Mullowney /* Get the GPU pointers */ 1047c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDAGetArrayWrite(xx,&xarray);CHKERRQ(ierr); 1048c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDAGetArrayRead(bb,&barray);CHKERRQ(ierr); 1049bda325fcSPaul Mullowney 1050aa372e3fSPaul Mullowney /* First, solve U */ 1051aa372e3fSPaul Mullowney stat = cusparse_solve(cusparseTriFactors->handle, upTriFactorT->solveOp, 1052aa372e3fSPaul Mullowney upTriFactorT->csrMat->num_rows, &ALPHA, upTriFactorT->descr, 1053aa372e3fSPaul Mullowney upTriFactorT->csrMat->values->data().get(), 1054aa372e3fSPaul Mullowney upTriFactorT->csrMat->row_offsets->data().get(), 1055aa372e3fSPaul Mullowney upTriFactorT->csrMat->column_indices->data().get(), 1056aa372e3fSPaul Mullowney upTriFactorT->solveInfo, 1057c41cb2e2SAlejandro Lamas Daviña barray, tempGPU->data().get());CHKERRCUDA(stat); 1058aa372e3fSPaul Mullowney 1059aa372e3fSPaul Mullowney /* Then, solve L */ 1060aa372e3fSPaul Mullowney stat = cusparse_solve(cusparseTriFactors->handle, loTriFactorT->solveOp, 1061aa372e3fSPaul Mullowney loTriFactorT->csrMat->num_rows, &ALPHA, loTriFactorT->descr, 1062aa372e3fSPaul Mullowney loTriFactorT->csrMat->values->data().get(), 1063aa372e3fSPaul Mullowney loTriFactorT->csrMat->row_offsets->data().get(), 1064aa372e3fSPaul Mullowney loTriFactorT->csrMat->column_indices->data().get(), 1065aa372e3fSPaul Mullowney loTriFactorT->solveInfo, 1066c41cb2e2SAlejandro Lamas Daviña tempGPU->data().get(), xarray);CHKERRCUDA(stat); 1067bda325fcSPaul Mullowney 1068bda325fcSPaul Mullowney /* restore */ 1069c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDARestoreArrayRead(bb,&barray);CHKERRQ(ierr); 1070c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDARestoreArrayWrite(xx,&xarray);CHKERRQ(ierr); 1071c41cb2e2SAlejandro Lamas Daviña ierr = WaitForGPU();CHKERRCUDA(ierr); 1072aa372e3fSPaul Mullowney ierr = PetscLogFlops(2.0*cusparseTriFactors->nnz - A->cmap->n);CHKERRQ(ierr); 1073bda325fcSPaul Mullowney PetscFunctionReturn(0); 1074bda325fcSPaul Mullowney } 1075bda325fcSPaul Mullowney 10766fa9248bSJed Brown static PetscErrorCode MatSolve_SeqAIJCUSPARSE(Mat A,Vec bb,Vec xx) 10779ae82921SPaul Mullowney { 1078465f34aeSAlejandro Lamas Daviña const PetscScalar *barray; 1079465f34aeSAlejandro Lamas Daviña PetscScalar *xarray; 1080465f34aeSAlejandro Lamas Daviña thrust::device_ptr<const PetscScalar> bGPU; 1081465f34aeSAlejandro Lamas Daviña thrust::device_ptr<PetscScalar> xGPU; 10829ae82921SPaul Mullowney cusparseStatus_t stat; 10839ae82921SPaul Mullowney Mat_SeqAIJCUSPARSETriFactors *cusparseTriFactors = (Mat_SeqAIJCUSPARSETriFactors*)A->spptr; 1084aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSETriFactorStruct *loTriFactor = (Mat_SeqAIJCUSPARSETriFactorStruct*)cusparseTriFactors->loTriFactorPtr; 1085aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSETriFactorStruct *upTriFactor = (Mat_SeqAIJCUSPARSETriFactorStruct*)cusparseTriFactors->upTriFactorPtr; 1086aa372e3fSPaul Mullowney THRUSTARRAY *tempGPU = (THRUSTARRAY*)cusparseTriFactors->workVector; 1087b175d8bbSPaul Mullowney PetscErrorCode ierr; 10889ae82921SPaul Mullowney 10899ae82921SPaul Mullowney PetscFunctionBegin; 1090ebc8f436SDominic Meiser 1091e057df02SPaul Mullowney /* Get the GPU pointers */ 1092c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDAGetArrayWrite(xx,&xarray);CHKERRQ(ierr); 1093c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDAGetArrayRead(bb,&barray);CHKERRQ(ierr); 1094c41cb2e2SAlejandro Lamas Daviña xGPU = thrust::device_pointer_cast(xarray); 1095c41cb2e2SAlejandro Lamas Daviña bGPU = thrust::device_pointer_cast(barray); 10969ae82921SPaul Mullowney 1097aa372e3fSPaul Mullowney /* First, reorder with the row permutation */ 1098c41cb2e2SAlejandro Lamas Daviña thrust::copy(thrust::make_permutation_iterator(bGPU, cusparseTriFactors->rpermIndices->begin()), 1099c41cb2e2SAlejandro Lamas Daviña thrust::make_permutation_iterator(bGPU, cusparseTriFactors->rpermIndices->end()), 1100c41cb2e2SAlejandro Lamas Daviña xGPU); 1101aa372e3fSPaul Mullowney 1102aa372e3fSPaul Mullowney /* Next, solve L */ 1103aa372e3fSPaul Mullowney stat = cusparse_solve(cusparseTriFactors->handle, loTriFactor->solveOp, 1104aa372e3fSPaul Mullowney loTriFactor->csrMat->num_rows, &ALPHA, loTriFactor->descr, 1105aa372e3fSPaul Mullowney loTriFactor->csrMat->values->data().get(), 1106aa372e3fSPaul Mullowney loTriFactor->csrMat->row_offsets->data().get(), 1107aa372e3fSPaul Mullowney loTriFactor->csrMat->column_indices->data().get(), 1108aa372e3fSPaul Mullowney loTriFactor->solveInfo, 1109c41cb2e2SAlejandro Lamas Daviña xarray, tempGPU->data().get());CHKERRCUDA(stat); 1110aa372e3fSPaul Mullowney 1111aa372e3fSPaul Mullowney /* Then, solve U */ 1112aa372e3fSPaul Mullowney stat = cusparse_solve(cusparseTriFactors->handle, upTriFactor->solveOp, 1113aa372e3fSPaul Mullowney upTriFactor->csrMat->num_rows, &ALPHA, upTriFactor->descr, 1114aa372e3fSPaul Mullowney upTriFactor->csrMat->values->data().get(), 1115aa372e3fSPaul Mullowney upTriFactor->csrMat->row_offsets->data().get(), 1116aa372e3fSPaul Mullowney upTriFactor->csrMat->column_indices->data().get(), 1117aa372e3fSPaul Mullowney upTriFactor->solveInfo, 1118c41cb2e2SAlejandro Lamas Daviña tempGPU->data().get(), xarray);CHKERRCUDA(stat); 1119aa372e3fSPaul Mullowney 1120aa372e3fSPaul Mullowney /* Last, copy the solution, xGPU, into a temporary with the column permutation ... can't be done in place. */ 1121c41cb2e2SAlejandro Lamas Daviña thrust::copy(thrust::make_permutation_iterator(xGPU, cusparseTriFactors->cpermIndices->begin()), 1122c41cb2e2SAlejandro Lamas Daviña thrust::make_permutation_iterator(xGPU, cusparseTriFactors->cpermIndices->end()), 1123aa372e3fSPaul Mullowney tempGPU->begin()); 1124aa372e3fSPaul Mullowney 1125aa372e3fSPaul Mullowney /* Copy the temporary to the full solution. */ 1126c41cb2e2SAlejandro Lamas Daviña thrust::copy(tempGPU->begin(), tempGPU->end(), xGPU); 11279ae82921SPaul Mullowney 1128c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDARestoreArrayRead(bb,&barray);CHKERRQ(ierr); 1129c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDARestoreArrayWrite(xx,&xarray);CHKERRQ(ierr); 1130c41cb2e2SAlejandro Lamas Daviña ierr = WaitForGPU();CHKERRCUDA(ierr); 1131aa372e3fSPaul Mullowney ierr = PetscLogFlops(2.0*cusparseTriFactors->nnz - A->cmap->n);CHKERRQ(ierr); 11329ae82921SPaul Mullowney PetscFunctionReturn(0); 11339ae82921SPaul Mullowney } 11349ae82921SPaul Mullowney 11356fa9248bSJed Brown static PetscErrorCode MatSolve_SeqAIJCUSPARSE_NaturalOrdering(Mat A,Vec bb,Vec xx) 11369ae82921SPaul Mullowney { 1137465f34aeSAlejandro Lamas Daviña const PetscScalar *barray; 1138465f34aeSAlejandro Lamas Daviña PetscScalar *xarray; 11399ae82921SPaul Mullowney cusparseStatus_t stat; 11409ae82921SPaul Mullowney Mat_SeqAIJCUSPARSETriFactors *cusparseTriFactors = (Mat_SeqAIJCUSPARSETriFactors*)A->spptr; 1141aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSETriFactorStruct *loTriFactor = (Mat_SeqAIJCUSPARSETriFactorStruct*)cusparseTriFactors->loTriFactorPtr; 1142aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSETriFactorStruct *upTriFactor = (Mat_SeqAIJCUSPARSETriFactorStruct*)cusparseTriFactors->upTriFactorPtr; 1143aa372e3fSPaul Mullowney THRUSTARRAY *tempGPU = (THRUSTARRAY*)cusparseTriFactors->workVector; 1144b175d8bbSPaul Mullowney PetscErrorCode ierr; 11459ae82921SPaul Mullowney 11469ae82921SPaul Mullowney PetscFunctionBegin; 1147e057df02SPaul Mullowney /* Get the GPU pointers */ 1148c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDAGetArrayWrite(xx,&xarray);CHKERRQ(ierr); 1149c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDAGetArrayRead(bb,&barray);CHKERRQ(ierr); 11509ae82921SPaul Mullowney 1151aa372e3fSPaul Mullowney /* First, solve L */ 1152aa372e3fSPaul Mullowney stat = cusparse_solve(cusparseTriFactors->handle, loTriFactor->solveOp, 1153aa372e3fSPaul Mullowney loTriFactor->csrMat->num_rows, &ALPHA, loTriFactor->descr, 1154aa372e3fSPaul Mullowney loTriFactor->csrMat->values->data().get(), 1155aa372e3fSPaul Mullowney loTriFactor->csrMat->row_offsets->data().get(), 1156aa372e3fSPaul Mullowney loTriFactor->csrMat->column_indices->data().get(), 1157aa372e3fSPaul Mullowney loTriFactor->solveInfo, 1158c41cb2e2SAlejandro Lamas Daviña barray, tempGPU->data().get());CHKERRCUDA(stat); 1159aa372e3fSPaul Mullowney 1160aa372e3fSPaul Mullowney /* Next, solve U */ 1161aa372e3fSPaul Mullowney stat = cusparse_solve(cusparseTriFactors->handle, upTriFactor->solveOp, 1162aa372e3fSPaul Mullowney upTriFactor->csrMat->num_rows, &ALPHA, upTriFactor->descr, 1163aa372e3fSPaul Mullowney upTriFactor->csrMat->values->data().get(), 1164aa372e3fSPaul Mullowney upTriFactor->csrMat->row_offsets->data().get(), 1165aa372e3fSPaul Mullowney upTriFactor->csrMat->column_indices->data().get(), 1166aa372e3fSPaul Mullowney upTriFactor->solveInfo, 1167c41cb2e2SAlejandro Lamas Daviña tempGPU->data().get(), xarray);CHKERRCUDA(stat); 11689ae82921SPaul Mullowney 1169c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDARestoreArrayRead(bb,&barray);CHKERRQ(ierr); 1170c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDARestoreArrayWrite(xx,&xarray);CHKERRQ(ierr); 1171c41cb2e2SAlejandro Lamas Daviña ierr = WaitForGPU();CHKERRCUDA(ierr); 1172aa372e3fSPaul Mullowney ierr = PetscLogFlops(2.0*cusparseTriFactors->nnz - A->cmap->n);CHKERRQ(ierr); 11739ae82921SPaul Mullowney PetscFunctionReturn(0); 11749ae82921SPaul Mullowney } 11759ae82921SPaul Mullowney 11766fa9248bSJed Brown static PetscErrorCode MatSeqAIJCUSPARSECopyToGPU(Mat A) 11779ae82921SPaul Mullowney { 11789ae82921SPaul Mullowney 1179aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSE *cusparsestruct = (Mat_SeqAIJCUSPARSE*)A->spptr; 1180aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSEMultStruct *matstruct = (Mat_SeqAIJCUSPARSEMultStruct*)cusparsestruct->mat; 11819ae82921SPaul Mullowney Mat_SeqAIJ *a = (Mat_SeqAIJ*)A->data; 11829ae82921SPaul Mullowney PetscInt m = A->rmap->n,*ii,*ridx; 11839ae82921SPaul Mullowney PetscErrorCode ierr; 1184aa372e3fSPaul Mullowney cusparseStatus_t stat; 1185b06137fdSPaul Mullowney cudaError_t err; 11869ae82921SPaul Mullowney 11879ae82921SPaul Mullowney PetscFunctionBegin; 1188b8ced49eSKarl Rupp if (A->valid_GPU_matrix == PETSC_OFFLOAD_UNALLOCATED || A->valid_GPU_matrix == PETSC_OFFLOAD_CPU) { 11899ae82921SPaul Mullowney ierr = PetscLogEventBegin(MAT_CUSPARSECopyToGPU,A,0,0,0);CHKERRQ(ierr); 119034d6c7a5SJose E. Roman if (A->assembled && A->nonzerostate == cusparsestruct->nonzerostate && cusparsestruct->format == MAT_CUSPARSE_CSR) { 119134d6c7a5SJose E. Roman CsrMatrix *matrix = (CsrMatrix*)matstruct->mat; 119234d6c7a5SJose E. Roman /* copy values only */ 119334d6c7a5SJose E. Roman matrix->values->assign(a->a, a->a+a->nz); 119434d6c7a5SJose E. Roman } else { 1195470880abSPatrick Sanan MatSeqAIJCUSPARSEMultStruct_Destroy(&matstruct,cusparsestruct->format); 11969ae82921SPaul Mullowney try { 1197aa372e3fSPaul Mullowney cusparsestruct->nonzerorow=0; 1198aa372e3fSPaul Mullowney for (int j = 0; j<m; j++) cusparsestruct->nonzerorow += ((a->i[j+1]-a->i[j])>0); 11999ae82921SPaul Mullowney 12009ae82921SPaul Mullowney if (a->compressedrow.use) { 12019ae82921SPaul Mullowney m = a->compressedrow.nrows; 12029ae82921SPaul Mullowney ii = a->compressedrow.i; 12039ae82921SPaul Mullowney ridx = a->compressedrow.rindex; 12049ae82921SPaul Mullowney } else { 1205b06137fdSPaul Mullowney /* Forcing compressed row on the GPU */ 12069ae82921SPaul Mullowney int k=0; 1207854ce69bSBarry Smith ierr = PetscMalloc1(cusparsestruct->nonzerorow+1, &ii);CHKERRQ(ierr); 1208854ce69bSBarry Smith ierr = PetscMalloc1(cusparsestruct->nonzerorow, &ridx);CHKERRQ(ierr); 12099ae82921SPaul Mullowney ii[0]=0; 12109ae82921SPaul Mullowney for (int j = 0; j<m; j++) { 12119ae82921SPaul Mullowney if ((a->i[j+1]-a->i[j])>0) { 12129ae82921SPaul Mullowney ii[k] = a->i[j]; 12139ae82921SPaul Mullowney ridx[k]= j; 12149ae82921SPaul Mullowney k++; 12159ae82921SPaul Mullowney } 12169ae82921SPaul Mullowney } 1217aa372e3fSPaul Mullowney ii[cusparsestruct->nonzerorow] = a->nz; 1218aa372e3fSPaul Mullowney m = cusparsestruct->nonzerorow; 12199ae82921SPaul Mullowney } 12209ae82921SPaul Mullowney 1221aa372e3fSPaul Mullowney /* allocate space for the triangular factor information */ 1222aa372e3fSPaul Mullowney matstruct = new Mat_SeqAIJCUSPARSEMultStruct; 1223c41cb2e2SAlejandro Lamas Daviña stat = cusparseCreateMatDescr(&matstruct->descr);CHKERRCUDA(stat); 1224c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatIndexBase(matstruct->descr, CUSPARSE_INDEX_BASE_ZERO);CHKERRCUDA(stat); 1225c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetMatType(matstruct->descr, CUSPARSE_MATRIX_TYPE_GENERAL);CHKERRCUDA(stat); 12269ae82921SPaul Mullowney 1227c41cb2e2SAlejandro Lamas Daviña err = cudaMalloc((void **)&(matstruct->alpha),sizeof(PetscScalar));CHKERRCUDA(err); 1228c41cb2e2SAlejandro Lamas Daviña err = cudaMemcpy(matstruct->alpha,&ALPHA,sizeof(PetscScalar),cudaMemcpyHostToDevice);CHKERRCUDA(err); 1229c41cb2e2SAlejandro Lamas Daviña err = cudaMalloc((void **)&(matstruct->beta),sizeof(PetscScalar));CHKERRCUDA(err); 1230c41cb2e2SAlejandro Lamas Daviña err = cudaMemcpy(matstruct->beta,&BETA,sizeof(PetscScalar),cudaMemcpyHostToDevice);CHKERRCUDA(err); 1231c41cb2e2SAlejandro Lamas Daviña stat = cusparseSetPointerMode(cusparsestruct->handle, CUSPARSE_POINTER_MODE_DEVICE);CHKERRCUDA(stat); 1232b06137fdSPaul Mullowney 1233aa372e3fSPaul Mullowney /* Build a hybrid/ellpack matrix if this option is chosen for the storage */ 1234aa372e3fSPaul Mullowney if (cusparsestruct->format==MAT_CUSPARSE_CSR) { 1235aa372e3fSPaul Mullowney /* set the matrix */ 1236aa372e3fSPaul Mullowney CsrMatrix *matrix= new CsrMatrix; 1237a65300a6SPaul Mullowney matrix->num_rows = m; 1238aa372e3fSPaul Mullowney matrix->num_cols = A->cmap->n; 1239aa372e3fSPaul Mullowney matrix->num_entries = a->nz; 1240a65300a6SPaul Mullowney matrix->row_offsets = new THRUSTINTARRAY32(m+1); 1241a65300a6SPaul Mullowney matrix->row_offsets->assign(ii, ii + m+1); 12429ae82921SPaul Mullowney 1243aa372e3fSPaul Mullowney matrix->column_indices = new THRUSTINTARRAY32(a->nz); 1244aa372e3fSPaul Mullowney