mirror of
https://github.com/paboyle/Grid.git
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160 lines
4.3 KiB
C++
160 lines
4.3 KiB
C++
#ifndef SCALAR_IMPL
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#define SCALAR_IMPL
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NAMESPACE_BEGIN(Grid);
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template <class S>
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class ScalarImplTypes {
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public:
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typedef S Simd;
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template <typename vtype>
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using iImplField = iScalar<iScalar<iScalar<vtype> > >;
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typedef iImplField<Simd> SiteField;
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typedef SiteField SitePropagator;
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typedef SiteField SiteComplex;
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typedef Lattice<SiteField> Field;
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typedef Field ComplexField;
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typedef Field FermionField;
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typedef Field PropagatorField;
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static inline void generate_momenta(Field& P, GridParallelRNG& pRNG){
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gaussian(pRNG, P);
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}
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static inline Field projectForce(Field& P){return P;}
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static inline void update_field(Field& P, Field& U, double ep) {
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U += P*ep;
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}
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static inline RealD FieldSquareNorm(Field& U) {
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return (- sum(trace(U*U))/2.0);
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}
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static inline void HotConfiguration(GridParallelRNG &pRNG, Field &U) {
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gaussian(pRNG, U);
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}
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static inline void TepidConfiguration(GridParallelRNG &pRNG, Field &U) {
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gaussian(pRNG, U);
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}
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static inline void ColdConfiguration(GridParallelRNG &pRNG, Field &U) {
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U = 1.0;
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}
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static void MomentumSpacePropagator(Field &out, RealD m)
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{
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GridBase *grid = out._grid;
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Field kmu(grid), one(grid);
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const unsigned int nd = grid->_ndimension;
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std::vector<int> &l = grid->_fdimensions;
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one = Complex(1.0,0.0);
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out = m*m;
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for(int mu = 0; mu < nd; mu++)
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{
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Real twoPiL = M_PI*2./l[mu];
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LatticeCoordinate(kmu,mu);
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kmu = 2.*sin(.5*twoPiL*kmu);
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out = out + kmu*kmu;
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}
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out = one/out;
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}
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static void FreePropagator(const Field &in, Field &out,
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const Field &momKernel)
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{
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FFT fft((GridCartesian *)in._grid);
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Field inFT(in._grid);
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fft.FFT_all_dim(inFT, in, FFT::forward);
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inFT = inFT*momKernel;
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fft.FFT_all_dim(out, inFT, FFT::backward);
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}
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static void FreePropagator(const Field &in, Field &out, RealD m)
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{
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Field momKernel(in._grid);
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MomentumSpacePropagator(momKernel, m);
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FreePropagator(in, out, momKernel);
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}
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};
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template <class S, unsigned int N>
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class ScalarAdjMatrixImplTypes {
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public:
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typedef S Simd;
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typedef QCD::SU<N> Group;
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template <typename vtype>
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using iImplField = iScalar<iScalar<iMatrix<vtype, N>>>;
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template <typename vtype>
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using iImplComplex = iScalar<iScalar<iScalar<vtype>>>;
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typedef iImplField<Simd> SiteField;
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typedef SiteField SitePropagator;
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typedef iImplComplex<Simd> SiteComplex;
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typedef Lattice<SiteField> Field;
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typedef Lattice<SiteComplex> ComplexField;
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typedef Field FermionField;
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typedef Field PropagatorField;
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static inline void generate_momenta(Field& P, GridParallelRNG& pRNG) {
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Group::GaussianFundamentalLieAlgebraMatrix(pRNG, P);
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}
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static inline Field projectForce(Field& P) {return P;}
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static inline void update_field(Field& P, Field& U, double ep) {
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U += P*ep;
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}
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static inline RealD FieldSquareNorm(Field& U) {
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return (TensorRemove(sum(trace(U*U))).real());
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}
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static inline void HotConfiguration(GridParallelRNG &pRNG, Field &U) {
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Group::GaussianFundamentalLieAlgebraMatrix(pRNG, U);
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}
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static inline void TepidConfiguration(GridParallelRNG &pRNG, Field &U) {
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Group::GaussianFundamentalLieAlgebraMatrix(pRNG, U, 0.01);
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}
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static inline void ColdConfiguration(GridParallelRNG &pRNG, Field &U) {
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U = zero;
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}
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};
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typedef ScalarImplTypes<vReal> ScalarImplR;
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typedef ScalarImplTypes<vRealF> ScalarImplF;
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typedef ScalarImplTypes<vRealD> ScalarImplD;
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typedef ScalarImplTypes<vComplex> ScalarImplCR;
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typedef ScalarImplTypes<vComplexF> ScalarImplCF;
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typedef ScalarImplTypes<vComplexD> ScalarImplCD;
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// Hardcoding here the size of the matrices
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typedef ScalarAdjMatrixImplTypes<vComplex, QCD::Nc> ScalarAdjImplR;
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typedef ScalarAdjMatrixImplTypes<vComplexF, QCD::Nc> ScalarAdjImplF;
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typedef ScalarAdjMatrixImplTypes<vComplexD, QCD::Nc> ScalarAdjImplD;
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template <int Colours > using ScalarNxNAdjImplR = ScalarAdjMatrixImplTypes<vComplex, Colours >;
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template <int Colours > using ScalarNxNAdjImplF = ScalarAdjMatrixImplTypes<vComplexF, Colours >;
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template <int Colours > using ScalarNxNAdjImplD = ScalarAdjMatrixImplTypes<vComplexD, Colours >;
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NAMESPACE_END(Grid);
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#endif
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