mirror of
https://github.com/paboyle/Grid.git
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821 lines
26 KiB
C
821 lines
26 KiB
C
/*************************************************************************************
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Grid physics library, www.github.com/paboyle/Grid
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Source file: ./lib/simd/Avx512Asm.h
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Copyright (C) 2015
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Author: paboyle <paboyle@ph.ed.ac.uk>
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License along
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with this program; if not, write to the Free Software Foundation, Inc.,
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51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
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See the full license in the file "LICENSE" in the top level distribution directory
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*************************************************************************************/
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/* END LEGAL */
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#ifndef GRID_ASM_INTEL_512_QCD_H
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#define GRID_ASM_INTEL_512_QCD_H
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//////////////////////////////////////////////////////////////////////////////////////////
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// Register allocations for Wilson Kernel are precision and IMCI/AVX512 indept
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//////////////////////////////////////////////////////////////////////////////////////////
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#define result_00 %zmm0
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#define result_01 %zmm1
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#define result_02 %zmm2
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#define result_10 %zmm3
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#define result_11 %zmm4
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#define result_12 %zmm5
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#define result_20 %zmm6
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#define result_21 %zmm7
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#define result_22 %zmm8
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#define result_30 %zmm9
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#define result_31 %zmm10
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#define result_32 %zmm11
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#define Chi_00 %zmm12
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#define Chi_01 %zmm13
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#define Chi_02 %zmm14
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#define Chi_10 %zmm15
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#define Chi_11 %zmm16
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#define Chi_12 %zmm17
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#define UChi_00 %zmm18
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#define UChi_01 %zmm19
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#define UChi_02 %zmm20
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#define UChi_10 %zmm21
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#define UChi_11 %zmm22
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#define UChi_12 %zmm23
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#define Uir %zmm24
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//#define ONE %zmm24
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#define Uri %zmm25
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#define T1 %zmm24
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#define T2 %zmm25
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#define Z0 %zmm26
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#define Z1 %zmm27
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#define Z2 %zmm28
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#define Z3 %zmm29
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#define Z4 %zmm30
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#define Z5 %zmm31
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#define TMP Chi_00
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#define Chimu_00 Chi_00
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#define Chimu_01 Chi_01
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#define Chimu_02 Chi_02
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#define Chimu_10 Chi_10
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#define Chimu_11 Chi_11
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#define Chimu_12 Chi_12
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#define Chimu_20 UChi_00
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#define Chimu_21 UChi_01
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#define Chimu_22 UChi_02
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#define Chimu_30 UChi_10
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#define Chimu_31 UChi_11
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#define Chimu_32 UChi_12
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#include <simd/Intel512common.h>
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#ifdef AVX512
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#include <simd/Intel512avx.h>
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//#include <simd/Intel512avxAddsub.h> // Alternate implementation
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#endif
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#ifdef IMCI
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#include <simd/Intel512imci.h>
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#endif
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//////////////////////////////////////////////////////////////////
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// Macros used to build wilson kernel -- can rationalise and simplify
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// a little as some duplication developed during trying different
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// variants during optimisation. Could cut back to only those used.
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//////////////////////////////////////////////////////////////////
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// const SiteSpinor * ptr = & in._odata[offset];
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#define LOAD_CHIMU(PTR) LOAD_CHIMUi(PTR)
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#define LOAD_CHI(PTR) LOAD64(%r8,PTR) __asm__ ( LOAD_CHIi );
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#define SAVE_UCHI(PTR) SAVE_UCHIi(PTR)
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#define SAVE_CHI(PTR) SAVE_CHIi(PTR)
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#define SAVE_RESULT(PTR) SAVE_RESULTi(PTR)
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#define LOAD_CHIMUi \
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LOAD_CHIMU01i \
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LOAD_CHIMU23i );
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#define LOAD_CHIMU01i\
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VLOAD(0,%r8,Chimu_00) \
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VLOAD(1,%r8,Chimu_01) \
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VLOAD(2,%r8,Chimu_02) \
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VLOAD(3,%r8,Chimu_10) \
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VLOAD(4,%r8,Chimu_11) \
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VLOAD(5,%r8,Chimu_12)
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#define LOAD_CHIMU23i\
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VLOAD(6,%r8,Chimu_20) \
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VLOAD(7,%r8,Chimu_21) \
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VLOAD(8,%r8,Chimu_22) \
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VLOAD(9,%r8,Chimu_30) \
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VLOAD(10,%r8,Chimu_31) \
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VLOAD(11,%r8,Chimu_32)
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#define SHUF_CHIMU23i\
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VSHUFMEM(6,%r8,Chimu_20) \
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VSHUFMEM(7,%r8,Chimu_21) \
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VSHUFMEM(8,%r8,Chimu_22) \
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VSHUFMEM(9,%r8,Chimu_30) \
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VSHUFMEM(10,%r8,Chimu_31) \
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VSHUFMEM(11,%r8,Chimu_32)
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// const SiteHalfSpinor *ptr = &buf[offset];
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#define LOAD_CHIi \
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VLOAD(0,%r8,Chi_00) \
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VLOAD(1,%r8,Chi_01) \
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VLOAD(2,%r8,Chi_02) \
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VLOAD(3,%r8,Chi_10) \
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VLOAD(4,%r8,Chi_11) \
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VLOAD(5,%r8,Chi_12)
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#define SAVE_UCHIi(PTR) \
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LOAD64(%r8,PTR) \
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__asm__ ( \
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VSTORE(0,%r8,UChi_00) \
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VSTORE(1,%r8,UChi_01) \
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VSTORE(2,%r8,UChi_02) \
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VSTORE(3,%r8,UChi_10) \
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VSTORE(4,%r8,UChi_11) \
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VSTORE(5,%r8,UChi_12) \
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);
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#define SAVE_CHIi(PTR) \
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LOAD64(%r8,PTR) \
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__asm__ ( \
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VSTORE(0,%r8,Chi_00) \
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VSTORE(1,%r8,Chi_01) \
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VSTORE(2,%r8,Chi_02) \
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VSTORE(3,%r8,Chi_10) \
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VSTORE(4,%r8,Chi_11) \
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VSTORE(5,%r8,Chi_12) \
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);
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#define SAVE_RESULTi(PTR)\
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LOAD64(%r8,PTR) \
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__asm__ ( \
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VSTORE(0,%r8,result_00) \
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VSTORE(1,%r8,result_01) \
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VSTORE(2,%r8,result_02) \
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VSTORE(3,%r8,result_10) \
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VSTORE(4,%r8,result_11) \
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VSTORE(5,%r8,result_12) \
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VSTORE(6,%r8,result_20) \
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VSTORE(7,%r8,result_21) \
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VSTORE(8,%r8,result_22) \
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VSTORE(9,%r8,result_30) \
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VSTORE(10,%r8,result_31) \
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VSTORE(11,%r8,result_32) \
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);
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// auto ptr = &U._odata[sU](A);
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// A plan for lifting loads
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// can use Z2/3/4/5/U/U for U field in first step.
