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438 lines
15 KiB
C++
438 lines
15 KiB
C++
/*************************************************************************************
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Grid physics library, www.github.com/paboyle/Grid
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Source file: Hadrons/Modules/MContraction/A2AMesonField.hpp
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Copyright (C) 2015-2018
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Author: Antonin Portelli <antonin.portelli@me.com>
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Author: Peter Boyle <paboyle@ph.ed.ac.uk>
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Author: paboyle <paboyle@ph.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_MContraction_A2AMesonField_hpp_
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#define Hadrons_MContraction_A2AMesonField_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/A2AVectors.hpp>
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#include <Hadrons/A2AMatrix.hpp>
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#include <Hadrons/Modules/MSolver/A2AVectors.hpp>
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#include <Hadrons/Modules/MContraction/A2AMesonFieldKernels.hpp>
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#define MF_PARALLEL_IO
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#ifndef MF_IO_TYPE
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#define MF_IO_TYPE ComplexF
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#endif
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BEGIN_HADRONS_NAMESPACE
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/******************************************************************************
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* All-to-all meson field creation *
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******************************************************************************/
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BEGIN_MODULE_NAMESPACE(MContraction)
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class A2AMesonFieldPar: Serializable
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{
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public:
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GRID_SERIALIZABLE_CLASS_MEMBERS(A2AMesonFieldPar,
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int, cacheBlock,
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int, block,
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std::string, v,
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std::string, w,
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std::string, output,
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std::string, gammas,
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std::vector<std::string>, mom);
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};
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class A2AMesonFieldMetadata: Serializable
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{
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public:
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GRID_SERIALIZABLE_CLASS_MEMBERS(A2AMesonFieldMetadata,
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std::vector<RealF>, momentum,
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Gamma::Algebra, gamma);
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};
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template <typename FImpl>
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class TA2AMesonField : public Module<A2AMesonFieldPar>
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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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typedef Eigen::TensorMap<Eigen::Tensor<Complex, 5, Eigen::RowMajor>> MesonField;
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typedef Eigen::TensorMap<Eigen::Tensor<MF_IO_TYPE, 5, Eigen::RowMajor>> MesonFieldIo;
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typedef A2AMatrixIo<MF_IO_TYPE, A2AMesonFieldMetadata> MatrixIo;
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struct IoHelper
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{
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MatrixIo io;
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A2AMesonFieldMetadata metadata;
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size_t offset;
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};
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public:
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// constructor
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TA2AMesonField(const std::string name);
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// destructor
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virtual ~TA2AMesonField(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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// IO
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std::string ioname(unsigned int m, unsigned int g) const;
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std::string filename(unsigned int m, unsigned int g) const;
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void saveBlock(const MF_IO_TYPE *data, IoHelper &h, unsigned int i, unsigned int j);
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private:
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bool hasPhase_{false};
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std::string momphName_;
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std::vector<Gamma::Algebra> gamma_;
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std::vector<std::vector<Real>> mom_;
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std::vector<IoHelper> nodeIo_;
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};
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MODULE_REGISTER(A2AMesonField, ARG(TA2AMesonField<FIMPL>), MContraction);
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MODULE_REGISTER(ZA2AMesonField, ARG(TA2AMesonField<ZFIMPL>), MContraction);
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/******************************************************************************
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* TA2AMesonField implementation *
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******************************************************************************/
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// constructor /////////////////////////////////////////////////////////////////
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template <typename FImpl>
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TA2AMesonField<FImpl>::TA2AMesonField(const std::string name)
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: Module<A2AMesonFieldPar>(name)
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, momphName_(name + "_momph")
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{
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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> TA2AMesonField<FImpl>::getInput(void)
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{
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std::vector<std::string> in = {par().v, par().w};
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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> TA2AMesonField<FImpl>::getOutput(void)
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{
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std::vector<std::string> out = {};
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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 TA2AMesonField<FImpl>::setup(void)
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{
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gamma_.clear();
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mom_.clear();
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if (par().gammas == "all")
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{
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gamma_ = {
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Gamma::Algebra::Gamma5,
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Gamma::Algebra::Identity,
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Gamma::Algebra::GammaX,
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Gamma::Algebra::GammaY,
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Gamma::Algebra::GammaZ,
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Gamma::Algebra::GammaT,
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Gamma::Algebra::GammaXGamma5,
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Gamma::Algebra::GammaYGamma5,
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Gamma::Algebra::GammaZGamma5,
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Gamma::Algebra::GammaTGamma5,
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Gamma::Algebra::SigmaXY,
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Gamma::Algebra::SigmaXZ,
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Gamma::Algebra::SigmaXT,
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Gamma::Algebra::SigmaYZ,
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Gamma::Algebra::SigmaYT,
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Gamma::Algebra::SigmaZT
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};
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}
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else
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{
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gamma_ = strToVec<Gamma::Algebra>(par().gammas);
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}
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for (auto &pstr: par().mom)
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{
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auto p = strToVec<Real>(pstr);
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if (p.size() != env().getNd() - 1)
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{
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HADRONS_ERROR(Size, "Momentum has " + std::to_string(p.size())
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+ " components instead of "
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+ std::to_string(env().getNd() - 1));
