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/*********************************************************************/
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/* Copyright 2009, 2010 The University of Texas at Austin. */
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/* All rights reserved. */
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/* */
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/* Redistribution and use in source and binary forms, with or */
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/* without modification, are permitted provided that the following */
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/* conditions are met: */
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/* */
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/* 1. Redistributions of source code must retain the above */
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/* copyright notice, this list of conditions and the following */
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/* disclaimer. */
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/* */
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/* 2. Redistributions in binary form must reproduce the above */
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/* copyright notice, this list of conditions and the following */
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/* disclaimer in the documentation and/or other materials */
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/* provided with the distribution. */
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/* */
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/* THIS SOFTWARE IS PROVIDED BY THE UNIVERSITY OF TEXAS AT */
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/* AUSTIN ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, */
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/* INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF */
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/* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE */
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/* DISCLAIMED. IN NO EVENT SHALL THE UNIVERSITY OF TEXAS AT */
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/* AUSTIN OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, */
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/* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES */
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/* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE */
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/* GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR */
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/* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF */
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/* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT */
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/* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT */
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/* OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE */
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/* POSSIBILITY OF SUCH DAMAGE. */
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/* */
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/* The views and conclusions contained in the software and */
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/* documentation are those of the authors and should not be */
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/* interpreted as representing official policies, either expressed */
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/* or implied, of The University of Texas at Austin. */
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/*********************************************************************/
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#include <stdio.h></stdio.h>
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#include <stdlib.h></stdlib.h>
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#include "common.h"
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#include "symcopy.h"
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#if! defined(HEMV) && !defined(HEMVREV)
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#define MYSYMV_U SYMV_U
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#define MYSYMV_L SYMV_L
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#elif defined HEMV
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kusano |
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#define MYSYMV_U HEMV_U
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#define MYSYMV_L HEMV_L
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#else
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#define MYSYMV_U HEMV_V
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#define MYSYMV_L HEMV_M
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#endif
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static int symv_kernel(blas_arg_t *args, BLASLONG *range_m, BLASLONG *range_n, FLOAT *dummy1, FLOAT *buffer, BLASLONG pos){
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FLOAT *a, *x, *y;
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BLASLONG lda, incx, incy;
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BLASLONG m_from, m_to;
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a = (FLOAT *)args -> a;
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x = (FLOAT *)args -> b;
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y = (FLOAT *)args -> c;
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lda = args -> lda;
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incx = args -> ldb;
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incy = args -> ldc;
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m_from = 0;
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m_to = args -> m;
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if (range_m) {
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m_from = *(range_m + 0);
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m_to = *(range_m + 1);
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}
