NAME cspco - compute the UDU factorization and condition number of a symmetric matrix A in packed storage. If the condition number is not needed then xSPFA is slightly faster. It is typical to follow a call to xSPCO with a call to xSPSL to solve Ax = b or to xSPDI to compute the determinant, inverse, and inertia of A. SYNOPSIS SUBROUTINE DSPCO (DA, N, IPIVOT, DRCOND, DWORK) SUBROUTINE SSPCO (SA, N, IPIVOT, SRCOND, SWORK) SUBROUTINE ZSPCO (ZA, N, IPIVOT, DRCOND, ZWORK) SUBROUTINE CSPCO (CA, N, IPIVOT, SRCOND, CWORK) #include <sunperf.h> void dspco(double *dap, int n, int *kpvt, double *rcond) ; void sspco(float *sap, int n, int *kpvt, float *rcond) ; void zspco(doublecomplex *zap, int n, int *kpvt, double *rcond) ; void cspco(complex *cap, int n, int *kpvt, float *rcond) ; ARGUMENTS xA On entry, the upper triangle of the matrix A. On exit, a UDU factorization of the matrix A. N Order of the matrix A. N >= 0. IPIVOT On exit, a vector of pivot indices. xRCOND On exit, an estimate of the reciprocal condition number of A. 0.0 <= RCOND <= 1.0. As the value of RCOND gets smaller, operations with A such as solving Ax = b may become less stable. If RCOND satisfies RCOND + 1.0 = 1.0 then A may be singular to working precision. xWORK Scratch array with a dimension of N. SAMPLE PROGRAM PROGRAM TEST IMPLICIT NONE C INTEGER LENGTA, N PARAMETER (N = 3) PARAMETER (LENGTA = (N * N + N) / 2) C DOUBLE PRECISION A(LENGTA), B(N), RCOND, WORK(N) INTEGER IPIVOT(N) C EXTERNAL DSPCO, DSPSL C C Initialize the array A to store in packed symmetric format C the matrix A shown below. Initialize the array B to store C the vector b shown below. C C 1 0 4 30 C A = 0 2 0 b = 4 C 4 0 1 15 C DATA A / 1.0D0, 0.0D0, 2.0D0, 4.0D0, 0.0D0, 1.0D0 / DATA B / 3.0D1, 4.0D0, 1.5D1 / C PRINT 1000 PRINT 1010, A(1), A(2), A(4) PRINT 1010, A(2), A(3), A(5) PRINT 1010, A(4), A(5), A(6) PRINT 1020 PRINT 1030, B CALL DSPCO (A, N, IPIVOT, RCOND, WORK) IF ((RCOND + 1.0D0) .EQ. RCOND) THEN PRINT 1040 END IF CALL DSPSL (A, N, IPIVOT, B) PRINT 1050 PRINT 1030, B C 1000 FORMAT (1X, 'A:') 1010 FORMAT (3(3X, F4.1)) 1020 FORMAT (/1X, 'b:') 1030 FORMAT (3X, F4.1) 1040 FORMAT (1X, 'A may be singular to working precision.') 1050 FORMAT (/1X, 'A**(-1) * b:') C END SAMPLE OUTPUT A: 1.0 0.0 4.0 0.0 2.0 0.0 4.0 0.0 1.0 b: 30.0 4.0 15.0 A**(-1) * b: 2.0 2.0 7.0
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