atl_smm_sse1_k.c

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/* *             Automatically Tuned Linear Algebra Software v3.8.0 *                   (C) Copyright 2000 Peter Soendergaard * * 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. *   3. The name of the ATLAS group or the names of its contributers may *      not be used to endorse or promote products derived from this *      software without specific written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * ``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 ATLAS GROUP OR ITS 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. * *//* * This file combines all of Peter Soendergaard's K-cleanup routines, and * then uses Camm Maguire's general routine for other cases of K-cleanup. *//*****************************************************************************//*                             ATL_mm_sse1_4K.c                              *//*****************************************************************************/#if (KB == 4)#define SSE#include "SSE3Dnow.h"#include "atlas_misc.h"void ATL_USERMM(const int M, const int N, const int K, const float alpha, const float *A, const int lda, const float *B, const int ldb, const float beta, float *C, const int ldc){   /*--- program info ---*/   /*  $Revision: 1.3 $  */   /*  loadfirst = 'a'  */   /*  nu = 1  */   /*  problem = 'gemm'  */   /*  nregs = 8  */   /*  split = 0  */   /*  n_cleanup = {}  */   /*  mu = 4  */   /*  k_loop = None  */   /*  rev = '$Revision: 1.3 $'  */   /*  applyfilter = 0  */   /*  align_jumps = 0  */   /*  prec = 'single'  */   /*  m_cleanup = {}  */   /*  k_cleanup = {'mustfit': 56, 'method': 'acc1', 'compile': 1}  */   /*  outputdir = 'Linux_PIII/'  */   /*  arch = 'sse'  */   /*  pipelength = 2  */   /*  used_lastuse = 'b'  */   /*  ku = 4  */   /*  atlasname = 'Linux_PIII'  */   /*  method = 'acc'  */   /*  used_outside_len = 4  */   /*  used_directload_a = 1  */   /*  outside_len = 4  */   /*  veclen = 4  */   /*  sched = ['fuse', 'spread']  */   /*  used_directload_b = 0  */   /*  lastuse = 1  */   /*--- achitecture specific declarations ---*/   /*--- program specific declarations ---*/   int i, j, k;   vector betavec;   vector zerovec = {0.0,0.0,0.0,0.0};   const float *pA0 = A;   const float *pB0 = B;   float *pC0 = C;   const float *stM = A + MB*KB;   const float *stN = B + NB*KB;   const int incAm = 4*KB-KB+4;   const int incBm = -KB+4;   const int incCm = (4 SHIFT);   const int incAn = -MB*KB;   const int incBn = 1*KB;   const int incCn = ((ldc*1-MB) SHIFT);   /*--- initial arhitecture specific statements ---*/   /*--- main program statements ---*/   vec_mov_mr_1(&beta,reg0);   vec_mov_rm(reg0,betavec);   do /* N-loop */   {      do /* M-loop */      {#ifdef BETA0         vec_mov_mr(zerovec,reg7);         vec_mov_rr(reg7,reg0);         vec_mov_rr(reg7,reg1);         vec_mov_rr(reg7,reg2);         vec_mov_rr(reg7,reg3);#elif defined(BETA1)         vec_mov_mr_1(pC0,reg0);         vec_mov_mr_1(pC0+(1 SHIFT),reg1);         vec_mov_mr_1(pC0+(2 