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if (range_n) y += *range_n * COMPSIZE;
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kusano |
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#ifndef LOWER
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SCAL_K(m_to, 0, 0, ZERO,
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#ifdef COMPLEX
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ZERO,
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#endif
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y, 1, NULL, 0, NULL, 0);
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kusano |
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MYSYMV_U (m_to, m_to - m_from, ONE,
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#ifdef COMPLEX
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ZERO,
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#endif
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a, lda, x, incx, y, 1, buffer);
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#else
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kusano |
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SCAL_K(args -> m - m_from, 0, 0, ZERO,
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#ifdef COMPLEX
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ZERO,
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#endif
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y + m_from * COMPSIZE, 1, NULL, 0, NULL, 0);
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kusano |
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MYSYMV_L (args -> m - m_from, m_to - m_from, ONE,
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#ifdef COMPLEX
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ZERO,
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kusano |
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#endif
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a + m_from * (lda + 1) * COMPSIZE, lda, x + m_from * incx * COMPSIZE, incx, y + m_from * COMPSIZE, 1, buffer);
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#endif
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kusano |
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return 0;
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kusano |
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}
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#ifndef COMPLEX
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int CNAME(BLASLONG m, FLOAT alpha, FLOAT *a, BLASLONG lda, FLOAT *x, BLASLONG incx, FLOAT *y, BLASLONG incy, FLOAT *buffer, int nthreads){
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#else
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int CNAME(BLASLONG m, FLOAT *alpha, FLOAT *a, BLASLONG lda, FLOAT *x, BLASLONG incx, FLOAT *y, BLASLONG incy, FLOAT *buffer, int nthreads){
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#endif
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blas_arg_t args;
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blas_queue_t queue[MAX_CPU_NUMBER];
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BLASLONG range_m[MAX_CPU_NUMBER + 1];
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BLASLONG range_n[MAX_CPU_NUMBER];
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BLASLONG width, i, num_cpu;
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double dnum;
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int mask = 3;
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kusano |
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#ifdef SMP
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#ifndef COMPLEX
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#ifdef XDOUBLE
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int mode = BLAS_XDOUBLE | BLAS_REAL;
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#elif defined(DOUBLE)
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int mode = BLAS_DOUBLE | BLAS_REAL;
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#else
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int mode = BLAS_SINGLE | BLAS_REAL;
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#endif
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#else
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kusano |
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#ifdef XDOUBLE
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int mode = BLAS_XDOUBLE | BLAS_COMPLEX;
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#elif defined(DOUBLE)
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int mode = BLAS_DOUBLE | BLAS_COMPLEX;
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#else
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int mode = BLAS_SINGLE | BLAS_COMPLEX;
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#endif
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#endif
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#endif
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args.m = m;
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args.a = (void *)a;
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args.b = (void *)x;
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args.c = (void *)buffer;
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|
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args.lda = lda;
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args.ldb = incx;
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args.ldc = incy;
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|
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kusano |
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dnum = (double)m * (double)m / (double)nthreads;
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num_cpu = 0;
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kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
#ifndef LOWER
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|
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range_m[0] = 0;
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kusano |
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i = 0;
