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Grid/tests/debug/Test_padded_cell_staple.cc
Christopher Kelly 4241c7d4a3 Imported coalescedReadGeneralPermute GPU implementation from Christoph
Fixed bug in padded staple code where extract was being called on the result before the GPU view was closed
Fixed compile issue with pointer cast in padded staple code
Added timing summaries of padded staple code and timing breakdown of staple implementation to Test_padded_cell_staple
2023-06-21 16:01:01 -04:00

581 lines
22 KiB
C++

/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: ./tests/Test_padded_cell_staple.cc
Copyright (C) 2015
Author: Christopher Kelly <ckelly@bnl.gov>
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>
#include <Grid/lattice/PaddedCell.h>
#include <Grid/stencil/GeneralLocalStencil.h>
using namespace std;
using namespace Grid;
template <class Gimpl> class WilsonLoopsTest : public Gimpl {
public:
INHERIT_GIMPL_TYPES(Gimpl);
typedef typename Gimpl::GaugeLinkField GaugeMat;
typedef typename Gimpl::GaugeField GaugeLorentz;
//Original implementation
static void StapleOrig(GaugeMat &staple, const GaugeLorentz &Umu, int mu,
int nu) {
GridBase *grid = Umu.Grid();
std::vector<GaugeMat> U(Nd, grid);
for (int d = 0; d < Nd; d++) {
U[d] = PeekIndex<LorentzIndex>(Umu, d);
}
staple = Zero();
if (nu != mu) {
// mu
// ^
// |__> nu
// __
// |
// __|
//
//Forward: Out(x) = Link(x)*field(x+mu)
//Backward: Out(x) = Link^dag(x-mu)*field(x-mu)
//ShiftStaple: Link(x) = Link(x+mu)
//tmp1 = U^dag_nu(x-nu)
//tmp2 = U^dag_mu(x-mu) tmp1(x-mu) = U^dag_mu(x-mu) U^dag_nu(x-nu-mu)
//tmp3 = U_nu(x) tmp2(x+nu) = U_nu(x)U^dag_mu(x-mu+nu) U^dag_nu(x-mu)
//tmp4 = tmp(x+mu) = U_nu(x+mu)U^dag_mu(x+nu) U^dag_nu(x)
staple += Gimpl::ShiftStaple(
Gimpl::CovShiftForward(
U[nu], nu,
Gimpl::CovShiftBackward(
U[mu], mu, Gimpl::CovShiftIdentityBackward(U[nu], nu))),
mu);
// __
// |
// |__
//
//
//tmp1 = U_mu^dag(x-mu) U_nu(x-mu)
//tmp2 = U_nu^dag(x-nu) tmp1(x-nu) = U_nu^dag(x-nu) U_mu^dag(x-mu-nu) U_nu(x-mu-nu)
//tmp3 = tmp2(x+mu) = U_nu^dag(x-nu+mu) U_mu^dag(x-nu) U_nu(x-nu)
staple += Gimpl::ShiftStaple(
Gimpl::CovShiftBackward(U[nu], nu,
Gimpl::CovShiftBackward(U[mu], mu, U[nu])),
mu);
}
}
static void StaplePadded(GaugeMat &staple, const GaugeLorentz &U, int mu,
int nu) {
if(nu==mu){
staple = Zero();
return;
}
double peek = 0, construct = 0, exchange = 0, coord = 0, stencil =0, kernel = 0, extract = 0, total = 0;
double tstart = usecond();
double t=tstart;
PaddedCell Ghost(1, (GridCartesian*)U.Grid());
construct += usecond() - t;
