atl_mm4x4x4_av.c
来自「基于Blas CLapck的.用过的人知道是干啥的」· C语言 代码 · 共 312 行
C
312 行
/* * Automatically Tuned Linear Algebra Software v3.8.0 * (C) Copyright 2001 R. Clint Whaley * * 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. * */#include "atlas_misc.h"#define ATL_NoFakePF#include "atlas_prefetch.h"#ifdef MB #if (MB/4)*4 != MB #error MB must be a multiple of 4. #endif#endif#ifdef NB #if (NB/4)*4 != NB #error NB must be a multiple of 4. #endif#endif#ifndef KB #error This kernel requires constant KB#elif (KB/4)*4 != KB || KB == 0 #error KB must be multiple of 4#endifvoid ATL_USERMM (const int M, const int N, const int K, const TYPE alpha, const TYPE *A, const int lda, const TYPE *B, const int ldb, const TYPE beta, TYPE *C, const int ldc)/* * matmul with muladd=1, TA=T, TB=N, mu=4, nu=4, ku=2, prefetching A and B */{ const TYPE *stM = A + KB*M; const TYPE *stN = B + KB*N; #ifdef ATL_AltiVec int blkstride, cwrdKB, cwrdC=ATL_MulBySize(8); #endif const int incAn = -KB*M; const int incBm = -KB; #define incAm KB3 #define incBn KB4 #ifdef TREAL #define incCm 4 const int incCn = (((ldc) << 2)) - M; #else #define incCm 8 const int incCn = (((ldc) << 3)) - (M+M); #endif TYPE *pC0=C, *pC1=pC0+(ldc SHIFT), *pC2=pC1+(ldc SHIFT),*pC3=pC2+(ldc SHIFT); TYPE *bp = (TYPE *) β const TYPE *pA0=A; const TYPE *pB0=B; register int k; register TYPE rA0, rA1, rA2, rA3, rB0, rB1, rB2, rB3; register TYPE rC0_0, rC1_0, rC2_0, rC3_0, rC0_1, rC1_1, rC2_1, rC3_1, rC0_2, rC1_2, rC2_2, rC3_2, rC0_3, rC1_3, rC2_3, rC3_3; #ifdef ATL_AltiVec/* * k is blkcount, cwrdKB is block size */ k = 1; /* blkcount set to 1 unless KB too large */ cwrdKB = (ATL_MulBySize(KB)+15) >> 4; /* # of 16-byte words in KB */ while (cwrdKB > 32) { cwrdKB >>= 1; k <<= 1; } if (cwrdKB == 32) cwrdKB = 0; blkstride = (KB * sizeof(TYPE)) / k; ATL_pfavR(A, ATL_GetCtrl(blkstride, k*KB, cwrdKB), 3); cwrdKB = ATL_GetCtrl(blkstride, k, cwrdKB); if (cwrdC >= 16) cwrdC >>= 4; else cwrdC = 1; cwrdC = ATL_GetCtrl(0, 1, cwrdC); #endif do /* N-loop */ { ATL_pfavR(pB0, cwrdKB, 0); ATL_pfavR(pB0+KB , cwrdKB, 1); ATL_pfavR(pB0+KB2, cwrdKB, 2); ATL_pfavR(pB0+KB3, cwrdKB, 3); do /* M-loop */ { #ifdef BETA0 rC0_0 = rC1_0 = rC2_0 = rC3_0 = rC0_1 = rC1_1 = rC2_1 = rC3_1 = rC0_2 = rC1_2 = rC2_2 = rC3_2 = rC0_3 = rC1_3 = rC2_3 = rC3_3 = ATL_rzero; #else #ifdef TREAL rC0_0 = *pC0; rC1_0 = pC0[1]; rC2_0 = pC0[2]; rC3_0 = pC0[3]; rC0_1 = *pC1; rC1_1 = pC1[1]; rC2_1 = pC1[2]; rC3_1 = pC1[3]; rC0_2 = *pC2; rC1_2 = pC2[1]; rC2_2 = pC2[2]; rC3_2 = pC2[3]; rC0_3 = *pC3; rC1_3 = pC3[1]; rC2_3 = pC3[2]; rC3_3 = pC3[3]; #else rC0_0 = *pC0; rC1_0 = pC0[2]; rC2_0 = pC0[4]; rC3_0 = pC0[6]; rC0_1 = *pC1; rC1_1 = pC1[2]; rC2_1 = pC1[4]; rC3_1 = pC1[6]; rC0_2 = *pC2; rC1_2 = pC2[2]; rC2_2 = pC2[4]; rC3_2 = pC2[6]; rC0_3 = *pC3; rC1_3 = pC3[2]; rC2_3 = pC3[4]; rC3_3 = pC3[6]; #endif #ifdef BETAX rA0 = *bp; rC0_0 *= rA0; rC1_0 *= rA0; rC2_0 *= rA0; rC3_0 *= rA0; rC0_1 *= rA0; rC1_1 *= rA0; rC2_1 *= rA0; rC3_1 *= rA0; rC0_2 *= rA0; rC1_2 *= rA0; rC2_2 *= rA0; rC3_2 *= rA0; rC0_3 *= rA0; rC1_3 *= rA0; rC2_3 *= rA0; rC3_3 *= rA0; #endif #endif rA0 = *pA0; rA1 = pA0[KB]; rA2 = pA0[KB2]; rA3 = pA0[KB3]; pA0++; rB0 = *pB0; rB1 = pB0[KB]; rB2 = pB0[KB2]; rB3 = pB0[KB3]; pB0++; for (k=(KB>>2)-1; k; k --) /* easy loop to unroll */ { rC0_0 += rA0 * rB0; rC1_0 += rA1 * rB0; rC2_0 += rA2 * rB0; rC3_0 += rA3 * rB0; rB0 = *pB0; rC0_1 += rA0 * rB1; rC1_1 += rA1 * rB1; rC2_1 += rA2 * rB1; rC3_1 += rA3 * rB1; rB1 = pB0[KB]; rC0_2 += rA0 * rB2; rC1_2 += rA1 * rB2; rC2_2 += rA2 * rB2; rC3_2 += rA3 * rB2; rB2 = pB0[KB2]; rC0_3 += rA0 * rB3; rA0 = *pA0; rC1_3 += rA1 * rB3; rA1 = pA0[KB]; rC2_3 += rA2 * rB3; rA2 = pA0[KB2]; rC3_3 += rA3 * rB3; rA3 = pA0[KB3]; rC0_0 += rA0 * rB0; rB3 = pB0[KB3]; rC1_0 += rA1 * rB0; rC2_0 += rA2 * rB0; rC3_0 += rA3 * rB0; rB0 = pB0[1]; rC0_1 += rA0 * rB1; rC1_1 += rA1 * rB1; rC2_1 += rA2 * rB1; rC3_1 += rA3 * rB1; rB1 = pB0[KB+1]; rC0_2 += rA0 * rB2; rC1_2 += rA1 * rB2; rC2_2 += rA2 * rB2; rC3_2 += rA3 * rB2; rB2 = pB0[KB2+1]; rC0_3 += rA0 * rB3; rA0 = pA0[1]; rC1_3 += rA1 * rB3; rA1 = pA0[KB+1]; rC2_3 += rA2 * rB3; rA2 = pA0[KB2+1]; rC3_3 += rA3 * rB3; rA3 = pA0[KB3+1]; rC0_0 += rA0 * rB0; rB3 = pB0[KB3+1]; rC1_0 += rA1 * rB0; rC2_0 += rA2 * rB0; rC3_0 += rA3 * rB0; rB0 = pB0[2]; rC0_1 += rA0 * rB1; rC1_1 += rA1 * rB1; rC2_1 += rA2 * rB1; rC3_1 += rA3 * rB1; rB1 = pB0[KB+2]; rC0_2 += rA0 * rB2; rC1_2 += rA1 * rB2; rC2_2 += rA2 * rB2; rC3_2 += rA3 * rB2; rB2 = pB0[KB2+2]; rC0_3 += rA0 * rB3; rA0 = pA0[2]; rC1_3 += rA1 * rB3; rA1 = pA0[KB+2]; rC2_3 += rA2 * rB3; rA2 = pA0[KB2+2]; rC3_3 += rA3 * rB3; rA3 = pA0[KB3+2]; rC0_0 += rA0 * rB0; rB3 = pB0[KB3+2]; rC1_0 += rA1 * rB0; rC2_0 += rA2 * rB0; rC3_0 += rA3 * rB0; rB0 = pB0[3]; rC0_1 += rA0 * rB1; rC1_1 += rA1 * rB1; rC2_1 += rA2 * rB1; rC3_1 += rA3 * rB1; rB1 = pB0[KB+3]; rC0_2 += rA0 * rB2; rC1_2 += rA1 * rB2; rC2_2 += rA2 * rB2; rC3_2 += rA3 * rB2; rB2 = pB0[KB2+3]; rC0_3 += rA0 * rB3; rA0 = pA0[3]; rC1_3 += rA1 * rB3; rA1 = pA0[KB+3]; rC2_3 += rA2 * rB3; rA2 = pA0[KB2+3]; rC3_3 += rA3 * rB3; rA3 = pA0[KB3+3]; rB3 = pB0[KB3+3]; pA0 += 4; pB0 += 4; } rC0_0 += rA0 * rB0; ATL_pfavW(pC0, cwrdC, 0); rC1_0 += rA1 * rB0; ATL_pfavW(pC1, cwrdC, 1); rC2_0 += rA2 * rB0; ATL_pfavW(pC2, cwrdC, 2); rC3_0 += rA3 * rB0; rB0 = *pB0; rC0_1 += rA0 * rB1; ATL_pfavW(pC3, cwrdC, 3); rC1_1 += rA1 * rB1; rC2_1 += rA2 * rB1; rC3_1 += rA3 * rB1; rB1 = pB0[KB]; rC0_2 += rA0 * rB2; rC1_2 += rA1 * rB2; rC2_2 += rA2 * rB2; rC3_2 += rA3 * rB2; rB2 = pB0[KB2]; rC0_3 += rA0 * rB3; rA0 = *pA0; rC1_3 += rA1 * rB3; rA1 = pA0[KB]; rC2_3 += rA2 * rB3; rA2 = pA0[KB2]; rC3_3 += rA3 * rB3; rB3 = pB0[KB3]; rA3 = pA0[KB3]; rC0_0 += rA0 * rB0; rC1_0 += rA1 * rB0; rC2_0 += rA2 * rB0; rC3_0 += rA3 * rB0; rB0 = pB0[1]; rC0_1 += rA0 * rB1; rC1_1 += rA1 * rB1; rC2_1 += rA2 * rB1; rC3_1 += rA3 * rB1; rB1 = pB0[KB+1]; rC0_2 += rA0 * rB2; rC1_2 += rA1 * rB2; rC2_2 += rA2 * rB2; rC3_2 += rA3 * rB2; rB2 = pB0[KB2+1]; rC0_3 += rA0 * rB3; rA0 = pA0[1]; rC1_3 += rA1 * rB3; rA1 = pA0[KB+1]; rC2_3 += rA2 * rB3; rA2 = pA0[KB2+1]; rC3_3 += rA3 * rB3; rB3 = pB0[KB3+1]; rA3 = pA0[KB3+1]; rC0_0 += rA0 * rB0; ATL_pfavR(pA0+KB3+3, cwrdKB, 0); rC1_0 += rA1 * rB0; ATL_pfavR(pA0+KB4+3, cwrdKB, 1); rC2_0 += rA2 * rB0; ATL_pfavR(pA0+KB5+3, cwrdKB, 2); rC3_0 += rA3 * rB0; rB0 = pB0[2]; rC0_1 += rA0 * rB1; ATL_pfavR(pA0+KB6+3, cwrdKB, 3); rC1_1 += rA1 * rB1; rC2_1 += rA2 * rB1; rC3_1 += rA3 * rB1; rB1 = pB0[KB+2]; rC0_2 += rA0 * rB2; rC1_2 += rA1 * rB2; rC2_2 += rA2 * rB2; rC3_2 += rA3 * rB2; rB2 = pB0[KB2+2]; rC0_3 += rA0 * rB3; rA0 = pA0[2]; rC1_3 += rA1 * rB3; rA1 = pA0[KB+2]; rC2_3 += rA2 * rB3; rA2 = pA0[KB2+2]; rC3_3 += rA3 * rB3; rB3 = pB0[KB3+2]; rA3 = pA0[KB3+2]; rC0_0 += rA0 * rB0; pA0 += 3; rC1_0 += rA1 * rB0; pB0 += 3; rC2_0 += rA2 * rB0; rC3_0 += rA3 * rB0; rC0_1 += rA0 * rB1; rC1_1 += rA1 * rB1; rC2_1 += rA2 * rB1; rC3_1 += rA3 * rB1; rC0_2 += rA0 * rB2; rC1_2 += rA1 * rB2; rC2_2 += rA2 * rB2; rC3_2 += rA3 * rB2; rC0_3 += rA0 * rB3; rC1_3 += rA1 * rB3; rC2_3 += rA2 * rB3; rC3_3 += rA3 * rB3; #ifdef TREAL *pC0 = rC0_0; pC0[1] = rC1_0; pC0[2] = rC2_0; pC0[3] = rC3_0; *pC1 = rC0_1; pC1[1] = rC1_1; pC1[2] = rC2_1; pC1[3] = rC3_1; *pC2 = rC0_2; pC2[1] = rC1_2; pC2[2] = rC2_2; pC2[3] = rC3_2; *pC3 = rC0_3; pC3[1] = rC1_3; pC3[2] = rC2_3; pC3[3] = rC3_3; #else *pC0 = rC0_0; pC0[2] = rC1_0; pC0[4] = rC2_0; pC0[6] = rC3_0; *pC1 = rC0_1; pC1[2] = rC1_1; pC1[4] = rC2_1; pC1[6] = rC3_1; *pC2 = rC0_2; pC2[2] = rC1_2; pC2[4] = rC2_2; pC2[6] = rC3_2; *pC3 = rC0_3; pC3[2] = rC1_3; pC3[4] = rC2_3; pC3[6] = rC3_3; #endif pC0 += incCm; pC1 += incCm; pC2 += incCm; pC3 += incCm; pA0 += incAm; pB0 += incBm; } while(pA0 != stM); pC0 += incCn; pC1 += incCn; pC2 += incCn; pC3 += incCn; pA0 += incAn; pB0 += incBn; } while(pB0 != stN);}#ifdef incAm #undef incAm#endif#ifdef incBn #undef incBn#endif#ifdef incCm #undef incCm#endif⌨️ 快捷键说明
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