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// can use Chi_00, Chi_10, U U for U field in second step
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// can use Chi_00, Chi_10, Chi_01,11, U U for U field in third step
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// Enables to lift ALL loads earlier by a few cycles and alleviate OoO pressure if needed.
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// KNL is DUAL issue for FP, and lifting these loads is potentially important.
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// Need detailed profile data to be sure.
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#if 0
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#define PREFETCH_U(A) \
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LOAD64(%r8,&U._odata[sU](A)) \
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__asm__ ( \
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VPREFETCHG(0,%r8) \
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VPREFETCHG(1,%r8) \
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VPREFETCHG(2,%r8) \
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VPREFETCHG(3,%r8) \
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VPREFETCHG(4,%r8) \
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VPREFETCHG(5,%r8) \
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VPREFETCHG(6,%r8) \
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VPREFETCHG(7,%r8) \
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VPREFETCHG(8,%r8) );
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#define PREFETCH_R(A) \
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LOAD64(%r8,&out._odata[ss]) \
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__asm__ ( \
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VPREFETCHW(0,%r8) \
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VPREFETCHW(1,%r8) \
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VPREFETCHW(2,%r8) \
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VPREFETCHW(3,%r8) \
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VPREFETCHW(4,%r8) \
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VPREFETCHW(5,%r8) \
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VPREFETCHW(6,%r8) \
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VPREFETCHW(7,%r8) \
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VPREFETCHW(8,%r8) \
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VPREFETCHW(9,%r8) \
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VPREFETCHW(10,%r8) \
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VPREFETCHW(11,%r8) );
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#endif
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#define MULT_2SPIN_DIR(A) MULT_2SPIN(&U._odata[sU](A))
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#define MULT_2SPIN_DIR_PFXP(A,p) MULT_2SPIN_PFXP(&U._odata[sU](A),p)
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#define MULT_2SPIN_DIR_PFYP(A,p) MULT_2SPIN_PFYP(&U._odata[sU](A),p)
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#define MULT_2SPIN_DIR_PFZP(A,p) MULT_2SPIN_PFZP(&U._odata[sU](A),p)
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#define MULT_2SPIN_DIR_PFTP(A,p) MULT_2SPIN_PFTP(&U._odata[sU](A),p)
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#define MULT_2SPIN_DIR_PFXM(A,p) MULT_2SPIN_PFXM(&U._odata[sU](A),p)
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#define MULT_2SPIN_DIR_PFYM(A,p) MULT_2SPIN_PFYM(&U._odata[sU](A),p)
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#define MULT_2SPIN_DIR_PFZM(A,p) MULT_2SPIN_PFZM(&U._odata[sU](A),p)
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#define MULT_2SPIN_DIR_PFTM(A,p) MULT_2SPIN_PFTM(&U._odata[sU](A),p)
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#if 0
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#define MULT_2SPIN_UNOPT(ptr) \
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LOAD64(%r8,ptr) \
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__asm__ ( \
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ZLOAD (0,%r8,UChi_01,UChi_11) \
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ZLOAD (3,%r8,UChi_02,UChi_12) \
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ZLOAD (6,%r8,Uri,Uir) \
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ZMUL (UChi_01,UChi_11,Chi_00,UChi_00,Z0) \
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ZMUL (UChi_01,UChi_11,Chi_10,UChi_10,Z1) \
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ZMUL (UChi_02,UChi_12,Chi_00,UChi_01,Z2) \
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ZMUL (UChi_02,UChi_12,Chi_10,UChi_11,Z3) \
