1be1d678aSKris Buschelman 24eb8e494SKris Buschelman /* 34eb8e494SKris Buschelman Provides an interface to the LUSOL package of .... 44eb8e494SKris Buschelman 54eb8e494SKris Buschelman */ 6c6db04a5SJed Brown #include <../src/mat/impls/aij/seq/aij.h> 74eb8e494SKris Buschelman 84eb8e494SKris Buschelman #if defined(PETSC_HAVE_FORTRAN_UNDERSCORE) 94eb8e494SKris Buschelman #define LU1FAC lu1fac_ 104eb8e494SKris Buschelman #define LU6SOL lu6sol_ 114eb8e494SKris Buschelman #define M1PAGE m1page_ 124eb8e494SKris Buschelman #define M5SETX m5setx_ 134eb8e494SKris Buschelman #define M6RDEL m6rdel_ 144eb8e494SKris Buschelman #elif !defined(PETSC_HAVE_FORTRAN_CAPS) 154eb8e494SKris Buschelman #define LU1FAC lu1fac 164eb8e494SKris Buschelman #define LU6SOL lu6sol 174eb8e494SKris Buschelman #define M1PAGE m1page 184eb8e494SKris Buschelman #define M5SETX m5setx 194eb8e494SKris Buschelman #define M6RDEL m6rdel 204eb8e494SKris Buschelman #endif 214eb8e494SKris Buschelman 224eb8e494SKris Buschelman /* 234eb8e494SKris Buschelman Dummy symbols that the MINOS files mi25bfac.f and mi15blas.f may require 244eb8e494SKris Buschelman */ 2519caf8f3SSatish Balay PETSC_EXTERN void M1PAGE() 26a6dfd86eSKarl Rupp { 274eb8e494SKris Buschelman ; 284eb8e494SKris Buschelman } 2919caf8f3SSatish Balay PETSC_EXTERN void M5SETX() 30a6dfd86eSKarl Rupp { 314eb8e494SKris Buschelman ; 324eb8e494SKris Buschelman } 334eb8e494SKris Buschelman 3419caf8f3SSatish Balay PETSC_EXTERN void M6RDEL() 35a6dfd86eSKarl Rupp { 364eb8e494SKris Buschelman ; 374eb8e494SKris Buschelman } 384eb8e494SKris Buschelman 3919caf8f3SSatish Balay PETSC_EXTERN void LU1FAC(int *m, int *n, int *nnz, int *size, int *luparm, 404eb8e494SKris Buschelman double *parmlu, double *data, int *indc, int *indr, 414eb8e494SKris Buschelman int *rowperm, int *colperm, int *collen, int *rowlen, 424eb8e494SKris Buschelman int *colstart, int *rowstart, int *rploc, int *cploc, 434eb8e494SKris Buschelman int *rpinv, int *cpinv, double *w, int *inform); 444eb8e494SKris Buschelman 4519caf8f3SSatish Balay PETSC_EXTERN void LU6SOL(int *mode, int *m, int *n, double *rhs, double *x, 464eb8e494SKris Buschelman int *size, int *luparm, double *parmlu, double *data, 474eb8e494SKris Buschelman int *indc, int *indr, int *rowperm, int *colperm, 484eb8e494SKris Buschelman int *collen, int *rowlen, int *colstart, int *rowstart, 494eb8e494SKris Buschelman int *inform); 504eb8e494SKris Buschelman 5109573ac7SBarry Smith extern PetscErrorCode MatDuplicate_LUSOL(Mat,MatDuplicateOption,Mat*); 52f0c56d0fSKris Buschelman 53f0c56d0fSKris Buschelman typedef struct { 544eb8e494SKris Buschelman double *data; 554eb8e494SKris Buschelman int *indc; 564eb8e494SKris Buschelman int *indr; 574eb8e494SKris Buschelman 584eb8e494SKris Buschelman int *ip; 594eb8e494SKris Buschelman int *iq; 604eb8e494SKris Buschelman int *lenc; 614eb8e494SKris Buschelman int *lenr; 624eb8e494SKris Buschelman int *locc; 634eb8e494SKris Buschelman int *locr; 644eb8e494SKris Buschelman int *iploc; 654eb8e494SKris Buschelman int *iqloc; 664eb8e494SKris Buschelman int *ipinv; 674eb8e494SKris Buschelman int *iqinv; 684eb8e494SKris Buschelman double *mnsw; 694eb8e494SKris Buschelman double *mnsv; 704eb8e494SKris Buschelman 714eb8e494SKris Buschelman double elbowroom; 724eb8e494SKris