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https://github.com/paboyle/Grid.git
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599 lines
20 KiB
C
599 lines
20 KiB
C
/*************************************************************************************
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Grid physics library, www.github.com/paboyle/Grid
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Source file: ./lib/simd/BGQQPX.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_BGQ_QPX_H
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#define GRID_ASM_BGQ_QPX_H
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#include <stdint.h>
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/*********************************************************
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* Register definitions
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*********************************************************/
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#define psi_00 0
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#define psi_01 1
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#define psi_02 2
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#define psi_10 3
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#define psi_11 4
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#define psi_12 5
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#define psi_20 6
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#define psi_21 7
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#define psi_22 8
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#define psi_30 9
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#define psi_31 10
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#define psi_32 11
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#define Chi_00 12
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#define Chi_01 13
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#define Chi_02 14
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#define Chi_10 15
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#define Chi_11 16
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#define Chi_12 17
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#define UChi_00 18
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#define UChi_01 19
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#define UChi_02 20
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#define UChi_10 21
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#define UChi_11 22
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#define UChi_12 23
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#define U0 24
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#define U1 25
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#define U2 26
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#define one 27
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#define perm_reg 28
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#define REP %%r16
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#define IMM %%r17
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#define pREP %r16
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#define pIMM %r17
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#define PPC_INST_DCBTLS 0x7c00014c
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#define PPC_INST_DCBLC 0x7c00030c
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#define __PPC_CT(t) (((t) & 0x0f) << 21)
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#define ___PPC_RA(a) (((a) & 0x1f) << 16)
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#define ___PPC_RB(b) (((b) & 0x1f) << 11)
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#define LOCK_SET ".long (" HASH(PPC_INST_DCBTLS) "|" HASH(___PPC_RB(16)) ")\n"
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#define LOCK_CLEAR ".long (" HASH(PPC_INST_DCBLC) "|" HASH(___PPC_RB(16)) ")\n"
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/*Alias regs for incoming fourspinor on neighbour site*/
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#define Chi_20 UChi_00
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#define Chi_21 UChi_01