t=usecond();
GaugeMat U_mu = PeekIndex<LorentzIndex>(U, mu);
GaugeMat U_nu = PeekIndex<LorentzIndex>(U, nu);
peek += usecond() - t;
t=usecond();
CshiftImplGauge<Gimpl> cshift_impl;
GaugeMat Ug_mu = Ghost.Exchange(U_mu, cshift_impl);
GaugeMat Ug_nu = Ghost.Exchange(U_nu, cshift_impl);
exchange += usecond() - t;
GridBase *ggrid = Ug_mu.Grid();
GaugeMat gStaple(ggrid);
t=usecond();
Coordinate shift_0(Nd,0);
Coordinate shift_mu(Nd,0); shift_mu[mu]=1;
Coordinate shift_nu(Nd,0); shift_nu[nu]=1;
Coordinate shift_mnu(Nd,0); shift_mnu[nu]=-1;
Coordinate shift_mnu_pmu(Nd,0); shift_mnu_pmu[nu]=-1; shift_mnu_pmu[mu]=1;
std::vector<Coordinate> shifts;
//U_nu(x+mu)U^dag_mu(x+nu) U^dag_nu(x)
shifts.push_back(shift_0);
shifts.push_back(shift_nu);
shifts.push_back(shift_mu);
//U_nu^dag(x-nu+mu) U_mu^dag(x-nu) U_nu(x-nu)
shifts.push_back(shift_mnu);
shifts.push_back(shift_mnu);
shifts.push_back(shift_mnu_pmu);
coord += usecond()-t;
t=usecond();
GeneralLocalStencil gStencil(ggrid,shifts);
stencil += usecond() -t;
t=usecond();
{
autoView( gStaple_v , gStaple, AcceleratorWrite);
auto gStencil_v = gStencil.View();
autoView( Ug_mu_v , Ug_mu, AcceleratorRead);
autoView( Ug_nu_v , Ug_nu, AcceleratorRead);
accelerator_for(ss, ggrid->oSites(), ggrid->Nsimd(), {
GeneralStencilEntry const* e = gStencil_v.GetEntry(0,ss);
auto Udag_nu_x = adj(coalescedReadGeneralPermute(Ug_nu_v[e->_offset], e->_permute, Nd));
e = gStencil_v.GetEntry(1,ss);
auto Udag_mu_xpnu = adj(coalescedReadGeneralPermute(Ug_mu_v[e->_offset], e->_permute, Nd));
e = gStencil_v.GetEntry(2,ss);
auto U_nu_xpmu = coalescedReadGeneralPermute(Ug_nu_v[e->_offset], e->_permute, Nd);
auto stencil_ss = U_nu_xpmu * Udag_mu_xpnu * Udag_nu_x;
e = gStencil_v.GetEntry(3,ss);
auto U_nu_xmnu = coalescedReadGeneralPermute(Ug_nu_v[e->_offset], e->_permute, Nd);
e = gStencil_v.GetEntry(4,ss);
auto Udag_mu_xmnu = adj(coalescedReadGeneralPermute(Ug_mu_v[e->_offset], e->_permute, Nd));
e = gStencil_v.GetEntry(5,ss);
auto Udag_nu_xmnu_pmu = adj(coalescedReadGeneralPermute(Ug_nu_v[e->_offset], e->_permute, Nd));
stencil_ss = stencil_ss + Udag_nu_xmnu_pmu * Udag_mu_xmnu * U_nu_xmnu;
coalescedWrite(gStaple_v[ss],stencil_ss);
}
);
} //ensure views are all closed!
kernel += usecond() - t;
t=usecond();
staple = Ghost.Extract(gStaple);
extract += usecond()-t;
total += usecond() - tstart;
std::cout << GridLogMessage << "StaplePadded timings peek:" << peek << " construct:" << construct << " exchange:" << exchange << " coord:" << coord << " stencil:" << stencil << " kernel:" << kernel << " extract:" << extract << " total:" << total << std::endl;
