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a75b6f6e78
Grid/lib/qcd/action/fermion/WilsonKernelsHand.cc
Peter Boyle a75b6f6e78 Large scale change to support 5d fermion formulations. 
Have 5d replicated wilson with 4d gauge working and matrix regressing
to Ls copies of wilson.
2015-05-31 15:09:02 +01:00

771 lines
17 KiB
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#include <Grid.h>
#define REGISTER
#define LOAD_CHIMU \
const vSpinColourVector & ref (in._odata[offset]); \
Chimu_00=ref()(0)(0);\
Chimu_01=ref()(0)(1);\
Chimu_02=ref()(0)(2);\
Chimu_10=ref()(1)(0);\
Chimu_11=ref()(1)(1);\
Chimu_12=ref()(1)(2);\
Chimu_20=ref()(2)(0);\
Chimu_21=ref()(2)(1);\
Chimu_22=ref()(2)(2);\
Chimu_30=ref()(3)(0);\
Chimu_31=ref()(3)(1);\
Chimu_32=ref()(3)(2);
#define LOAD_CHI\
const vHalfSpinColourVector &ref(buf[offset]); \
Chi_00 = ref()(0)(0);\
Chi_01 = ref()(0)(1);\
Chi_02 = ref()(0)(2);\
Chi_10 = ref()(1)(0);\
Chi_11 = ref()(1)(1);\
Chi_12 = ref()(1)(2);
#define MULT_2SPIN(A)\
auto & ref(U._odata[sU](A)); \
U_00 = ref()(0,0);\
U_10 = ref()(1,0);\
U_20 = ref()(2,0);\
U_01 = ref()(0,1);\
U_11 = ref()(1,1); \
U_21 = ref()(2,1);\
UChi_00 = U_00*Chi_00;\
UChi_10 = U_00*Chi_10;\
UChi_01 = U_10*Chi_00;\
UChi_11 = U_10*Chi_10;\
UChi_02 = U_20*Chi_00;\
UChi_12 = U_20*Chi_10;\
UChi_00+= U_01*Chi_01;\
UChi_10+= U_01*Chi_11;\
UChi_01+= U_11*Chi_01;\
UChi_11+= U_11*Chi_11;\
UChi_02+= U_21*Chi_01;\
UChi_12+= U_21*Chi_11;\
U_00 = ref()(0,2);\
U_10 = ref()(1,2);\
U_20 = ref()(2,2);\
UChi_00+= U_00*Chi_02;\
UChi_10+= U_00*Chi_12;\
UChi_01+= U_10*Chi_02;\
UChi_11+= U_10*Chi_12;\
UChi_02+= U_20*Chi_02;\
UChi_12+= U_20*Chi_12;
#define PERMUTE\
permute(Chi_00,Chi_00,ptype);\
permute(Chi_01,Chi_01,ptype);\
permute(Chi_02,Chi_02,ptype);\
permute(Chi_10,Chi_10,ptype);\
permute(Chi_11,Chi_11,ptype);\
permute(Chi_12,Chi_12,ptype);
// hspin(0)=fspin(0)+timesI(fspin(3));
// hspin(1)=fspin(1)+timesI(fspin(2));
#define XP_PROJ \
Chi_00 = Chimu_00+timesI(Chimu_30);\
Chi_01 = Chimu_01+timesI(Chimu_31);\
Chi_02 = Chimu_02+timesI(Chimu_32);\
Chi_10 = Chimu_10+timesI(Chimu_20);\
Chi_11 = Chimu_11+timesI(Chimu_21);\
Chi_12 = Chimu_12+timesI(Chimu_22);
#define YP_PROJ \
Chi_00 = Chimu_00-Chimu_30;\
Chi_01 = Chimu_01-Chimu_31;\
Chi_02 = Chimu_02-Chimu_32;\
Chi_10 = Chimu_10+Chimu_20;\
Chi_11 = Chimu_11+Chimu_21;\
Chi_12 = Chimu_12+Chimu_22;
#define ZP_PROJ \
Chi_00 = Chimu_00+timesI(Chimu_20); \
Chi_01 = Chimu_01+timesI(Chimu_21); \
Chi_02 = Chimu_02+timesI(Chimu_22); \
Chi_10 = Chimu_10-timesI(Chimu_30); \
Chi_11 = Chimu_11-timesI(Chimu_31); \
Chi_12 = Chimu_12-timesI(Chimu_32);
#define TP_PROJ \
Chi_00 = Chimu_00+Chimu_20; \
Chi_01 = Chimu_01+Chimu_21; \
Chi_02 = Chimu_02+Chimu_22; \
Chi_10 = Chimu_10+Chimu_30; \
