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https://github.com/paboyle/Grid.git
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Covariant laplacian and implicit integration
This commit is contained in:
parent
bafb101e4f
commit
97a6b61551
@ -37,25 +37,19 @@ namespace Grid {
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namespace QCD {
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////////////////////////////////////////////////////////////////////
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class RNGModuleParameters: Serializable {
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struct RNGModuleParameters: Serializable {
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GRID_SERIALIZABLE_CLASS_MEMBERS(RNGModuleParameters,
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std::string, serial_seeds,
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std::string, parallel_seeds,);
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public:
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std::vector<int> SerialSeed;
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std::vector<int> ParallelSeed;
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RNGModuleParameters(const std::vector<int> S = std::vector<int>(),
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const std::vector<int> P = std::vector<int>())
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: SerialSeed(S), ParallelSeed(P) {}
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std::vector<int> getSerialSeeds(){return strToVec<int>(serial_seeds);}
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std::vector<int> getParallelSeeds(){return strToVec<int>(parallel_seeds);}
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RNGModuleParameters(): serial_seeds("1"), parallel_seeds("1"){}
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template <class ReaderClass >
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RNGModuleParameters(Reader<ReaderClass>& Reader){
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read(Reader, "RandomNumberGenerator", *this);
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SerialSeed = strToVec<int>(serial_seeds);
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ParallelSeed = strToVec<int>(parallel_seeds);
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}
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};
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@ -82,12 +76,14 @@ public:
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GridParallelRNG& get_pRNG() { return *pRNG_.get(); }
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void seed() {
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if (Params_.SerialSeed.size() == 0 && Params_.ParallelSeed.size() == 0) {
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std::cout << "Seeds not initialized" << std::endl;
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auto SerialSeeds = Params_.getSerialSeeds();
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auto ParallelSeeds = Params_.getParallelSeeds();
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if (SerialSeeds.size() == 0 && ParallelSeeds.size() == 0) {
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std::cout << GridLogError << "Seeds not initialized" << std::endl;
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exit(1);
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}
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sRNG_.SeedFixedIntegers(Params_.SerialSeed);
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pRNG_->SeedFixedIntegers(Params_.ParallelSeed);
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sRNG_.SeedFixedIntegers(SerialSeeds);
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pRNG_->SeedFixedIntegers(ParallelSeeds);
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}
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};
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@ -75,6 +75,8 @@ class HMCResourceManager {
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bool have_RNG;
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bool have_CheckPointer;
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// NOTE: operator << is not overloaded for std::vector<string>
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// so thsi function is necessary
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void output_vector_string(const std::vector<std::string> &vs){
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for (auto &i: vs)
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std::cout << i << " ";
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@ -85,13 +87,13 @@ class HMCResourceManager {
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public:
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HMCResourceManager() : have_RNG(false), have_CheckPointer(false) {}
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template <class ReaderClass >
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template <class ReaderClass, class vector_type = vComplex >
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void initialize(ReaderClass &Read){
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// assumes we are starting from the main node
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// Geometry
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GridModuleParameters GridPar(Read);
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GridFourDimModule GridMod( GridPar) ;
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GridFourDimModule<vector_type> GridMod( GridPar) ;
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AddGrid("gauge", GridMod);
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// Checkpointer
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@ -100,9 +102,6 @@ class HMCResourceManager {
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std::string cp_type;
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read(Read,"name", cp_type);
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std::cout << "Registered types " << std::endl;
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// NOTE: operator << is not overloaded for std::vector<string>
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// so it complains here
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//std::cout << CPfactory.getBuilderList() << std::endl;
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output_vector_string(CPfactory.getBuilderList());
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@ -178,7 +177,7 @@ class HMCResourceManager {
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// Add a named grid set, 4d shortcut
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void AddFourDimGrid(std::string s) {
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GridFourDimModule Mod;
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GridFourDimModule<vComplex> Mod;
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AddGrid(s, Mod);
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}
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@ -31,41 +31,48 @@ directory
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#define HMC_GRID_MODULES
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namespace Grid {
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namespace QCD {
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// Resources
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// Modules for grids
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class GridModuleParameters: Serializable{
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// Introduce another namespace HMCModules?
