13bf14a46SMatthew Knepley #define PETSCMAT_DLL 23bf14a46SMatthew Knepley 33bf14a46SMatthew Knepley /* 43bf14a46SMatthew Knepley Provides an interface to the PaStiX sparse solver 53bf14a46SMatthew Knepley */ 63bf14a46SMatthew Knepley #include "../src/mat/impls/aij/seq/aij.h" 73bf14a46SMatthew Knepley #include "../src/mat/impls/aij/mpi/mpiaij.h" 83bf14a46SMatthew Knepley #include "../src/mat/impls/sbaij/seq/sbaij.h" 93bf14a46SMatthew Knepley #include "../src/mat/impls/sbaij/mpi/mpisbaij.h" 10745c78f7SBarry Smith PetscErrorCode MatIsSymmetric_SeqAIJ(Mat,PetscReal,PetscTruth*); 113bf14a46SMatthew Knepley 123bf14a46SMatthew Knepley EXTERN_C_BEGIN 133bf14a46SMatthew Knepley #include "mpi.h" 143bf14a46SMatthew Knepley #include "pastix.h" 153bf14a46SMatthew Knepley EXTERN_C_END 163bf14a46SMatthew Knepley 173bf14a46SMatthew Knepley typedef struct Mat_Pastix_ { 183bf14a46SMatthew Knepley pastix_data_t *pastix_data; /* Pastix data storage structure */ 193bf14a46SMatthew Knepley MatStructure matstruc; 203bf14a46SMatthew Knepley PetscInt n; /* Number of columns in the matrix */ 213bf14a46SMatthew Knepley PetscInt *colptr; /* Index of first element of each column in row and val */ 223bf14a46SMatthew Knepley PetscInt *row; /* Row of each element of the matrix */ 233bf14a46SMatthew Knepley PetscScalar *val; /* Value of each element of the matrix */ 243bf14a46SMatthew Knepley PetscInt *perm; /* Permutation tabular */ 253bf14a46SMatthew Knepley PetscInt *invp; /* Reverse permutation tabular */ 263bf14a46SMatthew Knepley PetscScalar *rhs; /* Rhight-hand-side member */ 273bf14a46SMatthew Knepley PetscInt rhsnbr; /* Rhight-hand-side number (must be 1) */ 283bf14a46SMatthew Knepley PetscInt iparm[64]; /* Integer parameters */ 293bf14a46SMatthew Knepley double dparm[64]; /* Floating point parameters */ 303bf14a46SMatthew Knepley MPI_Comm pastix_comm; /* PaStiX MPI communicator */ 313bf14a46SMatthew Knepley PetscMPIInt commRank; /* MPI rank */ 323bf14a46SMatthew Knepley PetscMPIInt commSize; /* MPI communicator size */ 333bf14a46SMatthew Knepley PetscTruth CleanUpPastix; /* Boolean indicating if we call PaStiX clean step */ 343bf14a46SMatthew Knepley VecScatter scat_rhs; 353bf14a46SMatthew Knepley VecScatter scat_sol; 363bf14a46SMatthew Knepley Vec b_seq,x_seq; 373bf14a46SMatthew Knepley PetscTruth isAIJ; 383bf14a46SMatthew Knepley PetscInt nSolve; /* Number of consecutive solve */ 393bf14a46SMatthew Knepley PetscErrorCode (*MatDestroy)(Mat); 403bf14a46SMatthew Knepley } Mat_Pastix; 413bf14a46SMatthew Knepley 423bf14a46SMatthew Knepley EXTERN PetscErrorCode MatDuplicate_Pastix(Mat,MatDuplicateOption,Mat*); 433bf14a46SMatthew Knepley 443bf14a46SMatthew Knepley /* 453bf14a46SMatthew Knepley convert Petsc seqaij matrix to CSC: colptr[n], row[nz], val[nz] 463bf14a46SMatthew Knepley 473bf14a46SMatthew Knepley input: 483bf14a46SMatthew Knepley A - matrix in seqaij or mpisbaij (bs=1) format 493bf14a46SMatthew Knepley valOnly - FALSE: spaces are allocated and values are set for the CSC 503bf14a46SMatthew Knepley TRUE: Only fill values 513bf14a46SMatthew Knepley output: 523bf14a46SMatthew Knepley n - Size of the matrix 533bf14a46SMatthew Knepley colptr - Index of first element of each column in row and val 543bf14a46SMatthew Knepley row - Row of each element of the matrix 553bf14a46SMatthew Knepley values - Value of each element of the matrix 563bf14a46SMatthew Knepley */ 573bf14a46SMatthew Knepley PetscErrorCode MatConvertToCSC(Mat A, 583bf14a46SMatthew Knepley PetscTruth valOnly, 593bf14a46SMatthew Knepley PetscInt *n, 603bf14a46SMatthew Knepley PetscInt **colptr, 613bf14a46SMatthew Knepley PetscInt **row, 623bf14a46SMatthew Knepley PetscScalar **values) { 633bf14a46SMatthew Knepley Mat_SeqAIJ *aa = (Mat_SeqAIJ*)A->data; 643bf14a46SMatthew Knepley PetscInt *rowptr = aa->i; 653bf14a46SMatthew Knepley PetscInt *col = aa->j; 663bf14a46SMatthew Knepley PetscScalar *rvalues = aa->a; 673bf14a46SMatthew Knepley PetscInt m = A->rmap->N; 68745c78f7SBarry Smith PetscInt nnz; 693bf14a46SMatthew Knepley PetscInt i,j, k; 703bf14a46SMatthew Knepley PetscInt base = 1; 713bf14a46SMatthew Knepley PetscInt idx; 723bf14a46SMatthew Knepley PetscErrorCode ierr; 733bf14a46SMatthew Knepley PetscInt colidx; 743bf14a46SMatthew Knepley PetscInt *colcount; 75745c78f7SBarry Smith PetscTruth isSym; 763bf14a46SMatthew Knepley 773bf14a46SMatthew Knepley 783bf14a46SMatthew Knepley PetscFunctionBegin; 793bf14a46SMatthew Knepley /* Allocate the CSC */ 803bf14a46SMatthew Knepley 813bf14a46SMatthew Knepley 82*b5e56a35SBarry Smith ierr = MatIsSymmetric_SeqAIJ(A,0.0,&isSym);CHKERRQ(ierr); 83745c78f7SBarry Smith *n = A->cmap->N; 84745c78f7SBarry Smith 85745c78f7SBarry Smith /* PaStiX only needs triangular matrix if matrix is symmetric 86745c78f7SBarry Smith */ 87745c78f7SBarry Smith if (isSym) 88745c78f7SBarry Smith { 89745c78f7SBarry Smith nnz = (aa->nz - *n)/2 + *n; 90745c78f7SBarry Smith } 91745c78f7SBarry Smith else 92745c78f7SBarry Smith { 93745c78f7SBarry Smith nnz = aa->nz; 943bf14a46SMatthew Knepley } 953bf14a46SMatthew Knepley 963bf14a46SMatthew Knepley ierr = PetscMalloc((*n)*sizeof(PetscInt) ,&colcount);CHKERRQ(ierr); 973bf14a46SMatthew Knepley if (!valOnly){ 983bf14a46SMatthew Knepley ierr = PetscMalloc(((*n)+1) *sizeof(PetscInt) ,colptr );CHKERRQ(ierr); 993bf14a46SMatthew Knepley ierr = PetscMalloc( nnz *sizeof(PetscInt) ,row);CHKERRQ(ierr); 1003bf14a46SMatthew Knepley ierr = PetscMalloc( nnz *sizeof(PetscScalar),values);CHKERRQ(ierr); 1013bf14a46SMatthew Knepley 1023bf14a46SMatthew Knepley for (i = 0; i < m; i++) 1033bf14a46SMatthew Knepley colcount[i] = 0; 1043bf14a46SMatthew Knepley /* Fill-in colptr */ 1053bf14a46SMatthew Knepley for (i = 0; i < m; i++) 1063bf14a46SMatthew Knepley for (j = rowptr[i]; j < rowptr[i+1]; j++) 107745c78f7SBarry Smith if (!isSym || col[j] <= i) 1083bf14a46SMatthew Knepley colcount[col[j]]++; 109745c78f7SBarry Smith 1103bf14a46SMatthew Knepley (*colptr)[0] = base; 1113bf14a46SMatthew Knepley for (j = 0; j < *n; j++) { 1123bf14a46SMatthew Knepley (*colptr)[j+1] = (*colptr)[j] + colcount[j]; 113745c78f7SBarry Smith /* in next loop we fill starting from (*colptr)[colidx] - base */ 1143bf14a46SMatthew Knepley colcount[j] = -base; 1153bf14a46SMatthew Knepley } 1163bf14a46SMatthew Knepley 1173bf14a46SMatthew Knepley /* Fill-in rows and values */ 1183bf14a46SMatthew Knepley for (i = 0; i < m; i++) { 1193bf14a46SMatthew Knepley for (j = rowptr[i]; j < rowptr[i+1]; j++) { 120745c78f7SBarry Smith if (!isSym || col[j] <= i) 121745c78f7SBarry Smith { 1223bf14a46SMatthew Knepley colidx = col[j]; 1233bf14a46SMatthew Knepley idx = (*colptr)[colidx] + colcount[colidx]; 1243bf14a46SMatthew Knepley (*row)[idx] = i + base; 1253bf14a46SMatthew Knepley (*values)[idx] = rvalues[j]; 1263bf14a46SMatthew Knepley colcount[colidx]++; 1273bf14a46SMatthew Knepley } 1283bf14a46SMatthew Knepley } 1293bf14a46SMatthew Knepley } 130745c78f7SBarry Smith } 1313bf14a46SMatthew Knepley else { 132745c78f7SBarry Smith /* Fill-in only values */ 1333bf14a46SMatthew Knepley for (i = 0; i < m; i++) { 1343bf14a46SMatthew Knepley for (j = rowptr[i]; j < rowptr[i+1]; j++) { 1353bf14a46SMatthew Knepley colidx = col[j]; 136745c78f7SBarry Smith if (!isSym || col[j] <= i) 137745c78f7SBarry Smith { 138745c78f7SBarry Smith /* look for the value to fill */ 139745c78f7SBarry Smith for (k = (*colptr)[colidx] - base; 140745c78f7SBarry Smith k < (*colptr)[colidx + 1] - base; 141745c78f7SBarry Smith k++) { 1423bf14a46SMatthew Knepley if ((*row)[k] == i) { 1433bf14a46SMatthew Knepley (*values)[k] = rvalues[j]; 1443bf14a46SMatthew Knepley break; 1453bf14a46SMatthew Knepley } 1463bf14a46SMatthew Knepley } 147745c78f7SBarry Smith /* shouldn't happen, overflow */ 1483bf14a46SMatthew Knepley if (k == (*colptr)[colidx + 1] - base) 1493bf14a46SMatthew Knepley PetscFunctionReturn(1); 1503bf14a46SMatthew Knepley } 1513bf14a46SMatthew Knepley } 1523bf14a46SMatthew Knepley } 153745c78f7SBarry Smith } 1543bf14a46SMatthew Knepley ierr = PetscFree(colcount);CHKERRQ(ierr); 1553bf14a46SMatthew Knepley 1563bf14a46SMatthew Knepley PetscFunctionReturn(0); 1573bf14a46SMatthew Knepley } 1583bf14a46SMatthew Knepley 1593bf14a46SMatthew Knepley 1603bf14a46SMatthew Knepley 1613bf14a46SMatthew Knepley #undef __FUNCT__ 1623bf14a46SMatthew Knepley #define __FUNCT__ "MatDestroy_Pastix" 1633bf14a46SMatthew Knepley /* 1643bf14a46SMatthew Knepley Call clean step of PaStiX if lu->CleanUpPastix == true. 1653bf14a46SMatthew Knepley Free the CSC matrix. 1663bf14a46SMatthew Knepley */ 1673bf14a46SMatthew Knepley PetscErrorCode MatDestroy_Pastix(Mat A) 1683bf14a46SMatthew Knepley { 1693bf14a46SMatthew Knepley Mat_Pastix *lu=(Mat_Pastix*)A->spptr; 1703bf14a46SMatthew Knepley PetscErrorCode ierr; 1713bf14a46SMatthew Knepley PetscMPIInt size=lu->commSize; 172745c78f7SBarry Smith 1733bf14a46SMatthew Knepley PetscFunctionBegin; 1743bf14a46SMatthew Knepley if (lu->CleanUpPastix) { 1753bf14a46SMatthew Knepley /* Terminate instance, deallocate memories */ 1763bf14a46SMatthew Knepley if (size > 1){ 1773bf14a46SMatthew Knepley ierr = VecScatterDestroy(lu->scat_rhs);CHKERRQ(ierr); 1783bf14a46SMatthew Knepley ierr = VecDestroy(lu->b_seq);CHKERRQ(ierr); 1793bf14a46SMatthew Knepley if (lu->nSolve && lu->scat_sol){ierr = VecScatterDestroy(lu->scat_sol);CHKERRQ(ierr);} 1803bf14a46SMatthew Knepley if (lu->nSolve && lu->x_seq){ierr = VecDestroy(lu->x_seq);CHKERRQ(ierr);} 1813bf14a46SMatthew Knepley } 1823bf14a46SMatthew Knepley 1833bf14a46SMatthew Knepley lu->iparm[IPARM_START_TASK]=API_TASK_CLEAN; 1843bf14a46SMatthew Knepley lu->iparm[IPARM_END_TASK]=API_TASK_CLEAN; 1853bf14a46SMatthew Knepley 1863bf14a46SMatthew Knepley pastix((pastix_data_t **)&(lu->pastix_data), 1873bf14a46SMatthew Knepley lu->pastix_comm, 1883bf14a46SMatthew Knepley (pastix_int_t) lu->n, 1893bf14a46SMatthew Knepley (pastix_int_t*) lu->colptr, 1903bf14a46SMatthew Knepley (pastix_int_t*) lu->row, 1913bf14a46SMatthew Knepley (pastix_float_t*) lu->val, 1923bf14a46SMatthew Knepley (pastix_int_t*) lu->perm, 1933bf14a46SMatthew Knepley (pastix_int_t*) lu->invp, 1943bf14a46SMatthew Knepley (pastix_float_t*) lu->rhs, 1953bf14a46SMatthew Knepley (pastix_int_t) lu->rhsnbr, 1963bf14a46SMatthew Knepley (pastix_int_t*) lu->iparm, 1973bf14a46SMatthew Knepley lu->dparm); 1983bf14a46SMatthew Knepley 1993bf14a46SMatthew Knepley ierr = PetscFree(lu->colptr);CHKERRQ(ierr); 2003bf14a46SMatthew Knepley ierr = PetscFree(lu->row); CHKERRQ(ierr); 2013bf14a46SMatthew Knepley ierr = PetscFree(lu->val); CHKERRQ(ierr); 2023bf14a46SMatthew Knepley ierr = PetscFree(lu->perm); CHKERRQ(ierr); 2033bf14a46SMatthew Knepley ierr = PetscFree(lu->invp); CHKERRQ(ierr); 2043bf14a46SMatthew Knepley /* ierr = PetscFree(lu->rhs); CHKERRQ(ierr); */ 2053bf14a46SMatthew Knepley ierr = MPI_Comm_free(&(lu->pastix_comm));CHKERRQ(ierr); 2063bf14a46SMatthew Knepley 2073bf14a46SMatthew Knepley } 2083bf14a46SMatthew Knepley ierr = (lu->MatDestroy)(A);CHKERRQ(ierr); 2093bf14a46SMatthew Knepley PetscFunctionReturn(0); 2103bf14a46SMatthew Knepley } 2113bf14a46SMatthew Knepley 2123bf14a46SMatthew Knepley #undef __FUNCT__ 2133bf14a46SMatthew Knepley #define __FUNCT__ "MatSolve_PaStiX" 2143bf14a46SMatthew Knepley /* 2153bf14a46SMatthew Knepley Gather right-hand-side. 2163bf14a46SMatthew Knepley Call for Solve step. 2173bf14a46SMatthew Knepley Scatter solution. 