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ZMUL (Uri,Uir, Chi_00,UChi_02,Z4) \
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ZMUL (Uri,Uir, Chi_10,UChi_12,Z5) \
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\
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ZLOAD (1,%r8,Uri,Uir) \
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ZLOAD (4,%r8,Chi_00, Chi_10) \
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ZMADD (Uri,Uir, Chi_01,UChi_00,Z0) \
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ZMADD (Uri,Uir, Chi_11,UChi_10,Z1) \
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ZLOAD (7,%r8,Uri,Uir) \
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ZMADD (Chi_00, Chi_10,Chi_01,UChi_01,Z2) \
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ZMADD (Chi_00, Chi_10,Chi_11,UChi_11,Z3) \
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ZLOAD (2,%r8,Chi_00,Chi_10) \
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ZMADD(Uri,Uir, Chi_01,UChi_02,Z4) \
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ZMADD(Uri,Uir, Chi_11,UChi_12,Z5) \
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\
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ZLOAD (5,%r8,Uri,Uir) \
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ZMADD (Chi_00,Chi_10, Chi_02,UChi_00,Z0) \
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ZMADD (Chi_00,Chi_10, Chi_12,UChi_10,Z1) \
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ZLOAD (8,%r8,Chi_00,Chi_10) \
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ZMADD (Uri,Uir, Chi_02,UChi_01,Z2) \
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ZMADD (Uri,Uir, Chi_12,UChi_11,Z3) \
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ZMADD(Chi_00,Chi_10, Chi_02,UChi_02,Z4) \
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ZMADD(Chi_00,Chi_10, Chi_12,UChi_12,Z5) \
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\
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ZEND1(UChi_00,Z0,Chi_01) \
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ZEND1(UChi_10,Z1,Chi_11) \
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ZEND1(UChi_01,Z2,Chi_00) \
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ZEND1(UChi_11,Z3,Chi_10) \
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ZEND1(UChi_02,Z4,Chi_02) \
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ZEND1(UChi_12,Z5,Chi_12) \
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ZEND2(UChi_00,Z0,Chi_01) \
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ZEND2(UChi_10,Z1,Chi_11) \
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ZEND2(UChi_01,Z2,Chi_00) \
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ZEND2(UChi_11,Z3,Chi_10) \
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ZEND2(UChi_02,Z4,Chi_02) \
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ZEND2(UChi_12,Z5,Chi_12) );
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#endif
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#define MULT_2SPIN_PFXM(ptr,pf) MULT_2SPIN(ptr)
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#define MULT_2SPIN_PFYM(ptr,pf) MULT_2SPIN(ptr)
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#define MULT_2SPIN_PFZM(ptr,pf) MULT_2SPIN(ptr)
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#define MULT_2SPIN_PFTM(ptr,pf) MULT_2SPIN(ptr)
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#define MULT_2SPIN_PFTP(ptr,pf) MULT_2SPIN(ptr)
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#define MULT_2SPIN_PFZP(ptr,pf) MULT_2SPIN(ptr)
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#define MULT_2SPIN_PFYP(ptr,pf) MULT_2SPIN(ptr)
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#define MULT_2SPIN_PFXP(ptr,pf) MULT_2SPIN(ptr)
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// MULT_2SPINa(ptr) MULT_2SPIN_PF(ptr,ptr,VPREFETCHG);
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#if 0
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#define MULT_2SPIN_PF(ptr,pf,VPF) \
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LOAD64(%r8,ptr) \
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LOAD64(%r9,pf) \
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__asm__ ( \
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ZMULMEM2SP(0,%r8,Uri,Chi_00,Chi_10,UChi_00,Z0,UChi_10,Z1) \
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VPF(0,%r9) \
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ZMULMEM2SP(3,%r8,Uri,Chi_00,Chi_10,UChi_01,Z2,UChi_11,Z3) \
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VPF(1,%r9) \