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#define Chi_22 UChi_02
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#define Chi_30 UChi_10
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#define Chi_31 UChi_11
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#define Chi_32 UChi_12
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/*********************************************************
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* Architectural macros
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*********************************************************/
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#define HASHit(A) #A
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#define HASH(A) HASHit(A)
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#define LOAD64(A,ptr)
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#define MASK_REGS /*NOOP ON BGQ*/
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#define PF_GAUGE(A) /*NOOP ON BGQ*/
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#define PREFETCH1_CHIMU(base) /*NOOP ON BGQ*/
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#define PREFETCH_CHIMU(base) /*NOOP ON BGQ*/
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#define VLOADf(OFF,PTR,DEST) "qvlfsx " #DEST "," #PTR "," #OFF " ;\n"
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#define VLOADuf(OFF,PTR,DEST) "qvlfsux " #DEST "," #PTR "," #OFF " ;\n"
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#define VSTOREf(OFF,PTR,SRC) "qvstfsx " #SRC "," #PTR "," #OFF " ;\n"
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#define VSTOREuf(OFF,PTR,SRC) "qvstfsux " #SRC "," #PTR "," #OFF " ;\n"
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#define VSPLATf(A,B,DEST) "qvlfcsxa " #DEST "," #A "," #B ";\n"
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#define VSIZEf (16)
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#define VPERMIi(p) "qvgpci " #p ", 1217;\n"
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#define VPERMi(A,p) "qvfperm " #A "," #A "," #A "," #p ";\n"
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#define VPERMI(p) VPERMIi(p)
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#define VPERM(A,p) VPERMi(A,p)
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#define VLOADd(OFF,PTR,DEST) "qvlfdx " #DEST "," #PTR "," #OFF " ;\n"
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#define VLOADud(OFF,PTR,DEST) "qvlfdux " #DEST "," #PTR "," #OFF " ;\n"
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#define VSTOREd(OFF,PTR,SRC) "qvstfdx " #SRC "," #PTR "," #OFF " ;\n"
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#define VSTOREud(OFF,PTR,SRC) "qvstfdux " #SRC "," #PTR "," #OFF " ;\n"
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#define VSPLATd(A,B,DEST) "qvlfcdxa " #DEST "," #A "," #B ";\n"
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#define VSIZEd (32)
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// QPX manual ordering QRT comes first (dest)
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#define VZEROi(DEST) "qvfset " #DEST "; \n qvfsub " #DEST "," #DEST "," #DEST ";\n"
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#define VONEi(DEST) "qvfset " #DEST "; \n"
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#define VMOVi(DEST,A) "qvfmr " #DEST "," #A ";\n"
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#define VADDi(DEST,A,B) "qvfadd " #DEST "," #A "," #B ";\n"
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#define VSUBi(DEST,A,B) "qvfsub " #DEST "," #A "," #B ";\n"
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#define VMULi(DEST,A,B) "qvfmul " #DEST "," #A "," #B ";\n"
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#define VMUL_RR_RIi(DEST,A,B) "qvfxmul " #DEST "," #A "," #B ";\n"
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#define VMADDi(DEST,A,B,C) "qvfmadd " #DEST "," #A "," #B ","#C ";\n"
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#define VMADD_RR_RIi(DEST,A,B,C) "qvfxmadd " #DEST "," #A "," #B ","#C ";\n"
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#define VMADD_MII_IRi(DEST,A,B,C) "qvfxxnpmadd " #DEST "," #B "," #A ","#C ";\n"