Buschelman double luroom; /* Extra space allocated when factor fails */ 734eb8e494SKris Buschelman double parmlu[30]; /* Input/output to LUSOL */ 744eb8e494SKris Buschelman 754eb8e494SKris Buschelman int n; /* Number of rows/columns in matrix */ 764eb8e494SKris Buschelman int nz; /* Number of nonzeros */ 774eb8e494SKris Buschelman int nnz; /* Number of nonzeros allocated for factors */ 784eb8e494SKris Buschelman int luparm[30]; /* Input/output to LUSOL */ 794eb8e494SKris Buschelman 80ace3abfcSBarry Smith PetscBool CleanUpLUSOL; 814eb8e494SKris Buschelman 82f0c56d0fSKris Buschelman } Mat_LUSOL; 834eb8e494SKris Buschelman 844eb8e494SKris Buschelman /* LUSOL input/Output Parameters (Description uses C-style indexes 854eb8e494SKris Buschelman * 864eb8e494SKris Buschelman * Input parameters Typical value 874eb8e494SKris Buschelman * 884eb8e494SKris Buschelman * luparm(0) = nout File number for printed messages. 6 894eb8e494SKris Buschelman * luparm(1) = lprint Print level. 0 904eb8e494SKris Buschelman * < 0 suppresses output. 914eb8e494SKris Buschelman * = 0 gives error messages. 924eb8e494SKris Buschelman * = 1 gives debug output from some of the 934eb8e494SKris Buschelman * other routines in LUSOL. 944eb8e494SKris Buschelman * >= 2 gives the pivot row and column and the 954eb8e494SKris Buschelman * no. of rows and columns involved at 964eb8e494SKris Buschelman * each elimination step in lu1fac. 974eb8e494SKris Buschelman * luparm(2) = maxcol lu1fac: maximum number of columns 5 984eb8e494SKris Buschelman * searched allowed in a Markowitz-type 994eb8e494SKris Buschelman * search for the next pivot element. 1004eb8e494SKris Buschelman * For some of the factorization, the 1014eb8e494SKris Buschelman * number of rows searched is 1024eb8e494SKris Buschelman * maxrow = maxcol - 1. 1034eb8e494SKris Buschelman * 1044eb8e494SKris Buschelman * 1057a7aea1fSJed Brown * Output parameters: 1064eb8e494SKris Buschelman * 1074eb8e494SKris Buschelman * luparm(9) = inform Return code from last call to any LU routine. 1084eb8e494SKris Buschelman * luparm(10) = nsing No. of singularities marked in the 1094eb8e494SKris Buschelman * output array w(*). 1104eb8e494SKris Buschelman * luparm(11) = jsing Column index of last singularity. 1114eb8e494SKris Buschelman * luparm(12) = minlen Minimum recommended value for lena. 1124eb8e494SKris Buschelman * luparm(13) = maxlen ? 1134eb8e494SKris Buschelman * luparm(14) = nupdat No. of updates performed by the lu8 routines. 1144eb8e494SKris Buschelman * luparm(15) = nrank No. of nonempty rows of U. 1154eb8e494SKris Buschelman * luparm(16) = ndens1 No. of columns remaining when the density of 1164eb8e494SKris Buschelman * the matrix being factorized reached dens1. 1174eb8e494SKris Buschelman * luparm(17) = ndens2 No. of columns remaining when the density of 1184eb8e494SKris Buschelman * the matrix being factorized reached dens2. 1194eb8e494SKris Buschelman * luparm(18) = jumin The column index associated with dumin. 1204eb8e494SKris Buschelman * luparm(19) = numl0 No. of columns in initial L. 1214eb8e494SKris Buschelman * luparm(20) = lenl0 Size of initial L (no. of nonzeros). 