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Grid/Hadrons/Modules/MDistil/BContraction.hpp

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#ifndef Hadrons_MDistil_BContraction_hpp_
#define Hadrons_MDistil_BContraction_hpp_
#include <Hadrons/Global.hpp>
#include <Hadrons/Module.hpp>
#include <Hadrons/ModuleFactory.hpp>
#include <Hadrons/Solver.hpp>
#include <Hadrons/EigenPack.hpp>
#include <Hadrons/A2AVectors.hpp>
#include <Hadrons/DilutedNoise.hpp>
// These are members of Distillation
#include <Hadrons/Modules/MDistil/Distil.hpp>
BEGIN_HADRONS_NAMESPACE
/******************************************************************************
* BContraction *
******************************************************************************/
BEGIN_MODULE_NAMESPACE(MDistil)
// general baryon tensor set based on Eigen tensors and Grid-allocated memory
// Dimensions:
// 0 - ext - external field (momentum, EM field, ...)
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// 1 - str - dirac structure
// 2 - t - timeslice
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// 3 - s - free spin index
// 4 - i - left distillation mode index
// 5 - j - middle distillation mode index
// 6 - k - left distillation mode index
// template <typename T>
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// using BaryonTensorSet = Eigen::TensorMap<Eigen::Tensor<T, 7, Eigen::RowMajor>>;
class BContractionPar: Serializable
{
public:
GRID_SERIALIZABLE_CLASS_MEMBERS(BContractionPar,
std::string, one,
std::string, two,
std::string, three,
std::string, output,
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int, parity,
std::vector<std::string>, mom);
};
template <typename FImpl>
class TBContraction: public Module<BContractionPar>
{
public:
FERM_TYPE_ALIASES(FImpl,);
public:
// constructor
TBContraction(const std::string name);
// destructor
virtual ~TBContraction(void) {};
// dependency relation
virtual std::vector<std::string> getInput(void);
virtual std::vector<std::string> getOutput(void);
// setup
virtual void setup(void);
// execution
virtual void execute(void);
private:
bool hasPhase_{false};
std::string momphName_;
std::vector<Gamma::Algebra> gamma12_;
std::vector<Gamma::Algebra> gamma23_;
std::vector<std::vector<Real>> mom_;
protected:
GridCartesian * grid4d;
GridCartesian * grid3d;
};
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/*class BFieldIO: Serializable{
public:
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using BaryonTensorSet = Eigen::Tensor<Complex, 7>;
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GRID_SERIALIZABLE_CLASS_MEMBERS(BFieldIO,
BaryonTensorSet, BField
);
};*/
MODULE_REGISTER_TMP(BContraction, TBContraction<FIMPL>, MDistil);
/******************************************************************************
* TBContraction implementation *
******************************************************************************/
// constructor /////////////////////////////////////////////////////////////////
template <typename FImpl>
TBContraction<FImpl>::TBContraction(const std::string name)
: Module<BContractionPar>(name)
{}
// dependencies/products ///////////////////////////////////////////////////////
template <typename FImpl>
std::vector<std::string> TBContraction<FImpl>::getInput(void)
{
std::vector<std::string> in = {par().one, par().two, par().three};
return in;
}
template <typename FImpl>
std::vector<std::string> TBContraction<FImpl>::getOutput(void)
{
std::vector<std::string> out = {};
return out;
}
// setup ///////////////////////////////////////////////////////////////////////
template <typename FImpl>
void TBContraction<FImpl>::setup(void)
{
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}
// execution ///////////////////////////////////////////////////////////////////
template <typename FImpl>
void TBContraction<FImpl>::execute(void)
{
auto &one = envGet(std::vector<FermionField>, par().one);
auto &two = envGet(std::vector<FermionField>, par().two);
auto &three = envGet(std::vector<FermionField>, par().three);
int N_1 = one.size();
int N_2 = two.size();
int N_3 = three.size();
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int parity = par().parity;
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const std::string &output{par().output};