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ZMULMEM2SP(6,%r8,Uri,Chi_00,Chi_10,UChi_02,Z4,UChi_12,Z5) \
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VPF(2,%r9) \
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\
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ZMADDMEM2SP(1,%r8,Uri,Chi_01,Chi_11,UChi_00,Z0,UChi_10,Z1) \
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VPF(3,%r9) \
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ZMADDMEM2SP(4,%r8,Uri,Chi_01,Chi_11,UChi_01,Z2,UChi_11,Z3) \
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VPF(4,%r9) \
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ZMADDMEM2SP(7,%r8,Uri,Chi_01,Chi_11,UChi_02,Z4,UChi_12,Z5) \
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VPF(5,%r9) \
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\
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ZMADDMEM2SP(2,%r8,Uri,Chi_02,Chi_12,UChi_00,Z0,UChi_10,Z1) \
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VPF(6,%r9) \
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ZMADDMEM2SP(5,%r8,Uri,Chi_02,Chi_12,UChi_01,Z2,UChi_11,Z3) \
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VPF(7,%r9) \
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ZMADDMEM2SP(8,%r8,Uri,Chi_02,Chi_12,UChi_02,Z4,UChi_12,Z5) \
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VPF(8,%r9) \
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\
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ZEND1(UChi_00,Z0,Chi_01) \
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ZEND1(UChi_10,Z1,Chi_11) \
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ZEND1(UChi_01,Z2,Chi_00) \
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ZEND1(UChi_11,Z3,Chi_10) \
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VPF(9,%r9) \
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ZEND1(UChi_02,Z4,Chi_02) \
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ZEND1(UChi_12,Z5,Chi_12) \
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ZEND2(UChi_00,Z0,Chi_01) \
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ZEND2(UChi_10,Z1,Chi_11) \
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VPF(10,%r9) \
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ZEND2(UChi_01,Z2,Chi_00) \
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ZEND2(UChi_11,Z3,Chi_10) \
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ZEND2(UChi_02,Z4,Chi_02) \
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VPF(11,%r9) \
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ZEND2(UChi_12,Z5,Chi_12) );
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#endif
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#if 0
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#define MULT_2SPIN_PFNONE(ptr,pf,VPF) \
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LOAD64(%r8,ptr) \
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LOAD64(%r9,pf) \
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__asm__ ( \
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VPF(0,%r9) \
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VPF(1,%r9) \
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VPF(2,%r9) \
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\
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VPF(3,%r9) \
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VPF(4,%r9) \
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VPF(5,%r9) \
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\
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VPF(6,%r9) \
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VPF(7,%r9) \
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VPF(8,%r9) \
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\
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VPF(9,%r9) \
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VPF(10,%r9) \
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VPF(11,%r9) );
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#endif
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// Pretty much Perfectly Pipelined
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//////////////////////////////////////////////////////////////////
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// Dirac algebra
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//////////////////////////////////////////////////////////////////
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// hspin(0)=fspin(0)+timesI(fspin(3));
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// hspin(1)=fspin(1)+timesI(fspin(2));
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#define XP_PROJMEM(PTR) \
