Developer Reference for Intel® oneAPI Math Kernel Library for C

ID 766684
Date 7/13/2023
Public

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Document Table of Contents

p?larz

Applies an elementary reflector as returned by p?tzrzf to a general matrix.

Syntax

void pslarz (char *side , MKL_INT *m , MKL_INT *n , MKL_INT *l , float *v , MKL_INT *iv , MKL_INT *jv , MKL_INT *descv , MKL_INT *incv , float *tau , float *c , MKL_INT *ic , MKL_INT *jc , MKL_INT *descc , float *work );

void pdlarz (char *side , MKL_INT *m , MKL_INT *n , MKL_INT *l , double *v , MKL_INT *iv , MKL_INT *jv , MKL_INT *descv , MKL_INT *incv , double *tau , double *c , MKL_INT *ic , MKL_INT *jc , MKL_INT *descc , double *work );

void pclarz (char *side , MKL_INT *m , MKL_INT *n , MKL_INT *l , MKL_Complex8 *v , MKL_INT *iv , MKL_INT *jv , MKL_INT *descv , MKL_INT *incv , MKL_Complex8 *tau , MKL_Complex8 *c , MKL_INT *ic , MKL_INT *jc , MKL_INT *descc , MKL_Complex8 *work );

void pzlarz (char *side , MKL_INT *m , MKL_INT *n , MKL_INT *l , MKL_Complex16 *v , MKL_INT *iv , MKL_INT *jv , MKL_INT *descv , MKL_INT *incv , MKL_Complex16 *tau , MKL_Complex16 *c , MKL_INT *ic , MKL_INT *jc , MKL_INT *descc , MKL_Complex16 *work );

Include Files

  • mkl_scalapack.h

Description

The p?larzfunction applies a real/complex elementary reflector Q (or QT) to a real/complex m-by-n distributed matrix sub(C) = C(ic:ic+m-1, jc:jc+n-1), from either the left or the right. Q is represented in the form

Q = I-tau*v*v',

where tau is a real/complex scalar and v is a real/complex vector.

If tau = 0, then Q is taken to be the unit matrix.

Q is a product of k elementary reflectors as returned by p?tzrzf.

Input Parameters

side

(global)

if side = 'L': form Q*sub(C),

if side = 'R': form sub(C)*Q, Q = QT (for real flavors).

m

(global)

The number of rows in the distributed matrix sub(C). (m 0).

n

(global)

The number of columns in the distributed matrix sub(C). (n 0).

l

(global)

The columns of the distributed matrix sub(A) containing the meaningful part of the Householder reflectors. If side = 'L', m l 0,

if side = 'R', nl 0.

v

(local).

Pointer into the local memory to an array of size lld_v * LOCc(n_v) containing the local pieces of the global distributed matrix V representing the Householder transformation Q,

V(iv:iv+l-1, jv) if side = 'L' and incv = 1,

V(iv, jv:jv+l-1) if side = 'L' and incv = m_v,

V(iv:iv+l-1, jv) if side = 'R' and incv = 1,

V(iv, jv:jv+l-1) if side = 'R' and incv = m_v.

The vector v in the representation of Q. v is not used if tau = 0.

iv, jv

(global) The row and column indices in the global distributed matrix V indicating the first row and the first column of the matrix sub(V), respectively.

descv

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

incv

(global)

The global increment for the elements of V. Only two values of incv are supported in this version, namely 1 and m_v.

incv must not be zero.

tau

(local)

Array of size LOCc(jv) if incv = 1, and LOCr(iv) otherwise. This array contains the Householder scalars related to the Householder vectors.

tau is tied to the distributed matrix V.

c

(local).

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

ic, jc

(global)

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

descc

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

work

(local).

Array of size lwork

If incv = 1,

  if side = 'L' ,

    if ivcol = iccol,

      lwork NqC0

    else

      lwork MpC0 + max(1, NqC0)

    end if

  else if side = 'R' ,

    lworkNqC0 + max(max(1, MpC0), numroc(numroc(n+icoffc,nb_v,0,0,npcol),nb_v,0,0,lcmq))

  end if

else if incv = m_v,

  if side = 'L' ,

    lworkMpC0 + max(max(1, NqC0), numroc(numroc(m+iroffc,mb_v,0,0,nprow),mb_v,0,0,lcmp))

  else if side = 'R' ,

    if ivrow = icrow,

      lworkMpC0

    else

      lwork NqC0 + max(1, MpC0)

    end if

  end if

end if.

Here lcm is the least common multiple of nprow and npcol and

lcm = ilcm( nprow, npcol ), lcmp = lcm / nprow,

lcmq = lcm / 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 ),

ilcm, indxg2p, and numroc are ScaLAPACK tool functions; myrow, mycol, nprow, and npcol can be determined by calling the function blacs_gridinfo.

Output Parameters

c

(local).

On exit, sub(C) is overwritten by the Q*sub(C) if side = 'L', or sub(C)*Q if side = 'R'.

See Also