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class GridModuleParameters: Serializable{
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public:
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GRID_SERIALIZABLE_CLASS_MEMBERS(GridModuleParameters,
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std::string, lattice,
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std::string, mpi);
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std::string, mpi);
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public:
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// these namings are ugly
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// also ugly the distinction between the serializable members
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// and this
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std::vector<int> lattice_v;
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std::vector<int> mpi_v;
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std::vector<int> getLattice(){return strToVec<int>(lattice);}
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std::vector<int> getMpi() {return strToVec<int>(mpi);}
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GridModuleParameters(const std::vector<int> l_ = std::vector<int>(),
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const std::vector<int> mpi_ = std::vector<int>()):lattice_v(l_), mpi_v(mpi_){}
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template <class ReaderClass>
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GridModuleParameters(Reader<ReaderClass>& Reader) {
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read(Reader, "LatticeGrid", *this);
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lattice_v = strToVec<int>(lattice);
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mpi_v = strToVec<int>(mpi);
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if (mpi_v.size() != lattice_v.size()) {
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std::cout << "Error in GridModuleParameters: lattice and mpi dimensions "
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void check(){
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if (getLattice().size() != getMpi().size()) {
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std::cout << GridLogError
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<< "Error in GridModuleParameters: lattice and mpi dimensions "
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"do not match"
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<< std::endl;
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exit(1);
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}
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}
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template <class ReaderClass>
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GridModuleParameters(Reader<ReaderClass>& Reader) {
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read(Reader, name, *this);
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check();
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}
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// Save on file
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template< class WriterClass>
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void save(Writer<WriterClass>& Writer){
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check();
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write(Writer, name, *this);
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}
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private:
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std::string name = "LatticeGrid";
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};
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// Lower level class
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class GridModule {
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public:
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GridCartesian* get_full() {
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@ -84,27 +91,33 @@ class GridModule {
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};
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// helpers
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// FIXME define a class accepting also real vtypes
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////////////////////////////////////
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// Classes for the user
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////////////////////////////////////
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// Note: the space time grid must be out of the QCD namespace
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template< class vector_type>
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class GridFourDimModule : public GridModule {
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public:
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// add a function to create the module from a Reader
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GridFourDimModule() {
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using namespace QCD;
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set_full(SpaceTimeGrid::makeFourDimGrid(
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GridDefaultLatt(), GridDefaultSimd(4, vComplex::Nsimd()),
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GridDefaultLatt(), GridDefaultSimd(4, vector_type::Nsimd()),
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GridDefaultMpi()));
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set_rb(SpaceTimeGrid::makeFourDimRedBlackGrid(grid_.get()));
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}
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template <class vector_type = vComplex>
