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195 lines
6.5 KiB
C++
195 lines
6.5 KiB
C++
/*************************************************************************************
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Grid physics library, www.github.com/paboyle/Grid
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Source file: Hadrons/Modules/MSolver/A2AAslashVectors.hpp
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Copyright (C) 2015-2018
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Author: Vera Guelpers <Vera.Guelpers@ed.ac.uk>
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License along
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with this program; if not, write to the Free Software Foundation, Inc.,
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51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
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See the full license in the file "LICENSE" in the top level distribution directory
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*************************************************************************************/
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/* END LEGAL */
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#ifndef Hadrons_MSolver_A2AAslashVectors_hpp_
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#define Hadrons_MSolver_A2AAslashVectors_hpp_
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#include <Hadrons/Global.hpp>
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#include <Hadrons/Module.hpp>
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#include <Hadrons/ModuleFactory.hpp>
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#include <Hadrons/Solver.hpp>
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#include <Hadrons/A2AVectors.hpp>
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BEGIN_HADRONS_NAMESPACE
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/******************************************************************************
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* Create all-to-all V & W vectors *
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******************************************************************************/
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BEGIN_MODULE_NAMESPACE(MSolver)
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/****************************************************************************
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* Calculate a sequential propagator on an insertion of i*g_mu*A_mu
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* on an A2A vector
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*
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* vv_i(y) = S(y,x) * i * g_mu*A_mu(x) * v_i(x)
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*
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* with
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*
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* - vector: A2A vector v_i(x)
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* - emField: A_mu(x): electromagnetic photon field
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* - solver: the solver for calculating the sequential propagator
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*
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*****************************************************************************/
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class A2AAslashVectorsPar: Serializable
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{
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public:
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GRID_SERIALIZABLE_CLASS_MEMBERS(A2AAslashVectorsPar,
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std::string, vector,
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std::string, emField,
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std::string, solver,
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std::string, output,
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bool, multiFile);
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};
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template <typename FImpl>
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class TA2AAslashVectors : public Module<A2AAslashVectorsPar>
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{
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public:
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FERM_TYPE_ALIASES(FImpl,);
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SOLVER_TYPE_ALIASES(FImpl,);
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public:
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typedef PhotonR::GaugeField EmField;
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public:
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// constructor
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TA2AAslashVectors(const std::string name);
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// destructor
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virtual ~TA2AAslashVectors(void) {};
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// dependency relation
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virtual std::vector<std::string> getInput(void);
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virtual std::vector<std::string> getOutput(void);
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// setup
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virtual void setup(void);
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// execution
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virtual void execute(void);
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private:
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unsigned int Ls_;
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};
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MODULE_REGISTER_TMP(A2AAslashVectors, TA2AAslashVectors<FIMPL>, MSolver);
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MODULE_REGISTER_TMP(ZA2AAslashVectors, TA2AAslashVectors<ZFIMPL>, MSolver);
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/******************************************************************************
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* TA2AAslashVectors implementation *
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******************************************************************************/
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// constructor /////////////////////////////////////////////////////////////////
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template <typename FImpl>
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TA2AAslashVectors<FImpl>::TA2AAslashVectors(const std::string name)
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: Module<A2AAslashVectorsPar>(name)
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{}
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// dependencies/products ///////////////////////////////////////////////////////
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template <typename FImpl>
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std::vector<std::string> TA2AAslashVectors<FImpl>::getInput(void)
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{
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std::vector<std::string> in = {par().vector, par().emField, par().solver};
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return in;
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}
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template <typename FImpl>
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std::vector<std::string> TA2AAslashVectors<FImpl>::getOutput(void)
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{
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std::vector<std::string> out = {getName()};
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return out;
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}
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// setup ///////////////////////////////////////////////////////////////////////
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template <typename FImpl>
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void TA2AAslashVectors<FImpl>::setup(void)
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{
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Ls_ = env().getObjectLs(par().solver);
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auto &vvector = envGet(std::vector<FermionField>, par().vector);
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unsigned int Nmodes = vvector.size();
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envCreate(std::vector<FermionField>, getName(), 1,
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Nmodes, envGetGrid(FermionField));
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envTmpLat(FermionField, "v4dtmp");
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envTmpLat(FermionField, "v5dtmp", Ls_);
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envTmpLat(FermionField, "v5dtmp_sol", Ls_);
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}
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// execution ///////////////////////////////////////////////////////////////////
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template <typename FImpl>
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void TA2AAslashVectors<FImpl>::execute(void)
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{
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auto &solver = envGet(Solver, par().solver);
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auto &stoch_photon = envGet(EmField, par().emField);
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auto &vvector = envGet(std::vector<FermionField>, par().vector);
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auto &Aslashv = envGet(std::vector<FermionField>, getName());
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unsigned int Nmodes = vvector.size();
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auto &mat = solver.getFMat();
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envGetTmp(FermionField, v4dtmp);
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envGetTmp(FermionField, v5dtmp);
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envGetTmp(FermionField, v5dtmp_sol);
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Complex ci(0.0,1.0);
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startTimer("Seq Aslash");
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LOG(Message) << "Calculate Sequential propagator on Aslash * v with the A2A vector "
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<< par().vector << " and the photon field " << par().emField << std::endl;
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for(unsigned int i=0; i<Nmodes; i++)
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{
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v4dtmp = Zero();
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startTimer("Multiply Aslash");
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for(unsigned int mu=0;mu<=3;mu++)
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{
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Gamma gmu(Gamma::gmu[mu]);
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v4dtmp += ci * PeekIndex<LorentzIndex>(stoch_photon, mu) * (gmu * vvector[i]);
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}
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stopTimer("Multiply Aslash");
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startTimer("Inversion");
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if (Ls_ == 1)
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{
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solver(Aslashv[i], v4dtmp);
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}
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else
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{
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mat.ImportPhysicalFermionSource(v4dtmp, v5dtmp);
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solver(v5dtmp_sol, v5dtmp);
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mat.ExportPhysicalFermionSolution(v5dtmp_sol, v4dtmp);
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Aslashv[i] = v4dtmp;
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}
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stopTimer("Inversion");
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}
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stopTimer("Seq Aslash");
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if (!par().output.empty())
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{
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startTimer("I/O");
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A2AVectorsIo::write(par().output, Aslashv, par().multiFile, vm().getTrajectory());
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stopTimer("I/O");
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}
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}
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END_MODULE_NAMESPACE
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END_HADRONS_NAMESPACE
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#endif // Hadrons_MSolver_A2AAslashVectors_hpp_
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