1224eb8e494SKris Buschelman * luparm(21) = lenu0 Size of initial U. 1234eb8e494SKris Buschelman * luparm(22) = lenl Size of current L. 1244eb8e494SKris Buschelman * luparm(23) = lenu Size of current U. 1254eb8e494SKris Buschelman * luparm(24) = lrow Length of row file. 1264eb8e494SKris Buschelman * luparm(25) = ncp No. of compressions of LU data structures. 1274eb8e494SKris Buschelman * luparm(26) = mersum lu1fac: sum of Markowitz merit counts. 1284eb8e494SKris Buschelman * luparm(27) = nutri lu1fac: triangular rows in U. 1294eb8e494SKris Buschelman * luparm(28) = nltri lu1fac: triangular rows in L. 1304eb8e494SKris Buschelman * luparm(29) = 1314eb8e494SKris Buschelman * 1324eb8e494SKris Buschelman * 1334eb8e494SKris Buschelman * Input parameters Typical value 1344eb8e494SKris Buschelman * 1354eb8e494SKris Buschelman * parmlu(0) = elmax1 Max multiplier allowed in L 10.0 1364eb8e494SKris Buschelman * during factor. 1374eb8e494SKris Buschelman * parmlu(1) = elmax2 Max multiplier allowed in L 10.0 1384eb8e494SKris Buschelman * during updates. 1394eb8e494SKris Buschelman * parmlu(2) = small Absolute tolerance for eps**0.8 1404eb8e494SKris Buschelman * treating reals as zero. IBM double: 3.0d-13 1414eb8e494SKris Buschelman * parmlu(3) = utol1 Absolute tol for flagging eps**0.66667 1424eb8e494SKris Buschelman * small diagonals of U. IBM double: 3.7d-11 1434eb8e494SKris Buschelman * parmlu(4) = utol2 Relative tol for flagging eps**0.66667 1444eb8e494SKris Buschelman * small diagonals of U. IBM double: 3.7d-11 1454eb8e494SKris Buschelman * parmlu(5) = uspace Factor limiting waste space in U. 3.0 1464eb8e494SKris Buschelman * In lu1fac, the row or column lists 1474eb8e494SKris Buschelman * are compressed if their length 1484eb8e494SKris Buschelman * exceeds uspace times the length of 1494eb8e494SKris Buschelman * either file after the last compression. 1504eb8e494SKris Buschelman * parmlu(6) = dens1 The density at which the Markowitz 0.3 1514eb8e494SKris Buschelman * strategy should search maxcol columns 1524eb8e494SKris Buschelman * and no rows. 1534eb8e494SKris Buschelman * parmlu(7) = dens2 the density at which the Markowitz 0.6 1544eb8e494SKris Buschelman * strategy should search only 1 column 1554eb8e494SKris Buschelman * or (preferably) use a dense LU for 1564eb8e494SKris Buschelman * all the remaining rows and columns. 1574eb8e494SKris Buschelman * 1584eb8e494SKris Buschelman * 1597a7aea1fSJed Brown * Output parameters: 1604eb8e494SKris Buschelman * 1614eb8e494SKris Buschelman * parmlu(9) = amax Maximum element in A. 1624eb8e494SKris Buschelman * parmlu(10) = elmax Maximum multiplier in current L. 1634eb8e494SKris Buschelman * parmlu(11) = umax Maximum element in current U. 1644eb8e494SKris Buschelman * parmlu(12) = dumax Maximum diagonal in U. 1654eb8e494SKris Buschelman * parmlu(13) = dumin Minimum diagonal in U. 1664eb8e494SKris Buschelman * parmlu(14) = 1674eb8e494SKris Buschelman * parmlu(15) = 1684eb8e494SKris Buschelman * parmlu(16) = 1694eb8e494SKris Buschelman * parmlu(17) = 1704eb8e494SKris Buschelman * parmlu(18) = 1714eb8e494SKris Buschelman * parmlu(19) = resid lu6sol: residual after solve with U or U'. 1724eb8e494SKris Buschelman * ... 