SHIFT),reg2);         vec_mov_mr_1(pC0+(3 SHIFT),reg3);#else         vec_mov_mr(betavec,reg7);         vec_mov_mr_1(pC0,reg0);         vec_mul_rr(reg7,reg0);         vec_mov_mr_1(pC0+(1 SHIFT),reg1);         vec_mul_rr(reg7,reg1);         vec_mov_mr_1(pC0+(2 SHIFT),reg2);         vec_mul_rr(reg7,reg2);         vec_mov_mr_1(pC0+(3 SHIFT),reg3);         vec_mul_rr(reg7,reg3);#endif         vec_mov_mr_a(pB0,reg6);         vec_mov_mr_a(pA0,reg4);         vec_mov_mr_a(pA0+KB,reg5);         vec_mul_rr(reg6,reg4);         vec_add_rr(reg4,reg0);         vec_mul_rr(reg6,reg5);         vec_add_rr(reg5,reg1);         vec_mov_mr_a(pA0+2*KB,reg4);         vec_mul_rr(reg6,reg4);         vec_add_rr(reg4,reg2);         vec_mul_mr_a(pA0+3*KB,reg6);         vec_add_rr(reg6,reg3);#ifndef TCPLX         vec_sum_full(reg0,reg1,reg2,reg3,reg5,reg6,reg7);         vec_mov_rm(reg5,pC0);#else         vec_sum(reg0);         vec_sum(reg1);         vec_sum(reg2);         vec_sum(reg3);         vec_mov_rm_1(reg0,pC0);         vec_mov_rm_1(reg1,pC0+(1 SHIFT));         vec_mov_rm_1(reg2,pC0+(2 SHIFT));         vec_mov_rm_1(reg3,pC0+(3 SHIFT));#endif         pA0 += incAm;         pB0 += incBm;         pC0 += incCm;      }      while(pA0 != stM);      pA0 += incAn;      pB0 += incBn;      pC0 += incCn;   }   while(pB0 != stN);   }/*****************************************************************************//*                             ATL_mm_sse1_8K.c                              *//*****************************************************************************/#elif (KB == 8)#define SSE#include "SSE3Dnow.h"#include "atlas_misc.h"void ATL_USERMM(const int M, const int N, const int K, const float alpha, const float *A, const int lda, const float *B, const int ldb, const float beta, float *C, const int ldc){   /*--- program info ---*/   /*  $Revision: 1.3 $  */   /*  loadfirst = 'a'  */   /*  nu = 1  */   /*  problem = 'gemm'  */   /*  nregs = 8  */   /*  split = 0  */   /*  n_cleanup = {}  */   /*  mu = 4  */   /*  k_loop = None  */   /*  rev = '$Revision: 1.3 $'  */   /*  applyfilter = 0  */   /*  align_jumps = 0  */   /*  prec = 'single'  */   /*  m_cleanup = {}  */   /*  k_cleanup = {'mustfit': 56, 'method': 'acc1', 'compile': 1}  */   /*  outputdir = 'Linux_PIII/'  */   /*  arch = 'sse'  */   /*  pipelength = 2  */   /*  used_lastuse = 'b'  */   /*  ku = 4  */   /*  atlasname = 'Linux_PIII'  */   /*  method = 'acc'  */   /*  used_outside_len = 8  */   /*  used_directload_a = 1  */   /*  outside_len = 8  */   /*  veclen = 4  */   /*  sched = ['fuse', 'spread']  */   /*  used_directload_b = 0  */   /*  lastuse = 1  */   /*--- achitecture specific declarations ---*/   /*--- program specific declarations ---*/   int i, j, k;   vector betavec;   vector zerovec = {0.0,0.0,0.0,0.0};   const float *pA0 = A;   const float *pB0 = B;   float *pC0 = C;   const float *stM = A + MB*KB;   const float *stN = B + NB*KB;   const int incAm = 4*KB-KB+8;   const int incBm = -KB+8;   const int incCm = (4 SHIFT);   const int incAn = -MB*KB;   const