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Grid/lib/qcd/action/fermion/WilsonFermion.cc

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#include <Grid.h>
namespace Grid {
namespace QCD {
const std::vector<int> WilsonFermion::directions ({0,1,2,3, 0, 1, 2, 3});
const std::vector<int> WilsonFermion::displacements({1,1,1,1,-1,-1,-1,-1});
int WilsonFermion::HandOptDslash;
WilsonFermion::WilsonFermion(LatticeGaugeField &_Umu,
GridCartesian &Fgrid,
GridRedBlackCartesian &Hgrid,
RealD _mass) :
_grid(&Fgrid),
_cbgrid(&Hgrid),
Stencil (&Fgrid,npoint,Even,directions,displacements),
StencilEven(&Hgrid,npoint,Even,directions,displacements), // source is Even
StencilOdd (&Hgrid,npoint,Odd ,directions,displacements), // source is Odd
mass(_mass),
Umu(&Fgrid),
UmuEven(&Hgrid),
UmuOdd (&Hgrid)
{
// Allocate the required comms buffer
comm_buf.resize(Stencil._unified_buffer_size); // this is always big enough to contain EO
ImportGauge(_Umu);
}
void WilsonFermion::ImportGauge(const LatticeGaugeField &_Umu)
{
DoubleStore(Umu,_Umu);
pickCheckerboard(Even,UmuEven,Umu);
pickCheckerboard(Odd ,UmuOdd,Umu);
}
void WilsonFermion::DoubleStore(LatticeDoubledGaugeField &Uds,const LatticeGaugeField &Umu)
{
conformable(Uds._grid,GaugeGrid());
conformable(Umu._grid,GaugeGrid());
LatticeColourMatrix U(GaugeGrid());
for(int mu=0;mu<Nd;mu++){
U = PeekIndex<LorentzIndex>(Umu,mu);
PokeIndex<LorentzIndex>(Uds,U,mu);
U = adj(Cshift(U,mu,-1));
PokeIndex<LorentzIndex>(Uds,U,mu+4);
}
}
RealD WilsonFermion::M(const LatticeFermion &in, LatticeFermion &out)
{
out.checkerboard=in.checkerboard;
Dhop(in,out,DaggerNo);
return axpy_norm(out,4+mass,in,out);
}
RealD WilsonFermion::Mdag(const LatticeFermion &in, LatticeFermion &out)
{
out.checkerboard=in.checkerboard;
Dhop(in,out,DaggerYes);
return axpy_norm(out,4+mass,in,out);
}
void WilsonFermion::Meooe(const LatticeFermion &in, LatticeFermion &out)
{
if ( in.checkerboard == Odd ) {
DhopEO(in,out,DaggerNo);
} else {
DhopOE(in,out,DaggerNo);
}
}
void WilsonFermion::MeooeDag(const LatticeFermion &in, LatticeFermion &out)
{
if ( in.checkerboard == Odd ) {
DhopEO(in,out,DaggerYes);
} else {
DhopOE(in,out,DaggerYes);
}
}
void WilsonFermion::Mooee(const LatticeFermion &in, LatticeFermion &out)
{
out.checkerboard = in.checkerboard;
out = (4.0+mass)*in;
return ;
}
void WilsonFermion::MooeeDag(const LatticeFermion &in, LatticeFermion &out)
{
out.checkerboard = in.checkerboard;
Mooee(in,out);
}
void WilsonFermion::MooeeInv(const LatticeFermion &in, LatticeFermion &out)
{
out.checkerboard = in.checkerboard;
out = (1.0/(4.0+mass))*in;
return ;
}
void WilsonFermion::MooeeInvDag(const LatticeFermion &in, LatticeFermion &out)
{
out.checkerboard = in.checkerboard;
MooeeInv(in,out);
}
void WilsonFermion::Mdir (const LatticeFermion &in, LatticeFermion &out,int dir,int disp)
{
DhopDir(in,out,dir,disp);
}
void WilsonFermion::DhopDir(const LatticeFermion &in, LatticeFermion &out,int dir,int disp){
WilsonCompressor compressor(DaggerNo);
Stencil.HaloExchange<vSpinColourVector,vHalfSpinColourVector,WilsonCompressor>(in,comm_buf,compressor);
assert( (disp==1)||(disp==-1) );
int skip = (disp==1) ? 0 : 1;
int dirdisp = dir+skip*4;
PARALLEL_FOR_LOOP
for(int sss=0;sss<in._grid->oSites();sss++){
DiracOptDhopDir(Stencil,Umu,comm_buf,sss,sss,in,out,dirdisp,dirdisp);
}
};
void WilsonFermion::DhopDirDisp(const LatticeFermion &in, LatticeFermion &out,int dirdisp,int gamma,int dag)
{
WilsonCompressor compressor(dag);
Stencil.HaloExchange<vSpinColourVector,vHalfSpinColourVector,WilsonCompressor>(in,comm_buf,compressor);
PARALLEL_FOR_LOOP
for(int sss=0;sss<in._grid->oSites();sss++){
DiracOptDhopDir(Stencil,Umu,comm_buf,sss,sss,in,out,dirdisp,gamma);
}
};
