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Grid/tests/Test_GaugeAction.cc

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#include <Grid.h>
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#include <qcd/utils/CovariantCshift.h>
#include <qcd/utils/WilsonLoops.h>
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using namespace std;
using namespace Grid;
using namespace Grid::QCD;
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/* For Metropolis */
class Metropolis {
public:
GridSerialRNG & sRNG;
Metropolis(GridSerialRNG & _sRNG) : sRNG(_sRNG) {};
bool AcceptReject(const RealD Delta)
{
RealD rand;
if(Delta <=0.0) return true;
random(sRNG,rand);
if(rand <= exp(-Delta))
return true;
else
return false;
}
};
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int main (int argc, char ** argv)
{
Grid_init(&argc,&argv);
std::vector<int> simd_layout = GridDefaultSimd(4,vComplexF::Nsimd());
std::vector<int> mpi_layout = GridDefaultMpi();
std::vector<int> latt_size ({16,16,16,32});
std::vector<int> clatt_size ({4,4,4,8});
int orthodir=3;
int orthosz =latt_size[orthodir];
GridCartesian Fine(latt_size,simd_layout,mpi_layout);
GridCartesian Coarse(clatt_size,simd_layout,mpi_layout);
LatticeGaugeField Umu(&Fine);
std::vector<LatticeColourMatrix> U(4,&Fine);
NerscField header;
std::string file("./ckpoint_lat.4000");
readNerscConfiguration(Umu,header,file);
for(int mu=0;mu<Nd;mu++){
U[mu] = PeekIndex<LorentzIndex>(Umu,mu);
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}
// Painful ; fix syntactical niceness : to check reader
LatticeComplex LinkTrace(&Fine);
LinkTrace=zero;
for(int mu=0;mu<Nd;mu++){
LinkTrace = LinkTrace + trace(U[mu]);
}
// (1+2+3)=6 = N(N-1)/2 terms // equals to Double S Chorma
// in LatticeGaugeField out Plaq
// class WilsonLoop {
// RealD plaquette(LatticeGaugeField &Umu);
// void staple(LatticeSomethingorOther,LatticeGaugeField &Umu);
// RealD rectangle(LatticeGaugeField &Umu);
// LatticeComplex sitePlaquette()
// }
// covariantCshift ???
// GaugeActionBase
// GaugeActionPlaquette
// GaugeActionPlaquettePlusRectangle
// GaugeActionIwasaki
// GaugeActionSymanzik
// GaugeActionWilson
// Heatbath and quenched update.
//
LatticeColourMatrix tmpU(&Fine);
LatticeComplex Plaq(&Fine);
LatticeComplex cPlaq(&Coarse);
Plaq = zero;
for(int mu=1;mu<Nd;mu++){
for(int nu=0;nu<mu;nu++){
Plaq = Plaq + trace(CovShiftForward(U[mu],mu,U[nu])*adj(CovShiftForward(U[nu],nu,U[mu])));
}
}
double vol = Fine.gSites();
Complex PlaqScale(1.0/vol/6.0/3.0);
RealD StapScale(1.0/vol/6.0/3.0);
std::cout <<"PlaqScale" << PlaqScale<<std::endl;
std::vector<TComplex> Plaq_T(orthosz);
sliceSum(Plaq,Plaq_T,Nd-1);
int Nt = Plaq_T.size();
TComplex Plaq_T_sum;
Plaq_T_sum=zero;
for(int t=0;t<Nt;t++){
Plaq_T_sum = Plaq_T_sum+Plaq_T[t];
Complex Pt=TensorRemove(Plaq_T[t]);
std::cout << "sliced ["<<t<<"]" <<Pt*PlaqScale*Real(Nt) << std::endl;
}
{
Complex Pt = TensorRemove(Plaq_T_sum);
std::cout << "total " <<Pt*PlaqScale<<std::endl;
}
TComplex Tp = sum(Plaq);
Complex p = TensorRemove(Tp);
std::cout << "calculated plaquettes " <<p*PlaqScale<<std::endl;
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RealD avg_plaq = ColourWilsonLoops::avgPlaquette(Umu);
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std::cout << "NEW : calculated real plaquettes " <<avg_plaq<<std::endl;
RealD stap_plaq=0.0;
LatticeColourMatrix stap(&Fine);
LatticeComplex stap_tr(&Fine);
for(int mu=0;mu<Nd;mu++){
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ColourWilsonLoops::Staple(stap,Umu,mu);
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stap_tr = trace(stap*adj(U[mu]));
TComplex Ts = sum(stap_tr);
Complex s = TensorRemove(Ts);
stap_plaq+=real(s);
}
std::cout << "NEW : plaquette via staples"<< stap_plaq*StapScale*0.25<< std::endl;
Complex LinkTraceScale(1.0/vol/4.0/3.0);
TComplex Tl = sum(LinkTrace);
Complex l = TensorRemove(Tl);
std::cout << "calculated link trace " <<l*LinkTraceScale<<std::endl;
blockSum(cPlaq,Plaq);
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TComplex TcP = sum(cPlaq);
Complex ll= TensorRemove(TcP);
std::cout << "coarsened plaquettes sum to " <<ll*PlaqScale<<std::endl;
Grid_finalize();
}