2183bf14a46SMatthew Knepley */ 2193bf14a46SMatthew Knepley PetscErrorCode MatSolve_PaStiX(Mat A,Vec b,Vec x) 2203bf14a46SMatthew Knepley { 2213bf14a46SMatthew Knepley Mat_Pastix *lu=(Mat_Pastix*)A->spptr; 2223bf14a46SMatthew Knepley PetscScalar *array; 2233bf14a46SMatthew Knepley Vec x_seq; 2243bf14a46SMatthew Knepley PetscErrorCode ierr; 2253bf14a46SMatthew Knepley 2263bf14a46SMatthew Knepley PetscFunctionBegin; 2273bf14a46SMatthew Knepley lu->rhsnbr = 1; 2283bf14a46SMatthew Knepley x_seq = lu->b_seq; 2293bf14a46SMatthew Knepley if (lu->commSize > 1){ 2303bf14a46SMatthew Knepley /* PaStiX only supports centralized rhs. Scatter b into a seqential rhs vector */ 2313bf14a46SMatthew Knepley ierr = VecScatterBegin(lu->scat_rhs,b,x_seq,INSERT_VALUES,SCATTER_FORWARD);CHKERRQ(ierr); 2323bf14a46SMatthew Knepley ierr = VecScatterEnd(lu->scat_rhs,b,x_seq,INSERT_VALUES,SCATTER_FORWARD);CHKERRQ(ierr); 233*b5e56a35SBarry Smith ierr = VecGetArray(x_seq,&array);CHKERRQ(ierr); 2343bf14a46SMatthew Knepley } 2353bf14a46SMatthew Knepley else { /* size == 1 */ 2363bf14a46SMatthew Knepley ierr = VecCopy(b,x);CHKERRQ(ierr); 2373bf14a46SMatthew Knepley ierr = VecGetArray(x,&array);CHKERRQ(ierr); 2383bf14a46SMatthew Knepley } 2393bf14a46SMatthew Knepley lu->rhs = array; 2403bf14a46SMatthew Knepley if (lu->commSize == 1){ 2413bf14a46SMatthew Knepley ierr = VecRestoreArray(x,&array);CHKERRQ(ierr); 2423bf14a46SMatthew Knepley } else { 2433bf14a46SMatthew Knepley ierr = VecRestoreArray(x_seq,&array);CHKERRQ(ierr); 2443bf14a46SMatthew Knepley } 2453bf14a46SMatthew Knepley 2463bf14a46SMatthew Knepley /* solve phase */ 2473bf14a46SMatthew Knepley /*-------------*/ 2483bf14a46SMatthew Knepley lu->iparm[IPARM_START_TASK] = API_TASK_SOLVE; 2493bf14a46SMatthew Knepley lu->iparm[IPARM_END_TASK] = API_TASK_REFINE; 250745c78f7SBarry Smith lu->iparm[IPARM_RHS_MAKING] = API_RHS_B; 2513bf14a46SMatthew Knepley 2523bf14a46SMatthew Knepley pastix((pastix_data_t **)&(lu->pastix_data), 2533bf14a46SMatthew Knepley (MPI_Comm) lu->pastix_comm, 2543bf14a46SMatthew Knepley (pastix_int_t) lu->n, 2553bf14a46SMatthew Knepley (pastix_int_t*) lu->colptr, 2563bf14a46SMatthew Knepley (pastix_int_t*) lu->row, 2573bf14a46SMatthew Knepley (pastix_float_t*) lu->val, 2583bf14a46SMatthew Knepley (pastix_int_t*) lu->perm, 2593bf14a46SMatthew Knepley (pastix_int_t*) lu->invp, 2603bf14a46SMatthew Knepley (pastix_float_t*) lu->rhs, 2613bf14a46SMatthew Knepley (pastix_int_t) lu->rhsnbr, 2623bf14a46SMatthew Knepley (pastix_int_t*) lu->iparm, 2633bf14a46SMatthew Knepley (double*) lu->dparm); 2643bf14a46SMatthew Knepley 2653bf14a46SMatthew Knepley if (lu->iparm[IPARM_ERROR_NUMBER] < 0) { 266*b5e56a35SBarry Smith SETERRQ1(PETSC_ERR_LIB,"Error reported by PaStiX in solve phase: lu->iparm[IPARM_ERROR_NUMBER] = %d\n",lu->iparm[IPARM_ERROR_NUMBER] ); 2673bf14a46SMatthew Knepley } 2683bf14a46SMatthew Knepley 2693bf14a46SMatthew Knepley if (lu->commSize == 1){ 2703bf14a46SMatthew Knepley ierr = VecRestoreArray(x,&(lu->rhs));CHKERRQ(ierr); 2713bf14a46SMatthew Knepley } else { 2723bf14a46SMatthew Knepley ierr = VecRestoreArray(x_seq,&(lu->rhs));CHKERRQ(ierr); 2733bf14a46SMatthew Knepley } 2743bf14a46SMatthew Knepley 2753bf14a46SMatthew Knepley if (lu->commSize > 1) { /* convert PaStiX centralized solution to petsc mpi x */ 2763bf14a46SMatthew Knepley ierr = VecScatterBegin(lu->scat_sol,x_seq,x,INSERT_VALUES,SCATTER_FORWARD);CHKERRQ(ierr); 2773bf14a46SMatthew Knepley ierr = VecScatterEnd(lu->scat_sol,x_seq,x,INSERT_VALUES,SCATTER_FORWARD);CHKERRQ(ierr); 2783bf14a46SMatthew Knepley } 2793bf14a46SMatthew Knepley lu->nSolve++; 2803bf14a46SMatthew Knepley PetscFunctionReturn(0); 2813bf14a46SMatthew Knepley } 2823bf14a46SMatthew Knepley 2833bf14a46SMatthew Knepley #if !defined(PETSC_USE_COMPLEX) 2843bf14a46SMatthew Knepley /* 2853bf14a46SMatthew Knepley TODO: Fill this function 2863bf14a46SMatthew Knepley I didn't fill this function 2873bf14a46SMatthew Knepley because I didn't understood its goal. 2883bf14a46SMatthew Knepley */ 2893bf14a46SMatthew Knepley 2903bf14a46SMatthew Knepley /* 2913bf14a46SMatthew Knepley input: 2923bf14a46SMatthew Knepley F: numeric factor 2933bf14a46SMatthew Knepley output: 2943bf14a46SMatthew Knepley nneg: total number of pivots 2953bf14a46SMatthew Knepley nzero: 0 2963bf14a46SMatthew Knepley npos: (global dimension of F) - nneg 2973bf14a46SMatthew Knepley */ 2983bf14a46SMatthew Knepley 2993bf14a46SMatthew Knepley #undef __FUNCT__ 3003bf14a46SMatthew Knepley #define __FUNCT__ "MatGetInertia_SBAIJPASTIX" 3013bf14a46SMatthew Knepley PetscErrorCode MatGetInertia_SBAIJPASTIX(Mat F,int *nneg,int *nzero,int *npos) 3023bf14a46SMatthew Knepley { 3033bf14a46SMatthew Knepley PetscFunctionBegin; 3043bf14a46SMatthew Knepley /* ierr = MPI_Comm_size(((PetscObject)F)->comm,&size);CHKERRQ(ierr); */ 3053bf14a46SMatthew Knepley /* /\* PASTIX 4.3.1 calls ScaLAPACK when ICNTL(13)=0 (default), which does not offer the possibility to compute the inertia of a dense matrix. Set ICNTL(13)=1 to skip ScaLAPACK *\/ */ 3063bf14a46SMatthew Knepley /* if (size > 1 && lu->id.ICNTL(13) != 1){ */ 3073bf14a46SMatthew Knepley /* SETERRQ1(PETSC_ERR_ARG_WRONG,"ICNTL(13)=%d. -mat_pastix_icntl_13 must be set as 1 for correct global matrix inertia\n",lu->id.INFOG(13)); */ 3083bf14a46SMatthew Knepley /* } */ 3093bf14a46SMatthew Knepley /* if (nneg){ */ 3103bf14a46SMatthew Knepley /* if (!lu->commSize){ */ 3113bf14a46SMatthew Knepley /* *nneg = lu->id.INFOG(12); */ 3123bf14a46SMatthew Knepley /* } */ 3133bf14a46SMatthew Knepley /* ierr = MPI_Bcast(nneg,1,MPI_INT,0,lu->comm_pastix);CHKERRQ(ierr); */ 3143bf14a46SMatthew Knepley /* } */ 3153bf14a46SMatthew Knepley /* if (nzero) *nzero = lu->iparm[IPARM_NNZEROS]; */ 3163bf14a46SMatthew Knepley /* if (npos) *npos = F->rmap->N - (*nneg); */ 3173bf14a46SMatthew Knepley PetscFunctionReturn(0); 3183bf14a46SMatthew Knepley } 3193bf14a46SMatthew Knepley #endif /* !defined(PETSC_USE_COMPLEX) */ 3203bf14a46SMatthew Knepley 3213bf14a46SMatthew Knepley /* 3223bf14a46SMatthew Knepley Numeric factorisation using PaStiX solver. 