1b9e7e5c1SBarry Smith 24a2a386eSRichard Tran Mills /* 34a2a386eSRichard Tran Mills Defines basic operations for the MATSEQAIJMKL matrix class. 44a2a386eSRichard Tran Mills This class is derived from the MATSEQAIJ class and retains the 54a2a386eSRichard Tran Mills compressed row storage (aka Yale sparse matrix format) but uses 64a2a386eSRichard Tran Mills sparse BLAS operations from the Intel Math Kernel Library (MKL) 74a2a386eSRichard Tran Mills wherever possible. 84a2a386eSRichard Tran Mills */ 94a2a386eSRichard Tran Mills 104a2a386eSRichard Tran Mills #include <../src/mat/impls/aij/seq/aij.h> 114a2a386eSRichard Tran Mills #include <../src/mat/impls/aij/seq/aijmkl/aijmkl.h> 12bdfea6dbSBarry Smith #if defined(PETSC_HAVE_MKL_INTEL_ILP64) 13bdfea6dbSBarry Smith #define MKL_ILP64 14bdfea6dbSBarry Smith #endif 15b9e7e5c1SBarry Smith #include <mkl_spblas.h> 164a2a386eSRichard Tran Mills 174a2a386eSRichard Tran Mills typedef struct { 18c9d46305SRichard Tran Mills PetscBool no_SpMV2; /* If PETSC_TRUE, then don't use the MKL SpMV2 inspector-executor routines. */ 195b49642aSRichard Tran Mills PetscBool eager_inspection; /* If PETSC_TRUE, then call mkl_sparse_optimize() in MatDuplicate()/MatAssemblyEnd(). */ 204abfa3b3SRichard Tran Mills PetscBool sparse_optimized; /* If PETSC_TRUE, then mkl_sparse_optimize() has been called. */ 21551aa5c8SRichard Tran Mills PetscObjectState state; 22ffcab697SRichard Tran Mills #if defined(PETSC_HAVE_MKL_SPARSE_OPTIMIZE) 23df555b71SRichard Tran Mills sparse_matrix_t csrA; /* "Handle" used by SpMV2 inspector-executor routines. */ 24df555b71SRichard Tran Mills struct matrix_descr descr; 25b8cbc1fbSRichard Tran Mills #endif 264a2a386eSRichard Tran Mills } Mat_SeqAIJMKL; 274a2a386eSRichard Tran Mills 284a2a386eSRichard Tran Mills extern PetscErrorCode MatAssemblyEnd_SeqAIJ(Mat, MatAssemblyType); 294a2a386eSRichard Tran Mills 30d71ae5a4SJacob Faibussowitsch PETSC_INTERN PetscErrorCode MatConvert_SeqAIJMKL_SeqAIJ(Mat A, MatType type, MatReuse reuse, Mat *newmat) 31d71ae5a4SJacob Faibussowitsch { 324a2a386eSRichard Tran Mills /* This routine is only called to convert a MATAIJMKL to its base PETSc type, */ 334a2a386eSRichard Tran Mills /* so we will ignore 'MatType type'. */ 344a2a386eSRichard Tran Mills Mat B = *newmat; 35ffcab697SRichard Tran Mills #if defined(PETSC_HAVE_MKL_SPARSE_OPTIMIZE) 364a2a386eSRichard Tran Mills Mat_SeqAIJMKL *aijmkl = (Mat_SeqAIJMKL *)A->spptr; 37c1d5218aSRichard Tran Mills #endif 384a2a386eSRichard Tran Mills 394a2a386eSRichard Tran Mills PetscFunctionBegin; 409566063dSJacob Faibussowitsch if (reuse == MAT_INITIAL_MATRIX) PetscCall(MatDuplicate(A, MAT_COPY_VALUES, &B)); 414a2a386eSRichard Tran Mills 424a2a386eSRichard Tran Mills /* Reset the original function pointers. */ 4354871a98SRichard Tran Mills B->ops->duplicate = MatDuplicate_SeqAIJ; 444a2a386eSRichard Tran Mills B->ops->assemblyend = MatAssemblyEnd_SeqAIJ; 454a2a386eSRichard Tran Mills B->ops->destroy = MatDestroy_SeqAIJ; 4654871a98SRichard Tran Mills B->ops->mult = MatMult_SeqAIJ; 47ff03dc53SRichard Tran Mills B->ops->multtranspose = MatMultTranspose_SeqAIJ; 4854871a98SRichard Tran Mills B->ops->multadd = MatMultAdd_SeqAIJ; 49ff03dc53SRichard Tran Mills B->ops->multtransposeadd = MatMultTransposeAdd_SeqAIJ; 50190ae7a4SRichard Tran Mills B->ops->productsetfromoptions = MatProductSetFromOptions_SeqAIJ; 51431879ecSRichard Tran Mills B->ops->matmultsymbolic = MatMatMultSymbolic_SeqAIJ_SeqAIJ; 52e8be1fc7SRichard Tran Mills B->ops->matmultnumeric = MatMatMultNumeric_SeqAIJ_SeqAIJ; 53190ae7a4SRichard Tran Mills B->ops->mattransposemultnumeric = MatMatTransposeMultNumeric_SeqAIJ_SeqAIJ; 54190ae7a4SRichard Tran Mills B->ops->transposematmultnumeric = MatTransposeMatMultNumeric_SeqAIJ_SeqAIJ; 554f53af40SRichard Tran Mills B->ops->ptapnumeric = MatPtAPNumeric_SeqAIJ_SeqAIJ; 564a2a386eSRichard Tran Mills 579566063dSJacob Faibussowitsch PetscCall(PetscObjectComposeFunction((PetscObject)B, "MatConvert_seqaijmkl_seqaij_C", NULL)); 584222ddf1SHong Zhang 59ffcab697SRichard Tran Mills #if defined(PETSC_HAVE_MKL_SPARSE_OPTIMIZE) 604abfa3b3SRichard Tran Mills /* Free everything in the Mat_SeqAIJMKL data structure. Currently, this 61e9c94282SRichard Tran Mills * simply involves destroying the MKL sparse matrix handle and then freeing 62e9c94282SRichard Tran Mills * the spptr pointer. */ 63a8327b06SKarl Rupp if (reuse == MAT_INITIAL_MATRIX) aijmkl = (Mat_SeqAIJMKL *)B->spptr; 64a8327b06SKarl Rupp 65792fecdfSBarry Smith if (aijmkl->sparse_optimized) PetscCallExternal(mkl_sparse_destroy, aijmkl->csrA); 66ddf6f99aSRichard Tran Mills #endif /* PETSC_HAVE_MKL_SPARSE_OPTIMIZE */ 679566063dSJacob Faibussowitsch PetscCall(PetscFree(B->spptr)); 684a2a386eSRichard Tran Mills 694a2a386eSRichard Tran Mills /* Change the type of B to MATSEQAIJ. */ 709566063dSJacob Faibussowitsch PetscCall(PetscObjectChangeTypeName((PetscObject)B, MATSEQAIJ)); 714a2a386eSRichard Tran Mills 724a2a386eSRichard Tran Mills *newmat = B; 734a2a386eSRichard Tran Mills PetscFunctionReturn(0); 744a2a386eSRichard Tran Mills } 754a2a386eSRichard Tran Mills 76d71ae5a4SJacob Faibussowitsch PetscErrorCode MatDestroy_SeqAIJMKL(Mat A) 77d71ae5a4SJacob Faibussowitsch { 784a2a386eSRichard Tran Mills Mat_SeqAIJMKL *aijmkl = (Mat_SeqAIJMKL *)A->spptr; 794a2a386eSRichard Tran Mills 804a2a386eSRichard Tran Mills PetscFunctionBegin; 81e9c94282SRichard Tran Mills 82edc89de7SRichard Tran Mills /* If MatHeaderMerge() was used, then this SeqAIJMKL matrix will not have an spptr pointer. */ 83e9c94282SRichard Tran Mills if (aijmkl) { 844a2a386eSRichard Tran Mills /* Clean up everything in the Mat_SeqAIJMKL data structure, then free A->spptr. */ 85ffcab697SRichard Tran Mills #if defined(PETSC_HAVE_MKL_SPARSE_OPTIMIZE) 86792fecdfSBarry Smith if (aijmkl->sparse_optimized) PetscCallExternal(mkl_sparse_destroy, aijmkl->csrA); 874abfa3b3SRichard Tran Mills #endif /* PETSC_HAVE_MKL_SPARSE_OPTIMIZE */ 889566063dSJacob Faibussowitsch PetscCall(PetscFree(A->spptr)); 89e9c94282SRichard Tran Mills } 904a2a386eSRichard Tran Mills 914a2a386eSRichard Tran Mills /* Change the type of A back to SEQAIJ and use MatDestroy_SeqAIJ() 924a2a386eSRichard Tran Mills * to destroy everything that remains. */ 939566063dSJacob Faibussowitsch PetscCall(PetscObjectChangeTypeName((PetscObject)A, MATSEQAIJ)); 944a2a386eSRichard Tran Mills /* Note that I don't call MatSetType(). I believe this is because that 954a2a386eSRichard Tran Mills * is only to be called when *building* a matrix. I could be wrong, but 964a2a386eSRichard Tran Mills * that is how things work for the SuperLU matrix class. */ 972e956fe4SStefano Zampini PetscCall(PetscObjectComposeFunction((PetscObject)A, "MatConvert_seqaijmkl_seqaij_C", NULL)); 989566063dSJacob Faibussowitsch PetscCall(MatDestroy_SeqAIJ(A)); 994a2a386eSRichard Tran Mills PetscFunctionReturn(0); 1004a2a386eSRichard Tran Mills } 1014a2a386eSRichard Tran Mills 102190ae7a4SRichard Tran Mills /* MatSeqAIJMKL_create_mkl_handle(), if called with an AIJMKL matrix that has not had mkl_sparse_optimize() called for it, 1035b49642aSRichard Tran Mills * creates an MKL sparse matrix handle from the AIJ arrays and calls mkl_sparse_optimize(). 1045b49642aSRichard Tran Mills * If called with an AIJMKL matrix for which aijmkl->sparse_optimized == PETSC_TRUE, then it destroys the old matrix 1055b49642aSRichard Tran Mills * handle, creates a new one, and then calls mkl_sparse_optimize(). 1065b49642aSRichard Tran Mills * Although in normal MKL usage it is possible to have a valid matrix handle on which mkl_sparse_optimize() has not been 1075b49642aSRichard Tran Mills * called, for AIJMKL the handle creation and optimization step always occur together, so we don't handle the case of 1085b49642aSRichard Tran Mills * an unoptimized matrix handle here. */ 109d71ae5a4SJacob Faibussowitsch PETSC_INTERN PetscErrorCode MatSeqAIJMKL_create_mkl_handle(Mat A) 110d71ae5a4SJacob Faibussowitsch { 111ffcab697SRichard Tran Mills #if !defined(PETSC_HAVE_MKL_SPARSE_OPTIMIZE) 1126e369cd5SRichard Tran Mills /* If the MKL library does not have mkl_sparse_optimize(), then this routine 1136e369cd5SRichard Tran Mills * does nothing. We make it callable anyway in this case because it cuts 1146e369cd5SRichard Tran Mills * down on littering the code with #ifdefs. */ 11545fbe478SRichard Tran Mills PetscFunctionBegin; 1166e369cd5SRichard Tran Mills PetscFunctionReturn(0); 1176e369cd5SRichard Tran Mills #else 118a8327b06SKarl Rupp Mat_SeqAIJ *a = (Mat_SeqAIJ *)A->data; 119a8327b06SKarl Rupp Mat_SeqAIJMKL *aijmkl = (Mat_SeqAIJMKL *)A->spptr; 120a8327b06SKarl Rupp PetscInt m, n; 121a8327b06SKarl Rupp MatScalar *aa; 122a8327b06SKarl Rupp PetscInt *aj, *ai; 1234a2a386eSRichard Tran Mills 124a8327b06SKarl Rupp PetscFunctionBegin; 125e626a176SRichard Tran Mills #if !defined(PETSC_MKL_SPBLAS_DEPRECATED) 126e626a176SRichard Tran Mills /* For MKL versions that still support the old, non-inspector-executor interfaces versions, we simply exit here if the no_SpMV2 127e626a176SRichard Tran Mills * option has been specified. For versions that have deprecated the old interfaces (version 18, update 2 and later), we must 128e626a176SRichard Tran Mills * use the new inspector-executor interfaces, but we can still use the old, non-inspector-executor code by not calling 129e626a176SRichard Tran Mills * mkl_sparse_optimize() later. */ 1306e369cd5SRichard Tran Mills if (aijmkl->no_SpMV2) PetscFunctionReturn(0); 1314d51fa23SRichard Tran Mills #endif 1326e369cd5SRichard Tran Mills 1330632b357SRichard Tran Mills if (aijmkl->sparse_optimized) { 1340632b357SRichard Tran Mills /* Matrix has been previously assembled and optimized. Must destroy old 1350632b357SRichard Tran Mills * matrix handle before running the optimization step again. */ 136792fecdfSBarry Smith PetscCallExternal(mkl_sparse_destroy, aijmkl->csrA); 1370632b357SRichard Tran Mills } 1388d3fe1b0SRichard Tran Mills aijmkl->sparse_optimized = PETSC_FALSE; 1396e369cd5SRichard Tran Mills 140c9d46305SRichard Tran Mills /* Now perform the SpMV2 setup and matrix optimization. */ 141df555b71SRichard Tran Mills aijmkl->descr.type = SPARSE_MATRIX_TYPE_GENERAL; 142df555b71SRichard Tran Mills aijmkl->descr.mode = SPARSE_FILL_MODE_LOWER; 143df555b71SRichard Tran Mills aijmkl->descr.diag = SPARSE_DIAG_NON_UNIT; 14458678438SRichard Tran Mills m = A->rmap->n; 14558678438SRichard Tran Mills n = A->cmap->n; 146df555b71SRichard Tran Mills aj = a->j; /* aj[k] gives column index for element aa[k]. */ 147df555b71SRichard Tran Mills aa = a->a; /* Nonzero elements stored row-by-row. */ 148df555b71SRichard Tran Mills ai = a->i; /* ai[k] is the position in aa and aj where row k starts. */ 1491495fedeSRichard Tran Mills if (a->nz && aa && !A->structure_only) { 1508d3fe1b0SRichard Tran Mills /* Create a new, optimized sparse matrix handle only if the matrix has nonzero entries. 