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174 lines
6.3 KiB
C++
174 lines
6.3 KiB
C++
/*************************************************************************************
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Grid physics library, www.github.com/paboyle/Grid
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Source file: ./tests/forces/Test_dwf_force_eofa.cc
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Copyright (C) 2017
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Author: Peter Boyle <paboyle@ph.ed.ac.uk>
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Author: David Murphy <dmurphy@phys.columbia.edu>
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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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#include <Grid/Grid.h>
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using namespace std;
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using namespace Grid;
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;
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typedef GparityWilsonImplR FermionImplPolicy;
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typedef GparityMobiusEOFAFermionR FermionAction;
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typedef typename FermionAction::FermionField FermionField;
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int main (int argc, char** argv)
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{
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Grid_init(&argc, &argv);
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Coordinate latt_size = GridDefaultLatt();
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Coordinate simd_layout = GridDefaultSimd(Nd,vComplex::Nsimd());
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Coordinate mpi_layout = GridDefaultMpi();
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const int Ls = 8;
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GridCartesian *UGrid = SpaceTimeGrid::makeFourDimGrid(GridDefaultLatt(), GridDefaultSimd(Nd,vComplex::Nsimd()), GridDefaultMpi());
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GridRedBlackCartesian *UrbGrid = SpaceTimeGrid::makeFourDimRedBlackGrid(UGrid);
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GridCartesian *FGrid = SpaceTimeGrid::makeFiveDimGrid(Ls, UGrid);
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GridRedBlackCartesian *FrbGrid = SpaceTimeGrid::makeFiveDimRedBlackGrid(Ls, UGrid);
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// Want a different conf at every run
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// First create an instance of an engine.
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std::random_device rnd_device;
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// Specify the engine and distribution.
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std::mt19937 mersenne_engine(rnd_device());
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std::uniform_int_distribution<int> dist(1, 100);
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auto gen = std::bind(dist, mersenne_engine);
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std::vector<int> seeds4(4);
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generate(begin(seeds4), end(seeds4), gen);
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//std::vector<int> seeds4({1,2,3,5});
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std::vector<int> seeds5({5,6,7,8});
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GridParallelRNG RNG5(FGrid); RNG5.SeedFixedIntegers(seeds5);
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GridParallelRNG RNG4(UGrid); RNG4.SeedFixedIntegers(seeds4);
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int threads = GridThread::GetThreads();
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std::cout << GridLogMessage << "Grid is setup to use " << threads << " threads" << std::endl;
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FermionField phi (FGrid); gaussian(RNG5, phi);
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FermionField Mphi (FGrid);
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FermionField MphiPrime (FGrid);
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LatticeGaugeField U(UGrid);
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SU3::HotConfiguration(RNG4,U);
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////////////////////////////////////
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// Unmodified matrix element
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////////////////////////////////////
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RealD b = 2.5;
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RealD c = 1.5;
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RealD mf = 0.01;
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RealD mb = 1.0;
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RealD M5 = 1.8;
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FermionAction::ImplParams params;
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FermionAction Lop(U, *FGrid, *FrbGrid, *UGrid, *UrbGrid, mf, mf, mb, 0.0, -1, M5, b, c, params);
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FermionAction Rop(U, *FGrid, *FrbGrid, *UGrid, *UrbGrid, mb, mf, mb, -1.0, 1, M5, b, c, params);
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OneFlavourRationalParams Params(0.95, 100.0, 5000, 1.0e-12, 12);
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ConjugateGradient<FermionField> CG(1.0e-12, 5000);
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ExactOneFlavourRatioPseudoFermionAction<FermionImplPolicy> Meofa(Lop, Rop, CG, CG, CG, CG, CG, Params, false);
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Meofa.refresh(U, RNG5);
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RealD S = Meofa.S(U); // pdag M p
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// get the deriv of phidag M phi with respect to "U"
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LatticeGaugeField UdSdU(UGrid);
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Meofa.deriv(U, UdSdU);
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////////////////////////////////////
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// Modify the gauge field a little
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////////////////////////////////////
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RealD dt = 0.0001;
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LatticeColourMatrix mommu(UGrid);
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LatticeColourMatrix forcemu(UGrid);
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LatticeGaugeField mom(UGrid);
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LatticeGaugeField Uprime(UGrid);
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for(int mu=0; mu<Nd; mu++){
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SU3::GaussianFundamentalLieAlgebraMatrix(RNG4, mommu); // Traceless antihermitian momentum; gaussian in lie alg
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PokeIndex<LorentzIndex>(mom, mommu, mu);
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auto U_v = U.View();
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auto mom_v = mom.View();
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auto Uprime_v = Uprime.View();
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// fourth order exponential approx
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thread_foreach( i, mom_v,{
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Uprime_v[i](mu) = U_v[i](mu) + mom_v[i](mu)*U_v[i](mu)*dt + mom_v[i](mu) *mom_v[i](mu) *U_v[i](mu)*(dt*dt/2.0)
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+ mom_v[i](mu) *mom_v[i](mu) *mom_v[i](mu) *U_v[i](mu)*(dt*dt*dt/6.0)
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+ mom_v[i](mu) *mom_v[i](mu) *mom_v[i](mu) *mom_v[i](mu) *U_v[i](mu)*(dt*dt*dt*dt/24.0)
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+ mom_v[i](mu) *mom_v[i](mu) *mom_v[i](mu) *mom_v[i](mu) *mom_v[i](mu) *U_v[i](mu)*(dt*dt*dt*dt*dt/120.0)
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+ mom_v[i](mu) *mom_v[i](mu) *mom_v[i](mu) *mom_v[i](mu) *mom_v[i](mu) *mom_v[i](mu) *U_v[i](mu)*(dt*dt*dt*dt*dt*dt/720.0);
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});
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}
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/*Ddwf.ImportGauge(Uprime);
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Ddwf.M (phi,MphiPrime);
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ComplexD Sprime = innerProduct(MphiPrime ,MphiPrime);*/
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RealD Sprime = Meofa.S(Uprime);
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//////////////////////////////////////////////
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// Use derivative to estimate dS
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//////////////////////////////////////////////
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LatticeComplex dS(UGrid);
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dS = Zero();
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for(int mu=0; mu<Nd; mu++){
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mommu = PeekIndex<LorentzIndex>(UdSdU, mu);
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mommu = Ta(mommu)*2.0;
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PokeIndex<LorentzIndex>(UdSdU, mommu, mu);
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}
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for(int mu=0; mu<Nd; mu++){
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forcemu = PeekIndex<LorentzIndex>(UdSdU, mu);
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mommu = PeekIndex<LorentzIndex>(mom, mu);
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// Update PF action density
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dS = dS + trace(mommu*forcemu)*dt;
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}
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ComplexD dSpred = sum(dS);
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/*std::cout << GridLogMessage << " S " << S << std::endl;
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std::cout << GridLogMessage << " Sprime " << Sprime << std::endl;
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std::cout << GridLogMessage << "dS " << Sprime-S << std::endl;
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std::cout << GridLogMessage << "predict dS " << dSpred << std::endl;*/
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printf("\nS = %1.15e\n", S);
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printf("Sprime = %1.15e\n", Sprime);
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printf("dS = %1.15e\n", Sprime - S);
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printf("real(dS_predict) = %1.15e\n", dSpred.real());
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printf("imag(dS_predict) = %1.15e\n\n", dSpred.imag());
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assert( fabs(real(Sprime-S-dSpred)) < 1.0 ) ;
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std::cout << GridLogMessage << "Done" << std::endl;
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Grid_finalize();
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}
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