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GridFourDimModule(GridModuleParameters Params) {
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if (Params.lattice_v.size() == 4) {
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using namespace QCD;
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Params.check();
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std::vector<int> lattice_v = Params.getLattice();
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std::vector<int> mpi_v = Params.getMpi();
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if (lattice_v.size() == 4) {
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set_full(SpaceTimeGrid::makeFourDimGrid(
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Params.lattice_v, GridDefaultSimd(4, vector_type::Nsimd()),
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Params.mpi_v));
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lattice_v, GridDefaultSimd(4, vector_type::Nsimd()),
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mpi_v));
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set_rb(SpaceTimeGrid::makeFourDimRedBlackGrid(grid_.get()));
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} else {
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std::cout
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std::cout << GridLogError
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<< "Error in GridFourDimModule: lattice dimension different from 4"
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<< std::endl;
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exit(1);
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@ -112,10 +125,9 @@ class GridFourDimModule : public GridModule {
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}
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};
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typedef GridFourDimModule<vComplex> GridDefaultFourDimModule;
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} // namespace QCD
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} // namespace Grid
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#endif // HMC_GRID_MODULES
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@ -131,6 +131,49 @@ class Integrator {
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as[level].apply(update_P_hireps, Representations, Mom, U, ep);
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}
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void implicit_update_P(MomentaField& Mom, Field& U, int level, double ep) {
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// Fundamental updates, include smearing
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MomentaField Msum(Mom._grid);
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Msum = zero;
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for (int a = 0; a < as[level].actions.size(); ++a) {
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// Compute the force
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// We need to compute the derivative of the actions
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// only once
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Field force(U._grid);
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conformable(U._grid, Mom._grid);
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Field& Us = Smearer.get_U(as[level].actions.at(a)->is_smeared);
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as[level].actions.at(a)->deriv(Us, force); // deriv should NOT include Ta
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std::cout << GridLogIntegrator << "Smearing (on/off): " << as[level].actions.at(a)->is_smeared << std::endl;
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if (as[level].actions.at(a)->is_smeared) Smearer.smeared_force(force);
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force = FieldImplementation::projectForce(force); // Ta for gauge fields
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Real force_abs = std::sqrt(norm2(force)/U._grid->gSites());
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std::cout << GridLogIntegrator << "Force average: " << force_abs << std::endl;
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Msum += force;
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}
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MomentaField NewMom = Mom;
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MomentaField OldMom = Mom;
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double threshold = 1e-6;
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// Here run recursively
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do{
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MomentaField MomDer(Mom._grid);
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OldMom = NewMom;
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// Compute the derivative of the kinetic term
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// with respect to the gauge field
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// Laplacian.Mder(NewMom, MomDer);
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// NewMom = Mom - ep*(MomDer + Msum);
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} while (norm2(NewMom - OldMom) > threshold);
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Mom = NewMom;
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// update the auxiliary fields momenta
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}
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void update_U(Field& U, double ep) {
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update_U(P, U, ep);
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@ -285,6 +285,74 @@ class ForceGradient : public Integrator<FieldImplementation, SmearingPolicy,