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LOAD64(%r8,PTR) \
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__asm__ ( \
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LOAD_CHIi \
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SHUF_CHIMU23i \
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VACCTIMESI1(Chi_00,Chi_00,Chimu_30) \
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VACCTIMESI1(Chi_01,Chi_01,Chimu_31) \
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VACCTIMESI1(Chi_02,Chi_02,Chimu_32) \
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VACCTIMESI1(Chi_10,Chi_10,Chimu_20) \
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VACCTIMESI1(Chi_11,Chi_11,Chimu_21) \
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VACCTIMESI1(Chi_12,Chi_12,Chimu_22) \
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VACCTIMESI2(Chi_00,Chi_00,Chimu_30) \
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VACCTIMESI2(Chi_01,Chi_01,Chimu_31) \
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VACCTIMESI2(Chi_02,Chi_02,Chimu_32) \
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VACCTIMESI2(Chi_10,Chi_10,Chimu_20) \
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VACCTIMESI2(Chi_11,Chi_11,Chimu_21) \
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VACCTIMESI2(Chi_12,Chi_12,Chimu_22) );
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#define YP_PROJMEM(ptr) \
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LOAD64(%r8,ptr) \
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__asm__ ( \
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LOAD_CHIMU01i \
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VSUBMEM(9,%r8 ,Chimu_00,Chi_00) \
|
|
VSUBMEM(10,%r8,Chimu_01,Chi_01) \
|
|
VSUBMEM(11,%r8,Chimu_02,Chi_02) \
|
|
VADDMEM(6,%r8,Chimu_10,Chi_10) \
|
|
VADDMEM(7,%r8,Chimu_11,Chi_11) \
|
|
VADDMEM(8,%r8,Chimu_12,Chi_12) );
|
|
|
|
#define ZP_PROJMEM(PTR) \
|
|
LOAD64(%r8,PTR) \
|
|
__asm__ ( \
|
|
LOAD_CHIi \
|
|
SHUF_CHIMU23i \
|
|
VACCTIMESI1(Chi_00,Chi_00,Chimu_20) \
|
|
VACCTIMESI1(Chi_01,Chi_01,Chimu_21) \
|
|
VACCTIMESI1(Chi_02,Chi_02,Chimu_22) \
|
|
VACCTIMESMINUSI1(Chi_10,Chi_10,Chimu_30) \
|
|
VACCTIMESMINUSI1(Chi_11,Chi_11,Chimu_31) \
|
|
VACCTIMESMINUSI1(Chi_12,Chi_12,Chimu_32) \
|
|
VACCTIMESI2(Chi_00,Chi_00,Chimu_20) \
|
|
VACCTIMESI2(Chi_01,Chi_01,Chimu_21) \
|
|
VACCTIMESI2(Chi_02,Chi_02,Chimu_22) \
|
|
VACCTIMESMINUSI2(Chi_10,Chi_10,Chimu_30) \
|
|
VACCTIMESMINUSI2(Chi_11,Chi_11,Chimu_31) \
|
|
VACCTIMESMINUSI2(Chi_12,Chi_12,Chimu_32) );
|
|
|
|
|
|
#define TP_PROJMEM(ptr) \
|
|
LOAD64(%r8,ptr) \
|
|
__asm__ ( \
|
|
LOAD_CHIMU01i \
|
|
VADDMEM(6,%r8 ,Chimu_00,Chi_00) \
|
|
VADDMEM(7,%r8,Chimu_01,Chi_01) \
|
|
VADDMEM(8,%r8,Chimu_02,Chi_02) \
|
|
VADDMEM(9,%r8,Chimu_10,Chi_10) \
|
|
VADDMEM(10,%r8,Chimu_11,Chi_11) \
|
|
VADDMEM(11,%r8,Chimu_12,Chi_12) );
|
|
|
|
// hspin(0)=fspin(0)-timesI(fspin(3))
|
|
// hspin(1)=fspin(1)-timesI(fspin(2))
|
|
|
|
#define XM_PROJMEM(PTR) \
|
|
LOAD64(%r8,PTR)\
|
|
__asm__ ( \
|
|
SHUF_CHIMU23i \
|
|
LOAD_CHIi \
|
|
VACCTIMESMINUSI1(Chi_00,Chi_00,Chimu_30)\
|
|
VACCTIMESMINUSI1(Chi_01,Chi_01,Chimu_31)\
|
|
VACCTIMESMINUSI1(Chi_02,Chi_02,Chimu_32)\
|
|
VACCTIMESMINUSI1(Chi_10,Chi_10,Chimu_20)\
|
|
VACCTIMESMINUSI1(Chi_11,Chi_11,Chimu_21)\
|
|
VACCTIMESMINUSI1(Chi_12,Chi_12,Chimu_22)\
|
|
VACCTIMESMINUSI2(Chi_00,Chi_00,Chimu_30)\
|
|
VACCTIMESMINUSI2(Chi_01,Chi_01,Chimu_31)\
|
|
VACCTIMESMINUSI2(Chi_02,Chi_02,Chimu_32)\
|
|
VACCTIMESMINUSI2(Chi_10,Chi_10,Chimu_20)\
|
|
VACCTIMESMINUSI2(Chi_11,Chi_11,Chimu_21)\
|
|
VACCTIMESMINUSI2(Chi_12,Chi_12,Chimu_22) );
|
|
|
|
#define YM_PROJMEM(ptr) \
|
|
LOAD64(%r8,ptr) \
|
|
__asm__ ( \
|
|
LOAD_CHIMU01i \
|
|
VADDMEM(9,%r8 ,Chimu_00,Chi_00) \
|
|
VADDMEM(10,%r8,Chimu_01,Chi_01) \
|
|
VADDMEM(11,%r8,Chimu_02,Chi_02) \
|
|
VSUBMEM(6,%r8,Chimu_10,Chi_10) \
|
|
VSUBMEM(7,%r8,Chimu_11,Chi_11) \
|
|
VSUBMEM(8,%r8,Chimu_12,Chi_12) );
|
|
|
|
#define ZM_PROJMEM(PTR) \
|
|
LOAD64(%r8,PTR) \
|
|
__asm__ ( \
|
|
SHUF_CHIMU23i \
|
|
LOAD_CHIi \
|
|
VACCTIMESMINUSI1(Chi_00,Chi_00,Chimu_20)\
|
|
VACCTIMESMINUSI1(Chi_01,Chi_01,Chimu_21)\
|
|
VACCTIMESMINUSI1(Chi_02,Chi_02,Chimu_22)\
|
|
VACCTIMESI1(Chi_10,Chi_10,Chimu_30)\
|
|
VACCTIMESI1(Chi_11,Chi_11,Chimu_31)\
|
|
VACCTIMESI1(Chi_12,Chi_12,Chimu_32)\
|
|
VACCTIMESMINUSI2(Chi_00,Chi_00,Chimu_20)\
|
|
VACCTIMESMINUSI2(Chi_01,Chi_01,Chimu_21)\
|
|
VACCTIMESMINUSI2(Chi_02,Chi_02,Chimu_22)\
|
|
VACCTIMESI2(Chi_10,Chi_10,Chimu_30)\
|
|
VACCTIMESI2(Chi_11,Chi_11,Chimu_31)\
|
|
VACCTIMESI2(Chi_12,Chi_12,Chimu_32) );
|
|
|
|
#define TM_PROJMEM(ptr) \
|
|
LOAD64(%r8,ptr) \
|
|
__asm__ ( \
|
|