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#define VMADD_II_MIRi(DEST,A,B,C) "qvfxxcpnmadd " #DEST "," #B "," #A ","#C ";\n"
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#define VZERO(C) VZEROi(C)
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#define VONE(C) VONEi(C)
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#define VMOV(C,A) VMOVi(C,A)
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#define VADD(A,B,C) VADDi(A,B,C)
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#define VSUB(A,B,C) VSUBi(A,B,C)
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#define VMUL(A,B,C) VMULi(A,B,C)
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#define VMUL_RR_RI(A,B,C) VMUL_RR_RIi(A,B,C)
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#define VMADD(A,B,C,D) VMADDi(A,B,C,D)
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#define VMADD_RR_RI(A,B,C,D) VMADD_RR_RIi(A,B,C,D)
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#define VMADD_MII_IR(A,B,C,D) VMADD_MII_IRi(A,B,C,D)
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#define VMADD_II_MIR(A,B,C,D) VMADD_II_MIRi(A,B,C,D)
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/*********************************************************
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* Macro sequences encoding QCD
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*********************************************************/
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#define LOCK_GAUGE(dir) \
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{ \
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uint64_t byte_addr = (uint64_t)&U._odata[sU]; \
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int count = (sizeof(U._odata[0])+63)/64; \
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asm (" mtctr %0 \n" \
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" mr " HASH(REP) ", %1\n" \
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" li " HASH(IMM) ", 64\n" \
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"0:\n" \
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LOCK_SET \
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" add " HASH(REP) "," HASH(IMM) "," HASH(REP) "\n" \
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" bdnz 0b\n" \
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: : "b" (count), "b" (byte_addr) ); \
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}
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#define UNLOCK_GAUGE(dir) \
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{ \
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uint64_t byte_addr = (uint64_t)&U._odata[sU]; \
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int count = (sizeof(U._odata[0])+63)/64; \
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asm (" mtctr %0 \n" \
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" mr " HASH(REP) ", %1\n" \
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" li " HASH(IMM) ", 64\n" \
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"0:\n" \
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LOCK_CLEAR \
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" add " HASH(REP) "," HASH(IMM) "," HASH(REP) "\n" \
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" bdnz 0b\n" \
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: : "b" (count), "b" (byte_addr) ); \
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}
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#define ZERO_PSI \
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VZERO(psi_00) \
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VZERO(psi_01) \
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VZERO(psi_02) \
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VZERO(psi_10) \
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VZERO(psi_11) \
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VZERO(psi_12) \
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VZERO(psi_20) \
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VZERO(psi_21) \
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VZERO(psi_22) \
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VZERO(psi_30) \