Chi_11 = Chimu_11+Chimu_31; \
Chi_12 = Chimu_12+Chimu_32;
// hspin(0)=fspin(0)-timesI(fspin(3));
// hspin(1)=fspin(1)-timesI(fspin(2));
#define XM_PROJ \
Chi_00 = Chimu_00-timesI(Chimu_30);\
Chi_01 = Chimu_01-timesI(Chimu_31);\
Chi_02 = Chimu_02-timesI(Chimu_32);\
Chi_10 = Chimu_10-timesI(Chimu_20);\
Chi_11 = Chimu_11-timesI(Chimu_21);\
Chi_12 = Chimu_12-timesI(Chimu_22);
#define YM_PROJ \
Chi_00 = Chimu_00+Chimu_30;\
Chi_01 = Chimu_01+Chimu_31;\
Chi_02 = Chimu_02+Chimu_32;\
Chi_10 = Chimu_10-Chimu_20;\
Chi_11 = Chimu_11-Chimu_21;\
Chi_12 = Chimu_12-Chimu_22;
#define ZM_PROJ \
Chi_00 = Chimu_00-timesI(Chimu_20); \
Chi_01 = Chimu_01-timesI(Chimu_21); \
Chi_02 = Chimu_02-timesI(Chimu_22); \
Chi_10 = Chimu_10+timesI(Chimu_30); \
Chi_11 = Chimu_11+timesI(Chimu_31); \
Chi_12 = Chimu_12+timesI(Chimu_32);
#define TM_PROJ \
Chi_00 = Chimu_00-Chimu_20; \
Chi_01 = Chimu_01-Chimu_21; \
Chi_02 = Chimu_02-Chimu_22; \
Chi_10 = Chimu_10-Chimu_30; \
Chi_11 = Chimu_11-Chimu_31; \
Chi_12 = Chimu_12-Chimu_32;
// fspin(0)=hspin(0);
// fspin(1)=hspin(1);
// fspin(2)=timesMinusI(hspin(1));
// fspin(3)=timesMinusI(hspin(0));
#define XP_RECON\
result_00 = UChi_00;\
result_01 = UChi_01;\
result_02 = UChi_02;\
result_10 = UChi_10;\
result_11 = UChi_11;\
result_12 = UChi_12;\
result_20 = timesMinusI(UChi_10);\
result_21 = timesMinusI(UChi_11);\
result_22 = timesMinusI(UChi_12);\
result_30 = timesMinusI(UChi_00);\
result_31 = timesMinusI(UChi_01);\
result_32 = timesMinusI(UChi_02);
#define XP_RECON_ACCUM\
result_00+=UChi_00;\
result_01+=UChi_01;\
result_02+=UChi_02;\
result_10+=UChi_10;\
result_11+=UChi_11;\
result_12+=UChi_12;\
result_20-=timesI(UChi_10);\
result_21-=timesI(UChi_11);\
result_22-=timesI(UChi_12);\
result_30-=timesI(UChi_00);\
result_31-=timesI(UChi_01);\
result_32-=timesI(UChi_02);
#define XM_RECON\
result_00 = UChi_00;\
result_01 = UChi_01;\
result_02 = UChi_02;\
result_10 = UChi_10;\
result_11 = UChi_11;\
result_12 = UChi_12;\
result_20 = timesI(UChi_10);\
result_21 = timesI(UChi_11);\
result_22 = timesI(UChi_12);\
result_30 = timesI(UChi_00);\
result_31 = timesI(UChi_01);\
result_32 = timesI(UChi_02);
#define XM_RECON_ACCUM\
result_00+= UChi_00;\
result_01+= UChi_01;\
result_02+= UChi_02;\
result_10+= UChi_10;\
result_11+= UChi_11;\
result_12+= UChi_12;\
result_20+= timesI(UChi_10);\
result_21+= timesI(UChi_11);\
result_22+= timesI(UChi_12);\
result_30+= timesI(UChi_00);\
result_31+= timesI(UChi_01);\
result_32+= timesI(UChi_02);
#define YP_RECON_ACCUM\
result_00+= UChi_00;\
result_01+= UChi_01;\
result_02+= UChi_02;\
result_10+= UChi_10;\
result_11+= UChi_11;\
result_12+= UChi_12;\
result_20+= UChi_10;\
result_21+= UChi_11;\
result_22+= UChi_12;\
result_30-= UChi_00;\
result_31-= UChi_01;\
result_32-= UChi_02;
