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OpenBLAS/kernel/x86_64/ctrsm_kernel_LT_bulldozer.c

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/*********************************************************************/
/* Copyright 2009, 2010 The University of Texas at Austin. */
/* All rights reserved. */
/* */
/* Redistribution and use in source and binary forms, with or */
/* without modification, are permitted provided that the following */
/* conditions are met: */
/* */
/* 1. Redistributions of source code must retain the above */
/* copyright notice, this list of conditions and the following */
/* disclaimer. */
/* */
/* 2. Redistributions in binary form must reproduce the above */
/* copyright notice, this list of conditions and the following */
/* disclaimer in the documentation and/or other materials */
/* provided with the distribution. */
/* */
/* THIS SOFTWARE IS PROVIDED BY THE UNIVERSITY OF TEXAS AT */
/* AUSTIN ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, */
/* INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF */
/* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE */
/* DISCLAIMED. IN NO EVENT SHALL THE UNIVERSITY OF TEXAS AT */
/* AUSTIN OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, */
/* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES */
/* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE */
/* GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR */
/* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF */
/* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT */
/* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT */
/* OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE */
/* POSSIBILITY OF SUCH DAMAGE. */
/* */
/* The views and conclusions contained in the software and */
/* documentation are those of the authors and should not be */
/* interpreted as representing official policies, either expressed */
/* or implied, of The University of Texas at Austin. */
/*********************************************************************/
#include "common.h"
static FLOAT dm1 = -1.;
#ifdef CONJ
#define GEMM_KERNEL GEMM_KERNEL_L
#else
#define GEMM_KERNEL GEMM_KERNEL_N
#endif
#if GEMM_DEFAULT_UNROLL_M == 1
#define GEMM_UNROLL_M_SHIFT 0
#endif
#if GEMM_DEFAULT_UNROLL_M == 2
#define GEMM_UNROLL_M_SHIFT 1
#endif
#if GEMM_DEFAULT_UNROLL_M == 4
#define GEMM_UNROLL_M_SHIFT 2
#endif
#if GEMM_DEFAULT_UNROLL_M == 6
#define GEMM_UNROLL_M_SHIFT 2
#endif
#if GEMM_DEFAULT_UNROLL_M == 8