1518d3fe1b0SRichard Tran Mills * The MKL sparse-inspector executor routines don't like being passed an empty matrix. */ 152bdfea6dbSBarry Smith PetscCallExternal(mkl_sparse_x_create_csr, &aijmkl->csrA, SPARSE_INDEX_BASE_ZERO, (MKL_INT)m, (MKL_INT)n, (MKL_INT *)ai, (MKL_INT *)(ai + 1), (MKL_INT *)aj, aa); 153792fecdfSBarry Smith PetscCallExternal(mkl_sparse_set_mv_hint, aijmkl->csrA, SPARSE_OPERATION_NON_TRANSPOSE, aijmkl->descr, 1000); 154792fecdfSBarry Smith PetscCallExternal(mkl_sparse_set_memory_hint, aijmkl->csrA, SPARSE_MEMORY_AGGRESSIVE); 15548a46eb9SPierre Jolivet if (!aijmkl->no_SpMV2) PetscCallExternal(mkl_sparse_optimize, aijmkl->csrA); 1564abfa3b3SRichard Tran Mills aijmkl->sparse_optimized = PETSC_TRUE; 1579566063dSJacob Faibussowitsch PetscCall(PetscObjectStateGet((PetscObject)A, &(aijmkl->state))); 158190ae7a4SRichard Tran Mills } else { 159*f3fa974cSJacob Faibussowitsch aijmkl->csrA = NULL; 160c9d46305SRichard Tran Mills } 1616e369cd5SRichard Tran Mills 1626e369cd5SRichard Tran Mills PetscFunctionReturn(0); 163d995685eSRichard Tran Mills #endif 1646e369cd5SRichard Tran Mills } 1656e369cd5SRichard Tran Mills 166b50dddd8SRichard Tran Mills #if defined(PETSC_HAVE_MKL_SPARSE_SP2M_FEATURE) 167190ae7a4SRichard Tran Mills /* Take an already created but empty matrix and set up the nonzero structure from an MKL sparse matrix handle. */ 168d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatSeqAIJMKL_setup_structure_from_mkl_handle(MPI_Comm comm, sparse_matrix_t csrA, PetscInt nrows, PetscInt ncols, Mat A) 169d71ae5a4SJacob Faibussowitsch { 17019afcda9SRichard Tran Mills sparse_index_base_t indexing; 171190ae7a4SRichard Tran Mills PetscInt m, n; 17245fbe478SRichard Tran Mills PetscInt *aj, *ai, *dummy; 17319afcda9SRichard Tran Mills MatScalar *aa; 17419afcda9SRichard Tran Mills Mat_SeqAIJMKL *aijmkl; 17519afcda9SRichard Tran Mills 176362febeeSStefano Zampini PetscFunctionBegin; 177190ae7a4SRichard Tran Mills if (csrA) { 17845fbe478SRichard Tran Mills /* Note: Must pass in &dummy below since MKL can't accept NULL for this output array we don't actually want. */ 179bdfea6dbSBarry Smith PetscCallExternal(mkl_sparse_x_export_csr, csrA, &indexing, (MKL_INT *)&m, (MKL_INT *)&n, (MKL_INT **)&ai, (MKL_INT **)&dummy, (MKL_INT **)&aj, &aa); 1805f80ce2aSJacob Faibussowitsch PetscCheck((m == nrows) && (n == ncols), PETSC_COMM_SELF, PETSC_ERR_LIB, "Number of rows/columns does not match those from mkl_sparse_x_export_csr()"); 181190ae7a4SRichard Tran Mills } else { 182*f3fa974cSJacob Faibussowitsch aj = ai = NULL; 183*f3fa974cSJacob Faibussowitsch aa = NULL; 184aab60f1bSRichard Tran Mills } 185190ae7a4SRichard Tran Mills 1869566063dSJacob Faibussowitsch PetscCall(MatSetType(A, MATSEQAIJ)); 1879566063dSJacob Faibussowitsch PetscCall(MatSetSizes(A, PETSC_DECIDE, PETSC_DECIDE, nrows, ncols)); 188aab60f1bSRichard Tran Mills /* We use MatSeqAIJSetPreallocationCSR() instead of MatCreateSeqAIJWithArrays() because we must copy the arrays exported 189aab60f1bSRichard Tran Mills * from MKL; MKL developers tell us that modifying the arrays may cause unexpected results when using the MKL handle, and 190aab60f1bSRichard Tran Mills * they will be destroyed when the MKL handle is destroyed. 191aab60f1bSRichard Tran Mills * (In the interest of reducing memory consumption in future, can we figure out good ways to deal with this?) */ 192190ae7a4SRichard Tran Mills if (csrA) { 1939566063dSJacob Faibussowitsch PetscCall(MatSeqAIJSetPreallocationCSR(A, ai, aj, NULL)); 194190ae7a4SRichard Tran Mills } else { 195190ae7a4SRichard Tran Mills /* Since MatSeqAIJSetPreallocationCSR does initial set up and assembly begin/end, we must do that ourselves here. */ 1969566063dSJacob Faibussowitsch PetscCall(MatSetUp(A)); 1979566063dSJacob Faibussowitsch PetscCall(MatAssemblyBegin(A, MAT_FINAL_ASSEMBLY)); 1989566063dSJacob Faibussowitsch PetscCall(MatAssemblyEnd(A, MAT_FINAL_ASSEMBLY)); 199190ae7a4SRichard Tran Mills } 20019afcda9SRichard Tran Mills 20119afcda9SRichard Tran Mills /* We now have an assembled sequential AIJ matrix created from copies of the exported arrays from the MKL matrix handle. 20219afcda9SRichard Tran Mills * Now turn it into a MATSEQAIJMKL. */ 2039566063dSJacob Faibussowitsch PetscCall(MatConvert_SeqAIJ_SeqAIJMKL(A, MATSEQAIJMKL, MAT_INPLACE_MATRIX, &A)); 2046c87cf42SRichard Tran Mills 20519afcda9SRichard Tran Mills aijmkl = (Mat_SeqAIJMKL *)A->spptr; 20619afcda9SRichard Tran Mills aijmkl->csrA = csrA; 2076c87cf42SRichard Tran Mills 20819afcda9SRichard Tran Mills /* The below code duplicates much of what is in MatSeqAIJKL_create_mkl_handle(). I dislike this code duplication, but 20919afcda9SRichard Tran Mills * MatSeqAIJMKL_create_mkl_handle() cannot be used because we don't need to create a handle -- we've already got one, 21019afcda9SRichard Tran Mills * and just need to be able to run the MKL optimization step. */ 211f3fd1758SRichard Tran Mills aijmkl->descr.type = SPARSE_MATRIX_TYPE_GENERAL; 212f3fd1758SRichard Tran Mills aijmkl->descr.mode = SPARSE_FILL_MODE_LOWER; 213f3fd1758SRichard Tran Mills aijmkl->descr.diag = SPARSE_DIAG_NON_UNIT; 214190ae7a4SRichard Tran Mills if (csrA) { 215792fecdfSBarry Smith PetscCallExternal(mkl_sparse_set_mv_hint, aijmkl->csrA, SPARSE_OPERATION_NON_TRANSPOSE, aijmkl->descr, 1000); 216792fecdfSBarry Smith PetscCallExternal(mkl_sparse_set_memory_hint, aijmkl->csrA, SPARSE_MEMORY_AGGRESSIVE); 2171950a7e7SRichard Tran Mills } 2189566063dSJacob Faibussowitsch PetscCall(PetscObjectStateGet((PetscObject)A, &(aijmkl->state))); 21919afcda9SRichard Tran Mills PetscFunctionReturn(0); 22019afcda9SRichard Tran Mills } 221b50dddd8SRichard Tran Mills #endif /* PETSC_HAVE_MKL_SPARSE_SP2M_FEATURE */ 222190ae7a4SRichard Tran Mills 223e8be1fc7SRichard Tran Mills /* MatSeqAIJMKL_update_from_mkl_handle() updates the matrix values array from the contents of the associated MKL sparse matrix handle. 224e8be1fc7SRichard Tran Mills * This is needed after mkl_sparse_sp2m() with SPARSE_STAGE_FINALIZE_MULT has been used to compute new values of the matrix in 225e8be1fc7SRichard Tran Mills * MatMatMultNumeric(). */ 226b50dddd8SRichard Tran Mills #if defined(PETSC_HAVE_MKL_SPARSE_SP2M_FEATURE) 227d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatSeqAIJMKL_update_from_mkl_handle(Mat A) 228d71ae5a4SJacob Faibussowitsch { 229e8be1fc7SRichard Tran Mills PetscInt i; 230e8be1fc7SRichard Tran Mills PetscInt nrows, ncols; 231e8be1fc7SRichard Tran Mills PetscInt nz; 232e8be1fc7SRichard Tran Mills PetscInt *ai, *aj, *dummy; 233e8be1fc7SRichard Tran Mills PetscScalar *aa; 2341495fedeSRichard Tran Mills Mat_SeqAIJMKL *aijmkl = (Mat_SeqAIJMKL *)A->spptr; 235e8be1fc7SRichard Tran Mills sparse_index_base_t indexing; 236e8be1fc7SRichard Tran Mills 237362febeeSStefano Zampini PetscFunctionBegin; 238190ae7a4SRichard Tran Mills /* Exit immediately in case of the MKL matrix handle being NULL; this will be the case for empty matrices (zero rows or columns). */ 239190ae7a4SRichard Tran Mills if (!aijmkl->csrA) PetscFunctionReturn(0); 240190ae7a4SRichard Tran Mills 241e8be1fc7SRichard Tran Mills /* Note: Must pass in &dummy below since MKL can't accept NULL for this output array we don't actually want. */ 242bdfea6dbSBarry Smith PetscCallExternal(mkl_sparse_x_export_csr, aijmkl->csrA, &indexing, (MKL_INT *)&nrows, (MKL_INT *)&ncols, (MKL_INT **)&ai, (MKL_INT **)&dummy, (MKL_INT **)&aj, &aa); 243e8be1fc7SRichard Tran Mills 244e8be1fc7SRichard Tran Mills /* We can't just do a copy from the arrays exported by MKL to those used for the PETSc AIJ storage, because the MKL and PETSc 245e8be1fc7SRichard Tran Mills * representations differ in small ways (e.g., more explicit nonzeros per row due to preallocation). */ 246e8be1fc7SRichard Tran Mills for (i = 0; i < nrows; i++) { 247e8be1fc7SRichard Tran Mills nz = ai[i + 1] - ai[i]; 2489566063dSJacob Faibussowitsch PetscCall(MatSetValues_SeqAIJ(A, 1, &i, nz, aj + ai[i], aa + ai[i], INSERT_VALUES)); 249e8be1fc7SRichard Tran Mills } 250e8be1fc7SRichard Tran Mills 2519566063dSJacob Faibussowitsch PetscCall(MatAssemblyBegin(A, MAT_FINAL_ASSEMBLY)); 2529566063dSJacob Faibussowitsch PetscCall(MatAssemblyEnd(A, MAT_FINAL_ASSEMBLY)); 253e8be1fc7SRichard Tran Mills 2549566063dSJacob Faibussowitsch PetscCall(PetscObjectStateGet((PetscObject)A, &(aijmkl->state))); 255a7180b50SRichard Tran Mills /* At this point our matrix has a valid MKL handle, the contents of which match the PETSc AIJ representation. 