2017-10-26 07:48:03 +01:00
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/*************************************************************************************
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Grid physics library, www.github.com/paboyle/Grid
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Source file: ./tests/Test_dwf_mrhs_cg.cc
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Copyright (C) 2015
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Author: Peter Boyle <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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#include <Grid/Grid.h>
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#include <Grid/algorithms/iterative/BlockConjugateGradient.h>
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using namespace std;
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using namespace Grid;
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2018-01-15 09:37:58 +00:00
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;
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2017-10-26 07:48:03 +01:00
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int main (int argc, char ** argv)
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{
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typedef typename DomainWallFermionR::FermionField FermionField;
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typedef typename DomainWallFermionR::ComplexField ComplexField;
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typename DomainWallFermionR::ImplParams params;
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const int Ls=4;
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Grid_init(&argc,&argv);
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2018-02-24 22:18:33 +00:00
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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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Coordinate mpi_split (mpi_layout.size(),1);
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2017-10-26 07:48:03 +01:00
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GridCartesian * UGrid = SpaceTimeGrid::makeFourDimGrid(GridDefaultLatt(), GridDefaultSimd(Nd,vComplex::Nsimd()),GridDefaultMpi());
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GridCartesian * FGrid = SpaceTimeGrid::makeFiveDimGrid(Ls,UGrid);
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GridRedBlackCartesian * rbGrid = SpaceTimeGrid::makeFourDimRedBlackGrid(UGrid);
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GridRedBlackCartesian * FrbGrid = SpaceTimeGrid::makeFiveDimRedBlackGrid(Ls,UGrid);
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/////////////////////////////////////////////
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// Split into 1^4 mpi communicators
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/////////////////////////////////////////////
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2017-10-30 00:23:34 +00:00
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for(int i=0;i<argc;i++){
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if(std::string(argv[i]) == "--split"){
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for(int k=0;k<mpi_layout.size();k++){
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std::stringstream ss;
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ss << argv[i+1+k];
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ss >> mpi_split[k];
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}
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break;
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}
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}
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int nrhs = 1;
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for(int i=0;i<mpi_layout.size();i++) nrhs *= (mpi_layout[i]/mpi_split[i]);
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2017-10-26 07:48:03 +01:00
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GridCartesian * SGrid = new GridCartesian(GridDefaultLatt(),
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GridDefaultSimd(Nd,vComplex::Nsimd()),
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mpi_split,
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*UGrid);
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GridCartesian * SFGrid = SpaceTimeGrid::makeFiveDimGrid(Ls,SGrid);
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GridRedBlackCartesian * SrbGrid = SpaceTimeGrid::makeFourDimRedBlackGrid(SGrid);
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GridRedBlackCartesian * SFrbGrid = SpaceTimeGrid::makeFiveDimRedBlackGrid(Ls,SGrid);
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///////////////////////////////////////////////
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// Set up the problem as a 4d spreadout job
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///////////////////////////////////////////////
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std::vector<int> seeds({1,2,3,4});
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GridParallelRNG pRNG(UGrid ); pRNG.SeedFixedIntegers(seeds);
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GridParallelRNG pRNG5(FGrid); pRNG5.SeedFixedIntegers(seeds);
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std::vector<FermionField> src(nrhs,FGrid);
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std::vector<FermionField> src_chk(nrhs,FGrid);
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std::vector<FermionField> result(nrhs,FGrid);
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FermionField tmp(FGrid);
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for(int s=0;s<nrhs;s++) random(pRNG5,src[s]);
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2018-01-27 23:46:02 +00:00
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for(int s=0;s<nrhs;s++) result[s]=Zero();
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2017-10-26 07:48:03 +01:00
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LatticeGaugeField Umu(UGrid); SU3::HotConfiguration(pRNG,Umu);
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/////////////////
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// MPI only sends
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/////////////////
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int me = UGrid->ThisRank();
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LatticeGaugeField s_Umu(SGrid);
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FermionField s_src(SFGrid);
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FermionField s_tmp(SFGrid);
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FermionField s_res(SFGrid);
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///////////////////////////////////////////////////////////////
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// split the source out using MPI instead of I/O
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///////////////////////////////////////////////////////////////
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Grid_split (Umu,s_Umu);
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Grid_split (src,s_src);
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///////////////////////////////////////////////////////////////
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// Set up N-solvers as trivially parallel
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///////////////////////////////////////////////////////////////
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RealD mass=0.01;
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RealD M5=1.8;
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DomainWallFermionR Dchk(Umu,*FGrid,*FrbGrid,*UGrid,*rbGrid,mass,M5);
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DomainWallFermionR Ddwf(s_Umu,*SFGrid,*SFrbGrid,*SGrid,*SrbGrid,mass,M5);
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std::cout << GridLogMessage << "****************************************************************** "<<std::endl;
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std::cout << GridLogMessage << " Calling DWF CG "<<std::endl;
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std::cout << GridLogMessage << "****************************************************************** "<<std::endl;
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MdagMLinearOperator<DomainWallFermionR,FermionField> HermOp(Ddwf);
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MdagMLinearOperator<DomainWallFermionR,FermionField> HermOpCk(Dchk);
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ConjugateGradient<FermionField> CG((1.0e-8/(me+1)),10000);
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2018-01-27 23:46:02 +00:00
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s_res = Zero();
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2017-10-26 07:48:03 +01:00
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CG(HermOp,s_src,s_res);
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/////////////////////////////////////////////////////////////
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// Report how long they all took
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/////////////////////////////////////////////////////////////
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std::vector<uint32_t> iterations(nrhs,0);
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iterations[me] = CG.IterationsToComplete;
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for(int n=0;n<nrhs;n++){
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UGrid->GlobalSum(iterations[n]);
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std::cout << GridLogMessage<<" Rank "<<n<<" "<< iterations[n]<<" CG iterations"<<std::endl;
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}
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/////////////////////////////////////////////////////////////
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// Gather and residual check on the results
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/////////////////////////////////////////////////////////////
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std::cout << GridLogMessage<< "Unsplitting the result"<<std::endl;
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Grid_unsplit(result,s_res);
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std::cout << GridLogMessage<< "Checking the residuals"<<std::endl;
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for(int n=0;n<nrhs;n++){
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HermOpCk.HermOp(result[n],tmp); tmp = tmp - src[n];
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std::cout << GridLogMessage<<" resid["<<n<<"] "<< norm2(tmp)<<std::endl;
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}
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Grid_finalize();
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}
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