matrix->column_indices->assign(a->j, a->j+a->nz); 1245aa372e3fSPaul Mullowney 1246aa372e3fSPaul Mullowney matrix->values = new THRUSTARRAY(a->nz); 1247aa372e3fSPaul Mullowney matrix->values->assign(a->a, a->a+a->nz); 1248aa372e3fSPaul Mullowney 1249aa372e3fSPaul Mullowney /* assign the pointer */ 1250aa372e3fSPaul Mullowney matstruct->mat = matrix; 1251aa372e3fSPaul Mullowney 1252aa372e3fSPaul Mullowney } else if (cusparsestruct->format==MAT_CUSPARSE_ELL || cusparsestruct->format==MAT_CUSPARSE_HYB) { 12532692e278SPaul Mullowney #if CUDA_VERSION>=4020 1254aa372e3fSPaul Mullowney CsrMatrix *matrix= new CsrMatrix; 1255a65300a6SPaul Mullowney matrix->num_rows = m; 1256aa372e3fSPaul Mullowney matrix->num_cols = A->cmap->n; 1257aa372e3fSPaul Mullowney matrix->num_entries = a->nz; 1258a65300a6SPaul Mullowney matrix->row_offsets = new THRUSTINTARRAY32(m+1); 1259a65300a6SPaul Mullowney matrix->row_offsets->assign(ii, ii + m+1); 1260aa372e3fSPaul Mullowney 1261aa372e3fSPaul Mullowney matrix->column_indices = new THRUSTINTARRAY32(a->nz); 1262aa372e3fSPaul Mullowney matrix->column_indices->assign(a->j, a->j+a->nz); 1263aa372e3fSPaul Mullowney 1264aa372e3fSPaul Mullowney matrix->values = new THRUSTARRAY(a->nz); 1265aa372e3fSPaul Mullowney matrix->values->assign(a->a, a->a+a->nz); 1266aa372e3fSPaul Mullowney 1267aa372e3fSPaul Mullowney cusparseHybMat_t hybMat; 1268c41cb2e2SAlejandro Lamas Daviña stat = cusparseCreateHybMat(&hybMat);CHKERRCUDA(stat); 1269aa372e3fSPaul Mullowney cusparseHybPartition_t partition = cusparsestruct->format==MAT_CUSPARSE_ELL ? 1270aa372e3fSPaul Mullowney CUSPARSE_HYB_PARTITION_MAX : CUSPARSE_HYB_PARTITION_AUTO; 1271a65300a6SPaul Mullowney stat = cusparse_csr2hyb(cusparsestruct->handle, matrix->num_rows, matrix->num_cols, 1272aa372e3fSPaul Mullowney matstruct->descr, matrix->values->data().get(), 1273aa372e3fSPaul Mullowney matrix->row_offsets->data().get(), 1274aa372e3fSPaul Mullowney matrix->column_indices->data().get(), 1275c41cb2e2SAlejandro Lamas Daviña hybMat, 0, partition);CHKERRCUDA(stat); 1276aa372e3fSPaul Mullowney /* assign the pointer */ 1277aa372e3fSPaul Mullowney matstruct->mat = hybMat; 1278aa372e3fSPaul Mullowney 1279aa372e3fSPaul Mullowney if (matrix) { 1280aa372e3fSPaul Mullowney if (matrix->values) delete (THRUSTARRAY*)matrix->values; 1281aa372e3fSPaul Mullowney if (matrix->column_indices) delete (THRUSTINTARRAY32*)matrix->column_indices; 1282aa372e3fSPaul Mullowney if (matrix->row_offsets) delete (THRUSTINTARRAY32*)matrix->row_offsets; 1283aa372e3fSPaul Mullowney delete (CsrMatrix*)matrix; 1284087f3262SPaul Mullowney } 12852692e278SPaul Mullowney #endif 1286087f3262SPaul Mullowney } 1287ca45077fSPaul Mullowney 1288aa372e3fSPaul Mullowney /* assign the compressed row indices */ 1289aa372e3fSPaul Mullowney matstruct->cprowIndices = new THRUSTINTARRAY(m); 1290aa372e3fSPaul Mullowney matstruct->cprowIndices->assign(ridx,ridx+m); 1291aa372e3fSPaul Mullowney 1292aa372e3fSPaul Mullowney /* assign the pointer */ 1293aa372e3fSPaul Mullowney cusparsestruct->mat = matstruct; 1294aa372e3fSPaul Mullowney 12959ae82921SPaul Mullowney if (!a->compressedrow.use) { 12969ae82921SPaul Mullowney ierr = PetscFree(ii);CHKERRQ(ierr); 12979ae82921SPaul Mullowney ierr = PetscFree(ridx);CHKERRQ(ierr); 12989ae82921SPaul Mullowney } 1299e65717acSKarl Rupp cusparsestruct->workVector = new THRUSTARRAY(m); 13009ae82921SPaul Mullowney } catch(char *ex) { 13019ae82921SPaul Mullowney SETERRQ1(PETSC_COMM_SELF,PETSC_ERR_LIB,"CUSPARSE error: %s", ex); 13029ae82921SPaul Mullowney } 130334d6c7a5SJose E. Roman cusparsestruct->nonzerostate = A->nonzerostate; 130434d6c7a5SJose E. Roman } 13057d0e52d8SJose E. Roman ierr = WaitForGPU();CHKERRCUDA(ierr); 1306b8ced49eSKarl Rupp A->valid_GPU_matrix = PETSC_OFFLOAD_BOTH; 13079ae82921SPaul Mullowney ierr = PetscLogEventEnd(MAT_CUSPARSECopyToGPU,A,0,0,0);CHKERRQ(ierr); 13089ae82921SPaul Mullowney } 13099ae82921SPaul Mullowney PetscFunctionReturn(0); 13109ae82921SPaul Mullowney } 13119ae82921SPaul Mullowney 1312c41cb2e2SAlejandro Lamas Daviña struct VecCUDAPlusEquals 1313aa372e3fSPaul Mullowney { 1314aa372e3fSPaul Mullowney template <typename Tuple> 1315aa372e3fSPaul Mullowney __host__ __device__ 1316aa372e3fSPaul Mullowney void operator()(Tuple t) 1317aa372e3fSPaul Mullowney { 1318aa372e3fSPaul Mullowney thrust::get<1>(t) = thrust::get<1>(t) + thrust::get<0>(t); 1319aa372e3fSPaul Mullowney } 1320aa372e3fSPaul Mullowney }; 1321aa372e3fSPaul Mullowney 13226fa9248bSJed Brown static PetscErrorCode MatMult_SeqAIJCUSPARSE(Mat A,Vec xx,Vec yy) 13239ae82921SPaul Mullowney { 13249ae82921SPaul Mullowney Mat_SeqAIJ *a = (Mat_SeqAIJ*)A->data; 1325aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSE *cusparsestruct = (Mat_SeqAIJCUSPARSE*)A->spptr; 13269ff858a8SKarl Rupp Mat_SeqAIJCUSPARSEMultStruct *matstruct; /* Do not initialize yet, because GPU data may not be available yet */ 1327465f34aeSAlejandro Lamas Daviña const PetscScalar *xarray; 1328465f34aeSAlejandro Lamas Daviña PetscScalar *yarray; 1329b175d8bbSPaul Mullowney PetscErrorCode ierr; 1330aa372e3fSPaul Mullowney cusparseStatus_t stat; 13319ae82921SPaul Mullowney 13329ae82921SPaul Mullowney PetscFunctionBegin; 133334d6c7a5SJose E. Roman /* The line below is necessary due to the operations that modify the matrix on the CPU (axpy, scale, etc) */ 133434d6c7a5SJose E. Roman ierr = MatSeqAIJCUSPARSECopyToGPU(A);CHKERRQ(ierr); 1335c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDAGetArrayRead(xx,&xarray);CHKERRQ(ierr); 1336ca6ae6e6SAlejandro Lamas Daviña ierr = VecSet(yy,0);CHKERRQ(ierr); 1337c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDAGetArrayWrite(yy,&yarray);CHKERRQ(ierr); 13389ff858a8SKarl Rupp matstruct = (Mat_SeqAIJCUSPARSEMultStruct*)cusparsestruct->mat; 1339aa372e3fSPaul Mullowney if (cusparsestruct->format==MAT_CUSPARSE_CSR) { 1340aa372e3fSPaul Mullowney CsrMatrix *mat = (CsrMatrix*)matstruct->mat; 1341aa372e3fSPaul Mullowney stat = cusparse_csr_spmv(cusparsestruct->handle, CUSPARSE_OPERATION_NON_TRANSPOSE, 1342aa372e3fSPaul Mullowney mat->num_rows, mat->num_cols, mat->num_entries, 1343b06137fdSPaul Mullowney matstruct->alpha, matstruct->descr, mat->values->data().get(), mat->row_offsets->data().get(), 1344c41cb2e2SAlejandro Lamas Daviña mat->column_indices->data().get(), xarray, matstruct->beta, 1345c41cb2e2SAlejandro Lamas Daviña yarray);CHKERRCUDA(stat); 1346aa372e3fSPaul Mullowney } else { 13472692e278SPaul Mullowney #if CUDA_VERSION>=4020 1348aa372e3fSPaul Mullowney cusparseHybMat_t hybMat = (cusparseHybMat_t)matstruct->mat; 1349aa372e3fSPaul Mullowney stat = cusparse_hyb_spmv(cusparsestruct->handle, CUSPARSE_OPERATION_NON_TRANSPOSE, 1350b06137fdSPaul Mullowney matstruct->alpha, matstruct->descr, hybMat, 1351c41cb2e2SAlejandro Lamas Daviña xarray, matstruct->beta, 1352c41cb2e2SAlejandro Lamas Daviña yarray);CHKERRCUDA(stat); 13532692e278SPaul Mullowney #endif 13549ae82921SPaul Mullowney } 1355c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDARestoreArrayRead(xx,&xarray);CHKERRQ(ierr); 1356c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDARestoreArrayWrite(yy,&yarray);CHKERRQ(ierr); 