3233bf14a46SMatthew Knepley 3243bf14a46SMatthew Knepley */ 3253bf14a46SMatthew Knepley #undef __FUNCT__ 3263bf14a46SMatthew Knepley #define __FUNCT__ "MatFactorNumeric_PASTIX" 3273bf14a46SMatthew Knepley PetscErrorCode MatFactorNumeric_PaStiX(Mat F,Mat A,const MatFactorInfo *info) 3283bf14a46SMatthew Knepley { 3293bf14a46SMatthew Knepley Mat_Pastix *lu =(Mat_Pastix*)(F)->spptr; 3303bf14a46SMatthew Knepley Mat *tseq,A_seq = PETSC_NULL; 3313bf14a46SMatthew Knepley PetscErrorCode ierr = 0; 332*b5e56a35SBarry Smith PetscInt icntl; 333*b5e56a35SBarry Smith PetscInt M=A->rmap->N; 3343bf14a46SMatthew Knepley PetscTruth valOnly,flg, isSym; 3353bf14a46SMatthew Knepley Mat F_diag; 3363bf14a46SMatthew Knepley IS is_iden; 3373bf14a46SMatthew Knepley Vec b; 3383bf14a46SMatthew Knepley IS isrow; 3393bf14a46SMatthew Knepley PetscTruth isSeqAIJ,isSeqSBAIJ; 3403bf14a46SMatthew Knepley 3413bf14a46SMatthew Knepley PetscFunctionBegin; 3423bf14a46SMatthew Knepley ierr = PetscTypeCompare((PetscObject)A,MATSEQAIJ,&isSeqAIJ);CHKERRQ(ierr); 3433bf14a46SMatthew Knepley ierr = PetscTypeCompare((PetscObject)A,MATSEQSBAIJ,&isSeqSBAIJ);CHKERRQ(ierr); 3443bf14a46SMatthew Knepley if (lu->matstruc == DIFFERENT_NONZERO_PATTERN){ 3453bf14a46SMatthew Knepley (F)->ops->solve = MatSolve_PaStiX; 3463bf14a46SMatthew Knepley 3473bf14a46SMatthew Knepley /* Initialize a PASTIX instance */ 3483bf14a46SMatthew Knepley ierr = MPI_Comm_dup(((PetscObject)A)->comm,&(lu->pastix_comm));CHKERRQ(ierr); 3493bf14a46SMatthew Knepley ierr = MPI_Comm_rank(lu->pastix_comm, &lu->commRank); CHKERRQ(ierr); 3503bf14a46SMatthew Knepley ierr = MPI_Comm_size(lu->pastix_comm, &lu->commSize); CHKERRQ(ierr); 3513bf14a46SMatthew Knepley 3523bf14a46SMatthew Knepley /* Set pastix options */ 3533bf14a46SMatthew Knepley lu->iparm[IPARM_MODIFY_PARAMETER] = API_NO; 3543bf14a46SMatthew Knepley lu->iparm[IPARM_START_TASK] = API_TASK_INIT; 3553bf14a46SMatthew Knepley lu->iparm[IPARM_END_TASK] = API_TASK_INIT; 3563bf14a46SMatthew Knepley lu->rhsnbr = 1; 3573bf14a46SMatthew Knepley 3583bf14a46SMatthew Knepley /* Call to set default pastix options */ 3593bf14a46SMatthew Knepley pastix((pastix_data_t **)&(lu->pastix_data), 3603bf14a46SMatthew Knepley (MPI_Comm) lu->pastix_comm, 3613bf14a46SMatthew Knepley (pastix_int_t) lu->n, 3623bf14a46SMatthew Knepley (pastix_int_t*) lu->colptr, 3633bf14a46SMatthew Knepley (pastix_int_t*) lu->row, 3643bf14a46SMatthew Knepley (pastix_float_t*) lu->val, 3653bf14a46SMatthew Knepley (pastix_int_t*) lu->perm, 3663bf14a46SMatthew Knepley (pastix_int_t*) lu->invp, 3673bf14a46SMatthew Knepley (pastix_float_t*) lu->rhs, 3683bf14a46SMatthew Knepley (pastix_int_t) lu->rhsnbr, 3693bf14a46SMatthew Knepley (pastix_int_t*) lu->iparm, 3703bf14a46SMatthew Knepley (double*) lu->dparm); 3713bf14a46SMatthew Knepley 3723bf14a46SMatthew Knepley ierr = PetscOptionsBegin(((PetscObject)A)->comm,((PetscObject)A)->prefix,"PaStiX Options","Mat");CHKERRQ(ierr); 3733bf14a46SMatthew Knepley 3743bf14a46SMatthew Knepley icntl=-1; 375*b5e56a35SBarry Smith lu->iparm[IPARM_VERBOSE] = 0; /*API_VERBOSE_NO; */ 3763bf14a46SMatthew Knepley ierr = PetscOptionsInt("-mat_pastix_verbose","iparm[IPARM_VERBOSE] : level of printing (0 to 2)","None", 3773bf14a46SMatthew Knepley lu->iparm[IPARM_VERBOSE],&icntl,&flg);CHKERRQ(ierr); 3783bf14a46SMatthew Knepley if ((flg && icntl > 0) || PetscLogPrintInfo) { 3793bf14a46SMatthew Knepley lu->iparm[IPARM_VERBOSE] = icntl; 3803bf14a46SMatthew Knepley } 3813bf14a46SMatthew Knepley icntl=-1; 3823bf14a46SMatthew Knepley ierr = PetscOptionsInt("-mat_pastix_threadnbr","iparm[IPARM_THREAD_NBR] : Number of thread by MPI node", 3833bf14a46SMatthew Knepley "None",lu->iparm[IPARM_THREAD_NBR],&icntl,PETSC_NULL);CHKERRQ(ierr); 3843bf14a46SMatthew Knepley if ((flg && icntl > 0)) { 3853bf14a46SMatthew Knepley lu->iparm[IPARM_THREAD_NBR] = icntl; 3863bf14a46SMatthew Knepley } 3873bf14a46SMatthew Knepley PetscOptionsEnd(); 3883bf14a46SMatthew Knepley valOnly = PETSC_FALSE; 3893bf14a46SMatthew Knepley } 3903bf14a46SMatthew Knepley else { 3913bf14a46SMatthew Knepley valOnly = PETSC_TRUE; 3923bf14a46SMatthew Knepley } 3933bf14a46SMatthew Knepley 3943bf14a46SMatthew Knepley lu->iparm[IPARM_MATRIX_VERIFICATION] = API_YES; 3953bf14a46SMatthew Knepley 3963bf14a46SMatthew Knepley /* convert mpi A to seq mat A */ 3973bf14a46SMatthew Knepley ierr = ISCreateStride(PETSC_COMM_SELF,M,0,1,&isrow);CHKERRQ(ierr); 3983bf14a46SMatthew Knepley ierr = MatGetSubMatrices(A,1,&isrow,&isrow,MAT_INITIAL_MATRIX,&tseq);CHKERRQ(ierr); 3993bf14a46SMatthew Knepley ierr = ISDestroy(isrow);CHKERRQ(ierr); 4003bf14a46SMatthew Knepley A_seq = *tseq; 4013bf14a46SMatthew Knepley ierr = PetscFree(tseq);CHKERRQ(ierr); 4023bf14a46SMatthew Knepley 4033bf14a46SMatthew Knepley