#define GEMM_UNROLL_M_SHIFT 3
#endif
#if GEMM_DEFAULT_UNROLL_M == 16
#define GEMM_UNROLL_M_SHIFT 4
#endif
#if GEMM_DEFAULT_UNROLL_N == 1
#define GEMM_UNROLL_N_SHIFT 0
#endif
#if GEMM_DEFAULT_UNROLL_N == 2
#define GEMM_UNROLL_N_SHIFT 1
#endif
#if GEMM_DEFAULT_UNROLL_N == 4
#define GEMM_UNROLL_N_SHIFT 2
#endif
#if GEMM_DEFAULT_UNROLL_N == 8
#define GEMM_UNROLL_N_SHIFT 3
#endif
#if GEMM_DEFAULT_UNROLL_N == 16
#define GEMM_UNROLL_N_SHIFT 4
#endif
#ifndef CONJ
static void ctrsm_LT_solve_opt(BLASLONG n, FLOAT *a, FLOAT *b, FLOAT *c, BLASLONG ldc, FLOAT *as, FLOAT *bs) __attribute__ ((noinline));
static void ctrsm_LT_solve_opt(BLASLONG n, FLOAT *a, FLOAT *b, FLOAT *c, BLASLONG ldc, FLOAT *as, FLOAT *bs)
{
FLOAT *c1 = c + ldc*2 ;
BLASLONG n1 = n * 4;
BLASLONG i=0;
__asm__ __volatile__
(
" vzeroupper \n\t"
" prefetcht0 (%4) \n\t"
" prefetcht0 (%5) \n\t"
" vxorps %%xmm8 , %%xmm8 , %%xmm8 \n\t"
" vxorps %%xmm9 , %%xmm9 , %%xmm9 \n\t"
" vxorps %%xmm10, %%xmm10, %%xmm10 \n\t"
" vxorps %%xmm11, %%xmm11, %%xmm11 \n\t"
" vxorps %%xmm12, %%xmm12, %%xmm12 \n\t"
" vxorps %%xmm13, %%xmm13, %%xmm13 \n\t"
" vxorps %%xmm14, %%xmm14, %%xmm14 \n\t"
" vxorps %%xmm15, %%xmm15, %%xmm15 \n\t"
" cmpq $0, %0 \n\t"
" je 3f \n\t"
" .align 16 \n\t"
"1: \n\t"
" vbroadcastss (%3,%1,4), %%xmm0 \n\t" // b0 real, b0 real
" vbroadcastss 4(%3,%1,4), %%xmm1 \n\t" // b0 imag, b0 imag
" vbroadcastss 8(%3,%1,4), %%xmm2 \n\t" // b1 real, b1 real
" vbroadcastss 12(%3,%1,4), %%xmm3 \n\t" // b1 imag, b1 imag
" vmovups (%2,%1,8), %%xmm4 \n\t" // a0 real , a0 imag
" vmovups 16(%2,%1,8), %%xmm5 \n\t" // a1 real , a1 imag
" vfnmaddps %%xmm8 , %%xmm0 , %%xmm4 , %%xmm8 \n\t" // a_real * b_real , a_imag * b_real
" vfnmaddps %%xmm9 , %%xmm1 , %%xmm4 , %%xmm9 \n\t" // a_real * b_imag , a_imag * b_imag
" vfnmaddps %%xmm10, %%xmm0 , %%xmm5 , %%xmm10 \n\t" // a_real * b_real , a_imag * b_real
" vfnmaddps %%xmm11, %%xmm1 , %%xmm5 , %%xmm11 \n\t" // a_real * b_imag , a_imag * b_imag
" vfnmaddps %%xmm12, %%xmm2 , %%xmm4 , %%xmm12 \n\t" // a_real * b_real , a_imag * b_real
" vfnmaddps %%xmm13, %%xmm3 , %%xmm4 , %%xmm13 \n\t" // a_real * b_imag , a_imag * b_imag
" vfnmaddps %%xmm14, %%xmm2 , %%xmm5 , %%xmm14 \n\t" // a_real * b_real , a_imag * b_real
" vfnmaddps %%xmm15, %%xmm3 , %%xmm5 , %%xmm15 \n\t" // a_real * b_imag , a_imag * b_imag
" addq $4, %1 \n\t"
" cmpq %1, %0 \n\t"
" jnz 1b \n\t"
"2: \n\t"
" vshufps $0xb1 , %%xmm9 , %%xmm9, %%xmm9 \n\t"
" vshufps $0xb1 , %%xmm11 , %%xmm11 , %%xmm11 \n\t"