#define YM_RECON_ACCUM\
result_00+= UChi_00;\
result_01+= UChi_01;\
result_02+= UChi_02;\
result_10+= UChi_10;\
result_11+= UChi_11;\
result_12+= UChi_12;\
result_20-= UChi_10;\
result_21-= UChi_11;\
result_22-= UChi_12;\
result_30+= UChi_00;\
result_31+= UChi_01;\
result_32+= UChi_02;
#define ZP_RECON_ACCUM\
result_00+= UChi_00;\
result_01+= UChi_01;\
result_02+= UChi_02;\
result_10+= UChi_10;\
result_11+= UChi_11;\
result_12+= UChi_12;\
result_20-= timesI(UChi_00); \
result_21-= timesI(UChi_01); \
result_22-= timesI(UChi_02); \
result_30+= timesI(UChi_10); \
result_31+= timesI(UChi_11); \
result_32+= timesI(UChi_12);
#define ZM_RECON_ACCUM\
result_00+= UChi_00;\
result_01+= UChi_01;\
result_02+= UChi_02;\
result_10+= UChi_10;\
result_11+= UChi_11;\
result_12+= UChi_12;\
result_20+= timesI(UChi_00); \
result_21+= timesI(UChi_01); \
result_22+= timesI(UChi_02); \
result_30-= timesI(UChi_10); \
result_31-= timesI(UChi_11); \
result_32-= timesI(UChi_12);
#define TP_RECON_ACCUM\
result_00+= UChi_00;\
result_01+= UChi_01;\
result_02+= UChi_02;\
result_10+= UChi_10;\
result_11+= UChi_11;\
result_12+= UChi_12;\
result_20+= UChi_00; \
result_21+= UChi_01; \
result_22+= UChi_02; \
result_30+= UChi_10; \
result_31+= UChi_11; \
result_32+= UChi_12;
#define TM_RECON_ACCUM\
result_00+= UChi_00;\
result_01+= UChi_01;\
result_02+= UChi_02;\
result_10+= UChi_10;\
result_11+= UChi_11;\
result_12+= UChi_12;\
result_20-= UChi_00; \
result_21-= UChi_01; \
result_22-= UChi_02; \
result_30-= UChi_10; \
result_31-= UChi_11; \
result_32-= UChi_12;
namespace Grid {
namespace QCD {
void DiracOptHand::DhopSite(CartesianStencil &st,LatticeDoubledGaugeField &U,
std::vector<vHalfSpinColourVector,alignedAllocator<vHalfSpinColourVector> > &buf,
int sF,int sU,const LatticeFermion &in, LatticeFermion &out)
{
REGISTER vComplex result_00; // 12 regs on knc
REGISTER vComplex result_01;
REGISTER vComplex result_02;
REGISTER vComplex result_10;
REGISTER vComplex result_11;
REGISTER vComplex result_12;
REGISTER vComplex result_20;
REGISTER vComplex result_21;
REGISTER vComplex result_22;
REGISTER vComplex result_30;
REGISTER vComplex result_31;
REGISTER vComplex result_32; // 20 left
REGISTER vComplex Chi_00; // two spinor; 6 regs
REGISTER vComplex Chi_01;
REGISTER vComplex Chi_02;
REGISTER vComplex Chi_10;
REGISTER vComplex Chi_11;
REGISTER vComplex Chi_12; // 14 left
REGISTER vComplex UChi_00; // two spinor; 6 regs
REGISTER vComplex UChi_01;
REGISTER vComplex UChi_02;
REGISTER vComplex UChi_10;
REGISTER vComplex UChi_11;
REGISTER vComplex UChi_12; // 8 left
REGISTER vComplex U_00; // two rows of U matrix
REGISTER vComplex U_10;
REGISTER vComplex U_20;
REGISTER vComplex U_01;
REGISTER vComplex U_11;
REGISTER vComplex U_21; // 2 reg left.