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}
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mom_.push_back(p);
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}
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envCache(std::vector<LatticeComplex>, momphName_, 1,
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par().mom.size(), env().getGrid());
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envTmpLat(LatticeComplex, "coor");
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// preallocate memory for meson field block
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auto tgp = env().getDim().back()*gamma_.size()*mom_.size();
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envTmp(Vector<MF_IO_TYPE>, "mfBuf", 1, tgp*par().block*par().block);
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envTmp(Vector<Complex>, "mfCache", 1, tgp*par().cacheBlock*par().cacheBlock);
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}
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// execution ///////////////////////////////////////////////////////////////////
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template <typename FImpl>
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void TA2AMesonField<FImpl>::execute(void)
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{
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auto &v = envGet(std::vector<FermionField>, par().v);
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auto &w = envGet(std::vector<FermionField>, par().w);
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int nt = env().getDim().back();
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int N_i = w.size();
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int N_j = v.size();
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int ngamma = gamma_.size();
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int nmom = mom_.size();
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int block = par().block;
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int cacheBlock = par().cacheBlock;
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LOG(Message) << "Computing all-to-all meson fields" << std::endl;
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LOG(Message) << "W: '" << par().w << "' V: '" << par().v << "'" << std::endl;
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LOG(Message) << "Momenta:" << std::endl;
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for (auto &p: mom_)
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{
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LOG(Message) << " " << p << std::endl;
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}
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LOG(Message) << "Spin bilinears:" << std::endl;
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for (auto &g: gamma_)
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{
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LOG(Message) << " " << g << std::endl;
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}
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LOG(Message) << "Meson field size: " << nt << "*" << N_i << "*" << N_j
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<< " (filesize " << sizeString(nt*N_i*N_j*sizeof(MF_IO_TYPE))
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<< "/momentum/bilinear)" << std::endl;
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///////////////////////////////////////////////
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// Momentum setup
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///////////////////////////////////////////////
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auto &ph = envGet(std::vector<LatticeComplex>, momphName_);
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if (!hasPhase_)
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{
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startTimer("Momentum phases");
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for (unsigned int j = 0; j < nmom; ++j)
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{
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Complex i(0.0,1.0);
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std::vector<Real> p;
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envGetTmp(LatticeComplex, coor);
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ph[j] = zero;
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for(unsigned int mu = 0; mu < mom_[j].size(); mu++)
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{
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LatticeCoordinate(coor, mu);
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ph[j] = ph[j] + (mom_[j][mu]/env().getDim(mu))*coor;
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}
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ph[j] = exp((Real)(2*M_PI)*i*ph[j]);
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}
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hasPhase_ = true;
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stopTimer("Momentum phases");
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}
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//////////////////////////////////////////////////////////////////////////
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// i,j is first loop over SchurBlock factors reusing 5D matrices
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// ii,jj is second loop over cacheBlock factors for high perf contractoin
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// iii,jjj are loops within cacheBlock
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// Total index is sum of these i+ii+iii etc...
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//////////////////////////////////////////////////////////////////////////
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double flops;
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double bytes;
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double vol = env().getVolume();
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double t_kernel = 0.0;
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double nodes = env().getGrid()->NodeCount();
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double tot_kernel;
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envGetTmp(Vector<MF_IO_TYPE>, mfBuf);
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envGetTmp(Vector<Complex>, mfCache);
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double t0 = usecond();
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int NBlock_i = N_i/block + (((N_i % block) != 0) ? 1 : 0);
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int NBlock_j = N_j/block + (((N_j % block) != 0) ? 1 : 0);
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for(int i=0;i<N_i;i+=block)
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for(int j=0;j<N_j;j+=block)
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{
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// Get the W and V vectors for this block^2 set of terms
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int N_ii = MIN(N_i-i,block);
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int N_jj = MIN(N_j-j,block);
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LOG(Message) << "Meson field block "
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<< j/block + NBlock_j*i/block + 1
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<< "/" << NBlock_i*NBlock_j << " [" << i <<" .. "
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<< i+N_ii-1 << ", " << j <<" .. " << j+N_jj-1 << "]"
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<< std::endl;
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MesonFieldIo mfBlock(mfBuf.data(),nmom,ngamma,nt,N_ii,N_jj);
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// Series of cache blocked chunks of the contractions within this block
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flops = 0.0;
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bytes = 0.0;
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for(int ii=0;ii<N_ii;ii+=cacheBlock)
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for(int jj=0;jj<N_jj;jj+=cacheBlock)
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{
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int N_iii = MIN(N_ii-ii,cacheBlock);
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int N_jjj = MIN(N_jj-jj,cacheBlock);
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MesonField mfCacheBlock(mfCache.data(),nmom,ngamma,nt,N_iii,N_jjj);
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startTimer("contraction: total");
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makeMesonFieldBlock(mfCacheBlock, &w[i+ii], &v[j+jj], gamma_, ph,
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env().getNd() - 1, this);
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stopTimer("contraction: total");
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// flops for general N_c & N_s
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flops += vol * ( 2 * 8.0 + 6.0 + 8.0*nmom) * N_iii*N_jjj*ngamma;
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bytes += vol * (12.0 * sizeof(Complex) ) * N_iii*N_jjj
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+ vol * ( 2.0 * sizeof(Complex) *nmom ) * N_iii*N_jjj* ngamma;
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startTimer("cache copy");
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parallel_for_nest5(int m =0;m< nmom;m++)
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for(int g =0;g< ngamma;g++)
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for(int t =0;t< nt;t++)
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for(int iii=0;iii< N_iii;iii++)
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for(int jjj=0;jjj< N_jjj;jjj++)
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{
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mfBlock(m,g,t,ii+iii,jj+jjj) = mfCacheBlock(m,g,t,iii,jjj);
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}
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stopTimer("cache copy");
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}
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// perf
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tot_kernel = getDTimer("contraction: colour trace & mom.")
