Developer Reference for Intel® oneAPI Math Kernel Library for Fortran

ID 766686
Date 3/31/2023
Public

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p?unmrz

Multiplies a general matrix by the unitary transformation matrix from a reduction to upper triangular form determined by p?tzrzf.

Syntax

call pcunmrz(side, trans, m, n, k, l, a, ia, ja, desca, tau, c, ic, jc, descc, work, lwork, info)

call pzunmrz(side, trans, m, n, k, l, a, ia, ja, desca, tau, c, ic, jc, descc, work, lwork, info)

Include Files

Description

This routine overwrites the general complex m-by-n distributed matrix sub (C) = C(:+m-1,:+n-1) with

  side ='L' side ='R'
trans = 'N': Q*sub(C) sub(C)*Q
trans = 'C': QH*sub(C) sub(C)*QH

where Q is a complex unitary distributed matrix defined as the product of k elementary reflectors

Q = H(1)' H(2)'... H(k)'

as returned by pctzrzf/pztzrzf. Q is of order m if side = 'L' and of order n if side = 'R'.

Input Parameters
side

(global) CHARACTER

='L': Q or QH is applied from the left.

='R': Q or QH is applied from the right.

trans

(global) CHARACTER

='N', no transpose, Q is applied.

='C', conjugate transpose, QH is applied.

m

(global) INTEGER. The number of rows in the distributed matrix sub(C), (m0).

n

(global) INTEGER. The number of columns in the distributed matrix sub(C), (n0).

k

(global) INTEGER. The number of elementary reflectors whose product defines the matrix Q. Constraints:

If side = 'L', mk≥0

If side = 'R', nk≥0.

l

(global) INTEGER. The columns of the distributed matrix sub(A) containing the meaningful part of the Householder reflectors.

If side = 'L', ml≥0

If side = 'R', nl≥0.

a

(local)

COMPLEX for pcunmrz

DOUBLE COMPLEX for pzunmrz.

Pointer into the local memory to an array of size (lld_a,LOCc(ja+m-1)) if side = 'L', and (lld_a,LOCc(ja+n-1)) if side = 'R', where lld_amax(1, LOCr(ja+k-1)). The i-th row must contain the vector that defines the elementary reflector H(i), iaiia+k-1, as returned by p?gerqf in the k rows of its distributed matrix argument A(ia:ia+k-1, ja:*). A(ia:ia+k-1, ja:*) is modified by the routine but restored on exit.

ia, ja

(global) INTEGER. The row and column indices in the global matrix A indicating the first row and the first column of the submatrix A, respectively.

desca

(global and local) INTEGER array of size dlen_. The array descriptor for the distributed matrix A.

tau

(local)

COMPLEX for pcunmrz

DOUBLE COMPLEX for pzunmrz

Array of size LOCc(ia+k-1).

Contains the scalar factor tau(i) of elementary reflectors H(i) as returned by p?gerqf. tau is tied to the distributed matrix A.

c

(local)

COMPLEX for pcunmrz

DOUBLE COMPLEX for pzunmrz.

Pointer into the local memory to an array of local size (lld_c,LOCc(jc+n-1)).

Contains the local pieces of the distributed matrix sub(C) to be factored.

ic, jc

(global) INTEGER. The row and column indices in the global matrix C indicating the first row and the first column of the submatrix C, respectively.

descc

(global and local) INTEGER array of size dlen_. The array descriptor for the distributed matrix C.

work

(local)

COMPLEX for pcunmrz

DOUBLE COMPLEX for pzunmrz.

Workspace array of size lwork.

lwork

(local or global) INTEGER, size of work, must be at least:

If side = 'L',

lworkmax((mb_a*(mb_a-1))/2, (mpc0+max(mqa0+numroc(numroc(n+iroffc, mb_a, 0, 0, NPROW), mb_a, 0, 0, lcmp), nqc0))*mb_a) + mb_a*mb_a

else if side ='R',

lworkmax((mb_a*(mb_a-1))/2, (mpc0+nqc0)*mb_a) + mb_a*mb_a

end if

where

lcmp = lcm/NPROW with lcm = ilcm(NPROW, NPCOL),

iroffa = mod(ia-1, mb_a),

icoffa = mod(ja-1, nb_a),

iacol = indxg2p(ja, nb_a, MYCOL, csrc_a, NPCOL),

mqa0 = numroc(m+icoffa, nb_a, MYCOL, iacol, NPCOL),

iroffc = mod(ic-1, mb_c),

icoffc = mod(jc-1, nb_c),

icrow = indxg2p(ic, mb_c, MYROW, rsrc_c, NPROW),

iccol = indxg2p(jc, nb_c, MYCOL, csrc_c, NPCOL),

mpc0 = numroc(m+iroffc, mb_c, MYROW, icrow, NPROW),

nqc0 = numroc(n+icoffc, nb_c, MYCOL, iccol, NPCOL),

NOTE:

mod(x,y) is the integer remainder of x/y.

ilcm, indxg2p and numroc are ScaLAPACK tool functions; MYROW, MYCOL, NPROW and NPCOL can be determined by calling the subroutine blacs_gridinfo.

If lwork = -1, then lwork is global input and a workspace query is assumed; the routine only calculates the minimum and optimal size for all work arrays. Each of these values is returned in the first entry of the corresponding work array, and no error message is issued by pxerbla.

Output Parameters
c

Overwritten by the product Q* sub(C), or Q'*sub (C), or sub(C)*Q', or sub(C)*Q

work(1)

On exit work(1) contains the minimum value of lwork required for optimum performance.

info

(global) INTEGER.

= 0: the execution is successful.

< 0: if the i-th argument is an array and the j-th entry had an illegal value, then info = -(i*100+j); if the i-th argument is a scalar and had an illegal value, then info = -i.

See Also