ierr = MatConvertToCSC(A_seq,valOnly, &lu->n, &lu->colptr, &lu->row, &lu->val); CHKERRQ(ierr); 4043bf14a46SMatthew Knepley ierr = PetscMalloc((lu->n)*sizeof(PetscInt) ,&(lu->perm));CHKERRQ(ierr); 4053bf14a46SMatthew Knepley ierr = PetscMalloc((lu->n)*sizeof(PetscInt) ,&(lu->invp));CHKERRQ(ierr); 4063bf14a46SMatthew Knepley 4073bf14a46SMatthew Knepley MatIsSymmetric_SeqAIJ(A_seq,0.0,&isSym); 4083bf14a46SMatthew Knepley 4093bf14a46SMatthew Knepley if (isSym) { 410745c78f7SBarry Smith /* On symmetric matrix, LLT */ 4113bf14a46SMatthew Knepley lu->iparm[IPARM_SYM] = API_SYM_YES; 4123bf14a46SMatthew Knepley lu->iparm[IPARM_FACTORIZATION] = API_FACT_LLT; 4133bf14a46SMatthew Knepley } 4143bf14a46SMatthew Knepley else { 415745c78f7SBarry Smith /* On unsymmetric matrix, LU */ 4163bf14a46SMatthew Knepley lu->iparm[IPARM_SYM] = API_SYM_NO; 4173bf14a46SMatthew Knepley lu->iparm[IPARM_FACTORIZATION] = API_FACT_LU; 4183bf14a46SMatthew Knepley } 4193bf14a46SMatthew Knepley 4203bf14a46SMatthew Knepley /*----------------*/ 4213bf14a46SMatthew Knepley if (lu->matstruc == DIFFERENT_NONZERO_PATTERN){ 4223bf14a46SMatthew Knepley if (!(isSeqAIJ || isSeqSBAIJ)) { 4233bf14a46SMatthew Knepley /* PaStiX only supports centralized rhs. Create scatter scat_rhs for repeated use in MatSolve() */ 4243bf14a46SMatthew Knepley ierr = VecCreateSeq(PETSC_COMM_SELF,A->cmap->N,&lu->b_seq);CHKERRQ(ierr); 4253bf14a46SMatthew Knepley ierr = ISCreateStride(PETSC_COMM_SELF,A->cmap->N,0,1,&is_iden);CHKERRQ(ierr); 4263bf14a46SMatthew Knepley ierr = VecCreate(((PetscObject)A)->comm,&b);CHKERRQ(ierr); 4273bf14a46SMatthew Knepley ierr = VecSetSizes(b,A->rmap->n,PETSC_DECIDE);CHKERRQ(ierr); 4283bf14a46SMatthew Knepley ierr = VecSetFromOptions(b);CHKERRQ(ierr); 4293bf14a46SMatthew Knepley 4303bf14a46SMatthew Knepley ierr = VecScatterCreate(b,is_iden,lu->b_seq,is_iden,&lu->scat_rhs);CHKERRQ(ierr); 4313bf14a46SMatthew Knepley ierr = VecScatterCreate(lu->b_seq,is_iden,b,is_iden,&lu->scat_sol);CHKERRQ(ierr); 4323bf14a46SMatthew Knepley ierr = ISDestroy(is_iden);CHKERRQ(ierr); 4333bf14a46SMatthew Knepley ierr = VecDestroy(b);CHKERRQ(ierr); 4343bf14a46SMatthew Knepley } 4353bf14a46SMatthew Knepley lu->iparm[IPARM_START_TASK] = API_TASK_ORDERING; 4363bf14a46SMatthew Knepley lu->iparm[IPARM_END_TASK] = API_TASK_NUMFACT; 4373bf14a46SMatthew Knepley 4383bf14a46SMatthew Knepley pastix((pastix_data_t **)&(lu->pastix_data), 4393bf14a46SMatthew Knepley (MPI_Comm) lu->pastix_comm, 4403bf14a46SMatthew Knepley (pastix_int_t) lu->n, 4413bf14a46SMatthew Knepley (pastix_int_t*) lu->colptr, 4423bf14a46SMatthew Knepley (pastix_int_t*) lu->row, 4433bf14a46SMatthew Knepley (pastix_float_t*) lu->val, 4443bf14a46SMatthew Knepley (pastix_int_t*) lu->perm, 4453bf14a46SMatthew Knepley (pastix_int_t*) lu->invp, 4463bf14a46SMatthew Knepley (pastix_float_t*) lu->rhs, 4473bf14a46SMatthew Knepley (pastix_int_t) lu->rhsnbr, 4483bf14a46SMatthew Knepley (pastix_int_t*) lu->iparm, 4493bf14a46SMatthew Knepley (double*) lu->dparm); 4503bf14a46SMatthew Knepley if (lu->iparm[IPARM_ERROR_NUMBER] < 0) { 4513bf14a46SMatthew Knepley SETERRQ1(PETSC_ERR_LIB,"Error reported by PaStiX in analysis phase: ipparm(IPARM_ERROR_NUMBER)=%d\n", 4523bf14a46SMatthew Knepley lu->iparm[IPARM_ERROR_NUMBER]); 4533bf14a46SMatthew Knepley } 4543bf14a46SMatthew Knepley } 4553bf14a46SMatthew Knepley else { 4563bf14a46SMatthew Knepley lu->iparm[IPARM_START_TASK] = API_TASK_NUMFACT; 4573bf14a46SMatthew Knepley lu->iparm[IPARM_END_TASK] = API_TASK_NUMFACT; 4583bf14a46SMatthew Knepley pastix((pastix_data_t **)&(lu->pastix_data), 4593bf14a46SMatthew Knepley (MPI_Comm) lu->pastix_comm, 4603bf14a46SMatthew Knepley (pastix_int_t) lu->n, 4613bf14a46SMatthew Knepley (pastix_int_t*) lu->colptr, 4623bf14a46SMatthew Knepley (pastix_int_t*) lu->row, 4633bf14a46SMatthew Knepley (pastix_float_t*) lu->val, 4643bf14a46SMatthew Knepley (pastix_int_t*) lu->perm, 4653bf14a46SMatthew Knepley (pastix_int_t*) lu->invp, 4663bf14a46SMatthew Knepley (pastix_float_t*) lu->rhs, 4673bf14a46SMatthew Knepley (pastix_int_t) lu->rhsnbr, 4683bf14a46SMatthew Knepley (pastix_int_t*) lu->iparm, 4693bf14a46SMatthew Knepley (double*) lu->dparm); 4703bf14a46SMatthew Knepley 4713bf14a46SMatthew Knepley if (lu->iparm[IPARM_ERROR_NUMBER] < 0) { 4723bf14a46SMatthew Knepley SETERRQ1(PETSC_ERR_LIB,"Error reported by PaStiX in analysis phase: ipparm(IPARM_ERROR_NUMBER)=%d\n", 4733bf14a46SMatthew Knepley lu->iparm[IPARM_ERROR_NUMBER]); 4743bf14a46SMatthew Knepley } 4753bf14a46SMatthew Knepley } 4763bf14a46SMatthew Knepley 4773bf14a46SMatthew Knepley if (lu->commSize > 1){ 4783bf14a46SMatthew Knepley if ((F)->factor == MAT_FACTOR_LU){ 4793bf14a46SMatthew Knepley F_diag = ((Mat_MPIAIJ *)(F)->data)->A; 4803bf14a46SMatthew Knepley } else { 4813bf14a46SMatthew Knepley F_diag = ((Mat_MPISBAIJ *)(F)->data)->A; 4823bf14a46SMatthew Knepley } 4833bf14a46SMatthew Knepley F_diag->assembled = PETSC_TRUE; 4843bf14a46SMatthew Knepley if (lu->nSolve){ 4853bf14a46SMatthew Knepley ierr = VecScatterDestroy(lu->scat_sol);CHKERRQ(ierr); 4863bf14a46SMatthew Knepley ierr = VecDestroy(lu->x_seq);CHKERRQ(ierr); 4873bf14a46SMatthew Knepley } 4883bf14a46SMatthew Knepley } 4893bf14a46SMatthew Knepley (F)->assembled = PETSC_TRUE; 4903bf14a46SMatthew Knepley lu->matstruc = SAME_NONZERO_PATTERN; 4913bf14a46SMatthew Knepley lu->CleanUpPastix = PETSC_TRUE; 4923bf14a46SMatthew Knepley lu->nSolve = 0; 4933bf14a46SMatthew Knepley PetscFunctionReturn(0); 4943bf14a46SMatthew Knepley } 4953bf14a46SMatthew Knepley 4963bf14a46SMatthew Knepley 