NAME dpbsl - section solve the linear system Ax = b for a sym- metric positive definite matrix A in banded storage, which has been Cholesky-factored by xPBCO or xPBFA, and vectors b and x. SYNOPSIS SUBROUTINE DPBSL (DA, LDA, N, NDIAG, DB) SUBROUTINE SPBSL (SA, LDA, N, NDIAG, SB) SUBROUTINE ZPBSL (ZA, LDA, N, NDIAG, ZB) SUBROUTINE CPBSL (CA, LDA, N, NDIAG, CB) #include <sunperf.h> void dpbsl(double *abd, int lda, int n, int m, double *b); void spbsl(float *abd, int lda, int n, int m, float *b); void zpbsl(doublecomplex *abd, int lda, int n, int m, doub- lecomplex *b); void cpbsl(complex *abd, int lda, int n, int m, complex *b); ARGUMENTS xA Cholesky factorization of the matrix A, as com- puted by xPBCO or xPBFA. LDA Leading dimension of the array A as specified in a dimension or type statement. LDA >= NDIAG + 1. N Order of the matrix A. N >= 0. NDIAG Number of diagonals of matrix A. N-1 >= NDIAG >= 0 but if N = 0 then NDIAG = 0. xB On entry, the right-hand side vector b. On exit, the solution vector x. SAMPLE PROGRAM PROGRAM TEST IMPLICIT NONE C INTEGER LDA, N, NDIAG PARAMETER (N = 4) PARAMETER (NDIAG = 1) PARAMETER (LDA = NDIAG + 1) C DOUBLE PRECISION A(LDA,N), B(N) INTEGER ICOL, INFO, IROW C EXTERNAL DPBFA, DPBSL C C Initialize the array A to store in banded storage mode C the matrix A shown below. Initialize the array B to C store the vector B shown below. C C 2 -1 0 0 60 C A = -1 2 -1 0 b = 120 C 0 -1 2 -1 120 C 0 0 -1 2 60 C DATA A / 8D8, 2.0D0, -1.0D0, 2.0D0, -1.0D0, 2.0D0, -1.0D0, 2.0D0 / DATA B / 6.0D1, 1.2D1, 1.2D1, 6.0D1 / C PRINT 1000 PRINT 1010, A(2,1), A(1,2) PRINT 1010, A(3,1), A(2,2), A(1,3) PRINT 1020, A(3,2), A(2,3), A(1,4) PRINT 1030, A(3,3), A(2,4) PRINT 1040 PRINT 1010, ((A(IROW,ICOL), ICOL = 1, N), IROW = 1, LDA) PRINT 1050 PRINT 1060, B CALL DPBFA (A, LDA, N, NDIAG, INFO) IF (INFO .EQ. 0) THEN CALL DPBSL (A, LDA, N, NDIAG, B) PRINT 1070 PRINT 1060, B ELSE PRINT 1080 END IF C 1000 FORMAT (1X, 'A in full form:') 1010 FORMAT (4(3X, F5.1)) 1020 FORMAT (8X, 3(3X, F5.1)) 1030 FORMAT (16X, 3(3X, F5.1)) 1040 FORMAT (/1X, 'A in banded form: (* in unused entries)') 1050 FORMAT (/1X, 'b:') 1060 FORMAT (3X, F5.1) 1070 FORMAT (/1X, 'A**(-1) * b:') 1080 FORMAT (/1X, 'A is not positive definite.') C END SAMPLE OUTPUT A in full form: 2.0 -1.0 -1.0 2.0 -1.0 -1.0 2.0 -1.0 -1.0 2.0 A in banded form: (* in unused entries) ***** -1.0 -1.0 -1.0 2.0 2.0 2.0 2.0 b: 60.0 12.0 12.0 60.0 A**(-1) * b: 72.0 84.0 84.0 72.0
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