256a7180b50SRichard Tran Mills * The MKL handle has *not* had mkl_sparse_optimize() called on it, though -- the MKL developers have confirmed 257a7180b50SRichard Tran Mills * that the matrix inspection/optimization step is not performed when matrix-matrix multiplication is finalized. */ 258a7180b50SRichard Tran Mills aijmkl->sparse_optimized = PETSC_FALSE; 259e8be1fc7SRichard Tran Mills PetscFunctionReturn(0); 260e8be1fc7SRichard Tran Mills } 261b50dddd8SRichard Tran Mills #endif /* PETSC_HAVE_MKL_SPARSE_SP2M_FEATURE */ 262e8be1fc7SRichard Tran Mills 2633849ddb2SRichard Tran Mills #if defined(PETSC_HAVE_MKL_SPARSE_OPTIMIZE) 264d71ae5a4SJacob Faibussowitsch PETSC_INTERN PetscErrorCode MatSeqAIJMKL_view_mkl_handle(Mat A, PetscViewer viewer) 265d71ae5a4SJacob Faibussowitsch { 2663849ddb2SRichard Tran Mills PetscInt i, j, k; 2673849ddb2SRichard Tran Mills PetscInt nrows, ncols; 2683849ddb2SRichard Tran Mills PetscInt nz; 2693849ddb2SRichard Tran Mills PetscInt *ai, *aj, *dummy; 2703849ddb2SRichard Tran Mills PetscScalar *aa; 2711495fedeSRichard Tran Mills Mat_SeqAIJMKL *aijmkl = (Mat_SeqAIJMKL *)A->spptr; 2723849ddb2SRichard Tran Mills sparse_index_base_t indexing; 2733849ddb2SRichard Tran Mills 274362febeeSStefano Zampini PetscFunctionBegin; 2759566063dSJacob Faibussowitsch PetscCall(PetscViewerASCIIPrintf(viewer, "Contents of MKL sparse matrix handle for MATSEQAIJMKL object:\n")); 2763849ddb2SRichard Tran Mills 2773849ddb2SRichard Tran Mills /* Exit immediately in case of the MKL matrix handle being NULL; this will be the case for empty matrices (zero rows or columns). */ 2783849ddb2SRichard Tran Mills if (!aijmkl->csrA) { 2799566063dSJacob Faibussowitsch PetscCall(PetscViewerASCIIPrintf(viewer, "MKL matrix handle is NULL\n")); 2803849ddb2SRichard Tran Mills PetscFunctionReturn(0); 2813849ddb2SRichard Tran Mills } 2823849ddb2SRichard Tran Mills 2833849ddb2SRichard Tran Mills /* Note: Must pass in &dummy below since MKL can't accept NULL for this output array we don't actually want. */ 284bdfea6dbSBarry Smith PetscCallExternal(mkl_sparse_x_export_csr, aijmkl->csrA, &indexing, (MKL_INT *)&nrows, (MKL_INT *)&ncols, (MKL_INT **)&ai, (MKL_INT **)&dummy, (MKL_INT **)&aj, &aa); 2853849ddb2SRichard Tran Mills 2863849ddb2SRichard Tran Mills k = 0; 2873849ddb2SRichard Tran Mills for (i = 0; i < nrows; i++) { 2889566063dSJacob Faibussowitsch PetscCall(PetscViewerASCIIPrintf(viewer, "row %" PetscInt_FMT ": ", i)); 2893849ddb2SRichard Tran Mills nz = ai[i + 1] - ai[i]; 2903849ddb2SRichard Tran Mills for (j = 0; j < nz; j++) { 2913849ddb2SRichard Tran Mills if (aa) { 2929566063dSJacob Faibussowitsch PetscCall(PetscViewerASCIIPrintf(viewer, "(%" PetscInt_FMT ", %g) ", aj[k], PetscRealPart(aa[k]))); 2933849ddb2SRichard Tran Mills } else { 2949566063dSJacob Faibussowitsch PetscCall(PetscViewerASCIIPrintf(viewer, "(%" PetscInt_FMT ", NULL)", aj[k])); 2953849ddb2SRichard Tran Mills } 2963849ddb2SRichard Tran Mills k++; 2973849ddb2SRichard Tran Mills } 2989566063dSJacob Faibussowitsch PetscCall(PetscViewerASCIIPrintf(viewer, "\n")); 2993849ddb2SRichard Tran Mills } 3003849ddb2SRichard Tran Mills PetscFunctionReturn(0); 3013849ddb2SRichard Tran Mills } 3023849ddb2SRichard Tran Mills #endif /* PETSC_HAVE_MKL_SPARSE_OPTIMIZE */ 3033849ddb2SRichard Tran Mills 304d71ae5a4SJacob Faibussowitsch PetscErrorCode MatDuplicate_SeqAIJMKL(Mat A, MatDuplicateOption op, Mat *M) 305d71ae5a4SJacob Faibussowitsch { 3061495fedeSRichard Tran Mills Mat_SeqAIJMKL *aijmkl = (Mat_SeqAIJMKL *)A->spptr; 3076e369cd5SRichard Tran Mills Mat_SeqAIJMKL *aijmkl_dest; 3086e369cd5SRichard Tran Mills 3096e369cd5SRichard Tran Mills PetscFunctionBegin; 3109566063dSJacob Faibussowitsch PetscCall(MatDuplicate_SeqAIJ(A, op, M)); 3116e369cd5SRichard Tran Mills aijmkl_dest = (Mat_SeqAIJMKL *)(*M)->spptr; 3129566063dSJacob Faibussowitsch PetscCall(PetscArraycpy(aijmkl_dest, aijmkl, 1)); 3136e369cd5SRichard Tran Mills aijmkl_dest->sparse_optimized = PETSC_FALSE; 3141baa6e33SBarry Smith if (aijmkl->eager_inspection) PetscCall(MatSeqAIJMKL_create_mkl_handle(A)); 3156e369cd5SRichard Tran Mills PetscFunctionReturn(0); 3166e369cd5SRichard Tran Mills } 3176e369cd5SRichard Tran Mills 318d71ae5a4SJacob Faibussowitsch PetscErrorCode MatAssemblyEnd_SeqAIJMKL(Mat A, MatAssemblyType mode) 319d71ae5a4SJacob Faibussowitsch { 3206e369cd5SRichard Tran Mills Mat_SeqAIJ *a = (Mat_SeqAIJ *)A->data; 3215b49642aSRichard Tran Mills Mat_SeqAIJMKL *aijmkl; 3226e369cd5SRichard Tran Mills 3236e369cd5SRichard Tran Mills PetscFunctionBegin; 3246e369cd5SRichard Tran Mills if (mode == MAT_FLUSH_ASSEMBLY) PetscFunctionReturn(0); 3256e369cd5SRichard Tran Mills 3266e369cd5SRichard Tran Mills /* Since a MATSEQAIJMKL matrix is really just a MATSEQAIJ with some 3276e369cd5SRichard Tran Mills * extra information and some different methods, call the AssemblyEnd 3286e369cd5SRichard Tran Mills * routine for a MATSEQAIJ. 3296e369cd5SRichard Tran Mills * I'm not sure if this is the best way to do this, but it avoids 330d96e85feSRichard Tran Mills * a lot of code duplication. */ 3316e369cd5SRichard Tran Mills a->inode.use = PETSC_FALSE; /* Must disable: otherwise the MKL routines won't get used. */ 3329566063dSJacob Faibussowitsch PetscCall(MatAssemblyEnd_SeqAIJ(A, mode)); 3336e369cd5SRichard Tran Mills 3345b49642aSRichard Tran Mills /* If the user has requested "eager" inspection, create the optimized MKL sparse handle (if needed; the function checks). 3355b49642aSRichard Tran Mills * (The default is to do "lazy" inspection, deferring this until something like MatMult() is called.) */ 3365b49642aSRichard Tran Mills aijmkl = (Mat_SeqAIJMKL *)A->spptr; 3371baa6e33SBarry Smith if (aijmkl->eager_inspection) PetscCall(MatSeqAIJMKL_create_mkl_handle(A)); 338df555b71SRichard Tran Mills 3394a2a386eSRichard Tran Mills PetscFunctionReturn(0); 3404a2a386eSRichard Tran Mills } 3414a2a386eSRichard Tran Mills 342e626a176SRichard Tran Mills #if !defined(PETSC_MKL_SPBLAS_DEPRECATED) 343d71ae5a4SJacob Faibussowitsch PetscErrorCode MatMult_SeqAIJMKL(Mat A, Vec xx, Vec yy) 344d71ae5a4SJacob Faibussowitsch { 3454a2a386eSRichard Tran Mills Mat_SeqAIJ *a = (Mat_SeqAIJ *)A->data; 3464a2a386eSRichard Tran Mills const PetscScalar *x; 3474a2a386eSRichard Tran Mills PetscScalar *y; 3484a2a386eSRichard Tran Mills const MatScalar *aa; 3494a2a386eSRichard Tran Mills PetscInt m = A->rmap->n; 350db63039fSRichard Tran Mills PetscInt n = A->cmap->n; 351db63039fSRichard Tran Mills PetscScalar alpha = 1.0; 352db63039fSRichard Tran Mills PetscScalar beta = 0.0; 3534a2a386eSRichard Tran Mills const PetscInt *aj, *ai; 354db63039fSRichard Tran Mills char matdescra[6]; 355db63039fSRichard Tran Mills 3564a2a386eSRichard Tran Mills /* Variables not in MatMult_SeqAIJ. */ 357ff03dc53SRichard Tran Mills char transa = 'n'; /* Used to indicate to MKL that we are not computing the transpose product. */ 358ff03dc53SRichard Tran Mills 359ff03dc53SRichard Tran Mills PetscFunctionBegin; 360db63039fSRichard Tran Mills matdescra[0] = 'g'; /* Indicates to MKL that we using a general CSR matrix. */ 361db63039fSRichard Tran Mills matdescra[3] = 'c'; /* Indicates to MKL that we use C-style (0-based) indexing. */ 3629566063dSJacob Faibussowitsch PetscCall(VecGetArrayRead(xx, &x)); 3639566063dSJacob Faibussowitsch PetscCall(VecGetArray(yy, &y)); 364ff03dc53SRichard Tran Mills aj = a->j; /* aj[k] gives column index for element aa[k]. */ 365ff03dc53SRichard Tran Mills aa = a->a; /* Nonzero elements stored row-by-row. */ 366ff03dc53SRichard Tran Mills ai = a->i; /* ai[k] is the position in aa and aj where row k starts. */ 367ff03dc53SRichard Tran Mills 368ff03dc53SRichard Tran Mills /* Call MKL sparse BLAS routine to do the MatMult. */ 369db63039fSRichard Tran Mills mkl_xcsrmv(&transa, &m, &n, &alpha, matdescra, aa, aj, ai, ai + 1, x, &beta, y); 370ff03dc53SRichard Tran Mills 3719566063dSJacob Faibussowitsch PetscCall(PetscLogFlops(2.0 * a->nz - a->nonzerorowcnt)); 3729566063dSJacob Faibussowitsch PetscCall(VecRestoreArrayRead(xx, &x)); 3739566063dSJacob Faibussowitsch PetscCall(VecRestoreArray(yy, &y)); 374ff03dc53SRichard Tran Mills PetscFunctionReturn(0); 375ff03dc53SRichard Tran Mills } 3761950a7e7SRichard Tran Mills #endif 377ff03dc53SRichard Tran Mills 378ffcab697SRichard Tran Mills #if defined(PETSC_HAVE_MKL_SPARSE_OPTIMIZE) 379d71ae5a4SJacob Faibussowitsch PetscErrorCode MatMult_SeqAIJMKL_SpMV2(Mat A, Vec xx, Vec yy) 380d71ae5a4SJacob Faibussowitsch { 381df555b71SRichard Tran Mills Mat_SeqAIJ *a = (Mat_SeqAIJ *)A->data; 382df555b71SRichard Tran Mills Mat_SeqAIJMKL *aijmkl = (Mat_SeqAIJMKL *)A->spptr; 383df555b71SRichard Tran Mills const PetscScalar *x; 384df555b71SRichard Tran Mills PetscScalar *y; 385551aa5c8SRichard Tran Mills PetscObjectState state; 386df555b71SRichard Tran Mills 387df555b71SRichard Tran Mills PetscFunctionBegin; 388df555b71SRichard Tran Mills 38938987b35SRichard Tran Mills /* If there are no nonzero entries, zero yy and return immediately. */ 39038987b35SRichard Tran Mills if (!a->nz) { 3919566063dSJacob Faibussowitsch PetscCall(VecGetArray(yy, &y)); 3929566063dSJacob Faibussowitsch PetscCall(PetscArrayzero(y, A->rmap->n)); 3939566063dSJacob Faibussowitsch PetscCall(VecRestoreArray(yy, &y)); 39438987b35SRichard Tran Mills PetscFunctionReturn(0); 39538987b35SRichard Tran Mills } 396f36dfe3fSRichard Tran Mills 3979566063dSJacob Faibussowitsch PetscCall(VecGetArrayRead(xx, &x)); 3989566063dSJacob Faibussowitsch PetscCall(VecGetArray(yy, &y)); 399df555b71SRichard Tran Mills 4003fa15762SRichard Tran Mills /* In some cases, we get to this point without mkl_sparse_optimize() having been called, so we check and then call 4013fa15762SRichard Tran Mills * it if needed. Eventually, when everything in PETSc is properly updating the matrix state, we should probably 4023fa15762SRichard Tran Mills * take a "lazy" approach to creation/updating of the MKL matrix handle and plan to always do it here (when needed). */ 4039566063dSJacob Faibussowitsch PetscCall(PetscObjectStateGet((PetscObject)A, &state)); 4049566063dSJacob Faibussowitsch if (!aijmkl->sparse_optimized || aijmkl->state != state) PetscCall(MatSeqAIJMKL_create_mkl_handle(A)); 4053fa15762SRichard Tran Mills 406df555b71SRichard Tran Mills /* Call MKL SpMV2 executor routine to do the MatMult. */ 407792fecdfSBarry Smith PetscCallExternal(mkl_sparse_x_mv, SPARSE_OPERATION_NON_TRANSPOSE, 1.0, aijmkl->csrA, aijmkl->descr, x, 0.0, y); 408df555b71SRichard Tran Mills 4099566063dSJacob Faibussowitsch PetscCall(PetscLogFlops(2.0 * a->nz - a->nonzerorowcnt)); 4109566063dSJacob Faibussowitsch PetscCall(VecRestoreArrayRead(xx, &x)); 4119566063dSJacob Faibussowitsch PetscCall(VecRestoreArray(yy, &y)); 412df555b71SRichard Tran Mills PetscFunctionReturn(0); 413df555b71SRichard Tran Mills } 414d995685eSRichard Tran Mills #endif /* PETSC_HAVE_MKL_SPARSE_OPTIMIZE */ 415df555b71SRichard Tran Mills 416e626a176SRichard Tran Mills #if !defined(PETSC_MKL_SPBLAS_DEPRECATED) 417d71ae5a4SJacob Faibussowitsch PetscErrorCode MatMultTranspose_SeqAIJMKL(Mat A, Vec xx, Vec yy) 418d71ae5a4SJacob Faibussowitsch { 419ff03dc53SRichard Tran Mills Mat_SeqAIJ *a = (Mat_SeqAIJ *)A->data; 420ff03dc53SRichard Tran Mills const PetscScalar *x; 421ff03dc53SRichard Tran Mills PetscScalar *y; 422ff03dc53SRichard Tran Mills const MatScalar *aa; 423ff03dc53SRichard Tran Mills PetscInt m = A->rmap->n; 424db63039fSRichard Tran Mills PetscInt n = A->cmap->n; 425db63039fSRichard Tran Mills PetscScalar alpha = 1.0; 426db63039fSRichard Tran Mills PetscScalar beta = 0.0; 427ff03dc53SRichard Tran Mills const PetscInt *aj, *ai; 428db63039fSRichard Tran Mills char matdescra[6]; 429ff03dc53SRichard Tran Mills 430ff03dc53SRichard Tran Mills /* Variables not in MatMultTranspose_SeqAIJ. */ 431ff03dc53SRichard Tran Mills char transa = 't'; /* Used to indicate to MKL that we are computing the transpose product. */ 4324a2a386eSRichard Tran Mills 4334a2a386eSRichard Tran Mills PetscFunctionBegin; 434969800c5SRichard Tran Mills matdescra[0] = 'g'; /* Indicates to MKL that we using a general CSR matrix. */ 435969800c5SRichard Tran Mills matdescra[3] = 'c'; /* Indicates to MKL that we use C-style (0-based) indexing. */ 4369566063dSJacob Faibussowitsch PetscCall(VecGetArrayRead(xx, &x)); 4379566063dSJacob Faibussowitsch PetscCall(VecGetArray(yy, &y)); 4384a2a386eSRichard Tran Mills aj = a->j; /* aj[k] gives column index for element aa[k]. */ 4394a2a386eSRichard Tran Mills aa = a->a; /* Nonzero elements stored row-by-row. */ 4404a2a386eSRichard Tran Mills ai = a->i; /* ai[k] is the position in aa and aj where row k starts. */ 4414a2a386eSRichard Tran Mills 4424a2a386eSRichard Tran Mills /* Call MKL sparse BLAS routine to do the MatMult. */ 443db63039fSRichard Tran Mills mkl_xcsrmv(&transa, &m, &n, &alpha, matdescra, aa, aj, ai, ai + 1, x, &beta, y); 4444a2a386eSRichard Tran Mills 4459566063dSJacob Faibussowitsch PetscCall(PetscLogFlops(2.0 * a->nz - a->nonzerorowcnt)); 4469566063dSJacob Faibussowitsch PetscCall(VecRestoreArrayRead(xx, &x)); 4479566063dSJacob Faibussowitsch PetscCall(VecRestoreArray(yy, &y)); 4484a2a386eSRichard Tran Mills PetscFunctionReturn(0); 4494a2a386eSRichard Tran Mills } 4501950a7e7SRichard Tran Mills #endif 4514a2a386eSRichard Tran Mills 452ffcab697SRichard Tran Mills #if defined(PETSC_HAVE_MKL_SPARSE_OPTIMIZE) 453d71ae5a4SJacob Faibussowitsch PetscErrorCode MatMultTranspose_SeqAIJMKL_SpMV2(Mat A, Vec xx, Vec yy) 454d71ae5a4SJacob Faibussowitsch { 455df555b71SRichard Tran Mills Mat_SeqAIJ *a = (Mat_SeqAIJ *)A->data; 456df555b71SRichard Tran Mills Mat_SeqAIJMKL *aijmkl = (Mat_SeqAIJMKL *)A->spptr; 457df555b71SRichard Tran Mills const PetscScalar *x; 458df555b71SRichard Tran Mills PetscScalar *y; 459551aa5c8SRichard Tran Mills PetscObjectState state; 460df555b71SRichard Tran Mills 461df555b71SRichard Tran Mills PetscFunctionBegin; 462df555b71SRichard Tran Mills 46338987b35SRichard Tran Mills /* If there are no nonzero entries, zero yy and return immediately. */ 46438987b35SRichard Tran Mills if (!a->nz) { 4659566063dSJacob Faibussowitsch PetscCall(VecGetArray(yy, &y)); 4669566063dSJacob Faibussowitsch PetscCall(PetscArrayzero(y, A->cmap->n)); 4679566063dSJacob Faibussowitsch PetscCall(VecRestoreArray(yy, &y)); 46838987b35SRichard Tran Mills PetscFunctionReturn(0); 46938987b35SRichard Tran Mills } 470f36dfe3fSRichard Tran Mills 4719566063dSJacob Faibussowitsch PetscCall(VecGetArrayRead(xx, &x)); 4729566063dSJacob Faibussowitsch PetscCall(VecGetArray(yy, &y)); 473df555b71SRichard Tran Mills 4743fa15762SRichard Tran Mills /* In some cases, we get to this point without mkl_sparse_optimize() having been called, so we check and then call 4753fa15762SRichard Tran Mills * it if needed. Eventually, when everything in PETSc is properly updating the matrix state, we should probably 4763fa15762SRichard Tran Mills * take a "lazy" approach to creation/updating of the MKL matrix handle and plan to always do it here (when needed). */ 4779566063dSJacob Faibussowitsch PetscCall(PetscObjectStateGet((PetscObject)A, &state)); 4789566063dSJacob Faibussowitsch if (!aijmkl->sparse_optimized || aijmkl->state != state) PetscCall(MatSeqAIJMKL_create_mkl_handle(A)); 4793fa15762SRichard Tran Mills 480df555b71SRichard Tran Mills /* Call MKL SpMV2 executor routine to do the MatMultTranspose. */ 481792fecdfSBarry Smith PetscCallExternal(mkl_sparse_x_mv, SPARSE_OPERATION_TRANSPOSE, 1.0, aijmkl->csrA, aijmkl->descr, x, 0.0, y); 482df555b71SRichard Tran Mills 4839566063dSJacob Faibussowitsch PetscCall(PetscLogFlops(2.0 * a->nz - a->nonzerorowcnt)); 4849566063dSJacob Faibussowitsch PetscCall(VecRestoreArrayRead(xx, &x)); 4859566063dSJacob Faibussowitsch PetscCall(VecRestoreArray(yy, &y)); 486df555b71SRichard Tran Mills PetscFunctionReturn(0); 487df555b71SRichard Tran Mills } 488d995685eSRichard Tran Mills #endif /* PETSC_HAVE_MKL_SPARSE_OPTIMIZE */ 489df555b71SRichard Tran Mills 490e626a176SRichard Tran Mills #if !defined(PETSC_MKL_SPBLAS_DEPRECATED) 491d71ae5a4SJacob Faibussowitsch PetscErrorCode MatMultAdd_SeqAIJMKL(Mat A, Vec xx, Vec yy, Vec zz) 492d71ae5a4SJacob Faibussowitsch { 4934a2a386eSRichard Tran Mills Mat_SeqAIJ *a = (Mat_SeqAIJ *)A->data; 4944a2a386eSRichard Tran Mills const PetscScalar *x; 4954a2a386eSRichard Tran Mills PetscScalar *y, *z; 4964a2a386eSRichard Tran Mills const MatScalar *aa; 4974a2a386eSRichard Tran Mills PetscInt m = A->rmap->n; 498db63039fSRichard Tran Mills PetscInt n = A->cmap->n; 4994a2a386eSRichard Tran Mills const PetscInt *aj, *ai; 5004a2a386eSRichard Tran Mills PetscInt i; 5014a2a386eSRichard Tran Mills 502ff03dc53SRichard Tran Mills /* Variables not in MatMultAdd_SeqAIJ. */ 503ff03dc53SRichard Tran Mills char transa = 'n'; /* Used to indicate to MKL that we are not computing the transpose product. */ 504a84739b8SRichard Tran Mills PetscScalar alpha = 1.0; 505db63039fSRichard Tran Mills PetscScalar beta; 506a84739b8SRichard Tran Mills char matdescra[6]; 507ff03dc53SRichard Tran Mills 508ff03dc53SRichard Tran Mills PetscFunctionBegin; 509a84739b8SRichard Tran Mills matdescra[0] = 'g'; /* Indicates to MKL that we using a general CSR matrix. */ 510a84739b8SRichard Tran Mills matdescra[3] = 'c'; /* Indicates to MKL that we use C-style (0-based) indexing. */ 511a84739b8SRichard Tran Mills 5129566063dSJacob Faibussowitsch PetscCall(VecGetArrayRead(xx, &x)); 5139566063dSJacob Faibussowitsch PetscCall(VecGetArrayPair(yy, zz, &y, &z)); 514ff03dc53SRichard Tran Mills aj = a->j; /* aj[k] gives column index for element aa[k]. */ 515ff03dc53SRichard Tran Mills aa = a->a; /* Nonzero elements stored row-by-row. */ 516ff03dc53SRichard Tran Mills ai = a->i; /* ai[k] is the position in aa and aj where row k starts. */ 517ff03dc53SRichard Tran Mills 518ff03dc53SRichard Tran Mills /* Call MKL sparse BLAS routine to do the MatMult. */ 519a84739b8SRichard Tran Mills if (zz == yy) { 520a84739b8SRichard Tran Mills /* If zz and yy are the same vector, we can use MKL's mkl_xcsrmv(), which calculates y = alpha*A*x + beta*y. */ 521db63039fSRichard Tran Mills beta = 1.0; 522db63039fSRichard Tran Mills mkl_xcsrmv(&transa, &m, &n, &alpha, matdescra, aa, aj, ai, ai + 1, x, &beta, z); 523a84739b8SRichard Tran Mills } else { 524db63039fSRichard Tran Mills /* zz and yy are different vectors, so call MKL's mkl_xcsrmv() with beta=0, then add the result to z. 525db63039fSRichard Tran Mills * MKL sparse BLAS does not have a MatMultAdd equivalent. */ 526db63039fSRichard Tran Mills beta = 0.0; 527db63039fSRichard Tran Mills mkl_xcsrmv(&transa, &m, &n, &alpha, matdescra, aa, aj, ai, ai + 1, x, &beta, z); 528ad540459SPierre Jolivet for (i = 0; i < m; i++) z[i] += y[i]; 529a84739b8SRichard Tran Mills } 530ff03dc53SRichard Tran Mills 5319566063dSJacob Faibussowitsch PetscCall(PetscLogFlops(2.0 * a->nz)); 5329566063dSJacob Faibussowitsch PetscCall(VecRestoreArrayRead(xx, &x)); 5339566063dSJacob Faibussowitsch PetscCall(VecRestoreArrayPair(yy, zz, &y, &z)); 534ff03dc53SRichard Tran Mills PetscFunctionReturn(0); 535ff03dc53SRichard Tran Mills } 5361950a7e7SRichard Tran Mills #endif 537ff03dc53SRichard Tran Mills 538ffcab697SRichard Tran Mills #if defined(PETSC_HAVE_MKL_SPARSE_OPTIMIZE) 539d71ae5a4SJacob Faibussowitsch PetscErrorCode MatMultAdd_SeqAIJMKL_SpMV2(Mat A, Vec xx, Vec yy, Vec zz) 540d71ae5a4SJacob Faibussowitsch { 541df555b71SRichard Tran Mills Mat_SeqAIJ *a = (Mat_SeqAIJ *)A->data; 542df555b71SRichard Tran Mills Mat_SeqAIJMKL *aijmkl = (Mat_SeqAIJMKL *)A->spptr; 543df555b71SRichard Tran Mills const PetscScalar *x; 544df555b71SRichard Tran Mills PetscScalar *y, *z; 545df555b71SRichard Tran Mills PetscInt m = A->rmap->n; 546df555b71SRichard Tran Mills PetscInt i; 547df555b71SRichard Tran Mills 548df555b71SRichard Tran Mills /* Variables not in MatMultAdd_SeqAIJ. */ 549551aa5c8SRichard Tran Mills PetscObjectState state; 550df555b71SRichard Tran Mills 551df555b71SRichard Tran Mills PetscFunctionBegin; 552df555b71SRichard Tran Mills 55338987b35SRichard Tran Mills /* If there are no nonzero entries, set zz = yy and return immediately. */ 55438987b35SRichard Tran Mills if (!a->nz) { 5559566063dSJacob Faibussowitsch PetscCall(VecGetArrayPair(yy, zz, &y, &z)); 5569566063dSJacob Faibussowitsch PetscCall(PetscArraycpy(z, y, m)); 5579566063dSJacob Faibussowitsch PetscCall(VecRestoreArrayPair(yy, zz, &y, &z)); 55838987b35SRichard Tran Mills PetscFunctionReturn(0); 55938987b35SRichard Tran Mills } 560df555b71SRichard Tran Mills 5619566063dSJacob Faibussowitsch PetscCall(VecGetArrayRead(xx, &x)); 5629566063dSJacob Faibussowitsch PetscCall(VecGetArrayPair(yy, zz, &y, &z)); 563df555b71SRichard Tran Mills 5643fa15762SRichard Tran Mills /* In some cases, we get to this point without mkl_sparse_optimize() having been called, so we check and then call 5653fa15762SRichard Tran Mills * it if needed. Eventually, when everything in PETSc is properly updating the matrix state, we should probably 5663fa15762SRichard Tran Mills * take a "lazy" approach to creation/updating of the MKL matrix handle and plan to always do it here (when needed). */ 5679566063dSJacob Faibussowitsch PetscCall(PetscObjectStateGet((PetscObject)A, &state)); 5689566063dSJacob Faibussowitsch if (!aijmkl->sparse_optimized || aijmkl->state != state) PetscCall(MatSeqAIJMKL_create_mkl_handle(A)); 5693fa15762SRichard Tran Mills 570df555b71SRichard