LOAD_CHIMU01i \
|
|
VSUBMEM(6,%r8 ,Chimu_00,Chi_00) \
|
|
VSUBMEM(7,%r8,Chimu_01,Chi_01) \
|
|
VSUBMEM(8,%r8,Chimu_02,Chi_02) \
|
|
VSUBMEM(9,%r8,Chimu_10,Chi_10) \
|
|
VSUBMEM(10,%r8,Chimu_11,Chi_11) \
|
|
VSUBMEM(11,%r8,Chimu_12,Chi_12) );
|
|
|
|
// fspin(0)=hspin(0)
|
|
// fspin(1)=hspin(1)
|
|
// fspin(2)=timesMinusI(hspin(1))
|
|
// fspin(3)=timesMinusI(hspin(0))
|
|
#define XP_RECON __asm__ ( \
|
|
VZERO(TMP) \
|
|
VMOV(UChi_00,result_00) \
|
|
VMOV(UChi_01,result_01) \
|
|
VMOV(UChi_02,result_02) \
|
|
VMOV(UChi_10,result_10) \
|
|
VMOV(UChi_11,result_11) \
|
|
VMOV(UChi_12,result_12) \
|
|
VTIMESMINUSI0(UChi_10,result_20,TMP) \
|
|
VTIMESMINUSI0(UChi_11,result_21,TMP) \
|
|
VTIMESMINUSI0(UChi_12,result_22,TMP) \
|
|
VTIMESMINUSI0(UChi_00,result_30,TMP) \
|
|
VTIMESMINUSI0(UChi_01,result_31,TMP) \
|
|
VTIMESMINUSI0(UChi_02,result_32,TMP) \
|
|
VTIMESMINUSI1(UChi_10,result_20,TMP) \
|
|
VTIMESMINUSI1(UChi_11,result_21,TMP) \
|
|
VTIMESMINUSI1(UChi_12,result_22,TMP) \
|
|
VTIMESMINUSI1(UChi_00,result_30,TMP) \
|
|
VTIMESMINUSI1(UChi_01,result_31,TMP) \
|
|
VTIMESMINUSI1(UChi_02,result_32,TMP) \
|
|
VTIMESMINUSI2(UChi_10,result_20,TMP) \
|
|
VTIMESMINUSI2(UChi_11,result_21,TMP) \
|
|
VTIMESMINUSI2(UChi_12,result_22,TMP) \
|
|
VTIMESMINUSI2(UChi_00,result_30,TMP) \
|
|
VTIMESMINUSI2(UChi_01,result_31,TMP) \
|
|
VTIMESMINUSI2(UChi_02,result_32,TMP) \
|
|
);
|
|
// NB could save 6 ops using addsub => 12 cycles
|
|
#define XP_RECON_ACCUM __asm__ ( \
|
|
VZERO(TMP)\
|
|
VADD(UChi_00,result_00,result_00)\
|
|
VADD(UChi_01,result_01,result_01)\
|
|
VADD(UChi_02,result_02,result_02)\
|
|
VADD(UChi_10,result_10,result_10)\
|
|
VADD(UChi_11,result_11,result_11)\
|
|
VADD(UChi_12,result_12,result_12)\
|
|
VACCTIMESMINUSI0(UChi_10,result_20,Z0)\
|
|
VACCTIMESMINUSI0(UChi_11,result_21,Z1)\
|
|
VACCTIMESMINUSI0(UChi_12,result_22,Z2)\
|
|
VACCTIMESMINUSI0(UChi_00,result_30,Z3)\
|
|
VACCTIMESMINUSI0(UChi_01,result_31,Z4)\
|
|
VACCTIMESMINUSI0(UChi_02,result_32,Z5)\
|
|
VACCTIMESMINUSI1(UChi_10,result_20,Z0)\
|
|
VACCTIMESMINUSI1(UChi_11,result_21,Z1)\
|
|
VACCTIMESMINUSI1(UChi_12,result_22,Z2)\
|
|
VACCTIMESMINUSI1(UChi_00,result_30,Z3)\
|
|
VACCTIMESMINUSI1(UChi_01,result_31,Z4)\
|
|
VACCTIMESMINUSI1(UChi_02,result_32,Z5)\
|
|
VACCTIMESMINUSI2(UChi_10,result_20,Z0)\
|
|
VACCTIMESMINUSI2(UChi_11,result_21,Z1)\
|
|
VACCTIMESMINUSI2(UChi_12,result_22,Z2)\
|
|
VACCTIMESMINUSI2(UChi_00,result_30,Z3)\
|
|
VACCTIMESMINUSI2(UChi_01,result_31,Z4)\
|
|
VACCTIMESMINUSI2(UChi_02,result_32,Z5)\
|
|
);
|
|
|
|
#define XM_RECON __asm__ ( \
|
|
VZERO(TMP)\
|
|
VMOV(UChi_00,result_00)\
|
|
VMOV(UChi_01,result_01)\
|
|
VMOV(UChi_02,result_02)\
|
|
VMOV(UChi_10,result_10)\
|
|
VMOV(UChi_11,result_11)\
|
|
VMOV(UChi_12,result_12)\
|
|
VTIMESI0(UChi_10,result_20,TMP)\
|
|
VTIMESI0(UChi_11,result_21,TMP)\
|
|
VTIMESI0(UChi_12,result_22,TMP)\
|
|
VTIMESI0(UChi_00,result_30,TMP)\
|
|
VTIMESI0(UChi_01,result_31,TMP)\
|
|
VTIMESI0(UChi_02,result_32,TMP)\
|
|
VTIMESI1(UChi_10,result_20,TMP)\
|
|
VTIMESI1(UChi_11,result_21,TMP)\
|
|
VTIMESI1(UChi_12,result_22,TMP)\
|
|
VTIMESI1(UChi_00,result_30,TMP)\
|
|
VTIMESI1(UChi_01,result_31,TMP)\
|
|
VTIMESI1(UChi_02,result_32,TMP)\
|
|
VTIMESI2(UChi_10,result_20,TMP)\
|
|
VTIMESI2(UChi_11,result_21,TMP)\
|
|
VTIMESI2(UChi_12,result_22,TMP)\
|
|
VTIMESI2(UChi_00,result_30,TMP)\
|
|
VTIMESI2(UChi_01,result_31,TMP)\
|
|
VTIMESI2(UChi_02,result_32,TMP)\
|
|
);
|
|
|
|
#define XM_RECON_ACCUM __asm__ ( \
|
|
VADD(UChi_00,result_00,result_00)\
|
|
VADD(UChi_01,result_01,result_01)\
|
|
VADD(UChi_02,result_02,result_02)\
|
|
VADD(UChi_10,result_10,result_10)\
|
|
VADD(UChi_11,result_11,result_11)\
|
|
VADD(UChi_12,result_12,result_12)\
|
|
VACCTIMESI0(UChi_10,result_20,Z0)\
|
|
VACCTIMESI0(UChi_11,result_21,Z1)\
|
|
VACCTIMESI0(UChi_12,result_22,Z2)\
|
|
VACCTIMESI0(UChi_00,result_30,Z3)\
|
|
VACCTIMESI0(UChi_01,result_31,Z4)\
|
|
VACCTIMESI0(UChi_02,result_32,Z5)\
|
|
VACCTIMESI1(UChi_10,result_20,Z0)\
|
|
VACCTIMESI1(UChi_11,result_21,Z1)\
|
|
VACCTIMESI1(UChi_12,result_22,Z2)\
|
|
VACCTIMESI1(UChi_00,result_30,Z3)\
|
|
VACCTIMESI1(UChi_01,result_31,Z4)\
|
|
VACCTIMESI1(UChi_02,result_32,Z5)\
|
|
VACCTIMESI2(UChi_10,result_20,Z0)\
|
|
VACCTIMESI2(UChi_11,result_21,Z1)\
|
|
VACCTIMESI2(UChi_12,result_22,Z2)\
|
|
VACCTIMESI2(UChi_00,result_30,Z3)\
|
|
VACCTIMESI2(UChi_01,result_31,Z4)\
|
|
VACCTIMESI2(UChi_02,result_32,Z5)\
|
|
);
|
|
|
|
#define YP_RECON_ACCUM __asm__ ( \
|
|
VADD(UChi_00,result_00,result_00)\
|
|
VADD(UChi_01,result_01,result_01)\
|
|
VADD(UChi_02,result_02,result_02)\
|
|
VADD(UChi_10,result_10,result_10)\
|
|
VADD(UChi_11,result_11,result_11)\
|
|