" vshufps $0xb1 , %%xmm13 , %%xmm13 , %%xmm13 \n\t"
" vshufps $0xb1 , %%xmm15 , %%xmm15 , %%xmm15 \n\t"
" vaddsubps %%xmm8 , %%xmm9 , %%xmm8 \n\t"
" vaddsubps %%xmm10, %%xmm11, %%xmm10 \n\t"
" vaddsubps %%xmm12, %%xmm13, %%xmm12 \n\t"
" vaddsubps %%xmm14, %%xmm15, %%xmm14 \n\t"
" vxorps %%xmm7 , %%xmm7 , %%xmm7 \n\t"
" vaddsubps %%xmm8 , %%xmm7 , %%xmm8 \n\t"
" vaddsubps %%xmm10, %%xmm7 , %%xmm10 \n\t"
" vaddsubps %%xmm12, %%xmm7 , %%xmm12 \n\t"
" vaddsubps %%xmm14, %%xmm7 , %%xmm14 \n\t"
" vmovups (%4) , %%xmm0 \n\t"
" vmovups 16(%4) , %%xmm1 \n\t"
" vmovups (%5) , %%xmm4 \n\t"
" vmovups 16(%5) , %%xmm5 \n\t"
" vaddps %%xmm0 , %%xmm8 , %%xmm8 \n\t"
" vaddps %%xmm1 , %%xmm10, %%xmm10 \n\t"
" vaddps %%xmm4 , %%xmm12, %%xmm12 \n\t"
" vaddps %%xmm5 , %%xmm14, %%xmm14 \n\t"
" vmovups %%xmm8 , (%4) \n\t"
" vmovups %%xmm10 ,16(%4) \n\t"
" vmovups %%xmm12 , (%5) \n\t"
" vmovups %%xmm14 ,16(%5) \n\t"
"3: \n\t"
" vzeroupper \n\t"
:
:
"r" (n1), // 0
"a" (i), // 1
"r" (a), // 2
"r" (b), // 3
"r" (c), // 4
"r" (c1), // 5
"r" (as), // 6
"r" (bs) // 7
: "cc",
"%xmm0", "%xmm1", "%xmm2", "%xmm3",
"%xmm4", "%xmm5", "%xmm6", "%xmm7",
"%xmm8", "%xmm9", "%xmm10", "%xmm11",
"%xmm12", "%xmm13", "%xmm14", "%xmm15",
"memory"
);
}
#endif
#ifndef COMPLEX
static inline void solve(BLASLONG m, BLASLONG n, FLOAT *a, FLOAT *b, FLOAT *c, BLASLONG ldc) {
FLOAT aa, bb;
int i, j, k;
for (i = 0; i < m; i++) {
aa = *(a + i);
for (j = 0; j < n; j ++) {
bb = *(c + i + j * ldc);
bb *= aa;
*b = bb;
*(c + i + j * ldc) = bb;
b ++;
for (k = i + 1; k < m; k ++){
*(c + k + j * ldc) -= bb * *(a + k);
}
}
a += m;
}
}
#else
static inline void solve(BLASLONG m, BLASLONG n, FLOAT *a, FLOAT *b, FLOAT *c, BLASLONG ldc) {
FLOAT aa1, aa2;
FLOAT bb1, bb2;
FLOAT cc1, cc2;
int i, j, k;
ldc *= 2;
for (i = 0; i < m; i++) {
aa1 = *(a + i * 2 + 0);
aa2 = *(a + i * 2 + 1);
for (j = 0; j < n; j ++) {
bb1 = *(c + i * 2 + 0 + j * ldc);
bb2 = *(c + i * 2 + 1 + j * ldc);
#ifndef CONJ
cc1 = aa1 * bb1 - aa2 * bb2;
cc2 = aa1 * bb2 + aa2 * bb1;
#else
cc1 = aa1 * bb1 + aa2 * bb2;
cc2 = aa1 * bb2 - aa2 * bb1;
#endif
*(b + 0) = cc1;
*(b + 1) = cc2;
*(c + i * 2 + 0 + j * ldc) = cc1;
*(c + i * 2 + 1 + j * ldc) = cc2;
b += 2;
for (k = i + 1; k < m; k ++){
#ifndef CONJ
*(c + k * 2 + 0 + j * ldc) -= cc1 * *(a + k * 2 + 0) - cc2 * *(a + k * 2 + 1);
*(c + k * 2 + 1 + j * ldc) -= cc1 * *(a + k * 2 + 1) + cc2 * *(a + k * 2 + 0);
#else
*(c + k * 2 + 0 + j * ldc) -= cc1 * *(a + k * 2 + 0) + cc2 * *(a + k * 2 + 1);