Tran Mills /* Call MKL sparse BLAS routine to do the MatMult. */ 571df555b71SRichard Tran Mills if (zz == yy) { 572df555b71SRichard Tran Mills /* If zz and yy are the same vector, we can use mkl_sparse_x_mv, which calculates y = alpha*A*x + beta*y, 573df555b71SRichard Tran Mills * with alpha and beta both set to 1.0. */ 574792fecdfSBarry Smith PetscCallExternal(mkl_sparse_x_mv, SPARSE_OPERATION_NON_TRANSPOSE, 1.0, aijmkl->csrA, aijmkl->descr, x, 1.0, z); 575df555b71SRichard Tran Mills } else { 576df555b71SRichard Tran Mills /* zz and yy are different vectors, so we call mkl_sparse_x_mv with alpha=1.0 and beta=0.0, and then 577df555b71SRichard Tran Mills * we add the contents of vector yy to the result; MKL sparse BLAS does not have a MatMultAdd equivalent. */ 578792fecdfSBarry Smith PetscCallExternal(mkl_sparse_x_mv, SPARSE_OPERATION_NON_TRANSPOSE, 1.0, aijmkl->csrA, aijmkl->descr, x, 0.0, z); 5795f80ce2aSJacob Faibussowitsch for (i = 0; i < m; i++) z[i] += y[i]; 580df555b71SRichard Tran Mills } 581df555b71SRichard Tran Mills 5829566063dSJacob Faibussowitsch PetscCall(PetscLogFlops(2.0 * a->nz)); 5839566063dSJacob Faibussowitsch PetscCall(VecRestoreArrayRead(xx, &x)); 5849566063dSJacob Faibussowitsch PetscCall(VecRestoreArrayPair(yy, zz, &y, &z)); 585df555b71SRichard Tran Mills PetscFunctionReturn(0); 586df555b71SRichard Tran Mills } 587d995685eSRichard Tran Mills #endif /* PETSC_HAVE_MKL_SPARSE_OPTIMIZE */ 588df555b71SRichard Tran Mills 589e626a176SRichard Tran Mills #if !defined(PETSC_MKL_SPBLAS_DEPRECATED) 590d71ae5a4SJacob Faibussowitsch PetscErrorCode MatMultTransposeAdd_SeqAIJMKL(Mat A, Vec xx, Vec yy, Vec zz) 591d71ae5a4SJacob Faibussowitsch { 592ff03dc53SRichard Tran Mills Mat_SeqAIJ *a = (Mat_SeqAIJ *)A->data; 593ff03dc53SRichard Tran Mills const PetscScalar *x; 594ff03dc53SRichard Tran Mills PetscScalar *y, *z; 595ff03dc53SRichard Tran Mills const MatScalar *aa; 596ff03dc53SRichard Tran Mills PetscInt m = A->rmap->n; 597db63039fSRichard Tran Mills PetscInt n = A->cmap->n; 598ff03dc53SRichard Tran Mills const PetscInt *aj, *ai; 599ff03dc53SRichard Tran Mills PetscInt i; 600ff03dc53SRichard Tran Mills 601ff03dc53SRichard Tran Mills /* Variables not in MatMultTransposeAdd_SeqAIJ. */ 602ff03dc53SRichard Tran Mills char transa = 't'; /* Used to indicate to MKL that we are computing the transpose product. */ 603a84739b8SRichard Tran Mills PetscScalar alpha = 1.0; 604db63039fSRichard Tran Mills PetscScalar beta; 605a84739b8SRichard Tran Mills char matdescra[6]; 6064a2a386eSRichard Tran Mills 6074a2a386eSRichard Tran Mills PetscFunctionBegin; 608a84739b8SRichard Tran Mills matdescra[0] = 'g'; /* Indicates to MKL that we using a general CSR matrix. */ 609a84739b8SRichard Tran Mills matdescra[3] = 'c'; /* Indicates to MKL that we use C-style (0-based) indexing. */ 610a84739b8SRichard Tran Mills 6119566063dSJacob Faibussowitsch PetscCall(VecGetArrayRead(xx, &x)); 6129566063dSJacob Faibussowitsch PetscCall(VecGetArrayPair(yy, zz, &y, &z)); 6134a2a386eSRichard Tran Mills aj = a->j; /* aj[k] gives column index for element aa[k]. */ 6144a2a386eSRichard Tran Mills aa = a->a; /* Nonzero elements stored row-by-row. */ 6154a2a386eSRichard Tran Mills ai = a->i; /* ai[k] is the position in aa and aj where row k starts. */ 6164a2a386eSRichard Tran Mills 6174a2a386eSRichard Tran Mills /* Call MKL sparse BLAS routine to do the MatMult. */ 618a84739b8SRichard Tran Mills if (zz == yy) { 619a84739b8SRichard Tran Mills /* If zz and yy are the same vector, we can use MKL's mkl_xcsrmv(), which calculates y = alpha*A*x + beta*y. */ 620db63039fSRichard Tran Mills beta = 1.0; 621969800c5SRichard Tran Mills mkl_xcsrmv(&transa, &m, &n, &alpha, matdescra, aa, aj, ai, ai + 1, x, &beta, z); 622a84739b8SRichard Tran Mills } else { 623db63039fSRichard Tran Mills /* zz and yy are different vectors, so call MKL's mkl_xcsrmv() with beta=0, then add the result to z. 624db63039fSRichard Tran Mills * MKL sparse BLAS does not have a MatMultAdd equivalent. */ 625db63039fSRichard Tran Mills beta = 0.0; 626db63039fSRichard Tran Mills mkl_xcsrmv(&transa, &m, &n, &alpha, matdescra, aa, aj, ai, ai + 1, x, &beta, z); 627ad540459SPierre Jolivet for (i = 0; i < n; i++) z[i] += y[i]; 628a84739b8SRichard Tran Mills } 6294a2a386eSRichard Tran Mills 6309566063dSJacob Faibussowitsch PetscCall(PetscLogFlops(2.0 * a->nz)); 6319566063dSJacob Faibussowitsch PetscCall(VecRestoreArrayRead(xx, &x)); 6329566063dSJacob Faibussowitsch PetscCall(VecRestoreArrayPair(yy, zz, &y, &z)); 6334a2a386eSRichard Tran Mills PetscFunctionReturn(0); 6344a2a386eSRichard Tran Mills } 6351950a7e7SRichard Tran Mills #endif 6364a2a386eSRichard Tran Mills 637ffcab697SRichard Tran Mills #if defined(PETSC_HAVE_MKL_SPARSE_OPTIMIZE) 638d71ae5a4SJacob Faibussowitsch PetscErrorCode MatMultTransposeAdd_SeqAIJMKL_SpMV2(Mat A, Vec xx, Vec yy, Vec zz) 639d71ae5a4SJacob Faibussowitsch { 640df555b71SRichard Tran Mills Mat_SeqAIJ *a = (Mat_SeqAIJ *)A->data; 641df555b71SRichard Tran Mills Mat_SeqAIJMKL *aijmkl = (Mat_SeqAIJMKL *)A->spptr; 642df555b71SRichard Tran Mills const PetscScalar *x; 643df555b71SRichard Tran Mills PetscScalar *y, *z; 644969800c5SRichard Tran Mills PetscInt n = A->cmap->n; 645df555b71SRichard Tran Mills PetscInt i; 646551aa5c8SRichard Tran Mills PetscObjectState state; 647df555b71SRichard Tran Mills 648df555b71SRichard Tran Mills /* Variables not in MatMultTransposeAdd_SeqAIJ. */ 649df555b71SRichard Tran Mills 650df555b71SRichard Tran Mills PetscFunctionBegin; 651df555b71SRichard Tran Mills 65238987b35SRichard Tran Mills /* If there are no nonzero entries, set zz = yy and return immediately. */ 65338987b35SRichard Tran Mills if (!a->nz) { 6549566063dSJacob Faibussowitsch PetscCall(VecGetArrayPair(yy, zz, &y, &z)); 6559566063dSJacob Faibussowitsch PetscCall(PetscArraycpy(z, y, n)); 6569566063dSJacob Faibussowitsch PetscCall(VecRestoreArrayPair(yy, zz, &y, &z)); 65738987b35SRichard Tran Mills PetscFunctionReturn(0); 65838987b35SRichard Tran Mills } 659f36dfe3fSRichard Tran Mills 6609566063dSJacob Faibussowitsch PetscCall(VecGetArrayRead(xx, &x)); 6619566063dSJacob Faibussowitsch PetscCall(VecGetArrayPair(yy, zz, &y, &z)); 662df555b71SRichard Tran Mills 6633fa15762SRichard Tran Mills /* In some cases, we get to this point without mkl_sparse_optimize() having been called, so we check and then call 6643fa15762SRichard Tran Mills * it if needed. Eventually, when everything in PETSc is properly updating the matrix state, we should probably 6653fa15762SRichard Tran Mills * take a "lazy" approach to creation/updating of the MKL matrix handle and plan to always do it here (when needed). */ 6669566063dSJacob Faibussowitsch PetscCall(PetscObjectStateGet((PetscObject)A, &state)); 6675f80ce2aSJacob Faibussowitsch if (!aijmkl->sparse_optimized || aijmkl->state != state) MatSeqAIJMKL_create_mkl_handle(A); 6683fa15762SRichard Tran Mills 669df555b71SRichard Tran Mills /* Call MKL sparse BLAS routine to do the MatMult. */ 670df555b71SRichard Tran Mills if (zz == yy) { 671df555b71SRichard Tran Mills /* If zz and yy are the same vector, we can use mkl_sparse_x_mv, which calculates y = alpha*A*x + beta*y, 672df555b71SRichard Tran Mills * with alpha and beta both set to 1.0. */ 673792fecdfSBarry Smith PetscCallExternal(mkl_sparse_x_mv, SPARSE_OPERATION_TRANSPOSE, 1.0, aijmkl->csrA, aijmkl->descr, x, 1.0, z); 674df555b71SRichard Tran Mills } else { 675df555b71SRichard Tran Mills /* zz and yy are different vectors, so we call mkl_sparse_x_mv with alpha=1.0 and beta=0.0, and then 676df555b71SRichard Tran Mills * we add the contents of vector yy to the result; MKL sparse BLAS does not have a MatMultAdd equivalent. */ 677792fecdfSBarry Smith PetscCallExternal(mkl_sparse_x_mv, SPARSE_OPERATION_TRANSPOSE, 1.0, aijmkl->csrA, aijmkl->descr, x, 0.0, z); 6785f80ce2aSJacob Faibussowitsch for (i = 0; i < n; i++) z[i] += y[i]; 679df555b71SRichard Tran Mills } 680df555b71SRichard Tran Mills 6819566063dSJacob Faibussowitsch PetscCall(PetscLogFlops(2.0 * a->nz)); 6829566063dSJacob Faibussowitsch PetscCall(VecRestoreArrayRead(xx, &x)); 6839566063dSJacob Faibussowitsch PetscCall(VecRestoreArrayPair(yy, zz, &y, &z)); 684df555b71SRichard Tran Mills PetscFunctionReturn(0); 685df555b71SRichard Tran Mills } 686d995685eSRichard Tran Mills #endif /* PETSC_HAVE_MKL_SPARSE_OPTIMIZE */ 687df555b71SRichard Tran Mills 688190ae7a4SRichard Tran Mills /* -------------------------- MatProduct code -------------------------- */ 6898a369200SRichard Tran Mills #if defined(PETSC_HAVE_MKL_SPARSE_SP2M_FEATURE) 690d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatMatMultSymbolic_SeqAIJMKL_SeqAIJMKL_Private(Mat A, const sparse_operation_t transA, Mat B, const sparse_operation_t transB, Mat C) 691d71ae5a4SJacob Faibussowitsch { 6921495fedeSRichard Tran Mills Mat_SeqAIJMKL *a = (Mat_SeqAIJMKL *)A->spptr, *b = (Mat_SeqAIJMKL *)B->spptr; 693431879ecSRichard Tran Mills sparse_matrix_t csrA, csrB, csrC; 694190ae7a4SRichard Tran Mills PetscInt nrows, ncols; 695431879ecSRichard Tran Mills struct matrix_descr descr_type_gen; 696431879ecSRichard Tran Mills PetscObjectState state; 697431879ecSRichard Tran Mills 698431879ecSRichard Tran Mills PetscFunctionBegin; 699190ae7a4SRichard Tran Mills /* Determine the number of rows and columns that the result matrix C will have. We have to do this ourselves because MKL does 700190ae7a4SRichard Tran Mills * not handle sparse matrices with zero rows or columns. */ 701190ae7a4SRichard Tran Mills if (transA == SPARSE_OPERATION_NON_TRANSPOSE) nrows = A->rmap->N; 702190ae7a4SRichard Tran Mills else nrows = A->cmap->N; 703190ae7a4SRichard Tran Mills if (transB == SPARSE_OPERATION_NON_TRANSPOSE) ncols = B->cmap->N; 704190ae7a4SRichard Tran Mills else ncols = B->rmap->N; 705190ae7a4SRichard Tran Mills 7069566063dSJacob Faibussowitsch PetscCall(PetscObjectStateGet((PetscObject)A, &state)); 7079566063dSJacob Faibussowitsch if (!a->sparse_optimized || a->state != state) PetscCall(MatSeqAIJMKL_create_mkl_handle(A)); 7089566063dSJacob Faibussowitsch PetscCall(PetscObjectStateGet((PetscObject)B, &state)); 7099566063dSJacob Faibussowitsch if (!b->sparse_optimized || b->state != state) PetscCall(MatSeqAIJMKL_create_mkl_handle(B)); 710431879ecSRichard Tran Mills csrA = a->csrA; 711431879ecSRichard Tran Mills csrB = b->csrA; 712431879ecSRichard Tran Mills descr_type_gen.type = SPARSE_MATRIX_TYPE_GENERAL; 713431879ecSRichard Tran Mills 714190ae7a4SRichard Tran Mills if (csrA && csrB) { 715792fecdfSBarry Smith PetscCallExternal(mkl_sparse_sp2m, transA, descr_type_gen, csrA, transB, descr_type_gen, csrB, SPARSE_STAGE_FULL_MULT_NO_VAL, &csrC); 716190ae7a4SRichard Tran Mills } else { 717*f3fa974cSJacob Faibussowitsch csrC = NULL; 718190ae7a4SRichard Tran Mills } 719190ae7a4SRichard Tran Mills 7209566063dSJacob Faibussowitsch PetscCall(MatSeqAIJMKL_setup_structure_from_mkl_handle(PETSC_COMM_SELF, csrC, nrows, ncols, C)); 721431879ecSRichard Tran Mills 722431879ecSRichard Tran Mills PetscFunctionReturn(0); 723431879ecSRichard Tran Mills } 724431879ecSRichard Tran Mills 725d71ae5a4SJacob Faibussowitsch PetscErrorCode MatMatMultNumeric_SeqAIJMKL_SeqAIJMKL_Private(Mat A, const sparse_operation_t transA, Mat B, const sparse_operation_t transB, Mat C) 726d71ae5a4SJacob Faibussowitsch { 7271495fedeSRichard Tran Mills Mat_SeqAIJMKL *a = (Mat_SeqAIJMKL *)A->spptr, *b = (Mat_SeqAIJMKL *)B->spptr, *c = (Mat_SeqAIJMKL *)C->spptr; 728e8be1fc7SRichard Tran Mills sparse_matrix_t csrA, csrB, csrC; 729e8be1fc7SRichard Tran Mills struct matrix_descr descr_type_gen; 730e8be1fc7SRichard Tran Mills PetscObjectState state; 731e8be1fc7SRichard Tran Mills 732e8be1fc7SRichard Tran Mills PetscFunctionBegin; 7339566063dSJacob Faibussowitsch PetscCall(PetscObjectStateGet((PetscObject)A, &state)); 7349566063dSJacob Faibussowitsch if (!a->sparse_optimized || a->state != state) PetscCall(MatSeqAIJMKL_create_mkl_handle(A)); 7359566063dSJacob Faibussowitsch PetscCall(PetscObjectStateGet((PetscObject)B, &state)); 7369566063dSJacob Faibussowitsch if (!b->sparse_optimized || b->state != state) PetscCall(MatSeqAIJMKL_create_mkl_handle(B)); 737e8be1fc7SRichard Tran Mills csrA = a->csrA; 738e8be1fc7SRichard Tran Mills csrB = b->csrA; 739e8be1fc7SRichard Tran Mills csrC = c->csrA; 740e8be1fc7SRichard Tran Mills descr_type_gen.type = SPARSE_MATRIX_TYPE_GENERAL; 741e8be1fc7SRichard Tran Mills 742190ae7a4SRichard Tran Mills if (csrA && csrB) { 743792fecdfSBarry Smith PetscCallExternal(mkl_sparse_sp2m, transA, descr_type_gen, csrA, transB, descr_type_gen, csrB, SPARSE_STAGE_FINALIZE_MULT, &csrC); 744190ae7a4SRichard Tran Mills } else { 745*f3fa974cSJacob Faibussowitsch csrC = NULL; 746190ae7a4SRichard Tran Mills } 747e8be1fc7SRichard Tran Mills 748e8be1fc7SRichard Tran Mills /* Have to update the PETSc AIJ representation for matrix C from contents of MKL handle. */ 7499566063dSJacob Faibussowitsch PetscCall(MatSeqAIJMKL_update_from_mkl_handle(C)); 750e8be1fc7SRichard Tran Mills 751e8be1fc7SRichard Tran Mills PetscFunctionReturn(0); 752e8be1fc7SRichard Tran Mills } 753e8be1fc7SRichard Tran Mills 754d71ae5a4SJacob Faibussowitsch PetscErrorCode MatMatMultSymbolic_SeqAIJMKL_SeqAIJMKL(Mat A, Mat B, PetscReal fill, Mat C) 755d71ae5a4SJacob Faibussowitsch { 756190ae7a4SRichard Tran Mills PetscFunctionBegin; 7579566063dSJacob Faibussowitsch PetscCall(MatMatMultSymbolic_SeqAIJMKL_SeqAIJMKL_Private(A, SPARSE_OPERATION_NON_TRANSPOSE, B, SPARSE_OPERATION_NON_TRANSPOSE, C)); 758190ae7a4SRichard Tran Mills PetscFunctionReturn(0); 759190ae7a4SRichard Tran Mills } 760190ae7a4SRichard Tran Mills 761d71ae5a4SJacob Faibussowitsch PetscErrorCode MatMatMultNumeric_SeqAIJMKL_SeqAIJMKL(Mat A, Mat B, Mat C) 762d71ae5a4SJacob Faibussowitsch { 763190ae7a4SRichard Tran Mills PetscFunctionBegin; 7649566063dSJacob Faibussowitsch PetscCall(MatMatMultNumeric_SeqAIJMKL_SeqAIJMKL_Private(A, SPARSE_OPERATION_NON_TRANSPOSE, B, SPARSE_OPERATION_NON_TRANSPOSE, C)); 765190ae7a4SRichard Tran Mills PetscFunctionReturn(0); 766190ae7a4SRichard Tran Mills } 767190ae7a4SRichard Tran Mills 768d71ae5a4SJacob Faibussowitsch PetscErrorCode MatTransposeMatMultNumeric_SeqAIJMKL_SeqAIJMKL(Mat A, Mat B, Mat C) 769d71ae5a4SJacob Faibussowitsch { 770190ae7a4SRichard Tran Mills PetscFunctionBegin; 7719566063dSJacob Faibussowitsch PetscCall(MatMatMultNumeric_SeqAIJMKL_SeqAIJMKL_Private(A, SPARSE_OPERATION_TRANSPOSE, B, SPARSE_OPERATION_NON_TRANSPOSE, C)); 772190ae7a4SRichard Tran Mills PetscFunctionReturn(0); 773190ae7a4SRichard Tran Mills } 774190ae7a4SRichard Tran Mills 775d71ae5a4SJacob Faibussowitsch PetscErrorCode MatTransposeMatMultSymbolic_SeqAIJMKL_SeqAIJMKL(Mat A, Mat B, PetscReal fill, Mat C) 776d71ae5a4SJacob Faibussowitsch { 777190ae7a4SRichard Tran Mills PetscFunctionBegin; 7789566063dSJacob Faibussowitsch PetscCall(MatMatMultSymbolic_SeqAIJMKL_SeqAIJMKL_Private(A, SPARSE_OPERATION_TRANSPOSE, B, SPARSE_OPERATION_NON_TRANSPOSE, C)); 779190ae7a4SRichard Tran Mills PetscFunctionReturn(0); 780190ae7a4SRichard Tran Mills } 781190ae7a4SRichard Tran Mills 782d71ae5a4SJacob Faibussowitsch PetscErrorCode MatMatTransposeMultSymbolic_SeqAIJMKL_SeqAIJMKL(Mat A, Mat B, PetscReal fill, Mat C) 783d71ae5a4SJacob Faibussowitsch { 784190ae7a4SRichard Tran Mills PetscFunctionBegin; 7859566063dSJacob Faibussowitsch PetscCall(MatMatMultSymbolic_SeqAIJMKL_SeqAIJMKL_Private(A, SPARSE_OPERATION_NON_TRANSPOSE, B, SPARSE_OPERATION_TRANSPOSE, C)); 786190ae7a4SRichard Tran Mills PetscFunctionReturn(0); 787190ae7a4SRichard Tran Mills } 788190ae7a4SRichard Tran Mills 789d71ae5a4SJacob Faibussowitsch PetscErrorCode MatMatTransposeMultNumeric_SeqAIJMKL_SeqAIJMKL(Mat A, Mat B, Mat C) 790d71ae5a4SJacob Faibussowitsch { 791190ae7a4SRichard Tran Mills PetscFunctionBegin; 7929566063dSJacob Faibussowitsch PetscCall(MatMatMultNumeric_SeqAIJMKL_SeqAIJMKL_Private(A, SPARSE_OPERATION_NON_TRANSPOSE, B, SPARSE_OPERATION_TRANSPOSE, C)); 793190ae7a4SRichard Tran Mills PetscFunctionReturn(0); 794190ae7a4SRichard Tran Mills } 795190ae7a4SRichard Tran Mills 796d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatProductNumeric_AtB_SeqAIJMKL_SeqAIJMKL(Mat C) 797d71ae5a4SJacob Faibussowitsch { 798190ae7a4SRichard Tran Mills Mat_Product *product = C->product; 799190ae7a4SRichard Tran Mills Mat A = product->A, B = product->B; 800190ae7a4SRichard Tran Mills 801190ae7a4SRichard Tran Mills PetscFunctionBegin; 8029566063dSJacob Faibussowitsch PetscCall(MatTransposeMatMultNumeric_SeqAIJMKL_SeqAIJMKL(A, B, C)); 803190ae7a4SRichard Tran Mills PetscFunctionReturn(0); 804190ae7a4SRichard Tran Mills } 805190ae7a4SRichard Tran Mills 806d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatProductSymbolic_AtB_SeqAIJMKL_SeqAIJMKL(Mat C) 807d71ae5a4SJacob Faibussowitsch { 808190ae7a4SRichard Tran Mills Mat_Product *product = C->product; 809190ae7a4SRichard Tran Mills Mat A = product->A, B = product->B; 810190ae7a4SRichard Tran Mills PetscReal fill = product->fill; 811190ae7a4SRichard Tran Mills 812190ae7a4SRichard Tran Mills PetscFunctionBegin; 8139566063dSJacob Faibussowitsch PetscCall(MatTransposeMatMultSymbolic_SeqAIJMKL_SeqAIJMKL(A, B, fill, C)); 814190ae7a4SRichard Tran Mills C->ops->productnumeric = MatProductNumeric_AtB_SeqAIJMKL_SeqAIJMKL; 815190ae7a4SRichard Tran Mills PetscFunctionReturn(0); 816190ae7a4SRichard Tran Mills } 817190ae7a4SRichard Tran Mills 818d71ae5a4SJacob Faibussowitsch PetscErrorCode MatPtAPNumeric_SeqAIJMKL_SeqAIJMKL_SymmetricReal(Mat A, Mat P, Mat C) 819d71ae5a4SJacob Faibussowitsch { 820190ae7a4SRichard Tran Mills Mat Ct; 821190ae7a4SRichard Tran Mills Vec zeros; 8221495fedeSRichard Tran Mills Mat_SeqAIJMKL *a = (Mat_SeqAIJMKL *)A->spptr, *p = (Mat_SeqAIJMKL *)P->spptr, *c = (Mat_SeqAIJMKL *)C->spptr; 8234f53af40SRichard Tran Mills sparse_matrix_t csrA, csrP, csrC; 8244f53af40SRichard Tran Mills PetscBool set, flag; 825b9e1dd46SRichard Tran Mills struct matrix_descr descr_type_sym; 8264f53af40SRichard Tran Mills PetscObjectState state; 8274f53af40SRichard Tran Mills 8284f53af40SRichard Tran Mills PetscFunctionBegin; 8299566063dSJacob Faibussowitsch PetscCall(MatIsSymmetricKnown(A, &set, &flag)); 830b94d7dedSBarry Smith PetscCheck(set && flag, PETSC_COMM_SELF, PETSC_ERR_PLIB, "MatPtAPNumeric_SeqAIJMKL_SeqAIJMKL_SymmetricReal() called on matrix A not marked as symmetric"); 8314f53af40SRichard Tran Mills 8329566063dSJacob Faibussowitsch PetscCall(PetscObjectStateGet((PetscObject)A, &state)); 8339566063dSJacob Faibussowitsch if (!a->sparse_optimized || a->state != state) PetscCall(MatSeqAIJMKL_create_mkl_handle(A)); 8349566063dSJacob Faibussowitsch PetscCall(PetscObjectStateGet((PetscObject)P, &state)); 8359566063dSJacob Faibussowitsch if (!p->sparse_optimized || p->state != state) PetscCall(MatSeqAIJMKL_create_mkl_handle(P)); 8364f53af40SRichard Tran Mills csrA = a->csrA; 8374f53af40SRichard Tran Mills csrP = p->csrA; 8384f53af40SRichard Tran Mills csrC = c->csrA; 839b9e1dd46SRichard Tran Mills descr_type_sym.type = SPARSE_MATRIX_TYPE_SYMMETRIC; 840190ae7a4SRichard Tran Mills descr_type_sym.mode = SPARSE_FILL_MODE_UPPER; 841b9e1dd46SRichard Tran Mills descr_type_sym.diag = SPARSE_DIAG_NON_UNIT; 8424f53af40SRichard Tran Mills 843f8990b4aSRichard Tran Mills /* Note that the call below won't work for complex matrices. (We protect this when pointers are assigned in MatConvert.) */ 844792fecdfSBarry Smith PetscCallExternal(mkl_sparse_sypr, SPARSE_OPERATION_TRANSPOSE, csrP, csrA, descr_type_sym, &csrC, SPARSE_STAGE_FINALIZE_MULT); 8454f53af40SRichard Tran Mills 846190ae7a4SRichard Tran Mills /* Update the PETSc AIJ representation for matrix C from contents of MKL handle. 847190ae7a4SRichard Tran Mills * This is more complicated than it should be: it turns out that, though mkl_sparse_sypr() will accept a full AIJ/CSR matrix, 848190ae7a4SRichard Tran Mills * the output matrix only contains the upper or lower triangle (we arbitrarily have chosen upper) of the symmetric matrix. 