VADD(UChi_12,result_12,result_12)\
|
|
VADD(UChi_10,result_20,result_20)\
|
|
VADD(UChi_11,result_21,result_21)\
|
|
VADD(UChi_12,result_22,result_22)\
|
|
VSUB(UChi_00,result_30,result_30)\
|
|
VSUB(UChi_01,result_31,result_31)\
|
|
VSUB(UChi_02,result_32,result_32) );
|
|
|
|
#define YM_RECON_ACCUM __asm__ ( \
|
|
VADD(UChi_00,result_00,result_00)\
|
|
VADD(UChi_01,result_01,result_01)\
|
|
VADD(UChi_02,result_02,result_02)\
|
|
VADD(UChi_10,result_10,result_10)\
|
|
VADD(UChi_11,result_11,result_11)\
|
|
VADD(UChi_12,result_12,result_12)\
|
|
VSUB(UChi_10,result_20,result_20)\
|
|
VSUB(UChi_11,result_21,result_21)\
|
|
VSUB(UChi_12,result_22,result_22)\
|
|
VADD(UChi_00,result_30,result_30)\
|
|
VADD(UChi_01,result_31,result_31)\
|
|
VADD(UChi_02,result_32,result_32) );
|
|
|
|
#define ZP_RECON_ACCUM __asm__ ( \
|
|
VADD(UChi_00,result_00,result_00)\
|
|
VADD(UChi_01,result_01,result_01)\
|
|
VADD(UChi_02,result_02,result_02)\
|
|
VADD(UChi_10,result_10,result_10)\
|
|
VADD(UChi_11,result_11,result_11)\
|
|
VADD(UChi_12,result_12,result_12)\
|
|
VACCTIMESMINUSI0(UChi_00,result_20,Z0)\
|
|
VACCTIMESMINUSI0(UChi_01,result_21,Z1)\
|
|
VACCTIMESMINUSI0(UChi_02,result_22,Z2)\
|
|
VACCTIMESI0(UChi_10,result_30,Z3)\
|
|
VACCTIMESI0(UChi_11,result_31,Z4)\
|
|
VACCTIMESI0(UChi_12,result_32,Z5)\
|
|
VACCTIMESMINUSI1(UChi_00,result_20,Z0)\
|
|
VACCTIMESMINUSI1(UChi_01,result_21,Z1)\
|
|
VACCTIMESMINUSI1(UChi_02,result_22,Z2)\
|
|
VACCTIMESI1(UChi_10,result_30,Z3)\
|
|
VACCTIMESI1(UChi_11,result_31,Z4)\
|
|
VACCTIMESI1(UChi_12,result_32,Z5)\
|
|
VACCTIMESMINUSI2(UChi_00,result_20,Z0)\
|
|
VACCTIMESMINUSI2(UChi_01,result_21,Z1)\
|
|
VACCTIMESMINUSI2(UChi_02,result_22,Z2)\
|
|
VACCTIMESI2(UChi_10,result_30,Z3)\
|
|
VACCTIMESI2(UChi_11,result_31,Z4)\
|
|
VACCTIMESI2(UChi_12,result_32,Z5)\
|
|
);
|
|
|
|
#define ZM_RECON_ACCUM __asm__ ( \
|
|
VADD(UChi_00,result_00,result_00)\
|
|
VADD(UChi_01,result_01,result_01)\
|
|
VADD(UChi_02,result_02,result_02)\
|
|
VADD(UChi_10,result_10,result_10)\
|
|
VADD(UChi_11,result_11,result_11)\
|
|
VADD(UChi_12,result_12,result_12)\
|
|
VACCTIMESI0(UChi_00,result_20,Z0)\
|
|
VACCTIMESI0(UChi_01,result_21,Z1)\
|
|
VACCTIMESI0(UChi_02,result_22,Z2)\
|
|
VACCTIMESMINUSI0(UChi_10,result_30,Z3)\
|
|
VACCTIMESMINUSI0(UChi_11,result_31,Z4)\
|
|
VACCTIMESMINUSI0(UChi_12,result_32,Z5)\
|
|
VACCTIMESI1(UChi_00,result_20,Z0)\
|
|
VACCTIMESI1(UChi_01,result_21,Z1)\
|
|
VACCTIMESI1(UChi_02,result_22,Z2)\
|
|
VACCTIMESMINUSI1(UChi_10,result_30,Z3)\
|
|
VACCTIMESMINUSI1(UChi_11,result_31,Z4)\
|
|
VACCTIMESMINUSI1(UChi_12,result_32,Z5)\
|
|
VACCTIMESI2(UChi_00,result_20,Z0)\
|
|
VACCTIMESI2(UChi_01,result_21,Z1)\
|
|
VACCTIMESI2(UChi_02,result_22,Z2)\
|
|
VACCTIMESMINUSI2(UChi_10,result_30,Z3)\
|
|
VACCTIMESMINUSI2(UChi_11,result_31,Z4)\
|
|
VACCTIMESMINUSI2(UChi_12,result_32,Z5)\
|
|
);
|
|
|
|
#define TP_RECON_ACCUM __asm__ ( \
|
|
VADD(UChi_00,result_00,result_00)\
|
|
VADD(UChi_01,result_01,result_01)\
|
|
VADD(UChi_02,result_02,result_02)\
|
|
VADD(UChi_10,result_10,result_10)\
|
|
VADD(UChi_11,result_11,result_11)\
|
|
VADD(UChi_12,result_12,result_12)\
|
|
VADD(UChi_00,result_20,result_20)\
|
|
VADD(UChi_01,result_21,result_21)\
|
|
VADD(UChi_02,result_22,result_22)\
|
|
VADD(UChi_10,result_30,result_30)\
|
|
VADD(UChi_11,result_31,result_31)\
|
|
VADD(UChi_12,result_32,result_32) );
|
|
|
|
#define TM_RECON_ACCUM __asm__ ( \
|
|
VADD(UChi_00,result_00,result_00)\
|
|
VADD(UChi_01,result_01,result_01)\
|
|
VADD(UChi_02,result_02,result_02)\
|
|
VADD(UChi_10,result_10,result_10)\
|
|
VADD(UChi_11,result_11,result_11)\
|
|
VADD(UChi_12,result_12,result_12)\
|
|
VSUB(UChi_00,result_20,result_20)\
|
|
VSUB(UChi_01,result_21,result_21)\
|
|
VSUB(UChi_02,result_22,result_22)\
|
|
VSUB(UChi_10,result_30,result_30)\
|
|
VSUB(UChi_11,result_31,result_31)\
|
|
VSUB(UChi_12,result_32,result_32) );
|
|
|
|
//define PREFETCH_CHIMU(A)
|
|
|
|
#define PERMUTE_DIR0 __asm__ ( \
|
|
VPERM0(Chi_00,Chi_00) \
|
|
VPERM0(Chi_01,Chi_01) \
|
|
VPERM0(Chi_02,Chi_02) \
|
|
VPERM0(Chi_10,Chi_10) \
|
|
VPERM0(Chi_11,Chi_11) \
|
|
VPERM0(Chi_12,Chi_12) );
|
|
|
|
#define PERMUTE_DIR1 __asm__ ( \
|
|
VPERM1(Chi_00,Chi_00) \
|
|
VPERM1(Chi_01,Chi_01) \
|
|
VPERM1(Chi_02,Chi_02) \
|
|
VPERM1(Chi_10,Chi_10) \
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VPERM1(Chi_11,Chi_11) \
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VPERM1(Chi_12,Chi_12));
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|
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#define PERMUTE_DIR2 __asm__ ( \
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VPERM2(Chi_00,Chi_00) \