1357aa372e3fSPaul Mullowney if (!cusparsestruct->stream) { 1358c41cb2e2SAlejandro Lamas Daviña ierr = WaitForGPU();CHKERRCUDA(ierr); 1359ca45077fSPaul Mullowney } 1360aa372e3fSPaul Mullowney ierr = PetscLogFlops(2.0*a->nz - cusparsestruct->nonzerorow);CHKERRQ(ierr); 13619ae82921SPaul Mullowney PetscFunctionReturn(0); 13629ae82921SPaul Mullowney } 13639ae82921SPaul Mullowney 13646fa9248bSJed Brown static PetscErrorCode MatMultTranspose_SeqAIJCUSPARSE(Mat A,Vec xx,Vec yy) 1365ca45077fSPaul Mullowney { 1366ca45077fSPaul Mullowney Mat_SeqAIJ *a = (Mat_SeqAIJ*)A->data; 1367aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSE *cusparsestruct = (Mat_SeqAIJCUSPARSE*)A->spptr; 13689ff858a8SKarl Rupp Mat_SeqAIJCUSPARSEMultStruct *matstructT; 1369465f34aeSAlejandro Lamas Daviña const PetscScalar *xarray; 1370465f34aeSAlejandro Lamas Daviña PetscScalar *yarray; 1371b175d8bbSPaul Mullowney PetscErrorCode ierr; 1372aa372e3fSPaul Mullowney cusparseStatus_t stat; 1373ca45077fSPaul Mullowney 1374ca45077fSPaul Mullowney PetscFunctionBegin; 137534d6c7a5SJose E. Roman /* The line below is necessary due to the operations that modify the matrix on the CPU (axpy, scale, etc) */ 137634d6c7a5SJose E. Roman ierr = MatSeqAIJCUSPARSECopyToGPU(A);CHKERRQ(ierr); 13779ff858a8SKarl Rupp matstructT = (Mat_SeqAIJCUSPARSEMultStruct*)cusparsestruct->matTranspose; 1378aa372e3fSPaul Mullowney if (!matstructT) { 1379bda325fcSPaul Mullowney ierr = MatSeqAIJCUSPARSEGenerateTransposeForMult(A);CHKERRQ(ierr); 1380aa372e3fSPaul Mullowney matstructT = (Mat_SeqAIJCUSPARSEMultStruct*)cusparsestruct->matTranspose; 1381bda325fcSPaul Mullowney } 1382c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDAGetArrayRead(xx,&xarray);CHKERRQ(ierr); 1383ca6ae6e6SAlejandro Lamas Daviña ierr = VecSet(yy,0);CHKERRQ(ierr); 1384c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDAGetArrayWrite(yy,&yarray);CHKERRQ(ierr); 1385aa372e3fSPaul Mullowney 1386aa372e3fSPaul Mullowney if (cusparsestruct->format==MAT_CUSPARSE_CSR) { 1387aa372e3fSPaul Mullowney CsrMatrix *mat = (CsrMatrix*)matstructT->mat; 1388aa372e3fSPaul Mullowney stat = cusparse_csr_spmv(cusparsestruct->handle, CUSPARSE_OPERATION_NON_TRANSPOSE, 1389aa372e3fSPaul Mullowney mat->num_rows, mat->num_cols, 1390b06137fdSPaul Mullowney mat->num_entries, matstructT->alpha, matstructT->descr, 1391aa372e3fSPaul Mullowney mat->values->data().get(), mat->row_offsets->data().get(), 1392c41cb2e2SAlejandro Lamas Daviña mat->column_indices->data().get(), xarray, matstructT->beta, 1393c41cb2e2SAlejandro Lamas Daviña yarray);CHKERRCUDA(stat); 1394aa372e3fSPaul Mullowney } else { 13952692e278SPaul Mullowney #if CUDA_VERSION>=4020 1396aa372e3fSPaul Mullowney cusparseHybMat_t hybMat = (cusparseHybMat_t)matstructT->mat; 1397aa372e3fSPaul Mullowney stat = cusparse_hyb_spmv(cusparsestruct->handle, CUSPARSE_OPERATION_NON_TRANSPOSE, 1398b06137fdSPaul Mullowney matstructT->alpha, matstructT->descr, hybMat, 1399c41cb2e2SAlejandro Lamas Daviña xarray, matstructT->beta, 1400c41cb2e2SAlejandro Lamas Daviña yarray);CHKERRCUDA(stat); 14012692e278SPaul Mullowney #endif 1402ca45077fSPaul Mullowney } 1403c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDARestoreArrayRead(xx,&xarray);CHKERRQ(ierr); 1404c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDARestoreArrayWrite(yy,&yarray);CHKERRQ(ierr); 1405aa372e3fSPaul Mullowney if (!cusparsestruct->stream) { 1406c41cb2e2SAlejandro Lamas Daviña ierr = WaitForGPU();CHKERRCUDA(ierr); 1407ca45077fSPaul Mullowney } 1408aa372e3fSPaul Mullowney ierr = PetscLogFlops(2.0*a->nz - cusparsestruct->nonzerorow);CHKERRQ(ierr); 1409ca45077fSPaul Mullowney PetscFunctionReturn(0); 1410ca45077fSPaul Mullowney } 1411ca45077fSPaul Mullowney 1412aa372e3fSPaul Mullowney 14136fa9248bSJed Brown static PetscErrorCode MatMultAdd_SeqAIJCUSPARSE(Mat A,Vec xx,Vec yy,Vec zz) 14149ae82921SPaul Mullowney { 14159ae82921SPaul Mullowney Mat_SeqAIJ *a = (Mat_SeqAIJ*)A->data; 1416aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSE *cusparsestruct = (Mat_SeqAIJCUSPARSE*)A->spptr; 14179ff858a8SKarl Rupp Mat_SeqAIJCUSPARSEMultStruct *matstruct; 1418c41cb2e2SAlejandro Lamas Daviña thrust::device_ptr<PetscScalar> zptr; 1419465f34aeSAlejandro Lamas Daviña const PetscScalar *xarray; 1420465f34aeSAlejandro Lamas Daviña PetscScalar *zarray; 1421b175d8bbSPaul Mullowney PetscErrorCode ierr; 1422aa372e3fSPaul Mullowney cusparseStatus_t stat; 14236e111a19SKarl Rupp 14249ae82921SPaul Mullowney PetscFunctionBegin; 142534d6c7a5SJose E. Roman /* The line below is necessary due to the operations that modify the matrix on the CPU (axpy, scale, etc) */ 142634d6c7a5SJose E. Roman ierr = MatSeqAIJCUSPARSECopyToGPU(A);CHKERRQ(ierr); 14279ff858a8SKarl Rupp matstruct = (Mat_SeqAIJCUSPARSEMultStruct*)cusparsestruct->mat; 14289ae82921SPaul Mullowney try { 1429c41cb2e2SAlejandro Lamas Daviña ierr = VecCopy_SeqCUDA(yy,zz);CHKERRQ(ierr); 1430c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDAGetArrayRead(xx,&xarray);CHKERRQ(ierr); 143134d6c7a5SJose E. Roman ierr = VecCUDAGetArrayReadWrite(zz,&zarray);CHKERRQ(ierr); 1432c41cb2e2SAlejandro Lamas Daviña zptr = thrust::device_pointer_cast(zarray); 14339ae82921SPaul Mullowney 1434e057df02SPaul Mullowney /* multiply add */ 1435aa372e3fSPaul Mullowney if (cusparsestruct->format==MAT_CUSPARSE_CSR) { 1436aa372e3fSPaul Mullowney CsrMatrix *mat = (CsrMatrix*)matstruct->mat; 1437b06137fdSPaul Mullowney /* here we need to be careful to set the number of rows in the multiply to the 1438b06137fdSPaul Mullowney number of compressed rows in the matrix ... which is equivalent to the 1439b06137fdSPaul Mullowney size of the workVector */ 1440aa372e3fSPaul Mullowney stat = cusparse_csr_spmv(cusparsestruct->handle, CUSPARSE_OPERATION_NON_TRANSPOSE, 1441a65300a6SPaul Mullowney mat->num_rows, mat->num_cols, 1442b06137fdSPaul Mullowney mat->num_entries, matstruct->alpha, matstruct->descr, 1443aa372e3fSPaul Mullowney mat->values->data().get(), mat->row_offsets->data().get(), 1444c41cb2e2SAlejandro Lamas Daviña mat->column_indices->data().get(), xarray, matstruct->beta, 1445c41cb2e2SAlejandro Lamas Daviña cusparsestruct->workVector->data().get());CHKERRCUDA(stat); 1446aa372e3fSPaul Mullowney } else { 14472692e278SPaul Mullowney #if CUDA_VERSION>=4020 1448aa372e3fSPaul Mullowney cusparseHybMat_t hybMat = (cusparseHybMat_t)matstruct->mat; 1449a65300a6SPaul Mullowney if (cusparsestruct->workVector->size()) { 1450aa372e3fSPaul Mullowney stat = cusparse_hyb_spmv(cusparsestruct->handle, CUSPARSE_OPERATION_NON_TRANSPOSE, 1451b06137fdSPaul Mullowney matstruct->alpha, matstruct->descr, hybMat, 1452c41cb2e2SAlejandro Lamas Daviña xarray, matstruct->beta, 1453c41cb2e2SAlejandro Lamas Daviña cusparsestruct->workVector->data().get());CHKERRCUDA(stat); 1454a65300a6SPaul Mullowney } 14552692e278SPaul Mullowney #endif 1456aa372e3fSPaul Mullowney } 1457aa372e3fSPaul Mullowney 1458aa372e3fSPaul Mullowney /* scatter the data from the temporary into the full vector with a += operation */ 1459c41cb2e2SAlejandro Lamas Daviña