4973bf14a46SMatthew Knepley /* Note the Petsc r and c permutations are ignored */ 4983bf14a46SMatthew Knepley #undef __FUNCT__ 4993bf14a46SMatthew Knepley #define __FUNCT__ "MatLUFactorSymbolic_AIJPASTIX" 5003bf14a46SMatthew Knepley PetscErrorCode MatLUFactorSymbolic_AIJPASTIX(Mat F,Mat A,IS r,IS c,const MatFactorInfo *info) 5013bf14a46SMatthew Knepley { 5023bf14a46SMatthew Knepley Mat_Pastix *lu = (Mat_Pastix*)F->spptr; 5033bf14a46SMatthew Knepley 5043bf14a46SMatthew Knepley PetscFunctionBegin; 5053bf14a46SMatthew Knepley lu->iparm[IPARM_FACTORIZATION] = API_FACT_LU; 5063bf14a46SMatthew Knepley lu->iparm[IPARM_SYM] = API_SYM_YES; 5073bf14a46SMatthew Knepley lu->matstruc = DIFFERENT_NONZERO_PATTERN; 5083bf14a46SMatthew Knepley F->ops->lufactornumeric = MatFactorNumeric_PaStiX; 5093bf14a46SMatthew Knepley PetscFunctionReturn(0); 5103bf14a46SMatthew Knepley } 5113bf14a46SMatthew Knepley 5123bf14a46SMatthew Knepley 5133bf14a46SMatthew Knepley /* Note the Petsc r permutation is ignored */ 5143bf14a46SMatthew Knepley #undef __FUNCT__ 5153bf14a46SMatthew Knepley #define __FUNCT__ "MatCholeskyFactorSymbolic_SBAIJPASTIX" 5163bf14a46SMatthew Knepley PetscErrorCode MatCholeskyFactorSymbolic_SBAIJPASTIX(Mat F,Mat A,IS r,const MatFactorInfo *info) 5173bf14a46SMatthew Knepley { 5183bf14a46SMatthew Knepley Mat_Pastix *lu = (Mat_Pastix*)(F)->spptr; 5193bf14a46SMatthew Knepley 5203bf14a46SMatthew Knepley PetscFunctionBegin; 5213bf14a46SMatthew Knepley lu->iparm[IPARM_FACTORIZATION] = API_FACT_LLT; 5223bf14a46SMatthew Knepley lu->iparm[IPARM_SYM] = API_SYM_NO; 5233bf14a46SMatthew Knepley lu->matstruc = DIFFERENT_NONZERO_PATTERN; 5243bf14a46SMatthew Knepley (F)->ops->choleskyfactornumeric = MatFactorNumeric_PaStiX; 5253bf14a46SMatthew Knepley #if !defined(PETSC_USE_COMPLEX) 5263bf14a46SMatthew Knepley (F)->ops->getinertia = MatGetInertia_SBAIJPASTIX; 5273bf14a46SMatthew Knepley #endif 5283bf14a46SMatthew Knepley PetscFunctionReturn(0); 5293bf14a46SMatthew Knepley } 5303bf14a46SMatthew Knepley 5313bf14a46SMatthew Knepley #undef __FUNCT__ 5323bf14a46SMatthew Knepley #define __FUNCT__ "MatView_PaStiX" 5333bf14a46SMatthew Knepley PetscErrorCode MatView_PaStiX(Mat A,PetscViewer viewer) 5343bf14a46SMatthew Knepley { 5353bf14a46SMatthew Knepley PetscErrorCode ierr; 5363bf14a46SMatthew Knepley PetscTruth iascii; 5373bf14a46SMatthew Knepley PetscViewerFormat format; 5383bf14a46SMatthew Knepley 5393bf14a46SMatthew Knepley PetscFunctionBegin; 5403bf14a46SMatthew Knepley ierr = PetscTypeCompare((PetscObject)viewer,PETSC_VIEWER_ASCII,&iascii);CHKERRQ(ierr); 5413bf14a46SMatthew Knepley if (iascii) { 5423bf14a46SMatthew Knepley ierr = PetscViewerGetFormat(viewer,&format);CHKERRQ(ierr); 5433bf14a46SMatthew Knepley if (format == PETSC_VIEWER_ASCII_INFO){ 544*b5e56a35SBarry Smith Mat_Pastix *lu=(Mat_Pastix*)A->spptr; 545*b5e56a35SBarry Smith 546*b5e56a35SBarry Smith ierr = PetscViewerASCIIPrintf(viewer,"PaStiX run parameters:\n");CHKERRQ(ierr); 547*b5e56a35SBarry Smith ierr = PetscViewerASCIIPrintf(viewer," Matrix type : %s \n",((lu->iparm[IPARM_SYM] == API_SYM_YES)?"Symmetric":"Unsymmetric"));CHKERRQ(ierr); 548*b5e56a35SBarry Smith ierr = PetscViewerASCIIPrintf(viewer," Level of printing (0,1,2): %d \n",lu->iparm[IPARM_VERBOSE]);CHKERRQ(ierr); 549*b5e56a35SBarry Smith ierr = PetscViewerASCIIPrintf(viewer," Number of refinements iterations : %d \n",lu->iparm[IPARM_NBITER]);CHKERRQ(ierr); 550*b5e56a35SBarry Smith ierr = PetscPrintf(PETSC_COMM_SELF," Error : %g \n",lu->dparm[DPARM_RELATIVE_ERROR]);CHKERRQ(ierr); 5513bf14a46SMatthew Knepley } 5523bf14a46SMatthew Knepley } 5533bf14a46SMatthew Knepley PetscFunctionReturn(0); 5543bf14a46SMatthew Knepley } 5553bf14a46SMatthew Knepley 5563bf14a46SMatthew Knepley 5573bf14a46SMatthew Knepley /*MC 558*b5e56a35SBarry Smith MAT_SOLVER_PASTIX - A solver package providing direct solvers (LU) for distributed 5593bf14a46SMatthew Knepley and sequential matrices via the external package PaStiX. 5603bf14a46SMatthew Knepley 561*b5e56a35SBarry Smith Use config/configure.py --download-pastix to have PETSc installed with PaStiX 5623bf14a46SMatthew Knepley 5633bf14a46SMatthew Knepley Options Database Keys: 564*b5e56a35SBarry Smith + -mat_pastix_verbose <0,1,2> - print level 565*b5e56a35SBarry Smith - -mat_pastix_threadnbr <integer> - Set the thread number by MPI task. 5663bf14a46SMatthew Knepley 5673bf14a46SMatthew Knepley Level: beginner 5683bf14a46SMatthew Knepley 5693bf14a46SMatthew Knepley M*/ 5703bf14a46SMatthew Knepley 5713bf14a46SMatthew Knepley 5723bf14a46SMatthew Knepley #undef __FUNCT__ 5733bf14a46SMatthew Knepley #define __FUNCT__ "MatGetInfo_PaStiX" 5743bf14a46SMatthew Knepley PetscErrorCode MatGetInfo_PaStiX(Mat A,MatInfoType flag,MatInfo *info) 5753bf14a46SMatthew Knepley { 5763bf14a46SMatthew Knepley Mat_Pastix *lu =(Mat_Pastix*)A->spptr; 5773bf14a46SMatthew Knepley 5783bf14a46SMatthew Knepley PetscFunctionBegin; 5793bf14a46SMatthew Knepley info->block_size = 1.0; 5803bf14a46SMatthew Knepley info->nz_allocated = lu->iparm[IPARM_NNZEROS]; 5813bf14a46SMatthew Knepley info->nz_used = lu->iparm[IPARM_NNZEROS]; 5823bf14a46SMatthew Knepley info->nz_unneeded = 0.0; 5833bf14a46SMatthew Knepley info->assemblies = 0.0; 5843bf14a46SMatthew Knepley info->mallocs = 0.0; 5853bf14a46SMatthew Knepley info->memory = 0.0; 5863bf14a46SMatthew Knepley info->fill_ratio_given = 0; 5873bf14a46SMatthew Knepley info->fill_ratio_needed = 0; 5883bf14a46SMatthew Knepley info->factor_mallocs = 0; 5893bf14a46SMatthew Knepley PetscFunctionReturn(0); 5903bf14a46SMatthew