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VZERO(psi_31) \
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VZERO(psi_32)
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#define MULT_2SPIN_QPX_LSd(ptr,p) MULT_2SPIN_QPX_INTERNAL(ptr,p,VSPLAT,16)
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#define MULT_2SPIN_QPX_LSf(ptr,p) MULT_2SPIN_QPX_INTERNAL(ptr,p,VSPLAT,8)
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#define MULT_2SPIN_QPXd(ptr,p) MULT_2SPIN_QPX_INTERNAL(ptr,p,VLOAD,32)
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#define MULT_2SPIN_QPXf(ptr,p) MULT_2SPIN_QPX_INTERNAL(ptr,p,VLOAD,16)
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#define MULT_2SPIN_QPX_INTERNAL(ptr,p,ULOAD,USKIP) { \
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uint64_t ub = ((uint64_t)ptr); \
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asm ( \
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ULOAD(%0,%3,U0) \
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ULOAD(%1,%3,U1) \
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ULOAD(%2,%3,U2) \
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VMUL_RR_RI(UChi_00,U0,Chi_00) \
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VMUL_RR_RI(UChi_01,U1,Chi_00) \
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VMUL_RR_RI(UChi_02,U2,Chi_00) \
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VMUL_RR_RI(UChi_10,U0,Chi_10) \
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VMUL_RR_RI(UChi_11,U1,Chi_10) \
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VMUL_RR_RI(UChi_12,U2,Chi_10) \
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VMADD_MII_IR(UChi_00,U0,Chi_00,UChi_00) \
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VMADD_MII_IR(UChi_01,U1,Chi_00,UChi_01) \
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VMADD_MII_IR(UChi_02,U2,Chi_00,UChi_02) \
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VMADD_MII_IR(UChi_10,U0,Chi_10,UChi_10) \
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VMADD_MII_IR(UChi_11,U1,Chi_10,UChi_11) \
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VMADD_MII_IR(UChi_12,U2,Chi_10,UChi_12) \
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: : "b" (0), "b" (USKIP*3), "b" (USKIP*6), "b" (ub )); \
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asm ( \
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ULOAD(%0,%3,U0) \
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ULOAD(%1,%3,U1) \
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ULOAD(%2,%3,U2) \
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VMADD_RR_RI(UChi_00,U0,Chi_01,UChi_00) \
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VMADD_RR_RI(UChi_01,U1,Chi_01,UChi_01) \
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VMADD_RR_RI(UChi_02,U2,Chi_01,UChi_02) \
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VMADD_RR_RI(UChi_10,U0,Chi_11,UChi_10) \
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VMADD_RR_RI(UChi_11,U1,Chi_11,UChi_11) \
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VMADD_RR_RI(UChi_12,U2,Chi_11,UChi_12) \
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VMADD_MII_IR(UChi_00,U0,Chi_01,UChi_00) \
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VMADD_MII_IR(UChi_01,U1,Chi_01,UChi_01) \
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VMADD_MII_IR(UChi_02,U2,Chi_01,UChi_02) \
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VMADD_MII_IR(UChi_10,U0,Chi_11,UChi_10) \
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VMADD_MII_IR(UChi_11,U1,Chi_11,UChi_11) \
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VMADD_MII_IR(UChi_12,U2,Chi_11,UChi_12) \
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: : "b" (USKIP*1), "b" (USKIP*4), "b" (USKIP*7), "b" (ub )); \
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asm ( \
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ULOAD(%0,%3,U0) \
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ULOAD(%1,%3,U1) \
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ULOAD(%2,%3,U2) \
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VMADD_RR_RI(UChi_00,U0,Chi_02,UChi_00) \
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VMADD_RR_RI(UChi_01,U1,Chi_02,UChi_01) \
