/************************************************************************************* Grid physics library, www.github.com/paboyle/Grid Source file: Hadrons/Modules/MDistil/DistilVectors.hpp Copyright (C) 2019 Author: Felix Erben Author: Michael Marshall This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. See the full license in the file "LICENSE" in the top level distribution directory *************************************************************************************/ /* END LEGAL */ #ifndef Hadrons_MDistil_DistilVectors_hpp_ #define Hadrons_MDistil_DistilVectors_hpp_ #include #include #include #include #include #include #include // These are members of Distillation #include BEGIN_HADRONS_NAMESPACE /****************************************************************************** * DistilVectors * * (Create rho and/or phi vectors) * ******************************************************************************/ BEGIN_MODULE_NAMESPACE(MDistil) class DistilVectorsPar: Serializable { public: GRID_SERIALIZABLE_CLASS_MEMBERS(DistilVectorsPar, std::string, noise, std::string, perambulator, std::string, lapevec, std::string, source, std::string, sink, int, tsrc, std::string, nvec, std::string, TI) }; template class TDistilVectors: public Module { public: FERM_TYPE_ALIASES(FImpl,); // constructor TDistilVectors(const std::string name); // destructor virtual ~TDistilVectors(void); // dependency relation virtual std::vector getInput(void); virtual std::vector getOutput(void); // setup virtual void setup(void); // execution virtual void execute(void); protected: // These variables are created in setup() and freed in Cleanup() GridCartesian * grid3d; // Owned by me, so I must delete it GridCartesian * grid4d; // Owned by environment (so I won't delete it) virtual void Cleanup(void); public: // These variables contain parameters std::string PerambulatorName; std::string NoiseVectorName; std::string LapEvecName; bool bMakeSource; bool bMakeSink; std::string SourceName; std::string SinkName; }; MODULE_REGISTER_TMP(DistilVectors, TDistilVectors, MDistil); /****************************************************************************** * TDistilVectors implementation * ******************************************************************************/ // constructor ///////////////////////////////////////////////////////////////// template TDistilVectors::TDistilVectors(const std::string name) : grid3d{nullptr}, grid4d{nullptr}, Module(name) {} // destructor template TDistilVectors::~TDistilVectors(void) { Cleanup(); }; // dependencies/products /////////////////////////////////////////////////////// template std::vector TDistilVectors::getInput(void) { PerambulatorName = par().perambulator; if( PerambulatorName.size() == 0 ) { PerambulatorName = getName(); PerambulatorName.append( "_peramb" ); } NoiseVectorName = par().noise; if( NoiseVectorName.size() == 0 ) { NoiseVectorName = PerambulatorName; NoiseVectorName.append( "_noise" ); } LapEvecName = par().lapevec; if( LapEvecName.size() == 0 ) { LapEvecName = PerambulatorName; LapEvecName.append( "_lapevec" ); } return { PerambulatorName, NoiseVectorName, LapEvecName }; } template std::vector TDistilVectors::getOutput(void) { SourceName = par().source; SinkName = par().sink; bMakeSource = ( SourceName.size() > 0 ); bMakeSink = ( SinkName.size() > 0 ); if( !bMakeSource && !bMakeSink ) { SourceName = getName(); SinkName = SourceName; SourceName.append( "_rho" ); SinkName.append( "_phi" ); bMakeSource = true; bMakeSink = true; } std::vector out; if( bMakeSource ) out.push_back( SourceName ); if( bMakeSink ) out.push_back( SinkName ); return out; } // setup /////////////////////////////////////////////////////////////////////// template void TDistilVectors::setup(void) { Cleanup(); auto &noise = envGet(NoiseTensor, NoiseVectorName); auto &perambulator = envGet(PerambTensor, PerambulatorName); // We expect the perambulator to have been created with these indices assert( perambulator.ValidateIndexNames( PerambIndexNames.size(), &PerambIndexNames[0] ) && "Perambulator index names bad" ); const int Nt{ env().getDim(Tdir) }; assert( Nt == static_cast( perambulator.tensor.dimension(0) ) && "PerambTensor time dimensionality bad" ); const int TI{ Hadrons::MDistil::DistilParameters::ParameterDefault( par().TI, Nt, true) }; const int LI{ static_cast( perambulator.tensor.dimension(2) ) }; const int SI{ static_cast( perambulator.tensor.dimension(5) ) }; const int Nt_inv{ static_cast( perambulator.tensor.dimension(4) ) }; const int nnoise{ static_cast( perambulator.tensor.dimension(3) ) }; assert( nnoise >= static_cast( noise.dimension(0) ) && "Not enough noise vectors for perambulator" ); // Nvec defaults to what's in the perambulator unless overriden const int nvec_per{ static_cast( perambulator.tensor.dimension(1) ) }; const int nvec{Hadrons::MDistil::DistilParameters::ParameterDefault(par().nvec, nvec_per, true) }; assert( nvec <= nvec_per && "Not enough distillation sub-space vectors" ); if( bMakeSource ) envCreate(std::vector, SourceName, 1, nnoise*LI*SI*Nt_inv, envGetGrid(FermionField)); if( bMakeSink ) envCreate(std::vector, SinkName, 1, nnoise*LI*SI*Nt_inv, envGetGrid(FermionField)); grid4d = env().getGrid(); std::vector latt_size = GridDefaultLatt(); std::vector simd_layout = GridDefaultSimd(Nd, vComplex::Nsimd()); std::vector mpi_layout = GridDefaultMpi(); std::vector simd_layout_3 = GridDefaultSimd(Nd-1, vComplex::Nsimd()); latt_size[Nd-1] = 1; simd_layout_3.push_back( 1 ); mpi_layout[Nd-1] = 1; grid3d = MakeLowerDimGrid(grid4d); envTmp(LatticeSpinColourVector, "tmp2",1,LatticeSpinColourVector(grid4d)); //envTmp(LatticeColourVector, "tmp_nospin",1,LatticeColourVector(grid4d)); envTmp(LatticeSpinColourVector, "tmp3d",1,LatticeSpinColourVector(grid3d)); envTmp(LatticeColourVector, "tmp3d_nospin",1,LatticeColourVector(grid3d)); envTmp(LatticeSpinColourVector, "sink_tslice",1,LatticeSpinColourVector(grid3d)); envTmp(LatticeColourVector, "evec3d",1,LatticeColourVector(grid3d)); } // clean up any temporaries created by setup (that aren't stored in the environment) template void TDistilVectors::Cleanup(void) { if( grid3d != nullptr ) { delete grid3d; grid3d = nullptr; } grid4d = nullptr; } // execution /////////////////////////////////////////////////////////////////// template void TDistilVectors::execute(void) { auto &noise = envGet(NoiseTensor, NoiseVectorName); auto &perambulator = envGet(PerambTensor, PerambulatorName); auto &epack = envGet(Grid::Hadrons::EigenPack, LapEvecName); envGetTmp(LatticeSpinColourVector, tmp2); envGetTmp(LatticeSpinColourVector, tmp3d); envGetTmp(LatticeColourVector, tmp3d_nospin); envGetTmp(LatticeSpinColourVector, sink_tslice); envGetTmp(LatticeColourVector, evec3d); const int Ntlocal{ grid4d->LocalDimensions()[3] }; const int Ntfirst{ grid4d->LocalStarts()[3] }; const int Ns{ Grid::QCD::Ns }; const int Nt{ env().getDim(Tdir) }; const int TI{ Hadrons::MDistil::DistilParameters::ParameterDefault( par().TI, Nt, false ) }; const int LI{ static_cast( perambulator.tensor.dimension(2) ) }; const int SI{ static_cast( perambulator.tensor.dimension(5) ) }; const int Nt_inv{ static_cast( perambulator.tensor.dimension(4) ) }; const int nnoise{ static_cast( perambulator.tensor.dimension(3) ) }; // Nvec defaults to what's in the perambulator unless overriden const int nvec{Hadrons::MDistil::DistilParameters::ParameterDefault(par().nvec, static_cast( perambulator.tensor.dimension(1) ), false)}; const int tsrc{ par().tsrc }; const bool full_tdil{ TI==Nt }; int vecindex; int t_inv; if( bMakeSource ) { auto &rho = envGet(std::vector, SourceName); for( int inoise = 0; inoise < nnoise; inoise++ ) { for( int dk = 0; dk < LI; dk++ ) { for( int dt = 0; dt < Nt_inv; dt++ ) { for( int ds = 0; ds < SI; ds++ ) { vecindex = inoise + nnoise * dk + nnoise * LI * ds + nnoise *LI * SI*dt; rho[vecindex] = zero; tmp3d_nospin = zero; for (int it = dt; it < Nt; it += TI){ if (full_tdil) t_inv = tsrc; else t_inv = it; if( t_inv >= Ntfirst && t_inv < Ntfirst + Ntlocal ) { for (int ik = dk; ik < nvec; ik += LI){ for (int is = ds; is < Ns; is += SI){ ExtractSliceLocal(evec3d,epack.evec[ik],0,t_inv,3); //tmp3d_nospin = evec3d * noise[inoise + nnoise*(t_inv + Nt*(ik+nvec*is))]; tmp3d_nospin = evec3d * noise(inoise, t_inv, ik, is); tmp3d=zero; pokeSpin(tmp3d,tmp3d_nospin,is); tmp2=zero; InsertSliceLocal(tmp3d,tmp2,0,t_inv-Ntfirst,Grid::QCD::Tdir); rho[vecindex] += tmp2; } } } } } } } } } if( bMakeSink ) { auto &phi = envGet(std::vector, SinkName); for( int inoise = 0; inoise < nnoise; inoise++ ) { for( int dk = 0; dk < LI; dk++ ) { for( int dt = 0; dt < Nt_inv; dt++ ) { for( int ds = 0; ds < SI; ds++ ) { vecindex = inoise + nnoise * dk + nnoise * LI * ds + nnoise *LI * SI*dt; phi[vecindex] = zero; for (int t = Ntfirst; t < Ntfirst + Ntlocal; t++) { sink_tslice=zero; for (int ivec = 0; ivec < nvec; ivec++) { ExtractSliceLocal(evec3d,epack.evec[ivec],0,t,3); sink_tslice += evec3d * perambulator(t, ivec, dk, inoise,dt,ds); } InsertSliceLocal(sink_tslice,phi[vecindex],0,t-Ntfirst,Grid::QCD::Tdir); } } } } } } } END_MODULE_NAMESPACE END_HADRONS_NAMESPACE #endif // Hadrons_MDistil_DistilVectors_hpp_