Knepley } 5913bf14a46SMatthew Knepley 5923bf14a46SMatthew Knepley EXTERN_C_BEGIN 5933bf14a46SMatthew Knepley #undef __FUNCT__ 5943bf14a46SMatthew Knepley #define __FUNCT__ "MatFactorGetSolverPackage_pastix" 5953bf14a46SMatthew Knepley PetscErrorCode MatFactorGetSolverPackage_pastix(Mat A,const MatSolverPackage *type) 5963bf14a46SMatthew Knepley { 5973bf14a46SMatthew Knepley PetscFunctionBegin; 5983bf14a46SMatthew Knepley *type = MAT_SOLVER_PASTIX; 5993bf14a46SMatthew Knepley PetscFunctionReturn(0); 6003bf14a46SMatthew Knepley } 6013bf14a46SMatthew Knepley EXTERN_C_END 6023bf14a46SMatthew Knepley 6033bf14a46SMatthew Knepley EXTERN_C_BEGIN 6043bf14a46SMatthew Knepley /* 6053bf14a46SMatthew Knepley The seq and mpi versions of this function are the same 6063bf14a46SMatthew Knepley */ 6073bf14a46SMatthew Knepley #undef __FUNCT__ 6083bf14a46SMatthew Knepley #define __FUNCT__ "MatGetFactor_seqaij_pastix" 6093bf14a46SMatthew Knepley PetscErrorCode MatGetFactor_seqaij_pastix(Mat A,MatFactorType ftype,Mat *F) 6103bf14a46SMatthew Knepley { 6113bf14a46SMatthew Knepley Mat B; 6123bf14a46SMatthew Knepley PetscErrorCode ierr; 6133bf14a46SMatthew Knepley Mat_Pastix *pastix; 6143bf14a46SMatthew Knepley 6153bf14a46SMatthew Knepley PetscFunctionBegin; 6163bf14a46SMatthew Knepley if (ftype != MAT_FACTOR_LU) { 6173bf14a46SMatthew Knepley SETERRQ(PETSC_ERR_SUP,"Cannot use PETSc AIJ matrices with PaStiX Cholesky, use SBAIJ matrix"); 6183bf14a46SMatthew Knepley } 6193bf14a46SMatthew Knepley /* Create the factorization matrix */ 6203bf14a46SMatthew Knepley ierr = MatCreate(((PetscObject)A)->comm,&B);CHKERRQ(ierr); 6213bf14a46SMatthew Knepley ierr = MatSetSizes(B,A->rmap->n,A->cmap->n,A->rmap->N,A->cmap->N);CHKERRQ(ierr); 6223bf14a46SMatthew Knepley ierr = MatSetType(B,((PetscObject)A)->type_name);CHKERRQ(ierr); 6233bf14a46SMatthew Knepley ierr = MatSeqAIJSetPreallocation(B,0,PETSC_NULL);CHKERRQ(ierr); 6243bf14a46SMatthew Knepley 6253bf14a46SMatthew Knepley B->ops->lufactorsymbolic = MatLUFactorSymbolic_AIJPASTIX; 6263bf14a46SMatthew Knepley B->ops->view = MatView_PaStiX; 6273bf14a46SMatthew Knepley B->ops->getinfo = MatGetInfo_PaStiX; 6283bf14a46SMatthew Knepley ierr = PetscObjectComposeFunctionDynamic((PetscObject)B,"MatFactorGetSolverPackage_C", 6293bf14a46SMatthew Knepley "MatFactorGetSolverPackage_pastix", 6303bf14a46SMatthew Knepley MatFactorGetSolverPackage_pastix);CHKERRQ(ierr); 6313bf14a46SMatthew Knepley B->factor = MAT_FACTOR_LU; 6323bf14a46SMatthew Knepley 6333bf14a46SMatthew Knepley ierr = PetscNewLog(B,Mat_Pastix,&pastix);CHKERRQ(ierr); 6343bf14a46SMatthew Knepley pastix->CleanUpPastix = PETSC_FALSE; 6353bf14a46SMatthew Knepley pastix->isAIJ = PETSC_TRUE; 6363bf14a46SMatthew Knepley pastix->scat_rhs = PETSC_NULL; 6373bf14a46SMatthew Knepley pastix->scat_sol = PETSC_NULL; 6383bf14a46SMatthew Knepley pastix->nSolve = 0; 6393bf14a46SMatthew Knepley pastix->MatDestroy = B->ops->destroy; 6403bf14a46SMatthew Knepley B->ops->destroy = MatDestroy_Pastix; 6413bf14a46SMatthew Knepley B->spptr = (void*)pastix; 6423bf14a46SMatthew Knepley 6433bf14a46SMatthew Knepley *F = B; 6443bf14a46SMatthew Knepley PetscFunctionReturn(0); 6453bf14a46SMatthew Knepley } 6463bf14a46SMatthew Knepley EXTERN_C_END 6473bf14a46SMatthew Knepley 648*b5e56a35SBarry Smith 6493bf14a46SMatthew Knepley EXTERN_C_BEGIN 6503bf14a46SMatthew Knepley #undef __FUNCT__ 6513bf14a46SMatthew Knepley #define __FUNCT__ "MatGetFactor_mpiaij_pastix" 6523bf14a46SMatthew Knepley PetscErrorCode MatGetFactor_mpiaij_pastix(Mat A,MatFactorType ftype,Mat *F) 6533bf14a46SMatthew Knepley { 6543bf14a46SMatthew Knepley Mat B; 6553bf14a46SMatthew Knepley PetscErrorCode ierr; 6563bf14a46SMatthew Knepley Mat_Pastix *pastix; 6573bf14a46SMatthew Knepley 6583bf14a46SMatthew Knepley PetscFunctionBegin; 6593bf14a46SMatthew Knepley if (ftype != MAT_FACTOR_LU) { 6603bf14a46SMatthew Knepley SETERRQ(PETSC_ERR_SUP,"Cannot use PETSc AIJ matrices with PaStiX Cholesky, use SBAIJ matrix"); 6613bf14a46SMatthew Knepley } 6623bf14a46SMatthew Knepley /* Create the factorization matrix */ 6633bf14a46SMatthew Knepley ierr = MatCreate(((PetscObject)A)->comm,&B);CHKERRQ(ierr); 6643bf14a46SMatthew Knepley ierr = MatSetSizes(B,A->rmap->n,A->cmap->n,A->rmap->N,A->cmap->N);CHKERRQ(ierr); 6653bf14a46SMatthew Knepley ierr = MatSetType(B,((PetscObject)A)->type_name);CHKERRQ(ierr); 6663bf14a46SMatthew Knepley ierr = MatSeqAIJSetPreallocation(B,0,PETSC_NULL);CHKERRQ(ierr); 6673bf14a46SMatthew Knepley ierr = MatMPIAIJSetPreallocation(B,0,PETSC_NULL,0,PETSC_NULL);CHKERRQ(ierr); 6683bf14a46SMatthew Knepley 6693bf14a46SMatthew Knepley B->ops->lufactorsymbolic = MatLUFactorSymbolic_AIJPASTIX; 6703bf14a46SMatthew Knepley B->ops->view = MatView_PaStiX; 6713bf14a46SMatthew Knepley ierr = PetscObjectComposeFunctionDynamic((PetscObject)B, 6723bf14a46SMatthew Knepley "MatFactorGetSolverPackage_C", 6733bf14a46SMatthew Knepley "MatFactorGetSolverPackage_pastix", 6743bf14a46SMatthew Knepley MatFactorGetSolverPackage_pastix);CHKERRQ(ierr); 6753bf14a46SMatthew Knepley B->factor = MAT_FACTOR_LU; 6763bf14a46SMatthew Knepley 6773bf14a46SMatthew Knepley ierr = PetscNewLog(B,Mat_Pastix,&pastix);CHKERRQ(ierr); 6783bf14a46SMatthew Knepley pastix->CleanUpPastix = PETSC_FALSE; 6793bf14a46SMatthew Knepley pastix->isAIJ = PETSC_TRUE; 6803bf14a46SMatthew Knepley pastix->scat_rhs = PETSC_NULL; 6813bf14a46SMatthew Knepley pastix->scat_sol = PETSC_NULL; 6823bf14a46SMatthew Knepley pastix->nSolve = 0; 6833bf14a46SMatthew Knepley pastix->MatDestroy = B->ops->destroy; 6843bf14a46SMatthew