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}
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}
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};
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////////////////////////////////
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// Riemannian Manifold HMC
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// Girolami et al
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////////////////////////////////
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template <class FieldImplementation, class SmearingPolicy,
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class RepresentationPolicy =
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Representations<FundamentalRepresentation> >
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class ImplicitLeapFrog : public Integrator<FieldImplementation, SmearingPolicy,
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RepresentationPolicy> {
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public:
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typedef ImplicitLeapFrog<FieldImplementation, SmearingPolicy, RepresentationPolicy>
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Algorithm;
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INHERIT_FIELD_TYPES(FieldImplementation);
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// Riemannian manifold metric operator
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// Hermitian operator Fisher
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std::string integrator_name(){return "ImplicitLeapFrog";}
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ImplicitLeapFrog(GridBase* grid, IntegratorParameters Par,
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ActionSet<Field, RepresentationPolicy>& Aset, SmearingPolicy& Sm)
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: Integrator<FieldImplementation, SmearingPolicy, RepresentationPolicy>(
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grid, Par, Aset, Sm){};
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void step(Field& U, int level, int _first, int _last) {
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int fl = this->as.size() - 1;
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// level : current level
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// fl : final level
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// eps : current step size
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// Get current level step size
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RealD eps = this->Params.trajL/this->Params.MDsteps;
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for (int l = 0; l <= level; ++l) eps /= this->as[l].multiplier;
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int multiplier = this->as[level].multiplier;
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for (int e = 0; e < multiplier; ++e) {
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int first_step = _first && (e == 0);
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int last_step = _last && (e == multiplier - 1);
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if (first_step) { // initial half step
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this->implicit_update_P(U, level, eps / 2.0);
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}
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if (level == fl) { // lowest level
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this->update_U(U, eps);
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} else { // recursive function call
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this->step(U, level + 1, first_step, last_step);
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}
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int mm = last_step ? 1 : 2;
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this->update_P(U, level, mm * eps / 2.0);
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}
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}
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};
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}
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}
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@ -33,13 +33,27 @@ directory
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namespace Grid {
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namespace QCD {
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////////////////////////////////////////////////////////////
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// Laplacian operator L on adjoint fields
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//
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// phi: adjoint field
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// L: D_mu^dag D_mu
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//
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// L phi(x) = Sum_mu [ U_mu(x)phi(x+mu)U_mu(x)^dag +
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// U_mu(x-mu)^dag phi(x-mu)U_mu(x-mu)
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// -2phi(x)]
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//
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// Operator designed to be encapsulated by
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// an HermitianLinearOperator<.. , ..>
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////////////////////////////////////////////////////////////
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template <class Impl>
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class LaplacianAdjointField {
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public:
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INHERIT_GIMPL_TYPES(Impl);