}
static void RectStapleOrig(GaugeMat &Stap, const GaugeLorentz &Umu,
int mu) {
GridBase *grid = Umu.Grid();
std::vector<GaugeMat> U(Nd, grid);
for (int d = 0; d < Nd; d++) {
U[d] = PeekIndex<LorentzIndex>(Umu, d);
}
Stap = Zero();
for (int nu = 0; nu < Nd; nu++) {
if (nu != mu) {
// __ ___
// | __ |
//
//tmp1 = U_nu^dag(x-nu)
//tmp2 = U_mu^dag(x-mu)tmp1(x-mu) = U_mu^dag(x-mu) U_nu^dag(x-nu-mu)
//tmp3 = U_mu^dag(x-mu)tmp2(x-mu) = U_mu^dag(x-mu) U_mu^dag(x-2mu) U_nu^dag(x-nu-2mu)
//tmp4 = U_nu(x)tmp3(x+nu) = U_nu(x)U_mu^dag(x-mu+nu) U_mu^dag(x-2mu+nu) U_nu^dag(x-2mu)
//tmp5 = U_mu(x)tmp4(x+mu) = U_mu(x)U_nu(x+mu)U_mu^dag(x+nu) U_mu^dag(x-mu+nu) U_nu^dag(x-mu)
//tmp6 = tmp5(x+mu) = U_mu(x+mu)U_nu(x+2mu)U_mu^dag(x+nu+mu) U_mu^dag(x+nu) U_nu^dag(x)
Stap += Gimpl::ShiftStaple(
Gimpl::CovShiftForward(
U[mu], mu,
Gimpl::CovShiftForward(
U[nu], nu,
Gimpl::CovShiftBackward(
U[mu], mu,
Gimpl::CovShiftBackward(
U[mu], mu,
Gimpl::CovShiftIdentityBackward(U[nu], nu))))),
mu);
// __
// |__ __ |
//tmp1 = U^dag_mu(x-mu)U_nu(x-mu)
//tmp2 = U^dag_mu(x-mu)tmp1(x-mu) = U^dag_mu(x-mu)U^dag_mu(x-2mu)U_nu(x-2mu)
//tmp3 = U^dag_nu(x-nu)tmp2(x-nu) = U^dag_nu(x-nu)U^dag_mu(x-mu-nu)U^dag_mu(x-2mu-nu)U_nu(x-2mu-nu)
//tmp4 = U_mu(x)tmp3(x+mu) = U_mu(x)U^dag_nu(x-nu+mu)U^dag_mu(x-nu)U^dag_mu(x-mu-nu)U_nu(x-mu-nu)
//tmp5 = tmp4(x+mu) = U_mu(x+mu)U^dag_nu(x-nu+2mu)U^dag_mu(x-nu+mu)U^dag_mu(x-nu)U_nu(x-nu)
Stap += Gimpl::ShiftStaple(
Gimpl::CovShiftForward(
U[mu], mu,
Gimpl::CovShiftBackward(
U[nu], nu,
Gimpl::CovShiftBackward(
U[mu], mu, Gimpl::CovShiftBackward(U[mu], mu, U[nu])))),
mu);
// __
// |__ __ |
//Forward: Out(x) = Link(x)*field(x+mu)
//Backward: Out(x) = Link^dag(x-mu)*field(x-mu)
//ShiftStaple: Link(x) = Link(x+mu)
//tmp1 = U_nu(x)U_mu(x+nu)
//tmp2 = U^dag_mu(x-mu)tmp1(x-mu) = U^dag_mu(x-mu)U_nu(x-mu)U_mu(x+nu-mu)
//tmp3 = U^dag_mu(x-mu)tmp2(x-mu) = U^dag_mu(x-mu)U^dag_mu(x-2mu)U_nu(x-2mu)U_mu(x+nu-2mu)
//tmp4 = U^dag_nu(x-nu)tmp3(x-nu) = U^dag_nu(x-nu)U^dag_mu(x-mu-nu)U^dag_mu(x-2mu-nu)U_nu(x-2mu-nu)U_mu(x-2mu)
//tmp5 = tmp4(x+mu) = U^dag_nu(x-nu+mu)U^dag_mu(x-nu)U^dag_mu(x-mu-nu)U_nu(x-mu-nu)U_mu(x-mu)
Stap += Gimpl::ShiftStaple(
Gimpl::CovShiftBackward(
U[nu], nu,
Gimpl::CovShiftBackward(
U[mu], mu,
Gimpl::CovShiftBackward(
U[mu], mu, Gimpl::CovShiftForward(U[nu], nu, U[mu])))),
mu);
// __ ___
// |__ |
//tmp1 = U_nu^dag(x-nu)U_mu(x-nu)
//tmp2 = U_mu^dag(x-mu)tmp1(x-mu) = U_mu^dag(x-mu)U_nu^dag(x-mu-nu)U_mu(x-mu-nu)
//tmp3 = U_mu^dag(x-mu)tmp2(x-mu) = U_mu^dag(x-mu)U_mu^dag(x-2mu)U_nu^dag(x-2mu-nu)U_mu(x-2mu-nu)