8497301b172SPierre Jolivet * We have to fill in the missing portion, which we currently do below by forming the transpose and performing at MatAXPY 850190ae7a4SRichard Tran Mills * operation. This may kill any performance benefit of using the optimized mkl_sparse_sypr() routine. Performance might 851190ae7a4SRichard Tran Mills * improve if we come up with a more efficient way to do this, or we can convince the MKL team to provide an option to output 852190ae7a4SRichard Tran Mills * the full matrix. */ 8539566063dSJacob Faibussowitsch PetscCall(MatSeqAIJMKL_update_from_mkl_handle(C)); 8549566063dSJacob Faibussowitsch PetscCall(MatTranspose(C, MAT_INITIAL_MATRIX, &Ct)); 8559566063dSJacob Faibussowitsch PetscCall(MatCreateVecs(C, &zeros, NULL)); 8569566063dSJacob Faibussowitsch PetscCall(VecSetFromOptions(zeros)); 8579566063dSJacob Faibussowitsch PetscCall(VecZeroEntries(zeros)); 8589566063dSJacob Faibussowitsch PetscCall(MatDiagonalSet(Ct, zeros, INSERT_VALUES)); 8599566063dSJacob Faibussowitsch PetscCall(MatAXPY(C, 1.0, Ct, DIFFERENT_NONZERO_PATTERN)); 860190ae7a4SRichard Tran Mills /* Note: The MatAXPY() call destroys the MatProduct, so we must recreate it. */ 861*f3fa974cSJacob Faibussowitsch PetscCall(MatProductCreateWithMat(A, P, NULL, C)); 8629566063dSJacob Faibussowitsch PetscCall(MatProductSetType(C, MATPRODUCT_PtAP)); 8639566063dSJacob Faibussowitsch PetscCall(MatSeqAIJMKL_create_mkl_handle(C)); 8649566063dSJacob Faibussowitsch PetscCall(VecDestroy(&zeros)); 8659566063dSJacob Faibussowitsch PetscCall(MatDestroy(&Ct)); 8664f53af40SRichard Tran Mills PetscFunctionReturn(0); 8674f53af40SRichard Tran Mills } 868190ae7a4SRichard Tran Mills 869d71ae5a4SJacob Faibussowitsch PetscErrorCode MatProductSymbolic_PtAP_SeqAIJMKL_SeqAIJMKL_SymmetricReal(Mat C) 870d71ae5a4SJacob Faibussowitsch { 871190ae7a4SRichard Tran Mills Mat_Product *product = C->product; 872190ae7a4SRichard Tran Mills Mat A = product->A, P = product->B; 8731495fedeSRichard Tran Mills Mat_SeqAIJMKL *a = (Mat_SeqAIJMKL *)A->spptr, *p = (Mat_SeqAIJMKL *)P->spptr; 874190ae7a4SRichard Tran Mills sparse_matrix_t csrA, csrP, csrC; 875190ae7a4SRichard Tran Mills struct matrix_descr descr_type_sym; 876190ae7a4SRichard Tran Mills PetscObjectState state; 877190ae7a4SRichard Tran Mills 878190ae7a4SRichard Tran Mills PetscFunctionBegin; 8799566063dSJacob Faibussowitsch PetscCall(PetscObjectStateGet((PetscObject)A, &state)); 8809566063dSJacob Faibussowitsch if (!a->sparse_optimized || a->state != state) PetscCall(MatSeqAIJMKL_create_mkl_handle(A)); 8819566063dSJacob Faibussowitsch PetscCall(PetscObjectStateGet((PetscObject)P, &state)); 8829566063dSJacob Faibussowitsch if (!p->sparse_optimized || p->state != state) PetscCall(MatSeqAIJMKL_create_mkl_handle(P)); 883190ae7a4SRichard Tran Mills csrA = a->csrA; 884190ae7a4SRichard Tran Mills csrP = p->csrA; 885190ae7a4SRichard Tran Mills descr_type_sym.type = SPARSE_MATRIX_TYPE_SYMMETRIC; 886190ae7a4SRichard Tran Mills descr_type_sym.mode = SPARSE_FILL_MODE_UPPER; 887190ae7a4SRichard Tran Mills descr_type_sym.diag = SPARSE_DIAG_NON_UNIT; 888190ae7a4SRichard Tran Mills 889190ae7a4SRichard Tran Mills /* Note that the call below won't work for complex matrices. (We protect this when pointers are assigned in MatConvert.) */ 890190ae7a4SRichard Tran Mills if (csrP && csrA) { 891792fecdfSBarry Smith PetscCallExternal(mkl_sparse_sypr, SPARSE_OPERATION_TRANSPOSE, csrP, csrA, descr_type_sym, &csrC, SPARSE_STAGE_FULL_MULT_NO_VAL); 892190ae7a4SRichard Tran Mills } else { 893*f3fa974cSJacob Faibussowitsch csrC = NULL; 894190ae7a4SRichard Tran Mills } 895190ae7a4SRichard Tran Mills 896190ae7a4SRichard Tran Mills /* Update the I and J arrays of the PETSc AIJ representation for matrix C from contents of MKL handle. 897190ae7a4SRichard Tran Mills * Note that, because mkl_sparse_sypr() only computes one triangle of the symmetric matrix, this representation will only contain 89849ba5396SRichard Tran Mills * the upper triangle of the symmetric matrix. We fix this in MatPtAPNumeric_SeqAIJMKL_SeqAIJMKL_SymmetricReal(). I believe that 89949ba5396SRichard Tran Mills * leaving things in this incomplete state is OK because the numeric product should follow soon after, but am not certain if this 90049ba5396SRichard Tran Mills * is guaranteed. */ 9019566063dSJacob Faibussowitsch PetscCall(MatSeqAIJMKL_setup_structure_from_mkl_handle(PETSC_COMM_SELF, csrC, P->cmap->N, P->cmap->N, C)); 902190ae7a4SRichard Tran Mills 903190ae7a4SRichard Tran Mills C->ops->productnumeric = MatProductNumeric_PtAP; 904190ae7a4SRichard Tran Mills PetscFunctionReturn(0); 905190ae7a4SRichard Tran Mills } 906190ae7a4SRichard Tran Mills 907d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatProductSetFromOptions_SeqAIJMKL_AB(Mat C) 908d71ae5a4SJacob Faibussowitsch { 909190ae7a4SRichard Tran Mills PetscFunctionBegin; 910190ae7a4SRichard Tran Mills C->ops->productsymbolic = MatProductSymbolic_AB; 911190ae7a4SRichard Tran Mills C->ops->matmultsymbolic = MatMatMultSymbolic_SeqAIJMKL_SeqAIJMKL; 912190ae7a4SRichard Tran Mills PetscFunctionReturn(0); 913190ae7a4SRichard Tran Mills } 914190ae7a4SRichard Tran Mills 915d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatProductSetFromOptions_SeqAIJMKL_AtB(Mat C) 916d71ae5a4SJacob Faibussowitsch { 917190ae7a4SRichard Tran Mills PetscFunctionBegin; 918190ae7a4SRichard Tran Mills C->ops->productsymbolic = MatProductSymbolic_AtB_SeqAIJMKL_SeqAIJMKL; 919190ae7a4SRichard Tran Mills PetscFunctionReturn(0); 920190ae7a4SRichard Tran Mills } 921190ae7a4SRichard Tran Mills 922d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatProductSetFromOptions_SeqAIJMKL_ABt(Mat C) 923d71ae5a4SJacob Faibussowitsch { 924190ae7a4SRichard Tran Mills PetscFunctionBegin; 925190ae7a4SRichard Tran Mills C->ops->mattransposemultsymbolic = MatMatTransposeMultSymbolic_SeqAIJ_SeqAIJ; 926190ae7a4SRichard Tran Mills C->ops->productsymbolic = MatProductSymbolic_ABt; 927190ae7a4SRichard Tran Mills PetscFunctionReturn(0); 928190ae7a4SRichard Tran Mills } 929190ae7a4SRichard Tran Mills 930d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatProductSetFromOptions_SeqAIJMKL_PtAP(Mat C) 931d71ae5a4SJacob Faibussowitsch { 932190ae7a4SRichard Tran Mills Mat_Product *product = C->product; 933190ae7a4SRichard Tran Mills Mat A = product->A; 934190ae7a4SRichard Tran Mills PetscBool set, flag; 935190ae7a4SRichard Tran Mills 936190ae7a4SRichard Tran Mills PetscFunctionBegin; 937a3d67537SPierre Jolivet if (PetscDefined(USE_COMPLEX)) { 9382ab6f6a8SStefano Zampini /* By setting C->ops->productsymbolic to NULL, we ensure that MatProductSymbolic_Unsafe() will be used. 9392ab6f6a8SStefano Zampini * We do this in several other locations in this file. This works for the time being, but these 940190ae7a4SRichard Tran Mills * routines are considered unsafe and may be removed from the MatProduct code in the future. 9412ab6f6a8SStefano Zampini * TODO: Add proper MATSEQAIJMKL implementations */ 942190ae7a4SRichard Tran Mills C->ops->productsymbolic = NULL; 943a3d67537SPierre Jolivet } else { 944190ae7a4SRichard Tran Mills /* AIJMKL only has an optimized routine for PtAP when A is symmetric and real. */ 9459566063dSJacob Faibussowitsch PetscCall(MatIsSymmetricKnown(A, &set, &flag)); 946a3d67537SPierre Jolivet if (set && flag) C->ops->productsymbolic = MatProductSymbolic_PtAP_SeqAIJMKL_SeqAIJMKL_SymmetricReal; 947a3d67537SPierre Jolivet else C->ops->productsymbolic = NULL; /* MatProductSymbolic_Unsafe() will be used. */ 9481495fedeSRichard Tran Mills /* Note that we don't set C->ops->productnumeric here, as this must happen in MatProductSymbolic_PtAP_XXX(), 949190ae7a4SRichard Tran Mills * depending on whether the algorithm for the general case vs. the real symmetric one is used. */ 950a3d67537SPierre Jolivet } 951190ae7a4SRichard Tran Mills PetscFunctionReturn(0); 952190ae7a4SRichard Tran Mills } 953190ae7a4SRichard Tran Mills 954d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatProductSetFromOptions_SeqAIJMKL_RARt(Mat C) 955d71ae5a4SJacob Faibussowitsch { 956190ae7a4SRichard Tran Mills PetscFunctionBegin; 9572ab6f6a8SStefano Zampini C->ops->productsymbolic = NULL; /* MatProductSymbolic_Unsafe() will be used. */ 958190ae7a4SRichard Tran Mills PetscFunctionReturn(0); 959190ae7a4SRichard Tran Mills } 960190ae7a4SRichard Tran Mills 961d71ae5a4SJacob Faibussowitsch static PetscErrorCode MatProductSetFromOptions_SeqAIJMKL_ABC(Mat C) 962d71ae5a4SJacob Faibussowitsch { 963190ae7a4SRichard Tran Mills PetscFunctionBegin; 9642ab6f6a8SStefano Zampini C->ops->productsymbolic = NULL; /* MatProductSymbolic_Unsafe() will be used. */ 965190ae7a4SRichard Tran Mills PetscFunctionReturn(0); 966190ae7a4SRichard Tran Mills } 967190ae7a4SRichard Tran Mills 968d71ae5a4SJacob Faibussowitsch PetscErrorCode MatProductSetFromOptions_SeqAIJMKL(Mat C) 969d71ae5a4SJacob Faibussowitsch { 970190ae7a4SRichard Tran Mills Mat_Product *product = C->product; 971190ae7a4SRichard Tran Mills 972190ae7a4SRichard Tran Mills PetscFunctionBegin; 973190ae7a4SRichard Tran Mills switch (product->type) { 974d71ae5a4SJacob Faibussowitsch case MATPRODUCT_AB: 975d71ae5a4SJacob Faibussowitsch PetscCall(MatProductSetFromOptions_SeqAIJMKL_AB(C)); 976d71ae5a4SJacob Faibussowitsch break; 977d71ae5a4SJacob Faibussowitsch case MATPRODUCT_AtB: 978d71ae5a4SJacob Faibussowitsch PetscCall(MatProductSetFromOptions_SeqAIJMKL_AtB(C)); 979d71ae5a4SJacob Faibussowitsch break; 980d71ae5a4SJacob Faibussowitsch case MATPRODUCT_ABt: 981d71ae5a4SJacob Faibussowitsch PetscCall(MatProductSetFromOptions_SeqAIJMKL_ABt(C)); 982d71ae5a4SJacob Faibussowitsch break; 983d71ae5a4SJacob Faibussowitsch case MATPRODUCT_PtAP: 984d71ae5a4SJacob Faibussowitsch PetscCall(MatProductSetFromOptions_SeqAIJMKL_PtAP(C)); 985d71ae5a4SJacob Faibussowitsch break; 986d71ae5a4SJacob Faibussowitsch case MATPRODUCT_RARt: 987d71ae5a4SJacob Faibussowitsch PetscCall(MatProductSetFromOptions_SeqAIJMKL_RARt(C)); 988d71ae5a4SJacob Faibussowitsch break; 989d71ae5a4SJacob Faibussowitsch case MATPRODUCT_ABC: 990d71ae5a4SJacob Faibussowitsch PetscCall(MatProductSetFromOptions_SeqAIJMKL_ABC(C)); 991d71ae5a4SJacob Faibussowitsch break; 992d71ae5a4SJacob Faibussowitsch default: 993d71ae5a4SJacob Faibussowitsch break; 994190ae7a4SRichard Tran Mills } 995190ae7a4SRichard Tran Mills PetscFunctionReturn(0); 996190ae7a4SRichard Tran Mills } 997431879ecSRichard Tran Mills #endif /* PETSC_HAVE_MKL_SPARSE_SP2M_FEATURE */ 998190ae7a4SRichard Tran Mills /* ------------------------ End MatProduct code ------------------------ */ 9994f53af40SRichard Tran Mills 10004a2a386eSRichard Tran Mills /* MatConvert_SeqAIJ_SeqAIJMKL converts a SeqAIJ matrix into a 1001510b72f4SRichard Tran Mills * SeqAIJMKL matrix. This routine is called by the MatCreate_SeqAIJMKL() 10024a2a386eSRichard Tran Mills * routine, but can also be used to convert an assembled SeqAIJ matrix 10034a2a386eSRichard Tran Mills * into a SeqAIJMKL one. */ 1004d71ae5a4SJacob Faibussowitsch PETSC_INTERN PetscErrorCode MatConvert_SeqAIJ_SeqAIJMKL(Mat A, MatType type, MatReuse reuse, Mat *newmat) 1005d71ae5a4SJacob Faibussowitsch { 10064a2a386eSRichard Tran Mills Mat B = *newmat; 10074a2a386eSRichard Tran Mills Mat_SeqAIJMKL *aijmkl; 1008c9d46305SRichard Tran Mills PetscBool set; 1009e9c94282SRichard Tran Mills PetscBool sametype; 10104a2a386eSRichard Tran Mills 10114a2a386eSRichard Tran Mills PetscFunctionBegin; 10129566063dSJacob Faibussowitsch if (reuse == MAT_INITIAL_MATRIX) PetscCall(MatDuplicate(A, MAT_COPY_VALUES, &B)); 10134a2a386eSRichard Tran Mills 10149566063dSJacob Faibussowitsch PetscCall(PetscObjectTypeCompare((PetscObject)A, type, &sametype)); 1015e9c94282SRichard Tran Mills if (sametype) PetscFunctionReturn(0); 1016e9c94282SRichard Tran Mills 10174dfa11a4SJacob Faibussowitsch PetscCall(PetscNew(&aijmkl)); 10184a2a386eSRichard Tran Mills B->spptr = (void *)aijmkl; 10194a2a386eSRichard Tran Mills 1020df555b71SRichard Tran Mills /* Set function pointers for methods that we inherit from AIJ but override. 