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typedef SU<Nc>::LatticeAlgebraVector AVector;
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LaplacianAdjointField(GridBase* grid) : U(Nd, grid){};
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LaplacianAdjointField(GridBase* grid, const RealD k = 1.0) :
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U(Nd, grid), kappa(k){};
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void ImportGauge(const GaugeField& _U) {
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for (int mu = 0; mu < Nd; mu++) {
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@ -49,61 +63,48 @@ class LaplacianAdjointField {
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void Mdiag(const GaugeLinkField& in, GaugeLinkField& out) { assert(0); }
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void Mdir(const GaugeLinkField& in, GaugeLinkField& out, int dir, int disp) { assert(0); }
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/*
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// Operator with algebra vector inputs and outputs
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void M2(const AVector& in, AVector& out) {
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double kappa = 0.9;
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//Reconstruct matrix
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GaugeLinkField tmp(in._grid);
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GaugeLinkField tmp2(in._grid);
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GaugeLinkField sum(in._grid);
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GaugeLinkField out_mat(in._grid);
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GaugeLinkField in_mat(in._grid);
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SU<Nc>::FundamentalLieAlgebraMatrix(in, in_mat);
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sum = zero;
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for (int mu = 0; mu < Nd; mu++) {
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tmp = U[mu] * Cshift(in_mat, mu, +1) * adj(U[mu]);
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tmp2 = adj(U[mu]) * in_mat * U[mu];
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sum += tmp + Cshift(tmp2, mu, -1) - 2.0 * in_mat;
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}
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out_mat = (1.0 - kappa) * in_mat - kappa/(double(4*Nd)) * sum;
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// Project
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SU<Nc>::projectOnAlgebra(out, out_mat);
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void Mdir(const GaugeLinkField& in, GaugeLinkField& out, int dir, int disp) {
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assert(0);
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}
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*/
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void M(const GaugeLinkField& in, GaugeLinkField& out) {
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double kappa = 0.999;
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//Reconstruct matrix
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void M(const GaugeLinkField& in, GaugeLinkField& out) {
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GaugeLinkField tmp(in._grid);
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GaugeLinkField tmp2(in._grid);
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GaugeLinkField sum(in._grid);
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sum = zero;
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for (int mu = 0; mu < Nd; mu++) {
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tmp = U[mu] * Cshift(in, mu, +1) * adj(U[mu]);
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tmp = U[mu] * Cshift(in, mu, +1) * adj(U[mu]);
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tmp2 = adj(U[mu]) * in * U[mu];
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sum += tmp + Cshift(tmp2, mu, -1) - 2.0 * in;
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}
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out = (1.0 - kappa) * in - kappa/(double(4*Nd)) * sum;
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out = (1.0 - kappa) * in - kappa / (double(4 * Nd)) * sum;
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}
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void MDeriv(const GaugeLinkField& in, GaugeLinkField& out, bool dag){
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RealD factor = - kappa / (double(4 * Nd))
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if (!dag)
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out = factor * Cshift(in, mu, +1) * adj(U[mu]) + adj(U[mu]) * in;
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else
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out = factor * U[mu] * Cshift(in, mu, +1) + in * U[mu];
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}
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private:
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RealD kappa;
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std::vector<GaugeLinkField> U;
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};
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// This is just a debug tests
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// not meant to be used
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template <class Impl>
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class LaplacianAlgebraField {
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public:
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INHERIT_GIMPL_TYPES(Impl);
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typedef SU<Nc>::LatticeAlgebraVector AVector;