#define Chimu_00 Chi_00
#define Chimu_01 Chi_01
#define Chimu_02 Chi_02
#define Chimu_10 Chi_10
#define Chimu_11 Chi_11
#define Chimu_12 Chi_12
#define Chimu_20 UChi_00
#define Chimu_21 UChi_01
#define Chimu_22 UChi_02
#define Chimu_30 UChi_10
#define Chimu_31 UChi_11
#define Chimu_32 UChi_12
int offset,local,perm, ptype;
int ss=sF;
// Xp
offset = st._offsets [Xp][ss];
local = st._is_local[Xp][ss];
perm = st._permute[Xp][ss];
ptype = st._permute_type[Xp];
if ( local ) {
LOAD_CHIMU;
XP_PROJ;
if ( perm) {
PERMUTE;
}
} else {
LOAD_CHI;
}
{
MULT_2SPIN(Xp);
}
XP_RECON;
// std::cout << "XP_RECON"<<std::endl;
// std::cout << result_00 <<" "<<result_01 <<" "<<result_02 <<std::endl;
// std::cout << result_10 <<" "<<result_11 <<" "<<result_12 <<std::endl;
// std::cout << result_20 <<" "<<result_21 <<" "<<result_22 <<std::endl;
// std::cout << result_30 <<" "<<result_31 <<" "<<result_32 <<std::endl;
// Yp
offset = st._offsets [Yp][ss];
local = st._is_local[Yp][ss];
perm = st._permute[Yp][ss];
ptype = st._permute_type[Yp];
if ( local ) {
LOAD_CHIMU;
YP_PROJ;
if ( perm) {
PERMUTE;
}
} else {
LOAD_CHI;
}
{
MULT_2SPIN(Yp);
}
YP_RECON_ACCUM;
// Zp
offset = st._offsets [Zp][ss];
local = st._is_local[Zp][ss];
perm = st._permute[Zp][ss];
ptype = st._permute_type[Zp];
if ( local ) {
LOAD_CHIMU;
ZP_PROJ;
if ( perm) {
PERMUTE;
}
} else {
LOAD_CHI;
}
{
MULT_2SPIN(Zp);
}
ZP_RECON_ACCUM;
// Tp
offset = st._offsets [Tp][ss];
local = st._is_local[Tp][ss];
perm = st._permute[Tp][ss];
ptype = st._permute_type[Tp];
if ( local ) {
LOAD_CHIMU;
TP_PROJ;
if ( perm) {
PERMUTE;
}
} else {
LOAD_CHI;
}
{
MULT_2SPIN(Tp);
}
TP_RECON_ACCUM;
// Xm
offset = st._offsets [Xm][ss];
local = st._is_local[Xm][ss];
perm = st._permute[Xm][ss];
ptype = st._permute_type[Xm];
if ( local ) {
LOAD_CHIMU;
XM_PROJ;
if ( perm) {
PERMUTE;
}
} else {
LOAD_CHI;
}
{
MULT_2SPIN(Xm);
}
XM_RECON_ACCUM;
// std::cout << "XM_RECON_ACCUM"<<std::endl;
// std::cout << result_00 <<" "<<result_01 <<" "<<result_02 <<std::endl;
// std::cout << result_10 <<" "<<result_11 <<" "<<result_12 <<std::endl;
// std::cout << result_20 <<" "<<result_21 <<" "<<result_22 <<std::endl;
// std::cout << result_30 <<" "<<result_31 <<" "<<result_32 <<std::endl;
// Ym
offset = st._offsets [Ym][ss];
local = st._is_local[Ym][ss];
perm = st._permute[Ym][ss];
