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Grid/tests/core/Test_fft_gfix.cc

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/*************************************************************************************
grid` physics library, www.github.com/paboyle/Grid
Source file: ./tests/Test_cshift.cc
Copyright (C) 2015
Author: Azusa Yamaguchi <ayamaguc@staffmail.ed.ac.uk>
Author: Peter Boyle <paboyle@ph.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>
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using namespace Grid;
template<typename Gimpl>
void run(double alpha, bool do_fft_gfix){
std::vector<int> seeds({1,2,3,4});
int threads = GridThread::GetThreads();
Coordinate latt_size = GridDefaultLatt();
Coordinate simd_layout( { vComplex::Nsimd(),1,1,1});
Coordinate mpi_layout = GridDefaultMpi();
int vol = 1;
for(int d=0;d<latt_size.size();d++){
vol = vol * latt_size[d];
}
GridCartesian GRID(latt_size,simd_layout,mpi_layout);
GridSerialRNG sRNG; sRNG.SeedFixedIntegers(seeds); // naughty seeding
GridParallelRNG pRNG(&GRID); pRNG.SeedFixedIntegers(seeds);
FFT theFFT(&GRID);
std::cout<<GridLogMessage << "Grid is setup to use "<<threads<<" threads"<<std::endl;
std::cout<<GridLogMessage << "Using alpha=" << alpha << std::endl;
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// int coulomb_dir = -1;
int coulomb_dir = Nd-1;
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LatticeGaugeField Umu(&GRID);
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LatticeGaugeField Urnd(&GRID);
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LatticeGaugeField Uorg(&GRID);
LatticeGaugeField Utmp(&GRID);
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LatticeColourMatrix g(&GRID); // Gauge xform
LatticeColourMatrix xform1(&GRID); // Gauge xform
LatticeColourMatrix xform2(&GRID); // Gauge xform
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LatticeColourMatrix xform3(&GRID); // Gauge xform
//#########################################################################################
std::cout<< "*********************************************************************************************************" <<std::endl;
std::cout<< "* Testing steepest descent fixing to Landau gauge with randomly transformed unit gauge configuration *" <<std::endl;
std::cout<< "*********************************************************************************************************" <<std::endl;
SU<Nc>::ColdConfiguration(pRNG,Umu); // Unit gauge
Uorg=Umu;
Real init_plaq=WilsonLoops<Gimpl>::avgPlaquette(Umu);
std::cout << " Initial plaquette "<< init_plaq << std::endl;
//Apply a random gauge transformation to the unit gauge config
Urnd=Umu;
SU<Nc>::RandomGaugeTransform<Gimpl>(pRNG,Urnd,g);
//Gauge fix the randomly transformed field
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Umu = Urnd;
FourierAcceleratedGaugeFixer<Gimpl>::SteepestDescentGaugeFix(Umu,xform1,alpha,10000,1.0e-12, 1.0e-12,false);
// Check the gauge xform matrices
Utmp=Urnd;
SU<Nc>::GaugeTransform<Gimpl>(Utmp,xform1);
Utmp = Utmp - Umu;
std::cout << " Check the output gauge transformation matrices applied to the original field produce the xformed field "<< norm2(Utmp) << " (expect 0)" << std::endl;
Real plaq=WilsonLoops<Gimpl>::avgPlaquette(Umu);
std::cout << " Final plaquette "<<plaq << " diff " << plaq - init_plaq << " (expect 0)" << std::endl;
Uorg = Uorg - Umu;
std::cout << " Norm difference between a unit gauge configuration and the gauge fixed configuration "<< norm2(Uorg) << " (expect 0)" << std::endl;
std::cout << " Norm of gauge fixed configuration "<< norm2(Umu) << std::endl;
//#########################################################################################
if(do_fft_gfix){
std::cout<< "*************************************************************************************" <<std::endl;
std::cout<< "* Testing Fourier accelerated fixing to Landau gauge with unit gauge configuration *" <<std::endl;
std::cout<< "*************************************************************************************" <<std::endl;
Umu=Urnd;
FourierAcceleratedGaugeFixer<Gimpl>::SteepestDescentGaugeFix(Umu,xform2,alpha,10000,1.0e-12, 1.0e-12,true);
Utmp=Urnd;
SU<Nc>::GaugeTransform<Gimpl>(Utmp,xform2);
Utmp = Utmp - Umu;
std::cout << " Check the output gauge transformation matrices applied to the original field produce the xformed field "<< norm2(Utmp) << " (expect 0)" << std::endl;
plaq=WilsonLoops<Gimpl>::avgPlaquette(Umu);
std::cout << " Final plaquette "<<plaq << " diff " << plaq - init_plaq << " (expect 0)" << std::endl;
}
//#########################################################################################
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std::cout<< "******************************************************************************************" <<std::endl;