1734eb8e494SKris Buschelman * parmlu(29) = 1744eb8e494SKris Buschelman */ 1754eb8e494SKris Buschelman 1764eb8e494SKris Buschelman #define Factorization_Tolerance 1e-1 1774eb8e494SKris Buschelman #define Factorization_Pivot_Tolerance pow(2.2204460492503131E-16, 2.0 / 3.0) 1784eb8e494SKris Buschelman #define Factorization_Small_Tolerance 1e-15 /* pow(DBL_EPSILON, 0.8) */ 1794eb8e494SKris Buschelman 180dfbe8321SBarry Smith PetscErrorCode MatDestroy_LUSOL(Mat A) 181dfbe8321SBarry Smith { 182f0c56d0fSKris Buschelman Mat_LUSOL *lusol=(Mat_LUSOL*)A->spptr; 1834eb8e494SKris Buschelman 1844eb8e494SKris Buschelman PetscFunctionBegin; 185bf0cc555SLisandro Dalcin if (lusol && lusol->CleanUpLUSOL) { 1869566063dSJacob Faibussowitsch PetscCall(PetscFree(lusol->ip)); 1879566063dSJacob Faibussowitsch PetscCall(PetscFree(lusol->iq)); 1889566063dSJacob Faibussowitsch PetscCall(PetscFree(lusol->lenc)); 1899566063dSJacob Faibussowitsch PetscCall(PetscFree(lusol->lenr)); 1909566063dSJacob Faibussowitsch PetscCall(PetscFree(lusol->locc)); 1919566063dSJacob Faibussowitsch PetscCall(PetscFree(lusol->locr)); 1929566063dSJacob Faibussowitsch PetscCall(PetscFree(lusol->iploc)); 1939566063dSJacob Faibussowitsch PetscCall(PetscFree(lusol->iqloc)); 1949566063dSJacob Faibussowitsch PetscCall(PetscFree(lusol->ipinv)); 1959566063dSJacob Faibussowitsch PetscCall(PetscFree(lusol->iqinv)); 1969566063dSJacob Faibussowitsch PetscCall(PetscFree(lusol->mnsw)); 1979566063dSJacob Faibussowitsch PetscCall(PetscFree(lusol->mnsv)); 1989566063dSJacob Faibussowitsch PetscCall(PetscFree3(lusol->data,lusol->indc,lusol->indr)); 1994eb8e494SKris Buschelman } 2009566063dSJacob Faibussowitsch PetscCall(PetscFree(A->spptr)); 2019566063dSJacob Faibussowitsch PetscCall(MatDestroy_SeqAIJ(A)); 2024eb8e494SKris Buschelman PetscFunctionReturn(0); 2034eb8e494SKris Buschelman } 2044eb8e494SKris Buschelman 2056849ba73SBarry Smith PetscErrorCode MatSolve_LUSOL(Mat A,Vec b,Vec x) 2066849ba73SBarry Smith { 207f0c56d0fSKris Buschelman Mat_LUSOL *lusol=(Mat_LUSOL*)A->spptr; 208d9ca1df4SBarry Smith double *xx; 209d9ca1df4SBarry Smith const double *bb; 2104eb8e494SKris Buschelman int mode=5; 2116849ba73SBarry Smith int i,m,n,nnz,status; 2124eb8e494SKris Buschelman 2134eb8e494SKris Buschelman PetscFunctionBegin; 2149566063dSJacob Faibussowitsch PetscCall(VecGetArray(x, &xx)); 2159566063dSJacob Faibussowitsch PetscCall(VecGetArrayRead(b, &bb)); 2164eb8e494SKris Buschelman 2174eb8e494SKris Buschelman m = n = lusol->n; 2184eb8e494SKris Buschelman nnz = lusol->nnz; 2194eb8e494SKris Buschelman 2202205254eSKarl Rupp for (i = 0; i < m; i++) lusol->mnsv[i] = bb[i]; 2214eb8e494SKris Buschelman 2224eb8e494SKris Buschelman LU6SOL(&mode, &m, &n, lusol->mnsv, xx, &nnz, 2234eb8e494SKris Buschelman lusol->luparm, lusol->parmlu, lusol->data, 2244eb8e494SKris Buschelman lusol->indc, lusol->indr, lusol->ip, lusol->iq, 2254eb8e494SKris Buschelman lusol->lenc, lusol->lenr, lusol->locc, lusol->locr, &status); 2264eb8e494SKris Buschelman 22728b400f6SJacob Faibussowitsch PetscCheck(!status,PETSC_COMM_SELF,PETSC_ERR_ARG_SIZ,"solve failed, error code %d",status); 2284eb8e494SKris Buschelman 2299566063dSJacob Faibussowitsch PetscCall(VecRestoreArray(x, &xx)); 2309566063dSJacob Faibussowitsch PetscCall(VecRestoreArrayRead(b, &bb)); 2314eb8e494SKris Buschelman PetscFunctionReturn(0); 2324eb8e494SKris Buschelman } 2334eb8e494SKris Buschelman 2340481f469SBarry Smith PetscErrorCode MatLUFactorNumeric_LUSOL(Mat F,Mat A,const