int incBn = 1*KB;   const int incCn = ((ldc*1-MB) SHIFT);   /*--- initial arhitecture specific statements ---*/   /*--- main program statements ---*/   vec_mov_mr_1(&beta,reg0);   vec_mov_rm(reg0,betavec);   do /* N-loop */   {      do /* M-loop */      {#ifdef BETA0         vec_mov_mr(zerovec,reg7);         vec_mov_rr(reg7,reg0);         vec_mov_rr(reg7,reg1);         vec_mov_rr(reg7,reg2);         vec_mov_rr(reg7,reg3);#elif defined(BETA1)         vec_mov_mr_1(pC0,reg0);         vec_mov_mr_1(pC0+(1 SHIFT),reg1);         vec_mov_mr_1(pC0+(2 SHIFT),reg2);         vec_mov_mr_1(pC0+(3 SHIFT),reg3);#else         vec_mov_mr(betavec,reg7);         vec_mov_mr_1(pC0,reg0);         vec_mul_rr(reg7,reg0);         vec_mov_mr_1(pC0+(1 SHIFT),reg1);         vec_mul_rr(reg7,reg1);         vec_mov_mr_1(pC0+(2 SHIFT),reg2);         vec_mul_rr(reg7,reg2);         vec_mov_mr_1(pC0+(3 SHIFT),reg3);         vec_mul_rr(reg7,reg3);#endif         vec_mov_mr_a(pB0,reg6);         vec_mov_mr_a(pA0,reg4);         vec_mov_mr_a(pA0+KB,reg5);         vec_mul_rr(reg6,reg4);         vec_add_rr(reg4,reg0);         vec_mul_rr(reg6,reg5);         vec_add_rr(reg5,reg1);         vec_mov_mr_a(pA0+2*KB,reg4);         vec_mul_rr(reg6,reg4);         vec_add_rr(reg4,reg2);         vec_mul_mr_a(pA0+3*KB,reg6);         vec_add_rr(reg6,reg3);         vec_mov_mr_a(pB0+4,reg6);         vec_mov_mr_a(pA0+4,reg4);         vec_mov_mr_a(pA0+4+KB,reg5);         vec_mul_rr(reg6,reg4);         vec_add_rr(reg4,reg0);         vec_mul_rr(reg6,reg5);         vec_add_rr(reg5,reg1);         vec_mov_mr_a(pA0+4+2*KB,reg4);         vec_mul_rr(reg6,reg4);         vec_add_rr(reg4,reg2);         vec_mul_mr_a(pA0+4+3*KB,reg6);         vec_add_rr(reg6,reg3);#ifndef TCPLX         vec_sum_full(reg0,reg1,reg2,reg3,reg5,reg6,reg7);         vec_mov_rm(reg5,pC0);#else         vec_sum(reg0);         vec_sum(reg1);         vec_sum(reg2);         vec_sum(reg3);         vec_mov_rm_1(reg0,pC0);         vec_mov_rm_1(reg1,pC0+(1 SHIFT));         vec_mov_rm_1(reg2,pC0+(2 SHIFT));         vec_mov_rm_1(reg3,pC0+(3 SHIFT));#endif         pA0 += incAm;         pB0 += incBm;         pC0 += incCm;      }      while(pA0 != stM);      pA0 += incAn;      pB0 += incBn;      pC0 += incCn;   }   while(pB0 != stN);   }/*****************************************************************************//*                             ATL_mm_sse1_12K.c                             *//*****************************************************************************/#elif (KB == 12)#define SSE#include "SSE3Dnow.h"#include "atlas_misc.h"void ATL_USERMM(const int M, const int N, const int K, const float alpha, const float *A, const int lda, const float *B, const int ldb, const float beta, float *C, const int ldc){   /*--- program info ---*/   /*  $Revision: 1.3 $  */   /*  loadfirst = 'a'  */   /*  nu = 1  */   /*  problem = 'gemm'  */   /*  nregs = 8  */   /*  split = 0  */   /*  n_cleanup = {}  */   /*  mu = 4  */   /*  k_loop = None  */   /*  rev = '$Revision: 1.3 $'  */   /*  applyfilter = 0  */   /*  