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LOG(Message) << "Computing distillation baryon fields" << std::endl;
LOG(Message) << "One: '" << par().one << "' Two: '" << par().two << "' Three: '" << par().three << "'" << std::endl;
LOG(Message) << "Momenta:" << std::endl;
for (auto &p: mom_)
{
LOG(Message) << " " << p << std::endl;
}
grid4d = env().getGrid();
grid3d = MakeLowerDimGrid(grid4d);
int Nmom=1;
int Nt=64;
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// std::vector<Complex> BField(Nmom*Nt*N_1*N_2*N_3);
int Bindex;
int Nc=3; //Num colours
FermionField tmp1(grid3d);
FermionField tmp2(grid3d);
FermionField tmp3(grid3d);
//std::complex<double> * tmp33 = reinterpret_cast<std::complex<double> *>(&(tmp3[0]()(0)(0)));
SpinColourVector * tmp11 = reinterpret_cast<SpinColourVector *>(&(tmp1[0]()(0)(0)));
SpinColourVector * tmp22 = reinterpret_cast<SpinColourVector *>(&(tmp2[0]()(0)(0)));
SpinColourVector * tmp33 = reinterpret_cast<SpinColourVector *>(&(tmp3[0]()(0)(0)));
SpinVector tmp11s;
SpinVector tmp22s;
SpinVector tmp33s;
SpinVector tmp333;
SpinMatrix diquark;
SpinMatrix g_diquark;
SpinVector tmp222;
SpinVector tmp111;
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assert(parity == 1 || parity == -1);
std::vector<std::vector<int>> epsilon = {{0,1,2},{1,2,0},{2,0,1},{0,2,1},{2,1,0},{1,0,2}};
std::vector<int> epsilon_sgn = {1,1,1,-1,-1,-1};
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Gamma g4(Gamma::Algebra::GammaT);
gamma12_ = {
Gamma::Algebra::Identity, // I
Gamma::Algebra::Gamma5, // gamma_5
Gamma::Algebra::Identity, // I
};
gamma23_ = { // C = i gamma_2 gamma_4
Gamma::Algebra::SigmaXZ, // C gamma_5 = -i gamma_1 gamma_3
Gamma::Algebra::SigmaYT, // C = i gamma_2 gamma_4
Gamma::Algebra::GammaYGamma5, // i gamma_4 C gamma_5 = i gamma_2 gamma_5
};
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std::vector<Complex> factor23{{0.,-1.},{0.,1.},{0.,1.}};
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using BaryonTensorSet = Eigen::Tensor<Complex, 7>;
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int Ngamma=3;
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BaryonTensorSet BField3(Nmom,Ngamma,Nt,4,N_1,N_2,N_3);
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Eigen::Tensor<Complex, 3> corr(Nmom,4,Nt);
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Complex diquark2;
for (int i1=0 ; i1 < N_1 ; i1++){
for (int i2=0 ; i2 < N_2 ; i2++){
for (int i3=0 ; i3 < N_3 ; i3++){
for (int imom=0 ; imom < Nmom ; imom++){
for (int t=0 ; t < Nt ; t++){
Bindex = i1 + N_1*(i2 + N_2*(i3 + N_3*(imom+Nmom*t)));
ExtractSliceLocal(tmp1,one[i1],0,t,3);
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ExtractSliceLocal(tmp2,two[i2],0,t,3);
ExtractSliceLocal(tmp3,three[i3],0,t,3);
parallel_for (unsigned int sU = 0; sU < grid3d->oSites(); ++sU)
{
for (int ie=0 ; ie < 6 ; ie++){
// Why does peekColour not work????
for (int is=0 ; is < 4 ; is++){
tmp11s()(is)() = tmp11[sU]()(is)(epsilon[ie][0]);
tmp22s()(is)() = tmp22[sU]()(is)(epsilon[ie][1]);
tmp33s()(is)() = tmp33[sU]()(is)(epsilon[ie][2]);
}
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for (int ig=0 ; ig < Ngamma ; ig++){
tmp333 = Gamma(gamma23_[ig])*tmp33s;
tmp111 = Gamma(gamma12_[ig])*tmp11s;
tmp222 = g4*tmp111;
tmp111 = 0.5*(double)parity*(tmp111 + tmp222); // P_\pm * ...
diquark2 = factor23[0]*innerProduct(tmp22s,tmp333);
for (int is=0 ; is < 4 ; is++){
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BField3(imom,ig,t,is,i1,i2,i3)+=(double)epsilon_sgn[ie]*tmp111()(is)()*diquark2;
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}
}
}
}
}
}
}
}
}
for (int is=0 ; is < 4 ; is++){
for (int t=0 ; t < Nt ; t++){
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std::cout << "BaryonField(is=" << is << ",t=" << t << ") = " << BField3(0,0,t,is,0,0,0) << std::endl;
}
}
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BFieldIO BField_save;
BField_save.BField = BField3;
std::string filename ="./" + output + ".h5";
std::cout << "Writing to file " << filename << std::endl;
Hdf5Writer writer(filename);
write(writer,"BaryonField",BField_save.BField);
}
END_MODULE_NAMESPACE
END_HADRONS_NAMESPACE
#endif // Hadrons_MDistil_BContraction_hpp_