MatFactorInfo *info) 2356849ba73SBarry Smith { 2364eb8e494SKris Buschelman Mat_SeqAIJ *a; 237719d5645SBarry Smith Mat_LUSOL *lusol = (Mat_LUSOL*)F->spptr; 2384eb8e494SKris Buschelman int m, n, nz, nnz, status; 2396849ba73SBarry Smith int i, rs, re; 2404eb8e494SKris Buschelman int factorizations; 2414eb8e494SKris Buschelman 2424eb8e494SKris Buschelman PetscFunctionBegin; 2439566063dSJacob Faibussowitsch PetscCall(MatGetSize(A,&m,&n)); 2444eb8e494SKris Buschelman a = (Mat_SeqAIJ*)A->data; 2454eb8e494SKris Buschelman 24608401ef6SPierre Jolivet PetscCheck(m == lusol->n,PETSC_COMM_SELF,PETSC_ERR_ARG_SIZ,"factorization struct inconsistent"); 2474eb8e494SKris Buschelman 2484eb8e494SKris Buschelman factorizations = 0; 2492205254eSKarl Rupp do { 2504eb8e494SKris Buschelman /*******************************************************************/ 2514eb8e494SKris Buschelman /* Check the workspace allocation. */ 2524eb8e494SKris Buschelman /*******************************************************************/ 2534eb8e494SKris Buschelman 2544eb8e494SKris Buschelman nz = a->nz; 2554eb8e494SKris Buschelman nnz = PetscMax(lusol->nnz, (int)(lusol->elbowroom*nz)); 2564eb8e494SKris Buschelman nnz = PetscMax(nnz, 5*n); 2574eb8e494SKris Buschelman 2584eb8e494SKris Buschelman if (nnz < lusol->luparm[12]) { 2594eb8e494SKris Buschelman nnz = (int)(lusol->luroom * lusol->luparm[12]); 2604eb8e494SKris Buschelman } else if ((factorizations > 0) && (lusol->luroom < 6)) { 2614eb8e494SKris Buschelman lusol->luroom += 0.1; 2624eb8e494SKris Buschelman } 2634eb8e494SKris Buschelman 2644eb8e494SKris Buschelman nnz = PetscMax(nnz, (int)(lusol->luroom*(lusol->luparm[22] + lusol->luparm[23]))); 2654eb8e494SKris Buschelman 2664eb8e494SKris Buschelman if (nnz > lusol->nnz) { 2679566063dSJacob Faibussowitsch PetscCall(PetscFree3(lusol->data,lusol->indc,lusol->indr)); 2689566063dSJacob Faibussowitsch PetscCall(PetscMalloc3(nnz,&lusol->data,nnz,&lusol->indc,nnz,&lusol->indr)); 2694eb8e494SKris Buschelman lusol->nnz = nnz; 2704eb8e494SKris Buschelman } 2714eb8e494SKris Buschelman 2724eb8e494SKris Buschelman /*******************************************************************/ 2734eb8e494SKris Buschelman /* Fill in the data for the problem. (1-based Fortran style) */ 2744eb8e494SKris Buschelman /*******************************************************************/ 2754eb8e494SKris Buschelman 2764eb8e494SKris Buschelman nz = 0; 2772205254eSKarl Rupp for (i = 0; i < n; i++) { 2784eb8e494SKris Buschelman rs = a->i[i]; 2794eb8e494SKris Buschelman re = a->i[i+1]; 2804eb8e494SKris Buschelman 2812205254eSKarl Rupp while (rs < re) { 2822205254eSKarl Rupp if (a->a[rs] != 0.0) { 2834eb8e494SKris Buschelman lusol->indc[nz] = i + 1; 2844eb8e494SKris Buschelman lusol->indr[nz] = a->j[rs] + 1; 2854eb8e494SKris Buschelman lusol->data[nz] = a->a[rs]; 2864eb8e494SKris Buschelman nz++; 2874eb8e494SKris Buschelman } 2884eb8e494SKris Buschelman rs++; 2894eb8e494SKris Buschelman } 2904eb8e494SKris Buschelman } 2914eb8e494SKris Buschelman 2924eb8e494SKris Buschelman /*******************************************************************/ 2934eb8e494SKris Buschelman /* Do the factorization. */ 2944eb8e494SKris Buschelman /*******************************************************************/ 2954eb8e494SKris