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LaplacianAlgebraField(GridBase* grid) : U(Nd, grid){};
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LaplacianAlgebraField(GridBase* grid, const RealD k) :
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U(Nd, grid), kappa(k){};
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void ImportGauge(const GaugeField& _U) {
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for (int mu = 0; mu < Nd; mu++) {
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@ -117,28 +118,28 @@ class LaplacianAlgebraField {
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// Operator with algebra vector inputs and outputs
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void M(const AVector& in, AVector& out) {
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double kappa = 0.999;
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//Reconstruct matrix
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GaugeLinkField tmp(in._grid);
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GaugeLinkField tmp2(in._grid);
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GaugeLinkField sum(in._grid);
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GaugeLinkField out_mat(in._grid);
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GaugeLinkField in_mat(in._grid);
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// Reconstruct matrix
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SU<Nc>::FundamentalLieAlgebraMatrix(in, in_mat);
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sum = zero;
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for (int mu = 0; mu < Nd; mu++) {
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tmp = U[mu] * Cshift(in_mat, mu, +1) * adj(U[mu]);
|
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tmp = U[mu] * Cshift(in_mat, mu, +1) * adj(U[mu]);
|
||||
tmp2 = adj(U[mu]) * in_mat * U[mu];
|
||||
sum += tmp + Cshift(tmp2, mu, -1) - 2.0 * in_mat;
|
||||
}
|
||||
out_mat = (1.0 - kappa) * in_mat - kappa/(double(4*Nd)) * sum;
|
||||
out_mat = (1.0 - kappa) * in_mat - kappa / (double(4 * Nd)) * sum;
|
||||
// Project
|
||||
SU<Nc>::projectOnAlgebra(out, out_mat);
|
||||
}
|
||||
|
||||
private:
|
||||
RealD kappa;
|
||||
std::vector<GaugeLinkField> U;
|
||||
};
|
||||
|
||||
|
@ -59,8 +59,8 @@ int main(int argc, char **argv) {
|
||||
TheHMC.Resources.LoadBinaryCheckpointer(CPparams);
|
||||
|
||||
RNGModuleParameters RNGpar;
|
||||
RNGpar.SerialSeed = {1,2,3,4,5};
|
||||
RNGpar.ParallelSeed = {6,7,8,9,10};
|
||||
RNGpar.serial_seeds = "1 2 3 4 5";
|
||||
RNGpar.parallel_seeds = "6 7 8 9 10";
|
||||
TheHMC.Resources.SetRNGSeeds(RNGpar);
|
||||
|
||||
// Construct observables
|
||||
|
147
tests/hmc/Test_hmc_WilsonTMFermionGauge.cc
Normal file
147
tests/hmc/Test_hmc_WilsonTMFermionGauge.cc
Normal file
@ -0,0 +1,147 @@
|
||||
/*************************************************************************************
|
||||
|
||||
Grid physics library, www.github.com/paboyle/Grid
|
||||
|
||||
Source file: ./tests/Test_hmc_WilsonFermionGauge.cc
|
||||
|
||||
Copyright (C) 2015
|
||||
|
||||
Author: Peter Boyle <pabobyle@ph.ed.ac.uk>
|
||||
Author: neo <cossu@post.kek.jp>
|
||||
Author: Guido Cossu <guido.cossu@ed.ac.uk>
|
||||
|
||||
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 */
|
||||
#include <Grid/Grid.h>
|
||||
|
||||
int main(int argc, char **argv) {
|
||||
using namespace Grid;
|
||||
using namespace Grid::QCD;
|
||||
|
||||
Grid_init(&argc, &argv);
|
||||
int threads = GridThread::GetThreads();
|
||||
// here make a routine to print all the relevant information on the run
|
||||
std::cout << GridLogMessage << "Grid is setup to use " << threads << " threads" << std::endl;
|
||||
|
||||
// Typedefs to simplify notation
|
||||
typedef GenericHMCRunner<MinimumNorm2> HMCWrapper; // Uses the default minimum norm
|
||||
typedef WilsonImplR FermionImplPolicy;
|
||||
typedef WilsonTMFermionR FermionAction;
|
||||
typedef typename FermionAction::FermionField FermionField;
|
||||
|
||||
|
||||
//::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
|
||||
HMCWrapper TheHMC;
|
||||
|
||||
// Grid from the command line
|
||||
TheHMC.Resources.AddFourDimGrid("gauge");
|
||||
// Possibile to create the module by hand
|
||||
// hardcoding parameters or using a Reader
|
||||
|
||||
|
||||
// Checkpointer definition
|
||||
CheckpointerParameters CPparams;
|
||||
CPparams.config_prefix = "ckpoint_lat";
|
||||
CPparams.rng_prefix = "ckpoint_rng";
|
||||
CPparams.saveInterval = 5;
|
||||
CPparams.format = "IEEE64BIG";
|
||||
|
||||
TheHMC.Resources.LoadBinaryCheckpointer(CPparams);
|
||||
|
||||
RNGModuleParameters RNGpar;
|
||||
RNGpar.SerialSeed = {1,2,3,4,5};
|
||||
RNGpar.ParallelSeed = {6,7,8,9,10};
|
||||
TheHMC.Resources.SetRNGSeeds(RNGpar);
|
||||
|
||||
// Construct observables
|
||||
// here there is too much indirection
|
||||
PlaquetteObsParameters PlPar;
|
||||
PlPar.output_prefix = "Plaquette";
|
||||
PlaquetteMod<HMCWrapper::ImplPolicy> PlaqModule(PlPar);
|
||||
TheHMC.Resources.AddObservable(&PlaqModule);
|
||||
//////////////////////////////////////////////
|
||||
|
||||
/////////////////////////////////////////////////////////////
|
||||
// Collect actions, here use more encapsulation
|
||||
// need wrappers of the fermionic classes
|
||||
// that have a complex construction
|
||||
// standard
|
||||
RealD beta = 3.9 ;
|
||||
SymanzikGaugeActionR Waction(beta);
|
||||
|
||||
auto GridPtr = TheHMC.Resources.GetCartesian();
|
||||
auto GridRBPtr = TheHMC.Resources.GetRBCartesian();
|
||||
|
||||
// temporarily need a gauge field
|
||||
LatticeGaugeField U(GridPtr);
|
||||
|
||||
Real mass = -0.89163;
|
||||
Real mu = 0.01;
|
||||
|
||||
// Can we define an overloaded operator that does not need U and initialises
|
||||
// it with zeroes?