std::cout<< "* Testing steepest descent fixing to Landau gauge with random configuration **" <<std::endl;
std::cout<< "******************************************************************************************" <<std::endl;
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SU<Nc>::HotConfiguration(pRNG,Umu);
init_plaq=WilsonLoops<Gimpl>::avgPlaquette(Umu);
std::cout << " Initial plaquette "<< init_plaq << std::endl;
FourierAcceleratedGaugeFixer<Gimpl>::SteepestDescentGaugeFix(Umu,alpha,10000,1.0e-12, 1.0e-12,false);
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plaq=WilsonLoops<Gimpl>::avgPlaquette(Umu);
std::cout << " Final plaquette "<<plaq << " diff " << plaq - init_plaq << " (expect 0)" << std::endl;
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//#########################################################################################
if(do_fft_gfix){
std::cout<< "******************************************************************************************" <<std::endl;
std::cout<< "* Testing Fourier accelerated fixing to Landau gauge with random configuration **" <<std::endl;
std::cout<< "******************************************************************************************" <<std::endl;
SU<Nc>::HotConfiguration(pRNG,Umu);
init_plaq=WilsonLoops<Gimpl>::avgPlaquette(Umu);
std::cout << " Initial plaquette "<< init_plaq << std::endl;
FourierAcceleratedGaugeFixer<Gimpl>::SteepestDescentGaugeFix(Umu,alpha,10000,1.0e-12, 1.0e-12,true);
plaq=WilsonLoops<Gimpl>::avgPlaquette(Umu);
std::cout << " Final plaquette "<<plaq << " diff " << plaq - init_plaq << " (expect 0)" << std::endl;
}
//#########################################################################################
std::cout<< "*******************************************************************************************" <<std::endl;
std::cout<< "* Testing steepest descent fixing to coulomb gauge with random configuration *" <<std::endl;
std::cout<< "*******************************************************************************************" <<std::endl;
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Umu=Urnd;
SU<Nc>::HotConfiguration(pRNG,Umu);
init_plaq=WilsonLoops<Gimpl>::avgPlaquette(Umu);
std::cout << " Initial plaquette "<< init_plaq << std::endl;
FourierAcceleratedGaugeFixer<Gimpl>::SteepestDescentGaugeFix(Umu,xform3,alpha,10000,1.0e-12, 1.0e-12,false,coulomb_dir);
plaq=WilsonLoops<Gimpl>::avgPlaquette(Umu);
std::cout << " Final plaquette "<<plaq << " diff " << plaq - init_plaq << " (expect 0)" << std::endl;
//#########################################################################################
if(do_fft_gfix){
std::cout<< "*******************************************************************************************" <<std::endl;
std::cout<< "* Testing Fourier accelerated fixing to coulomb gauge with random configuration *" <<std::endl;
std::cout<< "*******************************************************************************************" <<std::endl;
Umu=Urnd;
SU<Nc>::HotConfiguration(pRNG,Umu);
init_plaq=WilsonLoops<Gimpl>::avgPlaquette(Umu);
std::cout << " Initial plaquette "<< init_plaq << std::endl;
FourierAcceleratedGaugeFixer<Gimpl>::SteepestDescentGaugeFix(Umu,xform3,alpha,10000,1.0e-12, 1.0e-12,true,coulomb_dir);
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plaq=WilsonLoops<Gimpl>::avgPlaquette(Umu);
std::cout << " Final plaquette "<<plaq << " diff " << plaq - init_plaq << " (expect 0)" << std::endl;
}
}
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int main (int argc, char ** argv)
{
Grid_init(&argc,&argv);
double alpha=0.1; //step size
std::string gimpl = "periodic";
bool do_fft_gfix = true; //test fourier transformed gfix as well as steepest descent
for(int i=1;i<argc;i++){
std::string sarg(argv[i]);
if(sarg == "--gimpl"){
assert(i<argc-1 && "--gimpl option requires an argument");
gimpl = argv[i+1];
if(gimpl != "periodic" && gimpl != "conjugate")
assert(0 && "Invalid gimpl");
if(gimpl == "conjugate")
alpha = 0.025; //default alpha too large for CCBC
}else if(sarg == "--no-fft-gfix"){
std::cout << "Not doing the Fourier accelerated gauge fixing tests" << std::endl;
do_fft_gfix = false;
}else if(sarg == "--alpha"){
assert(i<argc-1 && "--alpha option requires an argument");
std::istringstream ss(argv[i+1]); ss >> alpha;
}
}
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if(gimpl == "periodic"){
std::cout << GridLogMessage << "Using periodic boundary condition" << std::endl;
run<PeriodicGimplR>(alpha, do_fft_gfix);
}else{
std::vector<int> conjdirs = {1,1,0,0}; //test with 2 conjugate dirs and 2 not
std::cout << GridLogMessage << "Using complex conjugate boundary conditions in dimensions ";
for(int i=0;i<Nd;i++)
if(conjdirs[i])
std::cout << i << " ";
std::cout << std::endl;
ConjugateGimplR::setDirections(conjdirs);
run<ConjugateGimplR>(alpha, do_fft_gfix);
}
Grid_finalize();
}