*(c + k * 2 + 1 + j * ldc) -= -cc1 * *(a + k * 2 + 1) + cc2 * *(a + k * 2 + 0);
#endif
}
}
a += m * 2;
}
}
#endif
int CNAME(BLASLONG m, BLASLONG n, BLASLONG k, FLOAT dummy1,
#ifdef COMPLEX
FLOAT dummy2,
#endif
FLOAT *a, FLOAT *b, FLOAT *c, BLASLONG ldc, BLASLONG offset){
FLOAT *aa, *cc;
BLASLONG kk;
BLASLONG i, j, jj;
#if 0
fprintf(stderr, "TRSM KERNEL LT : m = %3ld n = %3ld k = %3ld offset = %3ld\n",
m, n, k, offset);
#endif
jj = 0;
j = (n >> GEMM_UNROLL_N_SHIFT);
while (j > 0) {
kk = offset;
aa = a;
cc = c;
i = (m >> GEMM_UNROLL_M_SHIFT);
while (i > 0) {
#ifdef CONJ
if (kk > 0) {
GEMM_KERNEL(GEMM_UNROLL_M, GEMM_UNROLL_N, kk, dm1,
#ifdef COMPLEX
ZERO,
#endif
aa, b, cc, ldc);
}
solve(GEMM_UNROLL_M, GEMM_UNROLL_N,
aa + kk * GEMM_UNROLL_M * COMPSIZE,
b + kk * GEMM_UNROLL_N * COMPSIZE,
cc, ldc);
#else
ctrsm_LT_solve_opt(kk, aa, b, cc, ldc, aa + kk * GEMM_UNROLL_M * COMPSIZE, b + kk * GEMM_UNROLL_N * COMPSIZE);
solve(GEMM_UNROLL_M, GEMM_UNROLL_N,
aa + kk * GEMM_UNROLL_M * COMPSIZE,
b + kk * GEMM_UNROLL_N * COMPSIZE,
cc, ldc);
#endif
aa += GEMM_UNROLL_M * k * COMPSIZE;
cc += GEMM_UNROLL_M * COMPSIZE;
kk += GEMM_UNROLL_M;
i --;
}
if (m & (GEMM_UNROLL_M - 1)) {
i = (GEMM_UNROLL_M >> 1);
while (i > 0) {
if (m & i) {
if (kk > 0) {
GEMM_KERNEL(i, GEMM_UNROLL_N, kk, dm1,
#ifdef COMPLEX
ZERO,
#endif
aa, b, cc, ldc);
}
solve(i, GEMM_UNROLL_N,
aa + kk * i * COMPSIZE,
b + kk * GEMM_UNROLL_N * COMPSIZE,
cc, ldc);
aa += i * k * COMPSIZE;
cc += i * COMPSIZE;
kk += i;
}
i >>= 1;
}
}
b += GEMM_UNROLL_N * k * COMPSIZE;
c += GEMM_UNROLL_N * ldc * COMPSIZE;
j --;
jj += GEMM_UNROLL_M;
}
if (n & (GEMM_UNROLL_N - 1)) {
j = (GEMM_UNROLL_N >> 1);
while (j > 0) {
if (n & j) {
kk = offset;
aa = a;
cc = c;
i = (m >> GEMM_UNROLL_M_SHIFT);
while (i > 0) {
if (kk > 0) {
GEMM_KERNEL(GEMM_UNROLL_M, j, kk, dm1,
#ifdef COMPLEX
ZERO,
#endif
aa,
b,
cc,
ldc);
}
solve(GEMM_UNROLL_M, j,
aa + kk * GEMM_UNROLL_M * COMPSIZE,
b + kk * j * COMPSIZE, cc, ldc);
aa += GEMM_UNROLL_M * k * COMPSIZE;
cc += GEMM_UNROLL_M * COMPSIZE;
kk += GEMM_UNROLL_M;
i --;
}
if (m & (GEMM_UNROLL_M - 1)) {
i = (GEMM_UNROLL_M >> 1);
while (i > 0) {
if (m & i) {
if (kk > 0) {
GEMM_KERNEL(i, j, kk, dm1,
#ifdef COMPLEX
ZERO,
#endif
aa,
b,
cc,
ldc);
}
solve(i, j,
aa + kk * i * COMPSIZE,
b + kk * j * COMPSIZE, cc, ldc);
aa += i * k * COMPSIZE;
cc += i * COMPSIZE;
kk += i;
}
i >>= 1;
}
}
b += j * k * COMPSIZE;
c += j * ldc * COMPSIZE;
}
j >>= 1;
}
}
return 0;
}
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