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/home/abuild/rpmbuild/BUILD/lapack-3.12.0/SRC/slaqp2rk.f(3) Library Functions Manual /home/abuild/rpmbuild/BUILD/lapack-3.12.0/SRC/slaqp2rk.f(3)

NAME

/home/abuild/rpmbuild/BUILD/lapack-3.12.0/SRC/slaqp2rk.f

SYNOPSIS

Functions/Subroutines


subroutine SLAQP2RK (m, n, nrhs, ioffset, kmax, abstol, reltol, kp1, maxc2nrm, a, lda, k, maxc2nrmk, relmaxc2nrmk, jpiv, tau, vn1, vn2, work, info)
SLAQP2RK computes truncated QR factorization with column pivoting of a real matrix block using Level 2 BLAS and overwrites a real m-by-nrhs matrix B with Q**T * B.

Function/Subroutine Documentation

subroutine SLAQP2RK (integer m, integer n, integer nrhs, integer ioffset, integer kmax, real abstol, real reltol, integer kp1, real maxc2nrm, real, dimension( lda, * ) a, integer lda, integer k, real maxc2nrmk, real relmaxc2nrmk, integer, dimension( * ) jpiv, real, dimension( * ) tau, real, dimension( * ) vn1, real, dimension( * ) vn2, real, dimension( * ) work, integer info)

SLAQP2RK computes truncated QR factorization with column pivoting of a real matrix block using Level 2 BLAS and overwrites a real m-by-nrhs matrix B with Q**T * B.

Purpose:

!>
!> SLAQP2RK computes a truncated (rank K) or full rank Householder QR
!> factorization with column pivoting of a real matrix
!> block A(IOFFSET+1:M,1:N) as
!>
!>   A * P(K) = Q(K) * R(K).
!>
!> The routine uses Level 2 BLAS. The block A(1:IOFFSET,1:N)
!> is accordingly pivoted, but not factorized.
!>
!> The routine also overwrites the right-hand-sides matrix block B
!> stored in A(IOFFSET+1:M,N+1:N+NRHS) with Q(K)**T * B.
!> 

Parameters

M

!>          M is INTEGER
!>          The number of rows of the matrix A. M >= 0.
!> 

N

!>          N is INTEGER
!>          The number of columns of the matrix A. N >= 0.
!> 

NRHS

!>          NRHS is INTEGER
!>          The number of right hand sides, i.e., the number of
!>          columns of the matrix B. NRHS >= 0.
!> 

IOFFSET

!>          IOFFSET is INTEGER
!>          The number of rows of the matrix A that must be pivoted
!>          but not factorized. IOFFSET >= 0.
!>
!>          IOFFSET also represents the number of columns of the whole
!>          original matrix A_orig that have been factorized
!>          in the previous steps.
!> 

KMAX

!>          KMAX is INTEGER
!>
!>          The first factorization stopping criterion. KMAX >= 0.
!>
!>          The maximum number of columns of the matrix A to factorize,
!>          i.e. the maximum factorization rank.
!>
!>          a) If KMAX >= min(M-IOFFSET,N), then this stopping
!>                criterion is not used, factorize columns
!>                depending on ABSTOL and RELTOL.
!>
!>          b) If KMAX = 0, then this stopping criterion is
!>             satisfied on input and the routine exits immediately.
!>             This means that the factorization is not performed,
!>             the matrices A and B and the arrays TAU, IPIV
!>             are not modified.
!> 

ABSTOL

!>          ABSTOL is DOUBLE PRECISION, cannot be NaN.
!>
!>          The second factorization stopping criterion.
!>
!>          The absolute tolerance (stopping threshold) for
!>          maximum column 2-norm of the residual matrix.
!>          The algorithm converges (stops the factorization) when
!>          the maximum column 2-norm of the residual matrix
!>          is less than or equal to ABSTOL.
!>
!>          a) If ABSTOL < 0.0, then this stopping criterion is not
!>                used, the routine factorizes columns depending
!>                on KMAX and RELTOL.
!>                This includes the case ABSTOL = -Inf.
!>
!>          b) If 0.0 <= ABSTOL then the input value
!>                of ABSTOL is used.
!> 

RELTOL

!>          RELTOL is DOUBLE PRECISION, cannot be NaN.
!>
!>          The third factorization stopping criterion.
!>
!>          The tolerance (stopping threshold) for the ratio of the
!>          maximum column 2-norm of the residual matrix to the maximum
!>          column 2-norm of the original matrix A_orig. The algorithm
!>          converges (stops the factorization), when this ratio is
!>          less than or equal to RELTOL.
!>
!>          a) If RELTOL < 0.0, then this stopping criterion is not
!>                used, the routine factorizes columns depending
!>                on KMAX and ABSTOL.
!>                This includes the case RELTOL = -Inf.
!>
!>          d) If 0.0 <= RELTOL then the input value of RELTOL
!>                is used.
!> 

KP1

!>          KP1 is INTEGER
!>          The index of the column with the maximum 2-norm in
!>          the whole original matrix A_orig determined in the
!>          main routine SGEQP3RK. 1 <= KP1 <= N_orig_mat.
!> 

MAXC2NRM

!>          MAXC2NRM is DOUBLE PRECISION
!>          The maximum column 2-norm of the whole original
!>          matrix A_orig computed in the main routine SGEQP3RK.
!>          MAXC2NRM >= 0.
!> 