ptype = st._permute_type[Ym];
if ( local ) {
LOAD_CHIMU;
YM_PROJ;
if ( perm) {
PERMUTE;
}
} else {
LOAD_CHI;
}
{
MULT_2SPIN(Ym);
}
YM_RECON_ACCUM;
// Zm
offset = st._offsets [Zm][ss];
local = st._is_local[Zm][ss];
perm = st._permute[Zm][ss];
ptype = st._permute_type[Zm];
if ( local ) {
LOAD_CHIMU;
ZM_PROJ;
if ( perm) {
PERMUTE;
}
} else {
LOAD_CHI;
}
{
MULT_2SPIN(Zm);
}
ZM_RECON_ACCUM;
// Tm
offset = st._offsets [Tm][ss];
local = st._is_local[Tm][ss];
perm = st._permute[Tm][ss];
ptype = st._permute_type[Tm];
if ( local ) {
LOAD_CHIMU;
TM_PROJ;
if ( perm) {
PERMUTE;
}
} else {
LOAD_CHI;
}
{
MULT_2SPIN(Tm);
}
TM_RECON_ACCUM;
{
vSpinColourVector & ref (out._odata[ss]);
vstream(ref()(0)(0),result_00*(-0.5));
vstream(ref()(0)(1),result_01*(-0.5));
vstream(ref()(0)(2),result_02*(-0.5));
vstream(ref()(1)(0),result_10*(-0.5));
vstream(ref()(1)(1),result_11*(-0.5));
vstream(ref()(1)(2),result_12*(-0.5));
vstream(ref()(2)(0),result_20*(-0.5));
vstream(ref()(2)(1),result_21*(-0.5));
vstream(ref()(2)(2),result_22*(-0.5));
vstream(ref()(3)(0),result_30*(-0.5));
vstream(ref()(3)(1),result_31*(-0.5));
vstream(ref()(3)(2),result_32*(-0.5));
}
}
void DiracOptHand::DhopSiteDag(CartesianStencil &st,LatticeDoubledGaugeField &U,
std::vector<vHalfSpinColourVector,alignedAllocator<vHalfSpinColourVector> > &buf,
int ss,int sU,const LatticeFermion &in, LatticeFermion &out)
{
REGISTER vComplex result_00; // 12 regs on knc
REGISTER vComplex result_01;
REGISTER vComplex result_02;
REGISTER vComplex result_10;
REGISTER vComplex result_11;
REGISTER vComplex result_12;
REGISTER vComplex result_20;
REGISTER vComplex result_21;
REGISTER vComplex result_22;
REGISTER vComplex result_30;
REGISTER vComplex result_31;
REGISTER vComplex result_32; // 20 left
REGISTER vComplex Chi_00; // two spinor; 6 regs
REGISTER vComplex Chi_01;
REGISTER vComplex Chi_02;
REGISTER vComplex Chi_10;
REGISTER vComplex Chi_11;
REGISTER vComplex Chi_12; // 14 left
REGISTER vComplex UChi_00; // two spinor; 6 regs
REGISTER vComplex UChi_01;
REGISTER vComplex UChi_02;
REGISTER vComplex UChi_10;
REGISTER vComplex UChi_11;
REGISTER vComplex UChi_12; // 8 left
REGISTER vComplex U_00; // two rows of U matrix
REGISTER vComplex U_10;
REGISTER vComplex U_20;
REGISTER vComplex U_01;
REGISTER vComplex U_11;
REGISTER vComplex U_21; // 2 reg left.