|
||||
FermionAction FermOp(U, *GridPtr, *GridRBPtr, mass, mu);
|
||||
|
||||
ConjugateGradient<FermionField> CG(1.0e-8, 2000);
|
||||
|
||||
TwoFlavourPseudoFermionAction<FermionImplPolicy> Nf2(FermOp, CG, CG);
|
||||
|
||||
// With modules
|
||||
/*
|
||||
|
||||
TwoFlavourFmodule<FermionImplPolicy> TwoFMod(Reader);
|
||||
|
||||
*/
|
||||
|
||||
// Set smearing (true/false), default: false
|
||||
Nf2.is_smeared = false;
|
||||
|
||||
|
||||
// Collect actions
|
||||
ActionLevel<HMCWrapper::Field> Level1(1);
|
||||
Level1.push_back(&Nf2);
|
||||
|
||||
ActionLevel<HMCWrapper::Field> Level2(4);
|
||||
Level2.push_back(&Waction);
|
||||
|
||||
TheHMC.TheAction.push_back(Level1);
|
||||
TheHMC.TheAction.push_back(Level2);
|
||||
/////////////////////////////////////////////////////////////
|
||||
|
||||
/*
|
||||
double rho = 0.1; // smearing parameter
|
||||
int Nsmear = 2; // number of smearing levels
|
||||
Smear_Stout<HMCWrapper::ImplPolicy> Stout(rho);
|
||||
SmearedConfiguration<HMCWrapper::ImplPolicy> SmearingPolicy(
|
||||
UGrid, Nsmear, Stout);
|
||||
*/
|
||||
|
||||
// HMC parameters are serialisable
|
||||
TheHMC.Parameters.MD.MDsteps = 20;
|
||||
TheHMC.Parameters.MD.trajL = 1.0;
|
||||
|
||||
TheHMC.ReadCommandLine(argc, argv); // these can be parameters from file
|
||||
TheHMC.Run(); // no smearing
|
||||
// TheHMC.Run(SmearingPolicy); // for smearing
|
||||
|
||||
Grid_finalize();
|
||||
|
||||
} // main
|
||||
|
||||
|
@ -48,28 +48,33 @@ int main (int argc, char ** argv)
|
||||
LatticeGaugeField Umu(&Grid);
|
||||
SU<Nc>::HotConfiguration(pRNG,Umu);
|
||||
|
||||
double Kappa = 0.9999;
|
||||
|
||||
typedef SU<Nc>::LatticeAlgebraVector AVector;
|
||||
// Source and result in the algebra
|
||||
AVector src_vec(&Grid); random(pRNG, src_vec);
|
||||
AVector result_vec(&Grid); result_vec = zero;
|
||||
|
||||
LatticeColourMatrix src(&Grid);
|
||||
SU<Nc>::FundamentalLieAlgebraMatrix(src_vec, src);
|
||||
LatticeColourMatrix result(&Grid); result=zero;
|
||||
|
||||
LaplacianAdjointField<PeriodicGimplR> Laplacian(&Grid);
|
||||
LaplacianAdjointField<PeriodicGimplR> Laplacian(&Grid, Kappa);
|
||||
Laplacian.ImportGauge(Umu);
|
||||
|
||||
HermitianLinearOperator<LaplacianAdjointField<PeriodicGimplR>,LatticeColourMatrix> HermOp(Laplacian);
|
||||
ConjugateGradient<LatticeColourMatrix> CG(1.0e-8,10000);
|
||||
std::cout << GridLogMessage << "Testing the Laplacian using the full matrix" <<std::endl;
|
||||
CG(HermOp,src,result); // fastest
|
||||
|
||||
|
||||
// Tests also the version using the algebra decomposition
|
||||
LaplacianAlgebraField<PeriodicGimplR> LaplacianAlgebra(&Grid);
|
||||
LaplacianAlgebraField<PeriodicGimplR> LaplacianAlgebra(&Grid, Kappa);
|
||||
LaplacianAlgebra.ImportGauge(Umu);
|
||||
|
||||
HermitianLinearOperator<LaplacianAlgebraField<PeriodicGimplR>,AVector> HermOpAlg(LaplacianAlgebra);
|
||||
ConjugateGradient<AVector> CG_Algebra(1.0e-8,10000);
|
||||
std::cout << GridLogMessage << "Testing the Laplacian using the algebra vectors" <<std::endl;
|
||||
CG_Algebra(HermOpAlg,src_vec,result_vec);
|
||||
|
||||
LatticeColourMatrix result2(&Grid);
|
||||
|
Loading…
Reference in New Issue
Block a user