A

!>          A is REAL array, dimension (LDA,N+NRHS)
!>          On entry:
!>              the M-by-N matrix A and M-by-NRHS matrix B, as in
!>
!>                                  N     NRHS
!>              array_A   =   M  [ mat_A, mat_B ]
!>
!>          On exit:
!>          1. The elements in block A(IOFFSET+1:M,1:K) below
!>             the diagonal together with the array TAU represent
!>             the orthogonal matrix Q(K) as a product of elementary
!>             reflectors.
!>          2. The upper triangular block of the matrix A stored
!>             in A(IOFFSET+1:M,1:K) is the triangular factor obtained.
!>          3. The block of the matrix A stored in A(1:IOFFSET,1:N)
!>             has been accordingly pivoted, but not factorized.
!>          4. The rest of the array A, block A(IOFFSET+1:M,K+1:N+NRHS).
!>             The left part A(IOFFSET+1:M,K+1:N) of this block
!>             contains the residual of the matrix A, and,
!>             if NRHS > 0, the right part of the block
!>             A(IOFFSET+1:M,N+1:N+NRHS) contains the block of
!>             the right-hand-side matrix B. Both these blocks have been
!>             updated by multiplication from the left by Q(K)**T.
!> 

LDA

!>          LDA is INTEGER
!>          The leading dimension of the array A. LDA >= max(1,M).
!> 

K

!>          K is INTEGER
!>          Factorization rank of the matrix A, i.e. the rank of
!>          the factor R, which is the same as the number of non-zero
!>          rows of the factor R. 0 <= K <= min(M-IOFFSET,KMAX,N).
!>
!>          K also represents the number of non-zero Householder
!>          vectors.
!> 

MAXC2NRMK

!>          MAXC2NRMK is DOUBLE PRECISION
!>          The maximum column 2-norm of the residual matrix,
!>          when the factorization stopped at rank K. MAXC2NRMK >= 0.
!> 

RELMAXC2NRMK

!>          RELMAXC2NRMK is DOUBLE PRECISION
!>          The ratio MAXC2NRMK / MAXC2NRM of the maximum column
!>          2-norm of the residual matrix (when the factorization
!>          stopped at rank K) to the maximum column 2-norm of the
!>          whole original matrix A. RELMAXC2NRMK >= 0.
!> 

JPIV

!>          JPIV is INTEGER array, dimension (N)
!>          Column pivot indices, for 1 <= j <= N, column j
!>          of the matrix A was interchanged with column JPIV(j).
!> 

TAU

!>          TAU is REAL array, dimension (min(M-IOFFSET,N))
!>          The scalar factors of the elementary reflectors.
!> 

VN1

!>          VN1 is REAL array, dimension (N)
!>          The vector with the partial column norms.
!> 

VN2

!>          VN2 is REAL array, dimension (N)
!>          The vector with the exact column norms.
!> 

WORK

!>          WORK is REAL array, dimension (N-1)
!>          Used in SLARF subroutine to apply an elementary
!>          reflector from the left.
!> 

INFO

!>          INFO is INTEGER
!>          1) INFO = 0: successful exit.
!>          2) If INFO = j_1, where 1 <= j_1 <= N, then NaN was
!>             detected and the routine stops the computation.
!>             The j_1-th column of the matrix A or the j_1-th
!>             element of array TAU contains the first occurrence
!>             of NaN in the factorization step K+1 ( when K columns
!>             have been factorized ).
!>
!>             On exit:
!>             K                  is set to the number of
!>                                   factorized columns without
!>                                   exception.
!>             MAXC2NRMK          is set to NaN.
!>             RELMAXC2NRMK       is set to NaN.
!>             TAU(K+1:min(M,N))  is not set and contains undefined
!>                                   elements. If j_1=K+1, TAU(K+1)
!>                                   may contain NaN.
!>          3) If INFO = j_2, where N+1 <= j_2 <= 2*N, then no NaN
!>             was detected, but +Inf (or -Inf) was detected and
!>             the routine continues the computation until completion.
!>             The (j_2-N)-th column of the matrix A contains the first
!>             occurrence of +Inf (or -Inf) in the factorization
!>             step K+1 ( when K columns have been factorized ).
!> 

Author

Univ. of Tennessee

Univ. of California Berkeley

Univ. of Colorado Denver

NAG Ltd.

References:

[1] A Level 3 BLAS QR factorization algorithm with column pivoting developed in 1996. G. Quintana-Orti, Depto. de Informatica, Universidad Jaime I, Spain. X. Sun, Computer Science Dept., Duke University, USA. C. H. Bischof, Math. and Comp. Sci. Div., Argonne National Lab, USA. A BLAS-3 version of the QR factorization with column pivoting. LAPACK Working Note 114 and in SIAM J. Sci. Comput., 19(5):1486-1494, Sept. 1998.

[2] A partial column norm updating strategy developed in 2006. Z. Drmac and Z. Bujanovic, Dept. of Math., University of Zagreb, Croatia. On the failure of rank revealing QR factorization software – a case study. LAPACK Working Note 176. and in ACM Trans. Math. Softw. 35, 2, Article 12 (July 2008), 28 pages.

Contributors:

!>
!>  November  2023, Igor Kozachenko, James Demmel,
!>                  EECS Department,
!>                  University of California, Berkeley, USA.
!>
!> 

Definition at line 340 of file slaqp2rk.f.

Author

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