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VMADD_RR_RI(UChi_02,U2,Chi_02,UChi_02) \
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VMADD_RR_RI(UChi_10,U0,Chi_12,UChi_10) \
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VMADD_RR_RI(UChi_11,U1,Chi_12,UChi_11) \
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VMADD_RR_RI(UChi_12,U2,Chi_12,UChi_12) \
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VMADD_MII_IR(UChi_00,U0,Chi_02,UChi_00) \
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VMADD_MII_IR(UChi_01,U1,Chi_02,UChi_01) \
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VMADD_MII_IR(UChi_02,U2,Chi_02,UChi_02) \
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VMADD_MII_IR(UChi_10,U0,Chi_12,UChi_10) \
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VMADD_MII_IR(UChi_11,U1,Chi_12,UChi_11) \
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VMADD_MII_IR(UChi_12,U2,Chi_12,UChi_12) \
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: : "b" (USKIP*2), "b" (USKIP*5), "b" (USKIP*8), "b" (ub )); \
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}
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#define MULT_2SPIN_DIR_PF(A,p) MULT_2SPIN_PF(&U._odata[sU](A),p)
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#define MULT_2SPIN_PF(ptr,pf) MULT_2SPIN(ptr,pf)
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#define SAVE_RESULT(base,basep) { \
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uint64_t ub = ((uint64_t)base) - (VSIZE); \
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asm("mr " HASH(REP) ", %0;\n" \
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"li " HASH(IMM) "," HASH(VSIZE)" ;\n" \
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VSTOREu(IMM,REP,psi_00) \
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VSTOREu(IMM,REP,psi_01) \
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VSTOREu(IMM,REP,psi_02) \
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VSTOREu(IMM,REP,psi_10) \
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VSTOREu(IMM,REP,psi_11) \
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VSTOREu(IMM,REP,psi_12) \
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VSTOREu(IMM,REP,psi_20) \
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VSTOREu(IMM,REP,psi_21) \
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VSTOREu(IMM,REP,psi_22) \
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VSTOREu(IMM,REP,psi_30) \
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VSTOREu(IMM,REP,psi_31) \
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VSTOREu(IMM,REP,psi_32) \
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: : "b" (ub) : HASH(pIMM), HASH(pREP) ); \
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}
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/*
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*Annoying BG/Q loads with no immediat indexing and big performance hit
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*when second miss to a L1 line occurs
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*/
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#define LOAD_CHI(base) { \
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uint64_t ub = ((uint64_t)base) - (2*VSIZE); \
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asm("mr " HASH(REP) ",%0 ;\n" \
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"li " HASH(IMM) ",(2*" HASH(VSIZE) ");\n" \
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VLOADu(IMM,REP,Chi_00) \
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VLOADu(IMM,REP,Chi_02) \
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VLOADu(IMM,REP,Chi_11) : : "b" (ub) : HASH(pIMM), HASH(pREP) ); \
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ub = ((uint64_t)base) - VSIZE; \
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asm("mr " HASH(REP) ", %0;\n" \
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"li " HASH(IMM) ",(2*" HASH(VSIZE) ");\n" \
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VLOADu(IMM,REP,Chi_01) \
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VLOADu(IMM,REP,Chi_10) \