Buschelman 2964eb8e494SKris Buschelman LU1FAC(&m, &n, &nz, &nnz, 2974eb8e494SKris Buschelman lusol->luparm, lusol->parmlu, lusol->data, 2984eb8e494SKris Buschelman lusol->indc, lusol->indr, lusol->ip, lusol->iq, 2994eb8e494SKris Buschelman lusol->lenc, lusol->lenr, lusol->locc, lusol->locr, 3004eb8e494SKris Buschelman lusol->iploc, lusol->iqloc, lusol->ipinv, 3014eb8e494SKris Buschelman lusol->iqinv, lusol->mnsw, &status); 3024eb8e494SKris Buschelman 3032205254eSKarl Rupp switch (status) { 3044eb8e494SKris Buschelman case 0: /* factored */ 3054eb8e494SKris Buschelman break; 3064eb8e494SKris Buschelman 3074eb8e494SKris Buschelman case 7: /* insufficient memory */ 3084eb8e494SKris Buschelman break; 3094eb8e494SKris Buschelman 3104eb8e494SKris Buschelman case 1: 3114eb8e494SKris Buschelman case -1: /* singular */ 312e32f2f54SBarry Smith SETERRQ(PETSC_COMM_SELF,PETSC_ERR_LIB,"Singular matrix"); 3134eb8e494SKris Buschelman 3144eb8e494SKris Buschelman case 3: 3154eb8e494SKris Buschelman case 4: /* error conditions */ 316e32f2f54SBarry Smith SETERRQ(PETSC_COMM_SELF,PETSC_ERR_LIB,"matrix error"); 3174eb8e494SKris Buschelman 3184eb8e494SKris Buschelman default: /* unknown condition */ 319e32f2f54SBarry Smith SETERRQ(PETSC_COMM_SELF,PETSC_ERR_LIB,"matrix unknown return code"); 3204eb8e494SKris Buschelman } 3214eb8e494SKris Buschelman 3224eb8e494SKris Buschelman factorizations++; 3234eb8e494SKris Buschelman } while (status == 7); 324719d5645SBarry Smith F->ops->solve = MatSolve_LUSOL; 325719d5645SBarry Smith F->assembled = PETSC_TRUE; 326719d5645SBarry Smith F->preallocated = PETSC_TRUE; 3274eb8e494SKris Buschelman PetscFunctionReturn(0); 3284eb8e494SKris Buschelman } 3294eb8e494SKris Buschelman 33035bd34faSBarry Smith PetscErrorCode MatLUFactorSymbolic_LUSOL(Mat F,Mat A, IS r, IS c,const MatFactorInfo *info) 331b24902e0SBarry Smith { 3324eb8e494SKris Buschelman /************************************************************************/ 3334eb8e494SKris Buschelman /* Input */ 3344eb8e494SKris Buschelman /* A - matrix to factor */ 3354eb8e494SKris Buschelman /* r - row permutation (ignored) */ 3364eb8e494SKris Buschelman /* c - column permutation (ignored) */ 3374eb8e494SKris Buschelman /* */ 3384eb8e494SKris Buschelman /* Output */ 3394eb8e494SKris Buschelman /* F - matrix storing the factorization; */ 3404eb8e494SKris Buschelman /************************************************************************/ 341f0c56d0fSKris Buschelman Mat_LUSOL *lusol; 342dfbe8321SBarry Smith int i, m, n, nz, nnz; 3434eb8e494SKris Buschelman 3444eb8e494SKris Buschelman PetscFunctionBegin; 3454eb8e494SKris Buschelman /************************************************************************/ 3464eb8e494SKris Buschelman /* Check the arguments. */ 3474eb8e494SKris Buschelman /************************************************************************/ 3484eb8e494SKris Buschelman 3499566063dSJacob Faibussowitsch PetscCall(MatGetSize(A, &m, &n)); 3504eb8e494SKris Buschelman nz = ((Mat_SeqAIJ*)A->data)->nz; 3514eb8e494SKris Buschelman 3524eb8e494SKris Buschelman /************************************************************************/ 3534eb8e494SKris Buschelman /* Create the factorization. */ 3544eb8e494SKris Buschelman /************************************************************************/ 3554eb8e494SKris Buschelman 35635bd34faSBarry Smith F->ops->lufactornumeric = MatLUFactorNumeric_LUSOL; 35735bd34faSBarry Smith lusol = (Mat_LUSOL*)(F->spptr); 3584eb8e494SKris Buschelman 3594eb8e494SKris Buschelman /************************************************************************/ 3604eb8e494SKris Buschelman /* Initialize parameters */ 3614eb8e494SKris Buschelman /************************************************************************/ 3624eb8e494SKris Buschelman 3632205254eSKarl Rupp for (i = 0; i < 30; i++) { 3644eb8e494SKris Buschelman lusol->luparm[i] = 0; 3654eb8e494SKris Buschelman lusol->parmlu[i] = 0; 3664eb8e494SKris Buschelman } 3674eb8e494SKris Buschelman 3684eb8e494SKris Buschelman lusol->luparm[1] = -1; 3694eb8e494SKris Buschelman lusol->luparm[2] = 5; 3704eb8e494SKris Buschelman lusol->luparm[7] = 1; 3714eb8e494SKris Buschelman 3724eb8e494SKris Buschelman lusol->parmlu[0] = 1 / Factorization_Tolerance; 3734eb8e494SKris Buschelman lusol->parmlu[1] = 1 / Factorization_Tolerance; 3744eb8e494SKris Buschelman lusol->parmlu[2] = Factorization_Small_Tolerance; 3754eb8e494SKris Buschelman lusol->parmlu[3] = Factorization_Pivot_Tolerance; 3764eb8e494SKris Buschelman lusol->parmlu[4] = Factorization_Pivot_Tolerance; 3774eb8e494SKris Buschelman lusol->parmlu[5] = 3.0; 3784eb8e494SKris Buschelman lusol->parmlu[6] = 0.3; 3794eb8e494SKris Buschelman lusol->parmlu[7] = 0.6; 3804eb8e494SKris Buschelman 3814eb8e494SKris Buschelman /************************************************************************/ 3824eb8e494SKris Buschelman /* Allocate the workspace needed by LUSOL. */ 3834eb8e494SKris Buschelman /************************************************************************/ 3844eb8e494SKris Buschelman 3854eb8e494SKris Buschelman lusol->elbowroom = PetscMax(lusol->elbowroom, info->fill); 3864eb8e494SKris Buschelman nnz = PetscMax((int)(lusol->elbowroom*nz), 5*n); 3874eb8e494SKris Buschelman 3884eb8e494SKris Buschelman lusol->n = n; 3894eb8e494SKris Buschelman lusol->nz = nz; 3904eb8e494SKris Buschelman lusol->nnz = nnz; 3914eb8e494SKris Buschelman lusol->luroom = 1.75; 3924eb8e494SKris Buschelman 393*d0609cedSBarry Smith PetscCall(PetscMalloc(sizeof(int)*n,&lusol->ip)); 394*d0609cedSBarry Smith PetscCall(PetscMalloc(sizeof(int)*n,&lusol->iq)); 395*d0609cedSBarry Smith PetscCall(PetscMalloc(sizeof(int)*n,&lusol->lenc)); 396*d0609cedSBarry Smith PetscCall(PetscMalloc(sizeof(int)*n,&lusol->lenr)); 397*d0609cedSBarry Smith PetscCall(PetscMalloc(sizeof(int)*n,&lusol->locc)); 398*d0609cedSBarry Smith PetscCall(PetscMalloc(sizeof(int)*n,&lusol->locr)); 399*d0609cedSBarry Smith PetscCall(PetscMalloc(sizeof(int)*n,&lusol->iploc)); 400*d0609cedSBarry Smith PetscCall(PetscMalloc(sizeof(int)*n,&lusol->iqloc)); 401*d0609cedSBarry Smith PetscCall(PetscMalloc(sizeof(int)*n,&lusol->ipinv)); 402*d0609cedSBarry Smith PetscCall(PetscMalloc(sizeof(int)*n,&lusol->iqinv)); 403*d0609cedSBarry Smith PetscCall(PetscMalloc(sizeof(double)*n,&lusol->mnsw)); 404*d0609cedSBarry Smith PetscCall(PetscMalloc(sizeof(double)*n,&lusol->mnsv)); 4059566063dSJacob Faibussowitsch PetscCall(PetscMalloc3(nnz,&lusol->data,nnz,&lusol->indc,nnz,&lusol->indr)); 4062205254eSKarl Rupp 4074eb8e494SKris Buschelman