Knepley B->ops->destroy = MatDestroy_Pastix; 6853bf14a46SMatthew Knepley B->spptr = (void*)pastix; 6863bf14a46SMatthew Knepley 6873bf14a46SMatthew Knepley *F = B; 6883bf14a46SMatthew Knepley PetscFunctionReturn(0); 6893bf14a46SMatthew Knepley } 6903bf14a46SMatthew Knepley EXTERN_C_END 6913bf14a46SMatthew Knepley 6923bf14a46SMatthew Knepley EXTERN_C_BEGIN 6933bf14a46SMatthew Knepley #undef __FUNCT__ 6943bf14a46SMatthew Knepley #define __FUNCT__ "MatGetFactor_seqsbaij_pastix" 6953bf14a46SMatthew Knepley PetscErrorCode MatGetFactor_seqsbaij_pastix(Mat A,MatFactorType ftype,Mat *F) 6963bf14a46SMatthew Knepley { 6973bf14a46SMatthew Knepley Mat B; 6983bf14a46SMatthew Knepley PetscErrorCode ierr; 6993bf14a46SMatthew Knepley Mat_Pastix *pastix; 7003bf14a46SMatthew Knepley 7013bf14a46SMatthew Knepley PetscFunctionBegin; 7023bf14a46SMatthew Knepley if (ftype != MAT_FACTOR_CHOLESKY) { 7033bf14a46SMatthew Knepley SETERRQ(PETSC_ERR_SUP,"Cannot use PETSc SBAIJ matrices with PaStiX LU, use AIJ matrix"); 7043bf14a46SMatthew Knepley } 7053bf14a46SMatthew Knepley /* Create the factorization matrix */ 7063bf14a46SMatthew Knepley ierr = MatCreate(((PetscObject)A)->comm,&B);CHKERRQ(ierr); 7073bf14a46SMatthew Knepley ierr = MatSetSizes(B,A->rmap->n,A->cmap->n,A->rmap->N,A->cmap->N);CHKERRQ(ierr); 7083bf14a46SMatthew Knepley ierr = MatSetType(B,((PetscObject)A)->type_name);CHKERRQ(ierr); 7093bf14a46SMatthew Knepley ierr = MatSeqSBAIJSetPreallocation(B,1,0,PETSC_NULL);CHKERRQ(ierr); 7103bf14a46SMatthew Knepley ierr = MatMPISBAIJSetPreallocation(B,1,0,PETSC_NULL,0,PETSC_NULL);CHKERRQ(ierr); 7113bf14a46SMatthew Knepley 7123bf14a46SMatthew Knepley B->ops->choleskyfactorsymbolic = MatCholeskyFactorSymbolic_SBAIJPASTIX; 7133bf14a46SMatthew Knepley B->ops->view = MatView_PaStiX; 7143bf14a46SMatthew Knepley ierr = PetscObjectComposeFunctionDynamic((PetscObject)B, 7153bf14a46SMatthew Knepley "MatFactorGetSolverPackage_C", 7163bf14a46SMatthew Knepley "MatFactorGetSolverPackage_pastix", 7173bf14a46SMatthew Knepley MatFactorGetSolverPackage_pastix);CHKERRQ(ierr); 7183bf14a46SMatthew Knepley 7193bf14a46SMatthew Knepley B->factor = MAT_FACTOR_CHOLESKY; 7203bf14a46SMatthew Knepley 7213bf14a46SMatthew Knepley ierr = PetscNewLog(B,Mat_Pastix,&pastix);CHKERRQ(ierr); 7223bf14a46SMatthew Knepley pastix->CleanUpPastix = PETSC_FALSE; 7233bf14a46SMatthew Knepley pastix->isAIJ = PETSC_TRUE; 7243bf14a46SMatthew Knepley pastix->scat_rhs = PETSC_NULL; 7253bf14a46SMatthew Knepley pastix->scat_sol = PETSC_NULL; 7263bf14a46SMatthew Knepley pastix->nSolve = 0; 7273bf14a46SMatthew Knepley pastix->MatDestroy = B->ops->destroy; 7283bf14a46SMatthew Knepley B->ops->destroy = MatDestroy_Pastix; 7293bf14a46SMatthew Knepley B->spptr = (void*)pastix; 7303bf14a46SMatthew Knepley 7313bf14a46SMatthew Knepley *F = B; 7323bf14a46SMatthew Knepley PetscFunctionReturn(0); 7333bf14a46SMatthew Knepley } 7343bf14a46SMatthew Knepley EXTERN_C_END 7353bf14a46SMatthew Knepley 7363bf14a46SMatthew Knepley EXTERN_C_BEGIN 7373bf14a46SMatthew Knepley #undef __FUNCT__ 7383bf14a46SMatthew Knepley #define __FUNCT__ "MatGetFactor_mpisbaij_pastix" 7393bf14a46SMatthew Knepley PetscErrorCode MatGetFactor_mpisbaij_pastix(Mat A,MatFactorType ftype,Mat *F) 7403bf14a46SMatthew Knepley { 7413bf14a46SMatthew Knepley Mat B; 7423bf14a46SMatthew Knepley PetscErrorCode ierr; 7433bf14a46SMatthew Knepley Mat_Pastix *pastix; 7443bf14a46SMatthew Knepley 7453bf14a46SMatthew Knepley PetscFunctionBegin; 7463bf14a46SMatthew Knepley if (ftype != MAT_FACTOR_CHOLESKY) { 7473bf14a46SMatthew Knepley SETERRQ(PETSC_ERR_SUP,"Cannot use PETSc SBAIJ matrices with PaStiX LU, use AIJ matrix"); 7483bf14a46SMatthew Knepley } 7493bf14a46SMatthew Knepley /* Create the factorization matrix */ 7503bf14a46SMatthew Knepley ierr = MatCreate(((PetscObject)A)->comm,&B);CHKERRQ(ierr); 7513bf14a46SMatthew Knepley ierr = MatSetSizes(B,A->rmap->n,A->cmap->n,A->rmap->N,A->cmap->N);CHKERRQ(ierr); 7523bf14a46SMatthew Knepley ierr = MatSetType(B,((PetscObject)A)->type_name);CHKERRQ(ierr); 7533bf14a46SMatthew Knepley ierr = MatSeqSBAIJSetPreallocation(B,1,0,PETSC_NULL);CHKERRQ(ierr); 7543bf14a46SMatthew Knepley ierr = MatMPISBAIJSetPreallocation(B,1,0,PETSC_NULL,0,PETSC_NULL);CHKERRQ(ierr); 7553bf14a46SMatthew Knepley 7563bf14a46SMatthew Knepley B->ops->choleskyfactorsymbolic = MatCholeskyFactorSymbolic_SBAIJPASTIX; 7573bf14a46SMatthew Knepley B->ops->view = MatView_PaStiX; 7583bf14a46SMatthew Knepley ierr = PetscObjectComposeFunctionDynamic((PetscObject)B, 7593bf14a46SMatthew Knepley "MatFactorGetSolverPackage_C", 7603bf14a46SMatthew Knepley "MatFactorGetSolverPackage_pastix", 7613bf14a46SMatthew Knepley MatFactorGetSolverPackage_pastix);CHKERRQ(ierr); 7623bf14a46SMatthew Knepley B->factor = MAT_FACTOR_CHOLESKY; 7633bf14a46SMatthew Knepley 7643bf14a46SMatthew Knepley ierr = PetscNewLog(B,Mat_Pastix,&pastix);CHKERRQ(ierr); 7653bf14a46SMatthew Knepley pastix->CleanUpPastix = PETSC_FALSE; 7663bf14a46SMatthew Knepley pastix->isAIJ = PETSC_TRUE; 7673bf14a46SMatthew Knepley pastix->scat_rhs = PETSC_NULL; 7683bf14a46SMatthew Knepley pastix->scat_sol = PETSC_NULL; 7693bf14a46SMatthew Knepley pastix->nSolve = 0; 7703bf14a46SMatthew Knepley pastix->MatDestroy = B->ops->destroy; 7713bf14a46SMatthew Knepley B->ops->destroy = MatDestroy_Pastix; 7723bf14a46SMatthew Knepley B->spptr = (void*)pastix; 7733bf14a46SMatthew Knepley 7743bf14a46SMatthew Knepley *F = B; 7753bf14a46SMatthew Knepley PetscFunctionReturn(0); 7763bf14a46SMatthew Knepley } 7773bf14a46SMatthew Knepley EXTERN_C_END 778