SRC/zungtsqr_row.f(3) Library Functions Manual SRC/zungtsqr_row.f(3)

SRC/zungtsqr_row.f


subroutine zungtsqr_row (m, n, mb, nb, a, lda, t, ldt, work, lwork, info)
ZUNGTSQR_ROW

ZUNGTSQR_ROW

Purpose:

 ZUNGTSQR_ROW generates an M-by-N complex matrix Q_out with
 orthonormal columns from the output of ZLATSQR. These N orthonormal
 columns are the first N columns of a product of complex unitary
 matrices Q(k)_in of order M, which are returned by ZLATSQR in
 a special format.
      Q_out = first_N_columns_of( Q(1)_in * Q(2)_in * ... * Q(k)_in ).
 The input matrices Q(k)_in are stored in row and column blocks in A.
 See the documentation of ZLATSQR for more details on the format of
 Q(k)_in, where each Q(k)_in is represented by block Householder
 transformations. This routine calls an auxiliary routine ZLARFB_GETT,
 where the computation is performed on each individual block. The
 algorithm first sweeps NB-sized column blocks from the right to left
 starting in the bottom row block and continues to the top row block
 (hence _ROW in the routine name). This sweep is in reverse order of
 the order in which ZLATSQR generates the output blocks.

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. M >= N >= 0.

MB

          MB is INTEGER
          The row block size used by ZLATSQR to return
          arrays A and T. MB > N.
          (Note that if MB > M, then M is used instead of MB
          as the row block size).

NB

          NB is INTEGER
          The column block size used by ZLATSQR to return
          arrays A and T. NB >= 1.
          (Note that if NB > N, then N is used instead of NB
          as the column block size).

A

          A is COMPLEX*16 array, dimension (LDA,N)
          On entry:
             The elements on and above the diagonal are not used as
             input. The elements below the diagonal represent the unit
             lower-trapezoidal blocked matrix V computed by ZLATSQR
             that defines the input matrices Q_in(k) (ones on the
             diagonal are not stored). See ZLATSQR for more details.
          On exit:
             The array A contains an M-by-N orthonormal matrix Q_out,
             i.e the columns of A are orthogonal unit vectors.

LDA

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

T

          T is COMPLEX*16 array,
          dimension (LDT, N * NIRB)
          where NIRB = Number_of_input_row_blocks
                     = MAX( 1, CEIL((M-N)/(MB-N)) )
          Let NICB = Number_of_input_col_blocks
                   = CEIL(N/NB)
          The upper-triangular block reflectors used to define the
          input matrices Q_in(k), k=(1:NIRB*NICB). The block
          reflectors are stored in compact form in NIRB block
          reflector sequences. Each of the NIRB block reflector
          sequences is stored in a larger NB-by-N column block of T
          and consists of NICB smaller NB-by-NB upper-triangular
          column blocks. See ZLATSQR for more details on the format
          of T.

LDT

          LDT is INTEGER
          The leading dimension of the array T.
          LDT >= max(1,min(NB,N)).

WORK

          (workspace) COMPLEX*16 array, dimension (MAX(1,LWORK))
          On exit, if INFO = 0, WORK(1) returns the optimal LWORK.

LWORK

          The dimension of the array WORK.
          LWORK >= NBLOCAL * MAX(NBLOCAL,(N-NBLOCAL)),
          where NBLOCAL=MIN(NB,N).
          If LWORK = -1, then a workspace query is assumed.
          The routine only calculates the optimal size of the WORK
          array, returns this value as the first entry of the WORK
          array, and no error message related to LWORK is issued
          by XERBLA.

INFO

          INFO is INTEGER
          = 0:  successful exit
          < 0:  if INFO = -i, the i-th argument had an illegal value

Author

Univ. of Tennessee

Univ. of California Berkeley

Univ. of Colorado Denver

NAG Ltd.

Contributors:

 November 2020, Igor Kozachenko,
                Computer Science Division,
                University of California, Berkeley

Definition at line 186 of file zungtsqr_row.f.

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