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VLOADu(IMM,REP,Chi_12) : : "b" (ub) : HASH(pIMM), HASH(pREP) ); \
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}
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#define LOAD_CHIMU(base) { \
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uint64_t ub = ((uint64_t)base) - (2*VSIZE); \
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asm("mr " HASH(REP) ",%0;\n" \
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"li " HASH(IMM) ",(2*" HASH(VSIZE) ");\n" \
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VLOADu(IMM,REP,Chi_00) \
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VLOADu(IMM,REP,Chi_02) \
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VLOADu(IMM,REP,Chi_11) \
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VLOADu(IMM,REP,Chi_20) \
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VLOADu(IMM,REP,Chi_22) \
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VLOADu(IMM,REP,Chi_31) : : "b" (ub) : HASH(pIMM), HASH(pREP) ); \
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ub = ((uint64_t)base) - VSIZE; \
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asm("mr " HASH(REP) ", %0;\n" \
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"li " HASH(IMM) ", (2*" HASH(VSIZE) ");\n" \
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VLOADu(IMM,REP,Chi_01) \
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VLOADu(IMM,REP,Chi_10) \
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VLOADu(IMM,REP,Chi_12) \
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VLOADu(IMM,REP,Chi_21) \
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VLOADu(IMM,REP,Chi_30) \
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VLOADu(IMM,REP,Chi_32) : : "b" (ub) : HASH(pIMM), HASH(pREP) ); \
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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(base) { \
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LOAD_CHIMU(base); \
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asm ( \
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VONE(one) \
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VMADD_MII_IR(Chi_00,one,Chi_30,Chi_00) \
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VMADD_MII_IR(Chi_01,one,Chi_31,Chi_01) \
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VMADD_MII_IR(Chi_02,one,Chi_32,Chi_02) \
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VMADD_MII_IR(Chi_10,one,Chi_20,Chi_10) \
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VMADD_MII_IR(Chi_11,one,Chi_21,Chi_11) \
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VMADD_MII_IR(Chi_12,one,Chi_22,Chi_12) \
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); \
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}
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#define XM_PROJMEM(base) { \
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LOAD_CHIMU(base); \
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asm ( \
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VONE(one) \
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VMADD_II_MIR(Chi_00,one,Chi_30,Chi_00) \
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VMADD_II_MIR(Chi_01,one,Chi_31,Chi_01) \
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VMADD_II_MIR(Chi_02,one,Chi_32,Chi_02) \
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VMADD_II_MIR(Chi_10,one,Chi_20,Chi_10) \
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VMADD_II_MIR(Chi_11,one,Chi_21,Chi_11) \
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VMADD_II_MIR(Chi_12,one,Chi_22,Chi_12) \
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); \
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}
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// hspin(0)=fspin(0)-fspin(3);
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// hspin(1)=fspin(1)+fspin(2);
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#define YP_PROJMEM(base) { \
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LOAD_CHIMU(base); \
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asm ( \
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VSUB(Chi_00,Chi_00,Chi_30) \
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VSUB(Chi_01,Chi_01,Chi_31) \
