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Hadrons: 32 bit I/O directly in Lanczos module

This commit is contained in:
Antonin Portelli 2019-02-05 21:56:51 +00:00
parent 318c64adc2
commit 74c38822ed
5 changed files with 57 additions and 13 deletions

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@ -308,7 +308,9 @@ template <typename FineF, typename CoarseF,
class CoarseEigenPack: public EigenPack<FineF, FineFIo> class CoarseEigenPack: public EigenPack<FineF, FineFIo>
{ {
public: public:
typedef CoarseF CoarseField; typedef CoarseF CoarseField;
typedef CoarseFIo CoarseFieldIo;
public:
std::vector<CoarseF> evecCoarse; std::vector<CoarseF> evecCoarse;
std::vector<RealD> evalCoarse; std::vector<RealD> evalCoarse;
public: public:

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@ -77,6 +77,15 @@ env().template getGrid<typename latticeType::vector_type>(Ls)
#define envGetGrid(...)\ #define envGetGrid(...)\
HADRONS_MACRO_REDIRECT_12(__VA_ARGS__, envGetGrid5, envGetGrid4)(__VA_ARGS__) HADRONS_MACRO_REDIRECT_12(__VA_ARGS__, envGetGrid5, envGetGrid4)(__VA_ARGS__)
#define envGetCoarseGrid4(latticeType, blockSize)\
env().template getCoarseGrid<typename latticeType::vector_type>(blockSize)
#define envGetCoarseGrid5(latticeType, blockSize, Ls)\
env().template getCoarseGrid<typename latticeType::vector_type>(blockSize, Ls)
#define envGetCoarseGrid(...)\
HADRONS_MACRO_REDIRECT_23(__VA_ARGS__, envGetCoarseGrid5, envGetCoarseGrid4)(__VA_ARGS__)
#define envGetRbGrid4(latticeType)\ #define envGetRbGrid4(latticeType)\
env().template getRbGrid<typename latticeType::vector_type>() env().template getRbGrid<typename latticeType::vector_type>()

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@ -32,4 +32,6 @@ using namespace Hadrons;
using namespace MIO; using namespace MIO;
template class Grid::Hadrons::MIO::TLoadCoarseEigenPack<CoarseFermionEigenPack<FIMPL,HADRONS_DEFAULT_LANCZOS_NBASIS>>; template class Grid::Hadrons::MIO::TLoadCoarseEigenPack<CoarseFermionEigenPack<FIMPL,HADRONS_DEFAULT_LANCZOS_NBASIS>>;
#ifdef GRID_DEFAULT_PRECISION_DOUBLE
template class Grid::Hadrons::MIO::TLoadCoarseEigenPack<CoarseFermionEigenPack<FIMPL,HADRONS_DEFAULT_LANCZOS_NBASIS, FIMPLF>>;
#endif

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@ -56,7 +56,11 @@ template <typename Pack>
class TLoadCoarseEigenPack: public Module<LoadCoarseEigenPackPar> class TLoadCoarseEigenPack: public Module<LoadCoarseEigenPackPar>
{ {
public: public:
typedef CoarseEigenPack<typename Pack::Field, typename Pack::CoarseField> BasePack; typedef typename Pack::Field Field;
typedef typename Pack::FieldIo FieldIo;
typedef typename Pack::CoarseField CoarseField;
typedef typename Pack::CoarseFieldIo CoarseFieldIo;
typedef CoarseEigenPack<Field, CoarseField, FieldIo, CoarseFieldIo> BasePack;
template <typename vtype> template <typename vtype>
using iImplScalar = iScalar<iScalar<iScalar<vtype>>>; using iImplScalar = iScalar<iScalar<iScalar<vtype>>>;
typedef iImplScalar<typename Pack::Field::vector_type> SiteComplex; typedef iImplScalar<typename Pack::Field::vector_type> SiteComplex;
@ -74,7 +78,12 @@ public:
virtual void execute(void); virtual void execute(void);
}; };
MODULE_REGISTER_TMP(LoadCoarseFermionEigenPack, ARG(TLoadCoarseEigenPack<CoarseFermionEigenPack<FIMPL, HADRONS_DEFAULT_LANCZOS_NBASIS>>), MIO); MODULE_REGISTER_TMP(LoadCoarseFermionEigenPack,
ARG(TLoadCoarseEigenPack<CoarseFermionEigenPack<FIMPL, HADRONS_DEFAULT_LANCZOS_NBASIS>>), MIO);
#ifdef GRID_DEFAULT_PRECISION_DOUBLE
MODULE_REGISTER_TMP(LoadCoarseFermionEigenPackIo32,
ARG(TLoadCoarseEigenPack<CoarseFermionEigenPack<FIMPL, HADRONS_DEFAULT_LANCZOS_NBASIS, FIMPLF>>), MIO);
#endif
/****************************************************************************** /******************************************************************************
* TLoadCoarseEigenPack implementation * * TLoadCoarseEigenPack implementation *
@ -106,18 +115,27 @@ std::vector<std::string> TLoadCoarseEigenPack<Pack>::getOutput(void)
template <typename Pack> template <typename Pack>
void TLoadCoarseEigenPack<Pack>::setup(void) void TLoadCoarseEigenPack<Pack>::setup(void)
{ {
env().createGrid(par().Ls); GridBase *gridIo = nullptr, *gridCoarseIo = nullptr;
env().createCoarseGrid(par().blockSize, par().Ls);
if (typeHash<Field>() != typeHash<FieldIo>())
{
gridIo = envGetRbGrid(FieldIo, par().Ls);
}
if (typeHash<CoarseField>() != typeHash<CoarseFieldIo>())
{
gridCoarseIo = envGetCoarseGrid(CoarseFieldIo, par().blockSize, par().Ls);
}
envCreateDerived(BasePack, Pack, getName(), par().Ls, par().sizeFine, envCreateDerived(BasePack, Pack, getName(), par().Ls, par().sizeFine,
par().sizeCoarse, env().getRbGrid(par().Ls), par().sizeCoarse, envGetRbGrid(Field, par().Ls),
env().getCoarseGrid(par().blockSize, par().Ls)); envGetCoarseGrid(CoarseField, par().blockSize, par().Ls),
gridIo, gridCoarseIo);
} }
// execution /////////////////////////////////////////////////////////////////// // execution ///////////////////////////////////////////////////////////////////
template <typename Pack> template <typename Pack>
void TLoadCoarseEigenPack<Pack>::execute(void) void TLoadCoarseEigenPack<Pack>::execute(void)
{ {
auto cg = env().getCoarseGrid(par().blockSize, par().Ls); auto cg = envGetCoarseGrid(CoarseField, par().blockSize, par().Ls);
auto &epack = envGetDerived(BasePack, Pack, getName()); auto &epack = envGetDerived(BasePack, Pack, getName());
Lattice<SiteComplex> dummy(cg); Lattice<SiteComplex> dummy(cg);