#define Chimu_00 Chi_00
#define Chimu_01 Chi_01
#define Chimu_02 Chi_02
#define Chimu_10 Chi_10
#define Chimu_11 Chi_11
#define Chimu_12 Chi_12
#define Chimu_20 UChi_00
#define Chimu_21 UChi_01
#define Chimu_22 UChi_02
#define Chimu_30 UChi_10
#define Chimu_31 UChi_11
#define Chimu_32 UChi_12
int offset,local,perm, ptype;
// Xp
offset = st._offsets [Xp][ss];
local = st._is_local[Xp][ss];
perm = st._permute[Xp][ss];
ptype = st._permute_type[Xp];
if ( local ) {
LOAD_CHIMU;
XM_PROJ;
if ( perm) {
PERMUTE;
}
} else {
LOAD_CHI;
}
{
MULT_2SPIN(Xp);
}
XM_RECON;
// Yp
offset = st._offsets [Yp][ss];
local = st._is_local[Yp][ss];
perm = st._permute[Yp][ss];
ptype = st._permute_type[Yp];
if ( local ) {
LOAD_CHIMU;
YM_PROJ;
if ( perm) {
PERMUTE;
}
} else {
LOAD_CHI;
}
{
MULT_2SPIN(Yp);
}
YM_RECON_ACCUM;
// Zp
offset = st._offsets [Zp][ss];
local = st._is_local[Zp][ss];
perm = st._permute[Zp][ss];
ptype = st._permute_type[Zp];
if ( local ) {
LOAD_CHIMU;
ZM_PROJ;
if ( perm) {
PERMUTE;
}
} else {
LOAD_CHI;
}
{
MULT_2SPIN(Zp);
}
ZM_RECON_ACCUM;
// Tp
offset = st._offsets [Tp][ss];
local = st._is_local[Tp][ss];
perm = st._permute[Tp][ss];
ptype = st._permute_type[Tp];
if ( local ) {
LOAD_CHIMU;
TM_PROJ;
if ( perm) {
PERMUTE;
}
} else {
LOAD_CHI;
}
{
MULT_2SPIN(Tp);
}
TM_RECON_ACCUM;
// Xm
offset = st._offsets [Xm][ss];
local = st._is_local[Xm][ss];
perm = st._permute[Xm][ss];
ptype = st._permute_type[Xm];
if ( local ) {
LOAD_CHIMU;
XP_PROJ;
if ( perm) {
PERMUTE;
}
} else {
LOAD_CHI;
}
{
MULT_2SPIN(Xm);
}
XP_RECON_ACCUM;
// Ym
offset = st._offsets [Ym][ss];
local = st._is_local[Ym][ss];
perm = st._permute[Ym][ss];
ptype = st._permute_type[Ym];
if ( local ) {
LOAD_CHIMU;
YP_PROJ;
if ( perm) {
PERMUTE;
}
} else {
LOAD_CHI;
}
{
MULT_2SPIN(Ym);
}
YP_RECON_ACCUM;
// Zm
offset = st._offsets [Zm][ss];
local = st._is_local[Zm][ss];
perm = st._permute[Zm][ss];
ptype = st._permute_type[Zm];
if ( local ) {
LOAD_CHIMU;
ZP_PROJ;
if ( perm) {
PERMUTE;
}
} else {
LOAD_CHI;
}
{
MULT_2SPIN(Zm);
}
ZP_RECON_ACCUM;
// Tm
offset = st._offsets [Tm][ss];
local = st._is_local[Tm][ss];
perm = st._permute[Tm][ss];
ptype = st._permute_type[Tm];
if ( local ) {
LOAD_CHIMU;
TP_PROJ;
if ( perm) {
PERMUTE;
}
} else {
LOAD_CHI;
}
{
MULT_2SPIN(Tm);
}
TP_RECON_ACCUM;
{
vSpinColourVector & ref (out._odata[ss]);
vstream(ref()(0)(0),result_00*(-0.5));
vstream(ref()(0)(1),result_01*(-0.5));
vstream(ref()(0)(2),result_02*(-0.5));
vstream(ref()(1)(0),result_10*(-0.5));
vstream(ref()(1)(1),result_11*(-0.5));
vstream(ref()(1)(2),result_12*(-0.5));
vstream(ref()(2)(0),result_20*(-0.5));
vstream(ref()(2)(1),result_21*(-0.5));
vstream(ref()(2)(2),result_22*(-0.5));
vstream(ref()(3)(0),result_30*(-0.5));
vstream(ref()(3)(1),result_31*(-0.5));
vstream(ref()(3)(2),result_32*(-0.5));
}
}
}}
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