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VSUB(Chi_02,Chi_02,Chi_32) \
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VADD(Chi_10,Chi_10,Chi_20) \
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VADD(Chi_11,Chi_11,Chi_21) \
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VADD(Chi_12,Chi_12,Chi_22) \
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); \
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}
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#define YM_PROJMEM(base) { \
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LOAD_CHIMU(base); \
|
|
asm ( \
|
|
VADD(Chi_00,Chi_00,Chi_30) \
|
|
VADD(Chi_01,Chi_01,Chi_31) \
|
|
VADD(Chi_02,Chi_02,Chi_32) \
|
|
VSUB(Chi_10,Chi_10,Chi_20) \
|
|
VSUB(Chi_11,Chi_11,Chi_21) \
|
|
VSUB(Chi_12,Chi_12,Chi_22) ); \
|
|
}
|
|
|
|
/*Gz
|
|
* 0 0 i 0 [0]+-i[2]
|
|
* 0 0 0 -i [1]-+i[3]
|
|
* -i 0 0 0
|
|
* 0 i 0 0
|
|
*/
|
|
#define ZP_PROJMEM(base) { \
|
|
LOAD_CHIMU(base); \
|
|
asm ( \
|
|
VONE(one) \
|
|
VMADD_MII_IR(Chi_00,one,Chi_20,Chi_00) \
|
|
VMADD_MII_IR(Chi_01,one,Chi_21,Chi_01) \
|
|
VMADD_MII_IR(Chi_02,one,Chi_22,Chi_02) \
|
|
VMADD_II_MIR(Chi_10,one,Chi_30,Chi_10) \
|
|
VMADD_II_MIR(Chi_11,one,Chi_31,Chi_11) \
|
|
VMADD_II_MIR(Chi_12,one,Chi_32,Chi_12) \
|
|
); \
|
|
}
|
|
|
|
#define ZM_PROJMEM(base) { \
|
|
LOAD_CHIMU(base); \
|
|
asm ( \
|
|
VONE(one) \
|
|
VMADD_II_MIR(Chi_00,one,Chi_20,Chi_00) \
|
|
VMADD_II_MIR(Chi_01,one,Chi_21,Chi_01) \
|
|
VMADD_II_MIR(Chi_02,one,Chi_22,Chi_02) \
|
|
VMADD_MII_IR(Chi_10,one,Chi_30,Chi_10) \
|
|
VMADD_MII_IR(Chi_11,one,Chi_31,Chi_11) \
|
|
VMADD_MII_IR(Chi_12,one,Chi_32,Chi_12) \
|
|
); \
|
|
}
|
|
/*Gt
|
|
* 0 0 1 0 [0]+-[2]
|
|
* 0 0 0 1 [1]+-[3]
|
|
* 1 0 0 0
|
|
* 0 1 0 0
|
|
*/
|
|
#define TP_PROJMEM(base) { \
|
|
LOAD_CHIMU(base); \
|
|
asm ( \
|
|
VADD(Chi_00,Chi_00,Chi_20) \
|
|
VADD(Chi_01,Chi_01,Chi_21) \
|
|
VADD(Chi_02,Chi_02,Chi_22) \
|
|
VADD(Chi_10,Chi_10,Chi_30) \
|
|
VADD(Chi_11,Chi_11,Chi_31) \
|
|
VADD(Chi_12,Chi_12,Chi_32) \
|
|
); \
|
|
}
|
|
|
|
#define TM_PROJMEM(base) { \
|
|
LOAD_CHIMU(base); \
|
|
asm ( \
|
|
VSUB(Chi_00,Chi_00,Chi_20) \
|
|
VSUB(Chi_01,Chi_01,Chi_21) \
|
|
VSUB(Chi_02,Chi_02,Chi_22) \
|
|
VSUB(Chi_10,Chi_10,Chi_30) \
|
|
VSUB(Chi_11,Chi_11,Chi_31) \
|
|
VSUB(Chi_12,Chi_12,Chi_32) \
|
|
); \
|
|
}
|
|
|
|
/*
|
|
fspin(0)=hspin(0);
|
|
fspin(1)=hspin(1);
|
|
fspin(2)=timesMinusI(hspin(1));
|
|
fspin(3)=timesMinusI(hspin(0));
|
|
|
|
fspin(0)+=hspin(0);
|
|
fspin(1)+=hspin(1);
|
|
fspin(2)-=timesI(hspin(1));
|
|
fspin(3)-=timesI(hspin(0));
|
|
*/
|
|
#define XP_RECON { \
|
|
asm( \
|
|
VONE(one) \
|
|
VMOV(psi_00,UChi_00) VMOV(psi_01,UChi_01) VMOV(psi_02,UChi_02) \
|
|
VMOV(psi_10,UChi_10) VMOV(psi_11,UChi_11) VMOV(psi_12,UChi_12) \
|
|
VZERO(psi_20) VZERO(psi_21) VZERO(psi_22) \
|
|
VZERO(psi_30) VZERO(psi_31) VZERO(psi_32) \
|
|
VMADD_II_MIR(psi_20,one,UChi_10,psi_20) \
|
|
VMADD_II_MIR(psi_21,one,UChi_11,psi_21) \
|
|
VMADD_II_MIR(psi_22,one,UChi_12,psi_22) \
|
|
VMADD_II_MIR(psi_30,one,UChi_00,psi_30) \
|
|
VMADD_II_MIR(psi_31,one,UChi_01,psi_31) \
|
|
VMADD_II_MIR(psi_32,one,UChi_02,psi_32) \
|
|
); \
|
|
}
|
|
|
|
#define XM_RECON { \
|
|
asm( \
|
|
VONE(one) \
|
|
VMOV(psi_00,UChi_00) VMOV(psi_01,UChi_01) VMOV(psi_02,UChi_02) \
|
|
VMOV(psi_10,UChi_10) VMOV(psi_11,UChi_11) VMOV(psi_12,UChi_12) \
|
|
VZERO(psi_20) VZERO(psi_21) VZERO(psi_22) \
|
|
VZERO(psi_30) VZERO(psi_31) VZERO(psi_32) \
|
|
VMADD_MII_IR(psi_20,one,UChi_10,psi_20) \
|
|
VMADD_MII_IR(psi_21,one,UChi_11,psi_21) \
|
|
VMADD_MII_IR(psi_22,one,UChi_12,psi_22) \
|
|
VMADD_MII_IR(psi_30,one,UChi_00,psi_30) \
|
|
VMADD_MII_IR(psi_31,one,UChi_01,psi_31) \
|
|
VMADD_MII_IR(psi_32,one,UChi_02,psi_32) \
|
|
); \
|
|
}
|
|
|
|
#define XP_RECON_ACCUM { \
|
|
asm( \
|
|
VONE(one) \
|
|
VADD(psi_00,psi_00,UChi_00) VADD(psi_01,psi_01,UChi_01) VADD(psi_02,psi_02,UChi_02) \
|
|
VADD(psi_10,psi_10,UChi_10) VADD(psi_11,psi_11,UChi_11) VADD(psi_12,psi_12,UChi_12) \
|
|
VMADD_II_MIR(psi_20,one,UChi_10,psi_20) \
|
|
VMADD_II_MIR(psi_21,one,UChi_11,psi_21) \
|
|
VMADD_II_MIR(psi_22,one,UChi_12,psi_22) \
|
|
VMADD_II_MIR(psi_30,one,UChi_00,psi_30) \
|
|
VMADD_II_MIR(psi_31,one,UChi_01,psi_31) \
|
|
VMADD_II_MIR(psi_32,one,UChi_02,psi_32) \
