/**
*
* @copyright (c) 2009-2014 The University of Tennessee and The University
* of Tennessee Research Foundation.
* All rights reserved.
* @copyright (c) 2012-2016 Inria. All rights reserved.
* @copyright (c) 2012-2014 Bordeaux INP, CNRS (LaBRI UMR 5800), Inria, Univ. Bordeaux. All rights reserved.
*
**/
/**
*
* @file pzgeqrfrh.c
*
* MORSE auxiliary routines
* MORSE is a software package provided by Univ. of Tennessee,
* Univ. of California Berkeley and Univ. of Colorado Denver
*
* @version 2.5.0
* @comment This file has been automatically generated
* from Plasma 2.5.0 for MORSE 1.0.0
* @author Jakub Kurzak
* @author Hatem Ltaief
* @author Dulceneia Becker
* @author Mathieu Faverge
* @author Emmanuel Agullo
* @author Cedric Castagnede
* @date 2010-11-15
* @precisions normal z -> s d c
*
**/
#include "control/common.h"
#define A(m,n) A, (m), (n)
#define T(m,n) T, (m), (n)
#define T2(m,n) T, (m), ((n)+A->nt)
#if defined(CHAMELEON_COPY_DIAG)
#define D(m,n) D, ((m)/BS), 0
#else
#define D(m,n) A, (m), (n)
#endif
/*******************************************************************************
* Parallel tile QR factorization (reduction Householder) - dynamic scheduling
**/
void morse_pzgeqrfrh(MORSE_desc_t *A, MORSE_desc_t *T, MORSE_desc_t *D, int BS,
MORSE_sequence_t *sequence, MORSE_request_t *request)
{
MORSE_context_t *morse;
MORSE_option_t options;
size_t ws_worker = 0;
size_t ws_host = 0;
int k, m, n;
int K, M, RD;
int ldaM, ldam, ldaMRD;
int tempkmin, tempkn, tempMm, tempnn, tempmm, tempMRDm;
int ib;
morse = morse_context_self();
if (sequence->status != MORSE_SUCCESS)
return;
RUNTIME_options_init(&options, morse, sequence, request);
ib = MORSE_IB;
/*
* zgeqrt = A->nb * (ib+1)
* zunmqr = A->nb * ib
* ztsqrt = A->nb * (ib+1)
* zttqrt = A->nb * (ib+1)
* ztsmqr = A->nb * ib
* zttmqr = A->nb * ib
*/
ws_worker = A->nb * (ib+1);
/* Allocation of temporary (scratch) working space */
#if defined(CHAMELEON_USE_CUDA)
/* Worker space
*
* zunmqr = A->nb * ib
* ztsmqr = 2 * A->nb * ib
*/
ws_worker = chameleon_max( ws_worker, ib * A->nb * 2 );
#endif
ws_worker *= sizeof(MORSE_Complex64_t);
ws_host *= sizeof(MORSE_Complex64_t);
RUNTIME_options_ws_alloc( &options, ws_worker, ws_host );
K = chameleon_min(A->mt, A->nt);
for (k = 0; k < K; k++) {
RUNTIME_iteration_push(morse, k);
tempkn = k == A->nt-1 ? A->n-k*A->nb : A->nb;
for (M = k; M < A->mt; M += BS) {
tempMm = M == A->mt-1 ? A->m-M*A->mb : A->mb;
tempkmin = chameleon_min(tempMm, tempkn);
ldaM = BLKLDD(A, M);
MORSE_TASK_zgeqrt(
&options,
tempMm, tempkn, ib, T->nb,
A(M, k), ldaM,
T(M, k), T->mb);
if ( k < (A->nt-1) ) {
#if defined(CHAMELEON_COPY_DIAG)
MORSE_TASK_zlacpy(
&options,
MorseLower, tempMm, A->nb, A->nb,
A(M, k), ldaM,
D(M, k), ldaM );
#if defined(CHAMELEON_USE_CUDA)
MORSE_TASK_zlaset(
&options,
MorseUpper, tempMm, A->nb,
0., 1.,
D(M, k), ldaM );
#endif
#endif
}
for (n = k+1; n < A->nt; n++) {
tempnn = n == A->nt-1 ? A->n-n*A->nb : A->nb;
MORSE_TASK_zunmqr(
&options,
MorseLeft, MorseConjTrans,
tempMm, tempnn, tempkmin, ib, T->nb,
D(M, k), ldaM,
T(M, k), T->mb,
A(M, n), ldaM);
}
for (m = M+1; m < chameleon_min(M+BS, A->mt); m++) {
tempmm = m == A->mt-1 ? A->m-m*A->mb : A->mb;
ldam = BLKLDD(A, m);
RUNTIME_data_migrate( sequence, A(M, k),
A->get_rankof( A, m, k ) );
MORSE_TASK_ztpqrt(
&options,
tempmm, tempkn, 0, ib, T->nb,
A(M, k), ldaM,
A(m, k), ldam,
T(m, k), T->mb);
for (n = k+1; n < A->nt; n++) {
tempnn = n == A->nt-1 ? A->n-n*A->nb : A->nb;
RUNTIME_data_migrate( sequence, A(M, n),
A->get_rankof( A, m, n ) );
MORSE_TASK_ztpmqrt(
&options,
MorseLeft, MorseConjTrans,
tempmm, tempnn, A->nb, 0, ib, T->nb,
A(m, k), ldam,
T(m, k), T->mb,
A(M, n), ldaM,
A(m, n), ldam);
}
}
}
for (RD = BS; RD < A->mt-k; RD *= 2) {
for (M = k; M+RD < A->mt; M += 2*RD) {
tempMRDm = M+RD == A->mt-1 ? A->m-(M+RD)*A->mb : A->mb;
ldaM = BLKLDD(A, M );
ldaMRD = BLKLDD(A, M+RD);
RUNTIME_data_migrate( sequence, A(M, k),
A->get_rankof( A, M+RD, k ) );
RUNTIME_data_migrate( sequence, A(M+RD, k),
A->get_rankof( A, M+RD, k ) );
MORSE_TASK_ztpqrt(
&options,
tempMRDm, tempkn, chameleon_min( tempMRDm, tempkn ), ib, T->nb,
A (M , k), ldaM,
A (M+RD, k), ldaMRD,
T2(M+RD, k), T->mb);
for (n = k+1; n < A->nt; n++) {
tempnn = n == A->nt-1 ? A->n-n*A->nb : A->nb;
RUNTIME_data_migrate( sequence, A(M, n),
A->get_rankof( A, M+RD, n ) );
RUNTIME_data_migrate( sequence, A(M+RD, n),
A->get_rankof( A, M+RD, n ) );
MORSE_TASK_ztpmqrt(
&options,
MorseLeft, MorseConjTrans,
tempMRDm, tempnn, A->nb, tempMRDm, ib, T->nb,
A (M+RD, k), ldaMRD,
T2(M+RD, k), T->mb,
A (M, n), ldaM,
A (M+RD, n), ldaMRD);
}
}
}
/* Restore the original location of the tiles */
for (n = k; n < A->nt; n++) {
RUNTIME_data_migrate( sequence, A(k, n),
A->get_rankof( A, k, n ) );
}
RUNTIME_iteration_pop(morse);
}
RUNTIME_options_ws_free(&options);
RUNTIME_options_finalize(&options, morse);
(void)D;
}