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+ getDTimer("contraction: local space sum");
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t_kernel = tot_kernel - t_kernel;
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LOG(Message) << "Kernel perf " << flops/t_kernel/1.0e3/nodes
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<< " Gflop/s/node " << std::endl;
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LOG(Message) << "Kernel perf " << bytes/t_kernel*1.0e6/1024/1024/1024/nodes
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<< " GB/s/node " << std::endl;
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t_kernel = tot_kernel;
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// IO
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if (!par().output.empty())
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{
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double blockSize, ioTime;
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unsigned int myRank = env().getGrid()->ThisRank(),
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nRank = env().getGrid()->RankCount();
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LOG(Message) << "Writing block to disk" << std::endl;
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ioTime = -getDTimer("IO: write block");
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startTimer("IO: total");
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makeFileDir(filename(0, 0), env().getGrid());
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#ifdef MF_PARALLEL_IO
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env().getGrid()->Barrier();
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nodeIo_.clear();
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for(int f = myRank; f < nmom*ngamma; f += nRank)
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{
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const unsigned int m = f/ngamma, g = f % ngamma;
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IoHelper h;
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h.io = MatrixIo(filename(m, g), ioname(m, g), nt, N_i, N_j, block);
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for (auto pmu: mom_[m])
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{
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h.metadata.momentum.push_back(pmu);
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}
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h.metadata.gamma = gamma_[g];
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h.offset = (m*ngamma + g)*nt*block*block;
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nodeIo_.push_back(h);
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}
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// parallel IO
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for (auto &h: nodeIo_)
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{
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saveBlock(mfBlock.data(), h, i, j);
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}
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env().getGrid()->Barrier();
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#else
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// serial IO
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for(int m = 0; m < nmom; m++)
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for(int g = 0; g < ngamma; g++)
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{
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IoHelper h;
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h.io = MatrixIo(filename(m, g), ioname(m, g), nt, N_i, N_j, block);
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for (auto pmu: mom_[m])
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{
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h.metadata.momentum.push_back(pmu);
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}
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h.metadata.gamma = gamma_[g];
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h.offset = (m*ngamma + g)*nt*block*block;
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saveBlock(mfBlock.data(), h, i, j);
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}
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#endif
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stopTimer("IO: total");
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blockSize = static_cast<double>(nmom*ngamma*nt*N_ii*N_jj*sizeof(MF_IO_TYPE));
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ioTime += getDTimer("IO: write block");
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LOG(Message) << "HDF5 IO done " << sizeString(blockSize) << " in "
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<< ioTime << " us ("
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<< blockSize/ioTime*1.0e6/1024/1024
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<< " MB/s)" << std::endl;
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}
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}
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}
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// IO
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template <typename FImpl>
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std::string TA2AMesonField<FImpl>::ioname(unsigned int m, unsigned int g) const
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{
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std::stringstream ss;
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ss << gamma_[g] << "_";
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for (unsigned int mu = 0; mu < mom_[m].size(); ++mu)
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{
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ss << mom_[m][mu] << ((mu == mom_[m].size() - 1) ? "" : "_");
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}
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return ss.str();
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}
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template <typename FImpl>
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std::string TA2AMesonField<FImpl>::filename(unsigned int m, unsigned int g) const
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{
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return par().output + "." + std::to_string(vm().getTrajectory())
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+ "/" + ioname(m, g) + ".h5";
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}
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template <typename FImpl>
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void TA2AMesonField<FImpl>::saveBlock(const MF_IO_TYPE *data, IoHelper &h,
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unsigned int i, unsigned int j)
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{
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if ((i == 0) and (j == 0))
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{
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startTimer("IO: file creation");
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h.io.initFile(h.metadata);
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stopTimer("IO: file creation");
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}
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startTimer("IO: write block");
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h.io.saveBlock(data + h.offset, i, j);
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stopTimer("IO: write block");
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}
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END_MODULE_NAMESPACE
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END_HADRONS_NAMESPACE
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#endif // Hadrons_MContraction_A2AMesonField_hpp_
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