|
|
); \
|
|
}
|
|
|
|
#define XM_RECON_ACCUM { \
|
|
asm( \
|
|
VONE(one) \
|
|
VADD(psi_00,psi_00,UChi_00) VADD(psi_01,psi_01,UChi_01) VADD(psi_02,psi_02,UChi_02) \
|
|
VADD(psi_10,psi_10,UChi_10) VADD(psi_11,psi_11,UChi_11) VADD(psi_12,psi_12,UChi_12) \
|
|
VMADD_MII_IR(psi_20,one,UChi_10,psi_20) \
|
|
VMADD_MII_IR(psi_21,one,UChi_11,psi_21) \
|
|
VMADD_MII_IR(psi_22,one,UChi_12,psi_22) \
|
|
VMADD_MII_IR(psi_30,one,UChi_00,psi_30) \
|
|
VMADD_MII_IR(psi_31,one,UChi_01,psi_31) \
|
|
VMADD_MII_IR(psi_32,one,UChi_02,psi_32) \
|
|
); \
|
|
}
|
|
|
|
// fspin(2)+=hspin(1);
|
|
// fspin(3)-=hspin(0);
|
|
#define YP_RECON_ACCUM { \
|
|
asm( \
|
|
VADD(psi_00,psi_00,UChi_00) VADD(psi_01,psi_01,UChi_01) VADD(psi_02,psi_02,UChi_02) \
|
|
VADD(psi_10,psi_10,UChi_10) VADD(psi_11,psi_11,UChi_11) VADD(psi_12,psi_12,UChi_12) \
|
|
VADD(psi_20,psi_20,UChi_10) VADD(psi_21,psi_21,UChi_11) VADD(psi_22,psi_22,UChi_12) \
|
|
VSUB(psi_30,psi_30,UChi_00) VSUB(psi_31,psi_31,UChi_01) VSUB(psi_32,psi_32,UChi_02) \
|
|
); \
|
|
}
|
|
#define YM_RECON_ACCUM { \
|
|
asm( \
|
|
VADD(psi_00,psi_00,UChi_00) VADD(psi_01,psi_01,UChi_01) VADD(psi_02,psi_02,UChi_02) \
|
|
VADD(psi_10,psi_10,UChi_10) VADD(psi_11,psi_11,UChi_11) VADD(psi_12,psi_12,UChi_12) \
|
|
VSUB(psi_20,psi_20,UChi_10) VSUB(psi_21,psi_21,UChi_11) VSUB(psi_22,psi_22,UChi_12) \
|
|
VADD(psi_30,psi_30,UChi_00) VADD(psi_31,psi_31,UChi_01) VADD(psi_32,psi_32,UChi_02) \
|
|
); \
|
|
}
|
|
|
|
// fspin(2)-=timesI(hspin(0));
|
|
// fspin(3)+=timesI(hspin(1));
|
|
#define ZP_RECON_ACCUM { \
|
|
asm( \
|
|
VONE(one) \
|
|
VADD(psi_00,psi_00,UChi_00) VADD(psi_01,psi_01,UChi_01) VADD(psi_02,psi_02,UChi_02) \
|
|
VADD(psi_10,psi_10,UChi_10) VADD(psi_11,psi_11,UChi_11) VADD(psi_12,psi_12,UChi_12) \
|
|
VMADD_II_MIR(psi_20,one,UChi_00,psi_20) \
|
|
VMADD_II_MIR(psi_21,one,UChi_01,psi_21) \
|
|
VMADD_II_MIR(psi_22,one,UChi_02,psi_22) \
|
|
VMADD_MII_IR(psi_30,one,UChi_10,psi_30) \
|
|
VMADD_MII_IR(psi_31,one,UChi_11,psi_31) \
|
|
VMADD_MII_IR(psi_32,one,UChi_12,psi_32) \
|
|
); \
|
|
}
|
|
|
|
#define ZM_RECON_ACCUM { \
|
|
asm( \
|
|
VONE(one) \
|
|
VADD(psi_00,psi_00,UChi_00) VADD(psi_01,psi_01,UChi_01) VADD(psi_02,psi_02,UChi_02) \
|
|
VADD(psi_10,psi_10,UChi_10) VADD(psi_11,psi_11,UChi_11) VADD(psi_12,psi_12,UChi_12) \
|
|
VMADD_MII_IR(psi_20,one,UChi_00,psi_20) \
|
|
VMADD_MII_IR(psi_21,one,UChi_01,psi_21) \
|
|
VMADD_MII_IR(psi_22,one,UChi_02,psi_22) \
|
|
VMADD_II_MIR(psi_30,one,UChi_10,psi_30) \
|
|
VMADD_II_MIR(psi_31,one,UChi_11,psi_31) \
|
|
VMADD_II_MIR(psi_32,one,UChi_12,psi_32) \
|
|
); \
|
|
}
|
|
|
|
// fspin(2)+=hspin(0);
|
|
// fspin(3)+=hspin(1);
|
|
#define TP_RECON_ACCUM { \
|
|
asm( \
|
|
VADD(psi_00,psi_00,UChi_00) VADD(psi_01,psi_01,UChi_01) VADD(psi_02,psi_02,UChi_02) \
|
|
VADD(psi_10,psi_10,UChi_10) VADD(psi_11,psi_11,UChi_11) VADD(psi_12,psi_12,UChi_12) \
|
|
VADD(psi_20,psi_20,UChi_00) VADD(psi_21,psi_21,UChi_01) VADD(psi_22,psi_22,UChi_02) \
|
|
VADD(psi_30,psi_30,UChi_10) VADD(psi_31,psi_31,UChi_11) VADD(psi_32,psi_32,UChi_12) \
|
|
); \
|
|
}
|
|
|
|
#define TM_RECON_ACCUM { \
|
|
asm( \
|
|
VADD(psi_00,psi_00,UChi_00) VADD(psi_01,psi_01,UChi_01) VADD(psi_02,psi_02,UChi_02) \
|
|
VADD(psi_10,psi_10,UChi_10) VADD(psi_11,psi_11,UChi_11) VADD(psi_12,psi_12,UChi_12) \
|
|
VSUB(psi_20,psi_20,UChi_00) VSUB(psi_21,psi_21,UChi_01) VSUB(psi_22,psi_22,UChi_02) \
|
|
VSUB(psi_30,psi_30,UChi_10) VSUB(psi_31,psi_31,UChi_11) VSUB(psi_32,psi_32,UChi_12) \
|
|
); \
|
|
}
|
|
|
|
|
|
#define ADD_RESULTi(PTR,pf) \
|
|
LOAD_CHIMU(PTR) \
|
|
asm( \
|
|
VADD(psi_00,chi_00,psi_00) VADD(psi_01,chi_01,psi_01) VADD(psi_02,chi_02,psi_02) \
|
|
VADD(psi_10,chi_10,psi_10) VADD(psi_11,chi_11,psi_11) VADD(psi_12,chi_12,psi_12) \
|
|
VADD(psi_20,chi_20,psi_20) VADD(psi_21,chi_21,psi_21) VADD(psi_22,chi_22,psi_22) \
|
|
VADD(psi_30,chi_30,psi_30) VADD(psi_31,chi_31,psi_31) VADD(psi_32,chi_32,psi_32) ); \
|
|
SAVE_RESULT(PTR,pf);
|
|
|
|
|
|
#define PERMUTE_DIR3
|
|
#define PERMUTE_DIR2
|
|
#define PERMUTE_DIR1
|
|
|
|
#define PERMUTE_DIR0 { \
|
|
asm( \
|
|
VPERMI(perm_reg) \
|
|
VPERM(Chi_00,perm_reg) VPERM(Chi_01,perm_reg) VPERM(Chi_02,perm_reg) \
|
|
VPERM(Chi_10,perm_reg) VPERM(Chi_11,perm_reg) VPERM(Chi_12,perm_reg) ); \
|
|
}
|
|
|
|
#endif
|