1021969800c5SRichard Tran Mills * We also parse some command line options below, since those determine some of the methods we point to. */ 10224a2a386eSRichard Tran Mills B->ops->duplicate = MatDuplicate_SeqAIJMKL; 10234a2a386eSRichard Tran Mills B->ops->assemblyend = MatAssemblyEnd_SeqAIJMKL; 10244a2a386eSRichard Tran Mills B->ops->destroy = MatDestroy_SeqAIJMKL; 1025c9d46305SRichard Tran Mills 10264abfa3b3SRichard Tran Mills aijmkl->sparse_optimized = PETSC_FALSE; 1027ffcab697SRichard Tran Mills #if defined(PETSC_HAVE_MKL_SPARSE_OPTIMIZE) 1028d995685eSRichard Tran Mills aijmkl->no_SpMV2 = PETSC_FALSE; /* Default to using the SpMV2 routines if our MKL supports them. */ 1029a8327b06SKarl Rupp #else 1030d995685eSRichard Tran Mills aijmkl->no_SpMV2 = PETSC_TRUE; 1031d995685eSRichard Tran Mills #endif 10325b49642aSRichard Tran Mills aijmkl->eager_inspection = PETSC_FALSE; 10334abfa3b3SRichard Tran Mills 10344abfa3b3SRichard Tran Mills /* Parse command line options. */ 1035d0609cedSBarry Smith PetscOptionsBegin(PetscObjectComm((PetscObject)A), ((PetscObject)A)->prefix, "AIJMKL Options", "Mat"); 10369566063dSJacob Faibussowitsch PetscCall(PetscOptionsBool("-mat_aijmkl_no_spmv2", "Disable use of inspector-executor (SpMV 2) routines", "None", (PetscBool)aijmkl->no_SpMV2, (PetscBool *)&aijmkl->no_SpMV2, &set)); 10379566063dSJacob Faibussowitsch PetscCall(PetscOptionsBool("-mat_aijmkl_eager_inspection", "Run inspection at matrix assembly time, instead of waiting until needed by an operation", "None", (PetscBool)aijmkl->eager_inspection, (PetscBool *)&aijmkl->eager_inspection, &set)); 1038d0609cedSBarry Smith PetscOptionsEnd(); 1039ffcab697SRichard Tran Mills #if !defined(PETSC_HAVE_MKL_SPARSE_OPTIMIZE) 1040d995685eSRichard Tran Mills if (!aijmkl->no_SpMV2) { 10419566063dSJacob Faibussowitsch PetscCall(PetscInfo(B, "User requested use of MKL SpMV2 routines, but MKL version does not support mkl_sparse_optimize(); defaulting to non-SpMV2 routines.\n")); 1042d995685eSRichard Tran Mills aijmkl->no_SpMV2 = PETSC_TRUE; 1043d995685eSRichard Tran Mills } 1044d995685eSRichard Tran Mills #endif 1045c9d46305SRichard Tran Mills 1046ffcab697SRichard Tran Mills #if defined(PETSC_HAVE_MKL_SPARSE_OPTIMIZE) 1047df555b71SRichard Tran Mills B->ops->mult = MatMult_SeqAIJMKL_SpMV2; 1048969800c5SRichard Tran Mills B->ops->multtranspose = MatMultTranspose_SeqAIJMKL_SpMV2; 1049df555b71SRichard Tran Mills B->ops->multadd = MatMultAdd_SeqAIJMKL_SpMV2; 1050969800c5SRichard Tran Mills B->ops->multtransposeadd = MatMultTransposeAdd_SeqAIJMKL_SpMV2; 10518a369200SRichard Tran Mills #if defined(PETSC_HAVE_MKL_SPARSE_SP2M_FEATURE) 1052190ae7a4SRichard Tran Mills B->ops->productsetfromoptions = MatProductSetFromOptions_SeqAIJMKL; 1053190ae7a4SRichard Tran Mills B->ops->matmultsymbolic = MatMatMultSymbolic_SeqAIJMKL_SeqAIJMKL; 1054190ae7a4SRichard Tran Mills B->ops->matmultnumeric = MatMatMultNumeric_SeqAIJMKL_SeqAIJMKL; 1055190ae7a4SRichard Tran Mills B->ops->mattransposemultnumeric = MatMatTransposeMultNumeric_SeqAIJMKL_SeqAIJMKL; 1056190ae7a4SRichard Tran Mills B->ops->transposematmultnumeric = MatTransposeMatMultNumeric_SeqAIJMKL_SeqAIJMKL; 1057ffcab697SRichard Tran Mills #if !defined(PETSC_USE_COMPLEX) 105849ba5396SRichard Tran Mills B->ops->ptapnumeric = MatPtAPNumeric_SeqAIJMKL_SeqAIJMKL_SymmetricReal; 1059190ae7a4SRichard Tran Mills #else 1060190ae7a4SRichard Tran Mills B->ops->ptapnumeric = NULL; 10614f53af40SRichard Tran Mills #endif 1062e8be1fc7SRichard Tran Mills #endif 10631950a7e7SRichard Tran Mills #endif /* PETSC_HAVE_MKL_SPARSE_OPTIMIZE */ 10641950a7e7SRichard Tran Mills 1065213898a2SRichard Tran Mills #if !defined(PETSC_MKL_SPBLAS_DEPRECATED) 1066213898a2SRichard Tran Mills /* In MKL version 18, update 2, the old sparse BLAS interfaces were marked as deprecated. If "no_SpMV2" has been specified by the 1067213898a2SRichard Tran Mills * user and the old SpBLAS interfaces are deprecated in our MKL version, we use the new _SpMV2 routines (set above), but do not 1068213898a2SRichard Tran Mills * call mkl_sparse_optimize(), which results in the old numerical kernels (without the inspector-executor model) being used. For 1069213898a2SRichard Tran Mills * versions in which the older interface has not been deprecated, we use the old interface. */ 10701950a7e7SRichard Tran Mills if (aijmkl->no_SpMV2) { 10714a2a386eSRichard Tran Mills B->ops->mult = MatMult_SeqAIJMKL; 1072969800c5SRichard Tran Mills B->ops->multtranspose = MatMultTranspose_SeqAIJMKL; 10734a2a386eSRichard Tran Mills B->ops->multadd = MatMultAdd_SeqAIJMKL; 1074969800c5SRichard Tran Mills B->ops->multtransposeadd = MatMultTransposeAdd_SeqAIJMKL; 1075c9d46305SRichard Tran Mills } 10761950a7e7SRichard Tran Mills #endif 10774a2a386eSRichard Tran Mills 10789566063dSJacob Faibussowitsch PetscCall(PetscObjectComposeFunction((PetscObject)B, "MatConvert_seqaijmkl_seqaij_C", MatConvert_SeqAIJMKL_SeqAIJ)); 10794a2a386eSRichard Tran Mills 10809566063dSJacob Faibussowitsch PetscCall(PetscObjectChangeTypeName((PetscObject)B, MATSEQAIJMKL)); 10814a2a386eSRichard Tran Mills *newmat = B; 10824a2a386eSRichard Tran Mills PetscFunctionReturn(0); 10834a2a386eSRichard Tran Mills } 10844a2a386eSRichard Tran Mills 10854a2a386eSRichard Tran Mills /*@C 108611a5261eSBarry Smith MatCreateSeqAIJMKL - Creates a sparse matrix of type `MATSEQAIJMKL`. 108711a5261eSBarry Smith This type inherits from `MATSEQAIJ` and is largely identical, but uses sparse BLAS 10884a2a386eSRichard Tran Mills routines from Intel MKL whenever possible. 108990147e49SRichard Tran Mills If the installed version of MKL supports the "SpMV2" sparse 109090147e49SRichard Tran Mills inspector-executor routines, then those are used by default. 109111a5261eSBarry Smith `MatMult()`, `MatMultAdd()`, `MatMultTranspose()`, `MatMultTransposeAdd()`, `MatMatMult()`, `MatTransposeMatMult()`, and `MatPtAP()` 109211a5261eSBarry Smith (for symmetric A) operations are currently supported. 109311a5261eSBarry Smith Note that MKL version 18, update 2 or later is required for `MatPtAP()`, `MatPtAPNumeric()` and `MatMatMultNumeric()`. 109490147e49SRichard Tran Mills 1095d083f849SBarry Smith Collective 10964a2a386eSRichard Tran Mills 10974a2a386eSRichard Tran Mills Input Parameters: 109811a5261eSBarry Smith + comm - MPI communicator, set to `PETSC_COMM_SELF` 10994a2a386eSRichard Tran Mills . m - number of rows 11004a2a386eSRichard Tran Mills . n - number of columns 11014a2a386eSRichard Tran Mills . nz - number of nonzeros per row (same for all rows) 11024a2a386eSRichard Tran Mills - nnz - array containing the number of nonzeros in the various rows 11034a2a386eSRichard Tran Mills (possibly different for each row) or NULL 11044a2a386eSRichard Tran Mills 11054a2a386eSRichard Tran Mills Output Parameter: 11064a2a386eSRichard Tran Mills . A - the matrix 11074a2a386eSRichard Tran Mills 110890147e49SRichard Tran Mills Options Database Keys: 110966b7eeb6SRichard Tran Mills + -mat_aijmkl_no_spmv2 - disable use of the SpMV2 inspector-executor routines 111066b7eeb6SRichard Tran Mills - -mat_aijmkl_eager_inspection - perform MKL "inspection" phase upon matrix assembly; default is to do "lazy" inspection, performing this step the first time the matrix is applied 111190147e49SRichard Tran Mills 111211a5261eSBarry Smith Note: 11134a2a386eSRichard Tran Mills If nnz is given then nz is ignored 11144a2a386eSRichard Tran Mills 11154a2a386eSRichard Tran Mills Level: intermediate 11164a2a386eSRichard Tran Mills 1117db781477SPatrick Sanan .seealso: `MatCreate()`, `MatCreateMPIAIJMKL()`, `MatSetValues()` 11184a2a386eSRichard Tran Mills @*/ 1119d71ae5a4SJacob Faibussowitsch PetscErrorCode MatCreateSeqAIJMKL(MPI_Comm comm, PetscInt m, PetscInt n, PetscInt nz, const PetscInt nnz[], Mat *A) 1120d71ae5a4SJacob Faibussowitsch { 11214a2a386eSRichard Tran Mills PetscFunctionBegin; 11229566063dSJacob Faibussowitsch PetscCall(MatCreate(comm, A)); 11239566063dSJacob Faibussowitsch PetscCall(MatSetSizes(*A, m, n, m, n)); 11249566063dSJacob Faibussowitsch PetscCall(MatSetType(*A, MATSEQAIJMKL)); 11259566063dSJacob Faibussowitsch PetscCall(MatSeqAIJSetPreallocation_SeqAIJ(*A, nz, nnz)); 11264a2a386eSRichard Tran Mills PetscFunctionReturn(0); 11274a2a386eSRichard Tran Mills } 11284a2a386eSRichard Tran Mills 1129d71ae5a4SJacob Faibussowitsch PETSC_EXTERN PetscErrorCode MatCreate_SeqAIJMKL(Mat A) 1130d71ae5a4SJacob Faibussowitsch { 11314a2a386eSRichard Tran Mills PetscFunctionBegin; 11329566063dSJacob Faibussowitsch PetscCall(MatSetType(A, MATSEQAIJ)); 11339566063dSJacob Faibussowitsch PetscCall(MatConvert_SeqAIJ_SeqAIJMKL(A, MATSEQAIJMKL, MAT_INPLACE_MATRIX, &A)); 11344a2a386eSRichard Tran Mills PetscFunctionReturn(0); 11354a2a386eSRichard Tran Mills } 1136