void WilsonFermion::DhopInternal(CartesianStencil & st,LatticeDoubledGaugeField & U,
const LatticeFermion &in, LatticeFermion &out,int dag)
{
assert((dag==DaggerNo) ||(dag==DaggerYes));
WilsonCompressor compressor(dag);
st.HaloExchange<vSpinColourVector,vHalfSpinColourVector,WilsonCompressor>(in,comm_buf,compressor);
if ( dag == DaggerYes ) {
if( HandOptDslash ) {
PARALLEL_FOR_LOOP
for(int sss=0;sss<in._grid->oSites();sss++){
DiracOptHandDhopSiteDag(st,U,comm_buf,sss,sss,in,out);
}
} else {
PARALLEL_FOR_LOOP
for(int sss=0;sss<in._grid->oSites();sss++){
DiracOptDhopSiteDag(st,U,comm_buf,sss,sss,in,out);
}
}
} else {
if( HandOptDslash ) {
PARALLEL_FOR_LOOP
for(int sss=0;sss<in._grid->oSites();sss++){
DiracOptHandDhopSite(st,U,comm_buf,sss,sss,in,out);
}
} else {
PARALLEL_FOR_LOOP
for(int sss=0;sss<in._grid->oSites();sss++){
DiracOptDhopSite(st,U,comm_buf,sss,sss,in,out);
}
}
}
}
void WilsonFermion::DhopOE(const LatticeFermion &in, LatticeFermion &out,int dag)
{
conformable(in._grid,_cbgrid); // verifies half grid
conformable(in._grid,out._grid); // drops the cb check
assert(in.checkerboard==Even);
out.checkerboard = Odd;
DhopInternal(StencilEven,UmuOdd,in,out,dag);
}
void WilsonFermion::DhopEO(const LatticeFermion &in, LatticeFermion &out,int dag)
{
conformable(in._grid,_cbgrid); // verifies half grid
conformable(in._grid,out._grid); // drops the cb check
assert(in.checkerboard==Odd);
out.checkerboard = Even;
DhopInternal(StencilOdd,UmuEven,in,out,dag);
}
void WilsonFermion::Dhop(const LatticeFermion &in, LatticeFermion &out,int dag)
{
conformable(in._grid,_grid); // verifies full grid
conformable(in._grid,out._grid);
out.checkerboard = in.checkerboard;
DhopInternal(Stencil,Umu,in,out,dag);
}
void WilsonFermion::DerivInternal(CartesianStencil & st,LatticeDoubledGaugeField & U,
LatticeGaugeField &mat,const LatticeFermion &A,const LatticeFermion &B,int dag)
{
assert((dag==DaggerNo) ||(dag==DaggerYes));
WilsonCompressor compressor(dag);
LatticeColourMatrix tmp(B._grid);
LatticeFermion Btilde(B._grid);
st.HaloExchange<vSpinColourVector,vHalfSpinColourVector,WilsonCompressor>(B,comm_buf,compressor);
for(int mu=0;mu<Nd;mu++){
////////////////////////////////////////////////////////////////////////
// Flip gamma (1+g)<->(1-g) if dag
////////////////////////////////////////////////////////////////////////
int gamma = mu;
if ( dag ) gamma+= Nd;
////////////////////////
// Call the single hop
////////////////////////
PARALLEL_FOR_LOOP
for(int sss=0;sss<B._grid->oSites();sss++){
DiracOptDhopDir(st,U,comm_buf,sss,sss,B,Btilde,mu,gamma);
}
//////////////////////////////////////////////////
// spin trace outer product
//////////////////////////////////////////////////
tmp = TraceIndex<SpinIndex>(outerProduct(Btilde,A));
PokeIndex<LorentzIndex>(mat,tmp,mu);
}
}
void WilsonFermion::DhopDeriv(LatticeGaugeField &mat,const LatticeFermion &U,const LatticeFermion &V,int dag)
{
conformable(U._grid,_grid);
conformable(U._grid,V._grid);
conformable(U._grid,mat._grid);
mat.checkerboard = U.checkerboard;
DerivInternal(Stencil,Umu,mat,U,V,dag);
}
void WilsonFermion::DhopDerivOE(LatticeGaugeField &mat,const LatticeFermion &U,const LatticeFermion &V,int dag)
{
conformable(U._grid,_cbgrid);
conformable(U._grid,V._grid);
conformable(U._grid,mat._grid);
assert(V.checkerboard==Even);
assert(U.checkerboard==Odd);
mat.checkerboard = Odd;
DerivInternal(StencilEven,UmuOdd,mat,U,V,dag);
}
void WilsonFermion::DhopDerivEO(LatticeGaugeField &mat,const LatticeFermion &U,const LatticeFermion &V,int dag)
{
conformable(U._grid,_cbgrid);
conformable(U._grid,V._grid);
conformable(U._grid,mat._grid);
assert(V.checkerboard==Odd);
assert(U.checkerboard==Even);
mat.checkerboard = Even;
DerivInternal(StencilOdd,UmuEven,mat,U,V,dag);
}
}}