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kusano |
2b45e8 |
|
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kusano |
2b45e8 |
while (i < m){
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kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
if (nthreads - num_cpu > 1) {
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kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
double di = (double)i;
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|
kusano |
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width = ((BLASLONG)(sqrt(di * di + dnum) - di) + mask) & ~mask;
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|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
if (width < 4) width = 4;
|
|
kusano |
2b45e8 |
if (width > m - i) width = m - i;
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
} else {
|
|
kusano |
2b45e8 |
width = m - i;
|
|
kusano |
2b45e8 |
}
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
range_m[num_cpu + 1] = range_m[num_cpu] + width;
|
|
kusano |
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range_n[num_cpu] = num_cpu * (((m + 15) & ~15) + 16);
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
queue[MAX_CPU_NUMBER - num_cpu - 1].mode = mode;
|
|
kusano |
2b45e8 |
queue[MAX_CPU_NUMBER - num_cpu - 1].routine = symv_kernel;
|
|
kusano |
2b45e8 |
queue[MAX_CPU_NUMBER - num_cpu - 1].args = &args;
|
|
kusano |
2b45e8 |
queue[MAX_CPU_NUMBER - num_cpu - 1].range_m = &range_m[num_cpu];
|
|
kusano |
2b45e8 |
queue[MAX_CPU_NUMBER - num_cpu - 1].range_n = &range_n[num_cpu];
|
|
kusano |
2b45e8 |
queue[MAX_CPU_NUMBER - num_cpu - 1].sa = NULL;
|
|
kusano |
2b45e8 |
queue[MAX_CPU_NUMBER - num_cpu - 1].sb = NULL;
|
|
kusano |
2b45e8 |
queue[MAX_CPU_NUMBER - num_cpu - 1].next = &queue[MAX_CPU_NUMBER - num_cpu];
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
num_cpu ++;
|
|
kusano |
2b45e8 |
i += width;
|
|
kusano |
2b45e8 |
}
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
if (num_cpu) {
|
|
kusano |
2b45e8 |
queue[MAX_CPU_NUMBER - num_cpu].sa = NULL;
|
|
kusano |
2b45e8 |
queue[MAX_CPU_NUMBER - num_cpu].sb = buffer + num_cpu * (((m + 255) & ~255) + 16) * COMPSIZE;
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
queue[MAX_CPU_NUMBER - 1].next = NULL;
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
exec_blas(num_cpu, &queue[MAX_CPU_NUMBER - num_cpu]);
|
|
kusano |
2b45e8 |
}
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
#else
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
range_m[0] = 0;
|
|
kusano |
2b45e8 |
i = 0;
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
while (i < m){
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
if (nthreads - num_cpu > 1) {
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
double di = (double)(m - i);
|
|
kusano |
2b45e8 |
if (di * di - dnum > 0) {
|
|
kusano |
2b45e8 |
width = ((BLASLONG)(-sqrt(di * di - dnum) + di) + mask) & ~mask;
|
|
kusano |
2b45e8 |
} else {
|
|
kusano |
2b45e8 |
width = m - i;
|
|
kusano |
2b45e8 |
}
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
if (width < 4) width = 4;
|
|
kusano |
2b45e8 |
if (width > m - i) width = m - i;
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
} else {
|
|
kusano |
2b45e8 |
width = m - i;
|
|
kusano |
2b45e8 |
}
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
range_m[num_cpu + 1] = range_m[num_cpu] + width;
|
|
kusano |
2b45e8 |
range_n[num_cpu] = num_cpu * (((m + 15) & ~15) + 16);
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
queue[num_cpu].mode = mode;
|
|
kusano |
2b45e8 |
queue[num_cpu].routine = symv_kernel;
|
|
kusano |
2b45e8 |
queue[num_cpu].args = &args;
|
|
kusano |
2b45e8 |
queue[num_cpu].range_m = &range_m[num_cpu];
|
|
kusano |
2b45e8 |
queue[num_cpu].range_n = &range_n[num_cpu];
|
|
kusano |
2b45e8 |
queue[num_cpu].sa = NULL;
|
|
kusano |
2b45e8 |
queue[num_cpu].sb = NULL;
|
|
kusano |
2b45e8 |
queue[num_cpu].next = &queue[num_cpu + 1];
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
num_cpu ++;
|
|
kusano |
2b45e8 |
i += width;
|
|
kusano |
2b45e8 |
}
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
if (num_cpu) {
|
|
kusano |
2b45e8 |
queue[0].sa = NULL;
|
|
kusano |
2b45e8 |
queue[0].sb = buffer + num_cpu * (((m + 255) & ~255) + 16) * COMPSIZE;
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
queue[num_cpu - 1].next = NULL;
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
exec_blas(num_cpu, queue);
|
|
kusano |
2b45e8 |
}
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
#endif
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
#ifndef LOWER
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
for (i = 0; i < num_cpu - 1; i ++) {
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
AXPYU_K(range_m[i + 1], 0, 0, ONE,
|
|
kusano |
2b45e8 |
#ifdef COMPLEX
|
|
kusano |
2b45e8 |
ZERO,
|
|
kusano |
2b45e8 |
#endif
|
|
kusano |
2b45e8 |
buffer + range_n[i] * COMPSIZE, 1, buffer + range_n[num_cpu - 1] * COMPSIZE, 1, NULL, 0);
|
|
kusano |
2b45e8 |
}
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
AXPYU_K(m, 0, 0,
|
|
kusano |
2b45e8 |
#ifndef COMPLEX
|
|
kusano |
2b45e8 |
alpha,
|
|
kusano |
2b45e8 |
#else
|
|
kusano |
2b45e8 |
alpha[0], alpha[1],
|
|
kusano |
2b45e8 |
#endif
|
|
kusano |
2b45e8 |
buffer + range_n[num_cpu - 1] * COMPSIZE, 1, y, incy, NULL, 0);
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
#else
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
for (i = 1; i < num_cpu; i ++) {
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
AXPYU_K(m - range_m[i], 0, 0, ONE,
|
|
kusano |
2b45e8 |
#ifdef COMPLEX
|
|
kusano |
2b45e8 |
ZERO,
|
|
kusano |
2b45e8 |
#endif
|
|
kusano |
2b45e8 |
buffer + (range_n[i] + range_m[i]) * COMPSIZE, 1, buffer + range_m[i] * COMPSIZE, 1, NULL, 0);
|
|
kusano |
2b45e8 |
}
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
AXPYU_K(m, 0, 0,
|
|
kusano |
2b45e8 |
#ifndef COMPLEX
|
|
kusano |
2b45e8 |
alpha,
|
|
kusano |
2b45e8 |
#else
|
|
kusano |
2b45e8 |
alpha[0], alpha[1],
|
|
kusano |
2b45e8 |
#endif
|
|
kusano |
2b45e8 |
buffer, 1, y, incy, NULL, 0);
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
#endif
|
|
kusano |
2b45e8 |
|
|
kusano |
2b45e8 |
return 0;
|
|
kusano |
2b45e8 |
}
|