lusol->CleanUpLUSOL = PETSC_TRUE; 40835bd34faSBarry Smith F->ops->lufactornumeric = MatLUFactorNumeric_LUSOL; 4094eb8e494SKris Buschelman PetscFunctionReturn(0); 4104eb8e494SKris Buschelman } 4114eb8e494SKris Buschelman 412ea799195SBarry Smith PetscErrorCode MatFactorGetSolverType_seqaij_lusol(Mat A,MatSolverType *type) 41335bd34faSBarry Smith { 41435bd34faSBarry Smith PetscFunctionBegin; 4152692d6eeSBarry Smith *type = MATSOLVERLUSOL; 41635bd34faSBarry Smith PetscFunctionReturn(0); 41735bd34faSBarry Smith } 41835bd34faSBarry Smith 4198cc058d9SJed Brown PETSC_EXTERN PetscErrorCode MatGetFactor_seqaij_lusol(Mat A,MatFactorType ftype,Mat *F) 420521d7252SBarry Smith { 421b24902e0SBarry Smith Mat B; 422f0c56d0fSKris Buschelman Mat_LUSOL *lusol; 42335bd34faSBarry Smith int m, n; 4244eb8e494SKris Buschelman 4254eb8e494SKris Buschelman PetscFunctionBegin; 4269566063dSJacob Faibussowitsch PetscCall(MatGetSize(A, &m, &n)); 4279566063dSJacob Faibussowitsch PetscCall(MatCreate(PetscObjectComm((PetscObject)A),&B)); 4289566063dSJacob Faibussowitsch PetscCall(MatSetSizes(B,PETSC_DECIDE,PETSC_DECIDE,m,n)); 4299566063dSJacob Faibussowitsch PetscCall(MatSetType(B,((PetscObject)A)->type_name)); 4309566063dSJacob Faibussowitsch PetscCall(MatSeqAIJSetPreallocation(B,0,NULL)); 4314eb8e494SKris Buschelman 4329566063dSJacob Faibussowitsch PetscCall(PetscNewLog(B,&lusol)); 433b24902e0SBarry Smith B->spptr = lusol; 4342f71e704SKris Buschelman 43566e17bc3SBarry Smith B->trivialsymbolic = PETSC_TRUE; 436f0c56d0fSKris Buschelman B->ops->lufactorsymbolic = MatLUFactorSymbolic_LUSOL; 437f0c56d0fSKris Buschelman B->ops->destroy = MatDestroy_LUSOL; 4382205254eSKarl Rupp 4399566063dSJacob Faibussowitsch PetscCall(PetscObjectComposeFunction((PetscObject)B,"MatFactorGetSolverType_C",MatFactorGetSolverType_seqaij_lusol)); 4402205254eSKarl Rupp 441d5f3da31SBarry Smith B->factortype = MAT_FACTOR_LU; 4429566063dSJacob Faibussowitsch PetscCall(PetscFree(B->solvertype)); 4439566063dSJacob Faibussowitsch PetscCall(PetscStrallocpy(MATSOLVERLUSOL,&B->solvertype)); 44400c67f3bSHong Zhang 445f0c56d0fSKris Buschelman PetscFunctionReturn(0); 446f0c56d0fSKris Buschelman } 447f0c56d0fSKris Buschelman 4483ca39a21SBarry Smith PETSC_EXTERN PetscErrorCode MatSolverTypeRegister_Lusol(void) 44942c9c57cSBarry Smith { 45042c9c57cSBarry Smith PetscFunctionBegin; 4519566063dSJacob Faibussowitsch PetscCall(MatSolverTypeRegister(MATSOLVERLUSOL,MATSEQAIJ, MAT_FACTOR_LU,MatGetFactor_seqaij_lusol)); 45242c9c57cSBarry Smith PetscFunctionReturn(0); 45342c9c57cSBarry Smith } 45442c9c57cSBarry Smith 4552f71e704SKris Buschelman /*MC 4562692d6eeSBarry Smith MATSOLVERLUSOL - "lusol" - Provides direct solvers (LU) for sequential matrices 4572f71e704SKris Buschelman via the external package LUSOL. 4582f71e704SKris Buschelman 4592f71e704SKris Buschelman If LUSOL is installed (see the manual for 4602f71e704SKris Buschelman instructions on how to declare the existence of external packages), 4612f71e704SKris Buschelman 46241c8de11SBarry Smith Works with MATSEQAIJ matrices 4632f71e704SKris Buschelman 4642f71e704SKris Buschelman Level: beginner 4652f71e704SKris Buschelman 4663ca39a21SBarry Smith .seealso: PCLU, PCFactorSetMatSolverType(), MatSolverType 46741c8de11SBarry Smith 4682f71e704SKris Buschelman M*/ 469