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https://github.com/paboyle/Grid.git
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226 lines
6.0 KiB
C++
226 lines
6.0 KiB
C++
/*************************************************************************************
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Grid physics library, www.github.com/paboyle/Grid
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Source file: ./lib/qcd/hmc/integrators/Integrator.h
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Copyright (C) 2015
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Author: Guido Cossu <guido.cossu@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
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directory
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*************************************************************************************/
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/* END LEGAL */
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//--------------------------------------------------------------------
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#ifndef METRIC_H
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#define METRIC_H
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namespace Grid{
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namespace QCD{
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template <typename Field>
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class Metric{
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public:
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virtual void ImportGauge(const Field&) = 0;
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virtual void M(const Field&, Field&) = 0;
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virtual void Minv(const Field&, Field&) = 0;
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virtual void MSquareRoot(Field&) = 0;
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virtual void MInvSquareRoot(Field&) = 0;
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virtual void MDeriv(const Field&, Field&) = 0;
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virtual void MDeriv(const Field&, const Field&, Field&) = 0;
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};
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// Need a trivial operator
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template <typename Field>
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class TrivialMetric : public Metric<Field>{
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public:
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virtual void ImportGauge(const Field&){};
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virtual void M(const Field& in, Field& out){
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out = in;
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}
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virtual void Minv(const Field& in, Field& out){
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out = in;
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}
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virtual void MSquareRoot(Field& P){
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// do nothing
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}
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virtual void MInvSquareRoot(Field& P){
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// do nothing
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}
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virtual void MDeriv(const Field& in, Field& out){
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out = zero;
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}
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virtual void MDeriv(const Field& left, const Field& right, Field& out){
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out = zero;
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}
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};
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///////////////////////////////
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// Generalised momenta
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///////////////////////////////
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template <typename Implementation>
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class GeneralisedMomenta{
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public:
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typedef typename Implementation::Field MomentaField; //for readability
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typedef typename Implementation::GaugeLinkField MomentaLinkField; //for readability
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Metric<MomentaField>& M;
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MomentaField Mom;
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// Auxiliary fields
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// not hard coded but inherit the type from the metric
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// created Nd new fields
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// hide these in the metric?
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//typedef Lattice<iVector<iScalar<iMatrix<vComplex, Nc> >, Nd/2 > > AuxiliaryMomentaType;
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MomentaField AuxMom;
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MomentaField AuxField;
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GeneralisedMomenta(GridBase* grid, Metric<MomentaField>& M): M(M), Mom(grid), AuxMom(grid), AuxField(grid){}
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// Correct
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void MomentaDistribution(GridParallelRNG& pRNG){
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// Generate a distribution for
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// P^dag G P
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// where G = M^-1
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// Generate gaussian momenta
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Implementation::generate_momenta(Mom, pRNG);
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// Modify the distribution with the metric
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M.MSquareRoot(Mom);
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if (1) {
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// Auxiliary momenta
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// do nothing if trivial, so hide in the metric
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MomentaField AuxMomTemp(Mom._grid);
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Implementation::generate_momenta(AuxMom, pRNG);
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Implementation::generate_momenta(AuxField, pRNG);
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// Modify the distribution with the metric
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// Aux^dag M Aux
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M.MInvSquareRoot(AuxMom); // AuxMom = M^{-1/2} AuxMomTemp
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}
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}
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// Correct
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RealD MomentaAction(){
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MomentaField inv(Mom._grid);
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inv = zero;
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M.Minv(Mom, inv);
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LatticeComplex Hloc(Mom._grid);
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Hloc = zero;
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for (int mu = 0; mu < Nd; mu++) {
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// This is not very general
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// hide in the metric
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auto Mom_mu = PeekIndex<LorentzIndex>(Mom, mu);
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auto inv_mu = PeekIndex<LorentzIndex>(inv, mu);
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Hloc += trace(Mom_mu * inv_mu);
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}
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if (1) {
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// Auxiliary Fields
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// hide in the metric
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M.M(AuxMom, inv);
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for (int mu = 0; mu < Nd; mu++) {
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// This is not very general
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// hide in the operators
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auto inv_mu = PeekIndex<LorentzIndex>(inv, mu);
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auto am_mu = PeekIndex<LorentzIndex>(AuxMom, mu);
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auto af_mu = PeekIndex<LorentzIndex>(AuxField, mu);
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Hloc += trace(am_mu * inv_mu);// p M p
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Hloc += trace(af_mu * af_mu);
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}
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}
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Complex Hsum = sum(Hloc);
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return Hsum.real();
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}
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// Correct
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void DerivativeU(MomentaField& in, MomentaField& der){
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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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MomentaField MDer(in._grid);
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MomentaField X(in._grid);
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X = zero;
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M.Minv(in, X); // X = G in
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M.MDeriv(X, MDer); // MDer = U * dS/dU
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der = Implementation::projectForce(MDer); // Ta if gauge fields
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}
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void AuxiliaryFieldsDerivative(MomentaField& der){
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der = zero;
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if (1){
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// Auxiliary fields
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MomentaField der_temp(der._grid);
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MomentaField X(der._grid);
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X=zero;
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//M.M(AuxMom, X); // X = M Aux
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// Two derivative terms
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// the Mderiv need separation of left and right terms
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M.MDeriv(AuxMom, der);
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// this one should not be necessary (identical to the previous one)
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//M.MDeriv(X, AuxMom, der_temp); der += der_temp;
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der = -1.0*Implementation::projectForce(der);
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}
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}
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void DerivativeP(MomentaField& der){
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der = zero;
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M.Minv(Mom, der);
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// is the projection necessary here?
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// no for fields in the algebra
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der = Implementation::projectForce(der);
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}
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void update_auxiliary_momenta(RealD ep){
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if(1){
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AuxMom -= ep * AuxField;
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}
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}
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void update_auxiliary_fields(RealD ep){
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if (1) {
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MomentaField tmp(AuxMom._grid);
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MomentaField tmp2(AuxMom._grid);
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M.M(AuxMom, tmp);
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// M.M(tmp, tmp2);
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AuxField += ep * tmp; // M^2 AuxMom
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// factor of 2?
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}
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}
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};
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}
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}
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#endif //METRIC_H
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