thrust::for_each(thrust::make_zip_iterator(thrust::make_tuple(cusparsestruct->workVector->begin(), thrust::make_permutation_iterator(zptr, matstruct->cprowIndices->begin()))), 1460c41cb2e2SAlejandro Lamas Daviña thrust::make_zip_iterator(thrust::make_tuple(cusparsestruct->workVector->begin(), thrust::make_permutation_iterator(zptr, matstruct->cprowIndices->begin()))) + cusparsestruct->workVector->size(), 1461c41cb2e2SAlejandro Lamas Daviña VecCUDAPlusEquals()); 1462c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDARestoreArrayRead(xx,&xarray);CHKERRQ(ierr); 146334d6c7a5SJose E. Roman ierr = VecCUDARestoreArrayReadWrite(zz,&zarray);CHKERRQ(ierr); 14649ae82921SPaul Mullowney 14659ae82921SPaul Mullowney } catch(char *ex) { 14669ae82921SPaul Mullowney SETERRQ1(PETSC_COMM_SELF,PETSC_ERR_LIB,"CUSPARSE error: %s", ex); 14679ae82921SPaul Mullowney } 1468c41cb2e2SAlejandro Lamas Daviña ierr = WaitForGPU();CHKERRCUDA(ierr); 14699ae82921SPaul Mullowney ierr = PetscLogFlops(2.0*a->nz);CHKERRQ(ierr); 14709ae82921SPaul Mullowney PetscFunctionReturn(0); 14719ae82921SPaul Mullowney } 14729ae82921SPaul Mullowney 14736fa9248bSJed Brown static PetscErrorCode MatMultTransposeAdd_SeqAIJCUSPARSE(Mat A,Vec xx,Vec yy,Vec zz) 1474ca45077fSPaul Mullowney { 1475ca45077fSPaul Mullowney Mat_SeqAIJ *a = (Mat_SeqAIJ*)A->data; 1476aa372e3fSPaul Mullowney Mat_SeqAIJCUSPARSE *cusparsestruct = (Mat_SeqAIJCUSPARSE*)A->spptr; 14779ff858a8SKarl Rupp Mat_SeqAIJCUSPARSEMultStruct *matstructT; 1478c41cb2e2SAlejandro Lamas Daviña thrust::device_ptr<PetscScalar> zptr; 1479465f34aeSAlejandro Lamas Daviña const PetscScalar *xarray; 1480465f34aeSAlejandro Lamas Daviña PetscScalar *zarray; 1481b175d8bbSPaul Mullowney PetscErrorCode ierr; 1482aa372e3fSPaul Mullowney cusparseStatus_t stat; 14836e111a19SKarl Rupp 1484ca45077fSPaul Mullowney PetscFunctionBegin; 148534d6c7a5SJose E. Roman /* The line below is necessary due to the operations that modify the matrix on the CPU (axpy, scale, etc) */ 148634d6c7a5SJose E. Roman ierr = MatSeqAIJCUSPARSECopyToGPU(A);CHKERRQ(ierr); 14879ff858a8SKarl Rupp matstructT = (Mat_SeqAIJCUSPARSEMultStruct*)cusparsestruct->matTranspose; 1488aa372e3fSPaul Mullowney if (!matstructT) { 1489bda325fcSPaul Mullowney ierr = MatSeqAIJCUSPARSEGenerateTransposeForMult(A);CHKERRQ(ierr); 1490aa372e3fSPaul Mullowney matstructT = (Mat_SeqAIJCUSPARSEMultStruct*)cusparsestruct->matTranspose; 1491bda325fcSPaul Mullowney } 1492aa372e3fSPaul Mullowney 1493ca45077fSPaul Mullowney try { 1494c41cb2e2SAlejandro Lamas Daviña ierr = VecCopy_SeqCUDA(yy,zz);CHKERRQ(ierr); 1495c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDAGetArrayRead(xx,&xarray);CHKERRQ(ierr); 149634d6c7a5SJose E. Roman ierr = VecCUDAGetArrayReadWrite(zz,&zarray);CHKERRQ(ierr); 1497c41cb2e2SAlejandro Lamas Daviña zptr = thrust::device_pointer_cast(zarray); 1498ca45077fSPaul Mullowney 1499e057df02SPaul Mullowney /* multiply add with matrix transpose */ 1500aa372e3fSPaul Mullowney if (cusparsestruct->format==MAT_CUSPARSE_CSR) { 1501aa372e3fSPaul Mullowney CsrMatrix *mat = (CsrMatrix*)matstructT->mat; 1502b06137fdSPaul Mullowney /* here we need to be careful to set the number of rows in the multiply to the 1503b06137fdSPaul Mullowney number of compressed rows in the matrix ... which is equivalent to the 1504b06137fdSPaul Mullowney size of the workVector */ 1505aa372e3fSPaul Mullowney stat = cusparse_csr_spmv(cusparsestruct->handle, CUSPARSE_OPERATION_NON_TRANSPOSE, 1506a65300a6SPaul Mullowney mat->num_rows, mat->num_cols, 1507b06137fdSPaul Mullowney mat->num_entries, matstructT->alpha, matstructT->descr, 1508aa372e3fSPaul Mullowney mat->values->data().get(), mat->row_offsets->data().get(), 1509c41cb2e2SAlejandro Lamas Daviña mat->column_indices->data().get(), xarray, matstructT->beta, 1510c41cb2e2SAlejandro Lamas Daviña cusparsestruct->workVector->data().get());CHKERRCUDA(stat); 1511aa372e3fSPaul Mullowney } else { 15122692e278SPaul Mullowney #if CUDA_VERSION>=4020 1513aa372e3fSPaul Mullowney cusparseHybMat_t hybMat = (cusparseHybMat_t)matstructT->mat; 1514a65300a6SPaul Mullowney if (cusparsestruct->workVector->size()) { 1515aa372e3fSPaul Mullowney stat = cusparse_hyb_spmv(cusparsestruct->handle, CUSPARSE_OPERATION_NON_TRANSPOSE, 1516b06137fdSPaul Mullowney matstructT->alpha, matstructT->descr, hybMat, 1517c41cb2e2SAlejandro Lamas Daviña xarray, matstructT->beta, 1518c41cb2e2SAlejandro Lamas Daviña cusparsestruct->workVector->data().get());CHKERRCUDA(stat); 1519a65300a6SPaul Mullowney } 15202692e278SPaul Mullowney #endif 1521aa372e3fSPaul Mullowney } 1522aa372e3fSPaul Mullowney 1523aa372e3fSPaul Mullowney /* scatter the data from the temporary into the full vector with a += operation */ 1524c41cb2e2SAlejandro Lamas Daviña thrust::for_each(thrust::make_zip_iterator(thrust::make_tuple(cusparsestruct->workVector->begin(), thrust::make_permutation_iterator(zptr, matstructT->cprowIndices->begin()))), 1525554b8892SKarl Rupp thrust::make_zip_iterator(thrust::make_tuple(cusparsestruct->workVector->begin(), thrust::make_permutation_iterator(zptr, matstructT->cprowIndices->begin()))) + A->cmap->n, 1526c41cb2e2SAlejandro Lamas Daviña VecCUDAPlusEquals()); 1527ca45077fSPaul Mullowney 1528c41cb2e2SAlejandro Lamas Daviña ierr = VecCUDARestoreArrayRead(xx,&xarray);CHKERRQ(ierr); 152934d6c7a5SJose E. Roman ierr = VecCUDARestoreArrayReadWrite(zz,&zarray);CHKERRQ(ierr); 1530ca45077fSPaul Mullowney 1531ca45077fSPaul Mullowney } catch(char *ex) { 1532ca45077fSPaul Mullowney SETERRQ1(PETSC_COMM_SELF,PETSC_ERR_LIB,"CUSPARSE error: %s", ex); 1533ca45077fSPaul Mullowney } 1534c41cb2e2SAlejandro Lamas Daviña ierr = WaitForGPU();CHKERRCUDA(ierr); 1535ca45077fSPaul Mullowney ierr = PetscLogFlops(2.0*a->nz);CHKERRQ(ierr); 1536ca45077fSPaul Mullowney PetscFunctionReturn(0); 1537ca45077fSPaul Mullowney } 1538ca45077fSPaul Mullowney 15396fa9248bSJed Brown static PetscErrorCode MatAssemblyEnd_SeqAIJCUSPARSE(Mat A,MatAssemblyType mode) 15409ae82921SPaul Mullowney { 15419ae82921SPaul Mullowney PetscErrorCode ierr; 15426e111a19SKarl Rupp 15439ae82921SPaul Mullowney PetscFunctionBegin; 15449ae82921SPaul Mullowney ierr = MatAssemblyEnd_SeqAIJ(A,mode);CHKERRQ(ierr); 1545bc3f50f2SPaul Mullowney if (A->factortype==MAT_FACTOR_NONE) { 1546e057df02SPaul Mullowney ierr = MatSeqAIJCUSPARSECopyToGPU(A);CHKERRQ(ierr); 1547bc3f50f2SPaul Mullowney } 15489ae82921SPaul Mullowney if (mode == MAT_FLUSH_ASSEMBLY) PetscFunctionReturn(0); 1549bbf3fe20SPaul Mullowney A->ops->mult = MatMult_SeqAIJCUSPARSE; 1550bbf3fe20SPaul Mullowney A->ops->multadd = MatMultAdd_SeqAIJCUSPARSE; 1551bbf3fe20SPaul Mullowney A->ops->multtranspose = MatMultTranspose_SeqAIJCUSPARSE; 1552bbf3fe20SPaul Mullowney A->ops->multtransposeadd = MatMultTransposeAdd_SeqAIJCUSPARSE; 15539ae82921SPaul Mullowney PetscFunctionReturn(0); 15549ae82921SPaul Mullowney } 15559ae82921SPaul Mullowney 15569ae82921SPaul Mullowney /* --------------------------------------------------------------------------------*/ 1557e057df02SPaul Mullowney /*@ 15589ae82921SPaul Mullowney MatCreateSeqAIJCUSPARSE - Creates a sparse matrix in AIJ (compressed row) format 1559e057df02SPaul Mullowney (the default parallel PETSc format). This matrix will ultimately pushed down 1560e057df02SPaul Mullowney to NVidia GPUs and use the CUSPARSE library for calculations. For good matrix 1561e057df02SPaul Mullowney assembly performance the user should preallocate the matrix storage by setting 1562e057df02SPaul Mullowney the parameter nz (or the array nnz). By setting these parameters accurately, 1563e057df02SPaul Mullowney performance during matrix assembly can be increased by more than a factor of 50. 