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VPERM2(Chi_01,Chi_01) \
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VPERM2(Chi_02,Chi_02) \
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VPERM2(Chi_10,Chi_10) \
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VPERM2(Chi_11,Chi_11) \
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VPERM2(Chi_12,Chi_12) );
|
|
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#define PERMUTE_DIR3 __asm__ ( \
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VPERM3(Chi_00,Chi_00) \
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VPERM3(Chi_01,Chi_01) \
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VPERM3(Chi_02,Chi_02) \
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VPERM3(Chi_10,Chi_10) \
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VPERM3(Chi_11,Chi_11) \
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VPERM3(Chi_12,Chi_12) );
|
|
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#define MULT_ADDSUB_2SPIN1(ptr) \
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LOAD64(%r8,ptr)
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/*
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* __asm__ ( \
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);
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VMUL(Z0,%zmm2,%zmm3) \
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*/
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#define MULT_ADDSUB_2SPIN(ptr) \
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LOAD64(%r8,ptr) \
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__asm__ ( \
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VMOVIDUP(0,%r8,Z0 ) \
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VMOVIDUP(3,%r8,Z1 )\
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VMOVIDUP(6,%r8,Z2 )\
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VSHUF(Chi_00,T1) \
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VSHUF(Chi_10,T2) \
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\
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VMUL(Z0,T1,UChi_00) VMOVRDUP(0,%r8,Z3 ) \
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VMUL(Z0,T2,UChi_10) VMOVRDUP(3,%r8,Z4 ) \
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VMUL(Z1,T1,UChi_01) VMOVRDUP(6,%r8,Z5 ) \
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VMUL(Z1,T2,UChi_11) VMOVIDUP(1,%r8,Z0 ) \
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VMUL(Z2,T1,UChi_02) VMOVIDUP(4,%r8,Z1 ) \
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VMUL(Z2,T2,UChi_12) VMOVIDUP(7,%r8,Z2 ) \
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\
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VMADDSUB(Z3,Chi_00,UChi_00) VSHUF(Chi_01,T1) \
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VMADDSUB(Z3,Chi_10,UChi_10) VSHUF(Chi_11,T2) \
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VMADDSUB(Z4,Chi_00,UChi_01) VMOVRDUP(1,%r8,Z3 ) \
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VMADDSUB(Z4,Chi_10,UChi_11)\
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VMADDSUB(Z5,Chi_00,UChi_02) VMOVRDUP(4,%r8,Z4 ) \
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|
VMADDSUB(Z5,Chi_10,UChi_12)\
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|
\
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|
VMADDSUB(Z0,T1,UChi_00) VMOVRDUP(7,%r8,Z5 ) \
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|
VMADDSUB(Z0,T2,UChi_10)\
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|
VMADDSUB(Z1,T1,UChi_01) VMOVIDUP(2,%r8,Z0 ) \
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|
VMADDSUB(Z1,T2,UChi_11)\
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|
VMADDSUB(Z2,T1,UChi_02) VMOVIDUP(5,%r8,Z1 ) \
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|
VMADDSUB(Z2,T2,UChi_12) VMOVIDUP(8,%r8,Z2 ) \
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|
\
|
|
VMADDSUB(Z3,Chi_01,UChi_00) VSHUF(Chi_02,T1) \
|
|
VMADDSUB(Z3,Chi_11,UChi_10) VSHUF(Chi_12,T2) \
|
|
VMADDSUB(Z4,Chi_01,UChi_01) VMOVRDUP(2,%r8,Z3 ) \
|
|
VMADDSUB(Z4,Chi_11,UChi_11)\
|
|
VMADDSUB(Z5,Chi_01,UChi_02) VMOVRDUP(5,%r8,Z4 ) \
|
|
VMADDSUB(Z5,Chi_11,UChi_12)\
|
|
\
|
|
VMADDSUB(Z0,T1,UChi_00) VMOVRDUP(8,%r8,Z5 ) \
|
|
VMADDSUB(Z0,T2,UChi_10)\
|
|
VMADDSUB(Z1,T1,UChi_01)\
|
|
VMADDSUB(Z1,T2,UChi_11)\
|
|
VMADDSUB(Z2,T1,UChi_02)\
|
|
VMADDSUB(Z2,T2,UChi_12)\
|
|
\
|
|
VMADDSUB(Z3,Chi_02,UChi_00)\
|
|
VMADDSUB(Z3,Chi_12,UChi_10)\
|
|
VMADDSUB(Z4,Chi_02,UChi_01)\
|
|
VMADDSUB(Z4,Chi_12,UChi_11)\
|
|
VMADDSUB(Z5,Chi_02,UChi_02)\
|
|
VMADDSUB(Z5,Chi_12,UChi_12)\
|
|
);
|
|
|
|
#define MULT_2SPIN(ptr) MULT_ADDSUB_2SPIN(ptr)
|
|
|
|
#endif
|