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@ -65,6 +65,10 @@ public:
nBasis> LCL; nBasis> LCL;
typedef BaseFermionEigenPack<FImpl> BasePack; typedef BaseFermionEigenPack<FImpl> BasePack;
typedef CoarseFermionEigenPack<FImpl, nBasis, FImplIo> CoarsePack; typedef CoarseFermionEigenPack<FImpl, nBasis, FImplIo> CoarsePack;
typedef typename CoarsePack::Field Field;
typedef typename CoarsePack::FieldIo FieldIo;
typedef typename CoarsePack::CoarseField CoarseField;
typedef typename CoarsePack::CoarseFieldIo CoarseFieldIo;
typedef HADRONS_DEFAULT_SCHUR_OP<FMat, FermionField> SchurFMat; typedef HADRONS_DEFAULT_SCHUR_OP<FMat, FermionField> SchurFMat;
public: public:
// constructor // constructor
@ -123,21 +127,30 @@ void TLocalCoherenceLanczos<FImpl, nBasis, FImplIo>::setup(void)
unsigned int Ls = env().getObjectLs(par().action); unsigned int Ls = env().getObjectLs(par().action);
auto blockSize = strToVec<int>(par().blockSize); auto blockSize = strToVec<int>(par().blockSize);
GridBase *gridIo = nullptr, *gridCoarseIo = nullptr;
env().createCoarseGrid(blockSize, Ls); if (typeHash<Field>() != typeHash<FieldIo>())
{
gridIo = envGetRbGrid(FieldIo, Ls);
}
if (typeHash<CoarseField>() != typeHash<CoarseFieldIo>())
{
gridCoarseIo = envGetCoarseGrid(CoarseFieldIo, blockSize, Ls);
}
auto cg = env().getCoarseGrid(blockSize, Ls); auto cg = envGetCoarseGrid(CoarseField, blockSize, Ls);
int cNm = (par().doCoarse) ? par().coarseParams.Nm : 0; int cNm = (par().doCoarse) ? par().coarseParams.Nm : 0;
LOG(Message) << "Coarse grid: " << cg->GlobalDimensions() << std::endl; LOG(Message) << "Coarse grid: " << cg->GlobalDimensions() << std::endl;
envCreateDerived(BasePack, CoarsePack, getName(), Ls, envCreateDerived(BasePack, CoarsePack, getName(), Ls,
par().fineParams.Nm, cNm, env().getRbGrid(Ls), cg); par().fineParams.Nm, cNm, envGetRbGrid(Field, Ls), cg,
gridIo, gridCoarseIo);
auto &epack = envGetDerived(BasePack, CoarsePack, getName()); auto &epack = envGetDerived(BasePack, CoarsePack, getName());
envTmp(SchurFMat, "mat", Ls, envGet(FMat, par().action)); envTmp(SchurFMat, "mat", Ls, envGet(FMat, par().action));
envGetTmp(SchurFMat, mat); envGetTmp(SchurFMat, mat);
envTmp(LCL, "solver", Ls, env().getRbGrid(Ls), cg, mat, envTmp(LCL, "solver", Ls, envGetRbGrid(Field, Ls), cg, mat,
Odd, epack.evec, epack.evecCoarse, epack.eval, epack.evalCoarse); Odd, epack.evec, epack.evecCoarse, epack.eval, epack.evalCoarse);
} }