15649ae82921SPaul Mullowney 15659ae82921SPaul Mullowney Collective on MPI_Comm 15669ae82921SPaul Mullowney 15679ae82921SPaul Mullowney Input Parameters: 15689ae82921SPaul Mullowney + comm - MPI communicator, set to PETSC_COMM_SELF 15699ae82921SPaul Mullowney . m - number of rows 15709ae82921SPaul Mullowney . n - number of columns 15719ae82921SPaul Mullowney . nz - number of nonzeros per row (same for all rows) 15729ae82921SPaul Mullowney - nnz - array containing the number of nonzeros in the various rows 15730298fd71SBarry Smith (possibly different for each row) or NULL 15749ae82921SPaul Mullowney 15759ae82921SPaul Mullowney Output Parameter: 15769ae82921SPaul Mullowney . A - the matrix 15779ae82921SPaul Mullowney 15789ae82921SPaul Mullowney It is recommended that one use the MatCreate(), MatSetType() and/or MatSetFromOptions(), 15799ae82921SPaul Mullowney MatXXXXSetPreallocation() paradgm instead of this routine directly. 15809ae82921SPaul Mullowney [MatXXXXSetPreallocation() is, for example, MatSeqAIJSetPreallocation] 15819ae82921SPaul Mullowney 15829ae82921SPaul Mullowney Notes: 15839ae82921SPaul Mullowney If nnz is given then nz is ignored 15849ae82921SPaul Mullowney 15859ae82921SPaul Mullowney The AIJ format (also called the Yale sparse matrix format or 15869ae82921SPaul Mullowney compressed row storage), is fully compatible with standard Fortran 77 15879ae82921SPaul Mullowney storage. That is, the stored row and column indices can begin at 15889ae82921SPaul Mullowney either one (as in Fortran) or zero. See the users' manual for details. 15899ae82921SPaul Mullowney 15909ae82921SPaul Mullowney Specify the preallocated storage with either nz or nnz (not both). 15910298fd71SBarry Smith Set nz=PETSC_DEFAULT and nnz=NULL for PETSc to control dynamic memory 15929ae82921SPaul Mullowney allocation. For large problems you MUST preallocate memory or you 15939ae82921SPaul Mullowney will get TERRIBLE performance, see the users' manual chapter on matrices. 15949ae82921SPaul Mullowney 15959ae82921SPaul Mullowney By default, this format uses inodes (identical nodes) when possible, to 15969ae82921SPaul Mullowney improve numerical efficiency of matrix-vector products and solves. We 15979ae82921SPaul Mullowney search for consecutive rows with the same nonzero structure, thereby 15989ae82921SPaul Mullowney reusing matrix information to achieve increased efficiency. 15999ae82921SPaul Mullowney 16009ae82921SPaul Mullowney Level: intermediate 16019ae82921SPaul Mullowney 1602e057df02SPaul Mullowney .seealso: MatCreate(), MatCreateAIJ(), MatSetValues(), MatSeqAIJSetColumnIndices(), MatCreateSeqAIJWithArrays(), MatCreateAIJ(), MATSEQAIJCUSPARSE, MATAIJCUSPARSE 16039ae82921SPaul Mullowney @*/ 16049ae82921SPaul Mullowney PetscErrorCode MatCreateSeqAIJCUSPARSE(MPI_Comm comm,PetscInt m,PetscInt n,PetscInt nz,const PetscInt nnz[],Mat *A) 16059ae82921SPaul Mullowney { 16069ae82921SPaul Mullowney PetscErrorCode ierr; 16079ae82921SPaul Mullowney 16089ae82921SPaul Mullowney PetscFunctionBegin; 16099ae82921SPaul Mullowney ierr = MatCreate(comm,A);CHKERRQ(ierr); 16109ae82921SPaul Mullowney ierr = MatSetSizes(*A,m,n,m,n);CHKERRQ(ierr); 16119ae82921SPaul Mullowney ierr = MatSetType(*A,MATSEQAIJCUSPARSE);CHKERRQ(ierr); 16129ae82921SPaul Mullowney ierr = MatSeqAIJSetPreallocation_SeqAIJ(*A,nz,(PetscInt*)nnz);CHKERRQ(ierr); 16139ae82921SPaul Mullowney PetscFunctionReturn(0); 16149ae82921SPaul Mullowney } 16159ae82921SPaul Mullowney 16166fa9248bSJed Brown static PetscErrorCode MatDestroy_SeqAIJCUSPARSE(Mat A) 16179ae82921SPaul Mullowney { 16189ae82921SPaul Mullowney PetscErrorCode ierr; 1619ab25e6cbSDominic Meiser 16209ae82921SPaul Mullowney PetscFunctionBegin; 16219ae82921SPaul Mullowney if (A->factortype==MAT_FACTOR_NONE) { 1622b8ced49eSKarl Rupp if (A->valid_GPU_matrix != PETSC_OFFLOAD_UNALLOCATED) { 1623470880abSPatrick Sanan ierr = MatSeqAIJCUSPARSE_Destroy((Mat_SeqAIJCUSPARSE**)&A->spptr);CHKERRQ(ierr); 16249ae82921SPaul Mullowney } 16259ae82921SPaul Mullowney } else { 1626470880abSPatrick Sanan ierr = MatSeqAIJCUSPARSETriFactors_Destroy((Mat_SeqAIJCUSPARSETriFactors**)&A->spptr);CHKERRQ(ierr); 1627aa372e3fSPaul Mullowney } 16289ae82921SPaul Mullowney ierr = MatDestroy_SeqAIJ(A);CHKERRQ(ierr); 16299ae82921SPaul Mullowney PetscFunctionReturn(0); 16309ae82921SPaul Mullowney } 16319ae82921SPaul Mullowney 16329ff858a8SKarl Rupp static PetscErrorCode MatDuplicate_SeqAIJCUSPARSE(Mat A,MatDuplicateOption cpvalues,Mat *B) 16339ff858a8SKarl Rupp { 16349ff858a8SKarl Rupp PetscErrorCode ierr; 16359ff858a8SKarl Rupp Mat C; 16369ff858a8SKarl Rupp cusparseStatus_t stat; 16379ff858a8SKarl Rupp cusparseHandle_t handle=0; 16389ff858a8SKarl Rupp 16399ff858a8SKarl Rupp PetscFunctionBegin; 16409ff858a8SKarl Rupp ierr = MatDuplicate_SeqAIJ(A,cpvalues,B);CHKERRQ(ierr); 16419ff858a8SKarl Rupp C = *B; 1642*34136279SStefano Zampini ierr = PetscFree(C->defaultvectype);CHKERRQ(ierr); 1643*34136279SStefano Zampini ierr = PetscStrallocpy(VECCUDA,&C->defaultvectype);CHKERRQ(ierr); 1644*34136279SStefano Zampini 16459ff858a8SKarl Rupp /* inject CUSPARSE-specific stuff */ 16469ff858a8SKarl Rupp if (C->factortype==MAT_FACTOR_NONE) { 16479ff858a8SKarl Rupp /* you cannot check the inode.use flag here since the matrix was just created. 16489ff858a8SKarl Rupp now build a GPU matrix data structure */ 16499ff858a8SKarl Rupp C->spptr = new Mat_SeqAIJCUSPARSE; 16509ff858a8SKarl Rupp ((Mat_SeqAIJCUSPARSE*)C->spptr)->mat = 0; 16519ff858a8SKarl Rupp ((Mat_SeqAIJCUSPARSE*)C->spptr)->matTranspose = 0; 16529ff858a8SKarl Rupp ((Mat_SeqAIJCUSPARSE*)C->spptr)->workVector = 0; 16539ff858a8SKarl Rupp ((Mat_SeqAIJCUSPARSE*)C->spptr)->format = MAT_CUSPARSE_CSR; 16549ff858a8SKarl Rupp ((Mat_SeqAIJCUSPARSE*)C->spptr)->stream = 0; 16559ff858a8SKarl Rupp ((Mat_SeqAIJCUSPARSE*)C->spptr)->handle = 0; 16569ff858a8SKarl Rupp stat = cusparseCreate(&handle);CHKERRCUDA(stat); 16579ff858a8SKarl Rupp ((Mat_SeqAIJCUSPARSE*)C->spptr)->handle = handle; 16589ff858a8SKarl Rupp ((Mat_SeqAIJCUSPARSE*)C->spptr)->stream = 0; 16599ff858a8SKarl Rupp ((Mat_SeqAIJCUSPARSE*)C->spptr)->nonzerostate = 0; 16609ff858a8SKarl Rupp } else { 16619ff858a8SKarl Rupp /* NEXT, set the pointers to the triangular factors */ 16629ff858a8SKarl Rupp C->spptr = new Mat_SeqAIJCUSPARSETriFactors; 16639ff858a8SKarl Rupp ((Mat_SeqAIJCUSPARSETriFactors*)C->spptr)->loTriFactorPtr = 0; 16649ff858a8SKarl Rupp ((Mat_SeqAIJCUSPARSETriFactors*)C->spptr)->upTriFactorPtr = 0; 16659ff858a8SKarl Rupp ((Mat_SeqAIJCUSPARSETriFactors*)C->spptr)->loTriFactorPtrTranspose = 0; 16669ff858a8SKarl Rupp ((Mat_SeqAIJCUSPARSETriFactors*)C->spptr)->upTriFactorPtrTranspose = 0; 16679ff858a8SKarl Rupp ((Mat_SeqAIJCUSPARSETriFactors*)C->spptr)->rpermIndices = 0; 16689ff858a8SKarl Rupp ((Mat_SeqAIJCUSPARSETriFactors*)C->spptr)->cpermIndices = 0; 16699ff858a8SKarl Rupp ((Mat_SeqAIJCUSPARSETriFactors*)C->spptr)->workVector = 0; 16709ff858a8SKarl Rupp ((Mat_SeqAIJCUSPARSETriFactors*)C->spptr)->handle = 0; 16719ff858a8SKarl Rupp stat = cusparseCreate(&handle);CHKERRCUDA(stat); 16729ff858a8SKarl Rupp ((Mat_SeqAIJCUSPARSETriFactors*)C->spptr)->handle = handle; 16739ff858a8SKarl Rupp ((Mat_SeqAIJCUSPARSETriFactors*)C->spptr)->nnz = 0; 16749ff858a8SKarl Rupp } 16759ff858a8SKarl Rupp 16769ff858a8SKarl Rupp C->ops->assemblyend = MatAssemblyEnd_SeqAIJCUSPARSE; 16779ff858a8SKarl Rupp C->ops->destroy = MatDestroy_SeqAIJCUSPARSE; 16789ff858a8SKarl Rupp C->ops->setfromoptions = MatSetFromOptions_SeqAIJCUSPARSE; 16799ff858a8SKarl Rupp C->ops->mult = MatMult_SeqAIJCUSPARSE; 16809ff858a8SKarl Rupp C->ops->multadd = MatMultAdd_SeqAIJCUSPARSE; 16819ff858a8SKarl Rupp C->ops->multtranspose = MatMultTranspose_SeqAIJCUSPARSE; 16829ff858a8SKarl Rupp C->ops->multtransposeadd = MatMultTransposeAdd_SeqAIJCUSPARSE; 16839ff858a8SKarl Rupp C->ops->duplicate = MatDuplicate_SeqAIJCUSPARSE; 16849ff858a8SKarl Rupp 16859ff858a8SKarl Rupp ierr = PetscObjectChangeTypeName((PetscObject)C,MATSEQAIJCUSPARSE);CHKERRQ(ierr); 16869ff858a8SKarl Rupp 1687b8ced49eSKarl Rupp C->valid_GPU_matrix = PETSC_OFFLOAD_UNALLOCATED; 16889ff858a8SKarl Rupp 16899ff858a8SKarl Rupp ierr = PetscObjectComposeFunction((PetscObject)C, "MatCUSPARSESetFormat_C", MatCUSPARSESetFormat_SeqAIJCUSPARSE);CHKERRQ(ierr); 16909ff858a8SKarl Rupp PetscFunctionReturn(0); 16919ff858a8SKarl Rupp } 16929ff858a8SKarl Rupp 16938cc058d9SJed Brown PETSC_EXTERN PetscErrorCode MatCreate_SeqAIJCUSPARSE(Mat B) 16949ae82921SPaul Mullowney { 16959ae82921SPaul Mullowney PetscErrorCode ierr; 1696aa372e3fSPaul Mullowney cusparseStatus_t stat; 1697aa372e3fSPaul Mullowney cusparseHandle_t handle=0; 16989ae82921SPaul Mullowney 16999ae82921SPaul Mullowney PetscFunctionBegin; 17009ae82921SPaul Mullowney ierr = MatCreate_SeqAIJ(B);CHKERRQ(ierr); 1701*34136279SStefano Zampini ierr = PetscFree(B->defaultvectype);CHKERRQ(ierr); 1702*34136279SStefano Zampini ierr = PetscStrallocpy(VECCUDA,&B->defaultvectype);CHKERRQ(ierr); 1703*34136279SStefano Zampini 17049ae82921SPaul Mullowney if (B->factortype==MAT_FACTOR_NONE) { 1705e057df02SPaul Mullowney /* you cannot check the inode.use flag here since the matrix was just created. 1706e057df02SPaul Mullowney now build a GPU matrix data structure */ 17079ae82921SPaul Mullowney B->spptr = new Mat_SeqAIJCUSPARSE; 17089ae82921SPaul Mullowney ((Mat_SeqAIJCUSPARSE*)B->spptr)->mat = 0; 1709aa372e3fSPaul Mullowney ((Mat_SeqAIJCUSPARSE*)B->spptr)->matTranspose = 0; 1710aa372e3fSPaul Mullowney ((Mat_SeqAIJCUSPARSE*)B->spptr)->workVector = 0; 1711e057df02SPaul Mullowney ((Mat_SeqAIJCUSPARSE*)B->spptr)->format = MAT_CUSPARSE_CSR; 1712aa372e3fSPaul Mullowney ((Mat_SeqAIJCUSPARSE*)B->spptr)->stream = 0; 1713aa372e3fSPaul Mullowney ((Mat_SeqAIJCUSPARSE*)B->spptr)->handle = 0; 1714c41cb2e2SAlejandro Lamas Daviña stat = cusparseCreate(&handle);CHKERRCUDA(stat); 1715aa372e3fSPaul Mullowney ((Mat_SeqAIJCUSPARSE*)B->spptr)->handle = handle; 1716aa372e3fSPaul Mullowney ((Mat_SeqAIJCUSPARSE*)B->spptr)->stream = 0; 17179ff858a8SKarl Rupp ((Mat_SeqAIJCUSPARSE*)B->spptr)->nonzerostate = 0; 17189ae82921SPaul Mullowney } else { 17199ae82921SPaul Mullowney /* NEXT, set the pointers to the triangular factors */ 1720debe9ee2SPaul Mullowney B->spptr = new Mat_SeqAIJCUSPARSETriFactors; 17219ae82921SPaul Mullowney ((Mat_SeqAIJCUSPARSETriFactors*)B->spptr)->loTriFactorPtr = 0; 17229ae82921SPaul Mullowney ((Mat_SeqAIJCUSPARSETriFactors*)B->spptr)->upTriFactorPtr = 0; 1723aa372e3fSPaul Mullowney ((Mat_SeqAIJCUSPARSETriFactors*)B->spptr)->loTriFactorPtrTranspose = 0; 1724aa372e3fSPaul Mullowney ((Mat_SeqAIJCUSPARSETriFactors*)B->spptr)->upTriFactorPtrTranspose = 0; 1725aa372e3fSPaul Mullowney ((Mat_SeqAIJCUSPARSETriFactors*)B->spptr)->rpermIndices = 0; 1726aa372e3fSPaul Mullowney ((Mat_SeqAIJCUSPARSETriFactors*)B->spptr)->cpermIndices = 0; 1727aa372e3fSPaul Mullowney ((Mat_SeqAIJCUSPARSETriFactors*)B->spptr)->workVector = 0; 1728aa372e3fSPaul Mullowney ((Mat_SeqAIJCUSPARSETriFactors*)B->spptr)->handle = 0; 1729c41cb2e2SAlejandro Lamas Daviña stat = cusparseCreate(&handle);CHKERRCUDA(stat); 1730aa372e3fSPaul Mullowney ((Mat_SeqAIJCUSPARSETriFactors*)B->spptr)->handle = handle; 1731aa372e3fSPaul Mullowney ((Mat_SeqAIJCUSPARSETriFactors*)B->spptr)->nnz = 0; 17329ae82921SPaul Mullowney } 1733aa372e3fSPaul Mullowney 17349ae82921SPaul Mullowney B->ops->assemblyend = MatAssemblyEnd_SeqAIJCUSPARSE; 17359ae82921SPaul Mullowney B->ops->destroy = MatDestroy_SeqAIJCUSPARSE; 17369ae82921SPaul Mullowney B->ops->setfromoptions = MatSetFromOptions_SeqAIJCUSPARSE; 1737ca45077fSPaul Mullowney B->ops->mult = MatMult_SeqAIJCUSPARSE; 1738ca45077fSPaul Mullowney B->ops->multadd = MatMultAdd_SeqAIJCUSPARSE; 1739ca45077fSPaul Mullowney B->ops->multtranspose = MatMultTranspose_SeqAIJCUSPARSE; 1740ca45077fSPaul Mullowney B->ops->multtransposeadd = MatMultTransposeAdd_SeqAIJCUSPARSE; 17419ff858a8SKarl Rupp B->ops->duplicate = MatDuplicate_SeqAIJCUSPARSE; 17422205254eSKarl Rupp 17439ae82921SPaul Mullowney ierr = PetscObjectChangeTypeName((PetscObject)B,MATSEQAIJCUSPARSE);CHKERRQ(ierr); 17442205254eSKarl Rupp 1745b8ced49eSKarl Rupp B->valid_GPU_matrix = PETSC_OFFLOAD_UNALLOCATED; 17462205254eSKarl Rupp 1747bdf89e91SBarry Smith ierr = PetscObjectComposeFunction((PetscObject)B, "MatCUSPARSESetFormat_C", MatCUSPARSESetFormat_SeqAIJCUSPARSE);CHKERRQ(ierr); 17489ae82921SPaul Mullowney PetscFunctionReturn(0); 17499ae82921SPaul Mullowney } 17509ae82921SPaul Mullowney 17513ca39a21SBarry Smith /*MC 1752e057df02SPaul Mullowney MATSEQAIJCUSPARSE - MATAIJCUSPARSE = "(seq)aijcusparse" - A matrix type to be used for sparse matrices. 1753e057df02SPaul Mullowney 1754e057df02SPaul Mullowney A matrix type type whose data resides on Nvidia GPUs. These matrices can be in either 17552692e278SPaul Mullowney CSR, ELL, or Hybrid format. The ELL and HYB formats require CUDA 4.2 or later. 17562692e278SPaul Mullowney All matrix calculations are performed on Nvidia GPUs using the CUSPARSE library. 1757e057df02SPaul Mullowney 1758e057df02SPaul Mullowney Options Database Keys: 1759e057df02SPaul Mullowney + -mat_type aijcusparse - sets the matrix type to "seqaijcusparse" during a call to MatSetFromOptions() 1760aa372e3fSPaul Mullowney . -mat_cusparse_storage_format csr - sets the storage format of matrices (for MatMult and factors in MatSolve) during a call to MatSetFromOptions(). Other options include ell (ellpack) or hyb (hybrid). 1761aa372e3fSPaul Mullowney . -mat_cusparse_mult_storage_format csr - sets the storage format of matrices (for MatMult) during a call to MatSetFromOptions(). Other options include ell (ellpack) or hyb (hybrid). 