align_jumps = 0  */   /*  prec = 'single'  */   /*  m_cleanup = {}  */   /*  k_cleanup = {'mustfit': 56, 'method': 'acc1', 'compile': 1}  */   /*  outputdir = 'Linux_PIII/'  */   /*  arch = 'sse'  */   /*  pipelength = 2  */   /*  used_lastuse = 'b'  */   /*  ku = 4  */   /*  atlasname = 'Linux_PIII'  */   /*  method = 'acc'  */   /*  used_outside_len = 12  */   /*  used_directload_a = 1  */   /*  outside_len = 12  */   /*  veclen = 4  */   /*  sched = ['fuse', 'spread']  */   /*  used_directload_b = 0  */   /*  lastuse = 1  */   /*--- achitecture specific declarations ---*/   /*--- program specific declarations ---*/   int i, j, k;   vector betavec;   vector zerovec = {0.0,0.0,0.0,0.0};   const float *pA0 = A;   const float *pB0 = B;   float *pC0 = C;   const float *stM = A + MB*KB;   const float *stN = B + NB*KB;   const int incAm = 4*KB-KB+12;   const int incBm = -KB+12;   const int incCm = (4 SHIFT);   const int incAn = -MB*KB;   const int incBn = 1*KB;   const int incCn = ((ldc*1-MB) SHIFT);   /*--- initial arhitecture specific statements ---*/   /*--- main program statements ---*/   vec_mov_mr_1(&beta,reg0);   vec_mov_rm(reg0,betavec);   do /* N-loop */   {      do /* M-loop */      {#ifdef BETA0         vec_mov_mr(zerovec,reg7);         vec_mov_rr(reg7,reg0);         vec_mov_rr(reg7,reg1);         vec_mov_rr(reg7,reg2);         vec_mov_rr(reg7,reg3);#elif defined(BETA1)         vec_mov_mr_1(pC0,reg0);         vec_mov_mr_1(pC0+(1 SHIFT),reg1);         vec_mov_mr_1(pC0+(2 SHIFT),reg2);         vec_mov_mr_1(pC0+(3 SHIFT),reg3);#else         vec_mov_mr(betavec,reg7);         vec_mov_mr_1(pC0,reg0);         vec_mul_rr(reg7,reg0);         vec_mov_mr_1(pC0+(1 SHIFT),reg1);         vec_mul_rr(reg7,reg1);         vec_mov_mr_1(pC0+(2 SHIFT),reg2);         vec_mul_rr(reg7,reg2);         vec_mov_mr_1(pC0+(3 SHIFT),reg3);         vec_mul_rr(reg7,reg3);#endif         vec_mov_mr_a(pB0,reg6);         vec_mov_mr_a(pA0,reg4);         vec_mov_mr_a(pA0+KB,reg5);         vec_mul_rr(reg6,reg4);         vec_add_rr(reg4,reg0);         vec_mul_rr(reg6,reg5);         vec_add_rr(reg5,reg1);         vec_mov_mr_a(pA0+2*KB,reg4);         vec_mul_rr(reg6,reg4);         vec_add_rr(reg4,reg2);         vec_mul_mr_a(pA0+3*KB,reg6);         vec_add_rr(reg6,reg3);         vec_mov_mr_a(pB0+4,reg7);         vec_mov_mr_a(pA0+4,reg5);         vec_mov_mr_a(pA0+4+KB,reg4);         vec_mul_rr(reg7,reg5);         vec_add_rr(reg5,reg0);         vec_mul_rr(reg7,reg4);         vec_add_rr(reg4,reg1);         vec_mov_mr_a(pA0+4+2*KB,reg4);         vec_mul_rr(reg7,reg4);         vec_add_rr(reg4,reg2);         vec_mul_mr_a(pA0+4+3*KB,reg7);         vec_add_rr(reg7,reg3);         vec_mov_mr_a(pB0+8,reg6);         vec_mov_mr_a(pA0+8,reg4);         vec_mov_mr_a(pA0+8+KB,reg5);         vec_mul_rr(reg6,reg4);         vec_add_rr(reg4,reg0);         vec_mul_rr(reg6,reg5);         vec_add_rr(reg5,reg1);         vec_mov_mr_a(pA0+8+2*KB,reg4);         vec_mul_rr(reg6,reg4);         vec_add_rr(reg4,reg2);

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