1762e057df02SPaul Mullowney 1763e057df02SPaul Mullowney Level: beginner 1764e057df02SPaul Mullowney 17658468deeeSKarl Rupp .seealso: MatCreateSeqAIJCUSPARSE(), MATAIJCUSPARSE, MatCreateAIJCUSPARSE(), MatCUSPARSESetFormat(), MatCUSPARSEStorageFormat, MatCUSPARSEFormatOperation 1766e057df02SPaul Mullowney M*/ 17677f756511SDominic Meiser 176842c9c57cSBarry Smith PETSC_EXTERN PetscErrorCode MatGetFactor_seqaijcusparse_cusparse(Mat,MatFactorType,Mat*); 176942c9c57cSBarry Smith 17700f39cd5aSBarry Smith 17713ca39a21SBarry Smith PETSC_EXTERN PetscErrorCode MatSolverTypeRegister_CUSPARSE(void) 177242c9c57cSBarry Smith { 177342c9c57cSBarry Smith PetscErrorCode ierr; 177442c9c57cSBarry Smith 177542c9c57cSBarry Smith PetscFunctionBegin; 17763ca39a21SBarry Smith ierr = MatSolverTypeRegister(MATSOLVERCUSPARSE,MATSEQAIJCUSPARSE,MAT_FACTOR_LU,MatGetFactor_seqaijcusparse_cusparse);CHKERRQ(ierr); 17773ca39a21SBarry Smith ierr = MatSolverTypeRegister(MATSOLVERCUSPARSE,MATSEQAIJCUSPARSE,MAT_FACTOR_CHOLESKY,MatGetFactor_seqaijcusparse_cusparse);CHKERRQ(ierr); 17783ca39a21SBarry Smith ierr = MatSolverTypeRegister(MATSOLVERCUSPARSE,MATSEQAIJCUSPARSE,MAT_FACTOR_ILU,MatGetFactor_seqaijcusparse_cusparse);CHKERRQ(ierr); 17793ca39a21SBarry Smith ierr = MatSolverTypeRegister(MATSOLVERCUSPARSE,MATSEQAIJCUSPARSE,MAT_FACTOR_ICC,MatGetFactor_seqaijcusparse_cusparse);CHKERRQ(ierr); 178042c9c57cSBarry Smith PetscFunctionReturn(0); 178142c9c57cSBarry Smith } 178229b38603SBarry Smith 178381e08676SBarry Smith 1784470880abSPatrick Sanan static PetscErrorCode MatSeqAIJCUSPARSE_Destroy(Mat_SeqAIJCUSPARSE **cusparsestruct) 17857f756511SDominic Meiser { 17867f756511SDominic Meiser cusparseStatus_t stat; 17877f756511SDominic Meiser cusparseHandle_t handle; 17887f756511SDominic Meiser 17897f756511SDominic Meiser PetscFunctionBegin; 17907f756511SDominic Meiser if (*cusparsestruct) { 1791470880abSPatrick Sanan MatSeqAIJCUSPARSEMultStruct_Destroy(&(*cusparsestruct)->mat,(*cusparsestruct)->format); 1792470880abSPatrick Sanan MatSeqAIJCUSPARSEMultStruct_Destroy(&(*cusparsestruct)->matTranspose,(*cusparsestruct)->format); 17937f756511SDominic Meiser delete (*cusparsestruct)->workVector; 17947f756511SDominic Meiser if (handle = (*cusparsestruct)->handle) { 1795c41cb2e2SAlejandro Lamas Daviña stat = cusparseDestroy(handle);CHKERRCUDA(stat); 17967f756511SDominic Meiser } 17977f756511SDominic Meiser delete *cusparsestruct; 17987f756511SDominic Meiser *cusparsestruct = 0; 17997f756511SDominic Meiser } 18007f756511SDominic Meiser PetscFunctionReturn(0); 18017f756511SDominic Meiser } 18027f756511SDominic Meiser 18037f756511SDominic Meiser static PetscErrorCode CsrMatrix_Destroy(CsrMatrix **mat) 18047f756511SDominic Meiser { 18057f756511SDominic Meiser PetscFunctionBegin; 18067f756511SDominic Meiser if (*mat) { 18077f756511SDominic Meiser delete (*mat)->values; 18087f756511SDominic Meiser delete (*mat)->column_indices; 18097f756511SDominic Meiser delete (*mat)->row_offsets; 18107f756511SDominic Meiser delete *mat; 18117f756511SDominic Meiser *mat = 0; 18127f756511SDominic Meiser } 18137f756511SDominic Meiser PetscFunctionReturn(0); 18147f756511SDominic Meiser } 18157f756511SDominic Meiser 1816470880abSPatrick Sanan static PetscErrorCode MatSeqAIJCUSPARSEMultStruct_Destroy(Mat_SeqAIJCUSPARSETriFactorStruct **trifactor) 18177f756511SDominic Meiser { 18187f756511SDominic Meiser cusparseStatus_t stat; 18197f756511SDominic Meiser PetscErrorCode ierr; 18207f756511SDominic Meiser 18217f756511SDominic Meiser PetscFunctionBegin; 18227f756511SDominic Meiser if (*trifactor) { 1823c41cb2e2SAlejandro Lamas Daviña if ((*trifactor)->descr) { stat = cusparseDestroyMatDescr((*trifactor)->descr);CHKERRCUDA(stat); } 1824c41cb2e2SAlejandro Lamas Daviña if ((*trifactor)->solveInfo) { stat = cusparseDestroySolveAnalysisInfo((*trifactor)->solveInfo);CHKERRCUDA(stat); } 18257f756511SDominic Meiser ierr = CsrMatrix_Destroy(&(*trifactor)->csrMat);CHKERRQ(ierr); 18267f756511SDominic Meiser delete *trifactor; 18277f756511SDominic Meiser *trifactor = 0; 18287f756511SDominic Meiser } 18297f756511SDominic Meiser PetscFunctionReturn(0); 18307f756511SDominic Meiser } 18317f756511SDominic Meiser 1832470880abSPatrick Sanan static PetscErrorCode MatSeqAIJCUSPARSEMultStruct_Destroy(Mat_SeqAIJCUSPARSEMultStruct **matstruct,MatCUSPARSEStorageFormat format) 18337f756511SDominic Meiser { 18347f756511SDominic Meiser CsrMatrix *mat; 18357f756511SDominic Meiser cusparseStatus_t stat; 18367f756511SDominic Meiser cudaError_t err; 18377f756511SDominic Meiser 18387f756511SDominic Meiser PetscFunctionBegin; 18397f756511SDominic Meiser if (*matstruct) { 18407f756511SDominic Meiser if ((*matstruct)->mat) { 18417f756511SDominic Meiser if (format==MAT_CUSPARSE_ELL || format==MAT_CUSPARSE_HYB) { 18427f756511SDominic Meiser cusparseHybMat_t hybMat = (cusparseHybMat_t)(*matstruct)->mat; 1843c41cb2e2SAlejandro Lamas Daviña stat = cusparseDestroyHybMat(hybMat);CHKERRCUDA(stat); 18447f756511SDominic Meiser } else { 18457f756511SDominic Meiser mat = (CsrMatrix*)(*matstruct)->mat; 18467f756511SDominic Meiser CsrMatrix_Destroy(&mat); 18477f756511SDominic Meiser } 18487f756511SDominic Meiser } 1849c41cb2e2SAlejandro Lamas Daviña if ((*matstruct)->descr) { stat = cusparseDestroyMatDescr((*matstruct)->descr);CHKERRCUDA(stat); } 18507f756511SDominic Meiser delete (*matstruct)->cprowIndices; 1851c41cb2e2SAlejandro Lamas Daviña if ((*matstruct)->alpha) { err=cudaFree((*matstruct)->alpha);CHKERRCUDA(err); } 1852c41cb2e2SAlejandro Lamas Daviña if ((*matstruct)->beta) { err=cudaFree((*matstruct)->beta);CHKERRCUDA(err); } 18537f756511SDominic Meiser delete *matstruct; 18547f756511SDominic Meiser *matstruct = 0; 18557f756511SDominic Meiser } 18567f756511SDominic Meiser PetscFunctionReturn(0); 18577f756511SDominic Meiser } 18587f756511SDominic Meiser 1859470880abSPatrick Sanan static PetscErrorCode MatSeqAIJCUSPARSETriFactors_Destroy(Mat_SeqAIJCUSPARSETriFactors** trifactors) 18607f756511SDominic Meiser { 18617f756511SDominic Meiser cusparseHandle_t handle; 18627f756511SDominic Meiser cusparseStatus_t stat; 18637f756511SDominic Meiser 18647f756511SDominic Meiser PetscFunctionBegin; 18657f756511SDominic Meiser if (*trifactors) { 1866470880abSPatrick Sanan MatSeqAIJCUSPARSEMultStruct_Destroy(&(*trifactors)->loTriFactorPtr); 1867470880abSPatrick Sanan MatSeqAIJCUSPARSEMultStruct_Destroy(&(*trifactors)->upTriFactorPtr); 1868470880abSPatrick Sanan MatSeqAIJCUSPARSEMultStruct_Destroy(&(*trifactors)->loTriFactorPtrTranspose); 1869470880abSPatrick Sanan MatSeqAIJCUSPARSEMultStruct_Destroy(&(*trifactors)->upTriFactorPtrTranspose); 18707f756511SDominic Meiser delete (*trifactors)->rpermIndices; 18717f756511SDominic Meiser delete (*trifactors)->cpermIndices; 18727f756511SDominic Meiser delete (*trifactors)->workVector; 18737f756511SDominic Meiser if (handle = (*trifactors)->handle) { 1874c41cb2e2SAlejandro Lamas Daviña stat = cusparseDestroy(handle);CHKERRCUDA(stat); 18757f756511SDominic Meiser } 18767f756511SDominic Meiser delete *trifactors; 18777f756511SDominic Meiser *trifactors = 0; 18787f756511SDominic Meiser } 18797f756511SDominic Meiser PetscFunctionReturn(0); 18807f756511SDominic Meiser } 18817f756511SDominic Meiser 1882