//tmp4 = U_nu(x)tmp3(x+nu) = U_nu(x)U_mu^dag(x-mu+nu)U_mu^dag(x-2mu+nu)U_nu^dag(x-2mu)U_mu(x-2mu)
//tmp5 = tmp4(x+mu) = U_nu(x+mu)U_mu^dag(x+nu)U_mu^dag(x-mu+nu)U_nu^dag(x-mu)U_mu(x-mu)
Stap += Gimpl::ShiftStaple(
Gimpl::CovShiftForward(
U[nu], nu,
Gimpl::CovShiftBackward(
U[mu], mu,
Gimpl::CovShiftBackward(
U[mu], mu, Gimpl::CovShiftBackward(U[nu], nu, U[mu])))),
mu);
// --
// | |
//
// | |
//tmp1 = U_nu^dag(x-nu)
//tmp2 = U_nu^dag(x-nu)tmp1(x-nu) = U_nu^dag(x-nu)U_nu^dag(x-2nu)
//tmp3 = U_mu^dag(x-mu)tmp2(x-mu) = U_mu^dag(x-mu)U_nu^dag(x-mu-nu)U_nu^dag(x-mu-2nu)
//tmp4 = U_nu(x)tmp3(x+nu) = U_nu(x)U_mu^dag(x-mu+nu)U_nu^dag(x-mu)U_nu^dag(x-mu-nu)
//tmp5 = U_nu(x)tmp4(x+nu) = U_nu(x)U_nu(x+nu)U_mu^dag(x-mu+2nu)U_nu^dag(x-mu+nu)U_nu^dag(x-mu)
//tmp6 = tmp5(x+mu) = U_nu(x+mu)U_nu(x+mu+nu)U_mu^dag(x+2nu)U_nu^dag(x+nu)U_nu^dag(x)
Stap += Gimpl::ShiftStaple(
Gimpl::CovShiftForward(
U[nu], nu,
Gimpl::CovShiftForward(
U[nu], nu,
Gimpl::CovShiftBackward(
U[mu], mu,
Gimpl::CovShiftBackward(
U[nu], nu,
Gimpl::CovShiftIdentityBackward(U[nu], nu))))),
mu);
// | |
//
// | |
// --
//tmp1 = U_nu(x)U_nu(x+nu)
//tmp2 = U_mu^dag(x-mu)tmp1(x-mu) = U_mu^dag(x-mu)U_nu(x-mu)U_nu(x-mu+nu)
//tmp3 = U_nu^dag(x-nu)tmp2(x-nu) = U_nu^dag(x-nu)U_mu^dag(x-mu-nu)U_nu(x-mu-nu)U_nu(x-mu)
//tmp4 = U_nu^dag(x-nu)tmp3(x-nu) = U_nu^dag(x-nu)U_nu^dag(x-2nu)U_mu^dag(x-mu-2nu)U_nu(x-mu-2nu)U_nu(x-mu-nu)
//tmp5 = tmp4(x+mu) = U_nu^dag(x+mu-nu)U_nu^dag(x+mu-2nu)U_mu^dag(x-2nu)U_nu(x-2nu)U_nu(x-nu)
Stap += Gimpl::ShiftStaple(
Gimpl::CovShiftBackward(
U[nu], nu,
Gimpl::CovShiftBackward(
U[nu], nu,
Gimpl::CovShiftBackward(
U[mu], mu, Gimpl::CovShiftForward(U[nu], nu, U[nu])))),
mu);
}
}
}
static void RectStaplePadded(GaugeMat &Stap, const GaugeLorentz &U,
int mu) {
PaddedCell Ghost(2,(GridCartesian*)U.Grid());
GridBase *ggrid = Ghost.grids.back();
CshiftImplGauge<Gimpl> cshift_impl;
std::vector<GaugeMat> Ug_dirs(Nd,ggrid);
for(int i=0;i<Nd;i++) Ug_dirs[i] = Ghost.Exchange(PeekIndex<LorentzIndex>(U, i), cshift_impl);
GaugeMat gStaple(ggrid);
std::vector<Coordinate> shifts;
for (int nu = 0; nu < Nd; nu++) {
if (nu != mu) {
auto genShift = [&](int mushift,int nushift){
Coordinate out(Nd,0); out[mu]=mushift; out[nu]=nushift; return out;
};
//tmp6 = tmp5(x+mu) = U_mu(x+mu)U_nu(x+2mu)U_mu^dag(x+nu+mu) U_mu^dag(x+nu) U_nu^dag(x)
shifts.push_back(genShift(0,0));
shifts.push_back(genShift(0,+1));
shifts.push_back(genShift(+1,+1));
shifts.push_back(genShift(+2,0));
shifts.push_back(genShift(+1,0));
//tmp5 = tmp4(x+mu) = U_mu(x+mu)U^dag_nu(x-nu+2mu)U^dag_mu(x-nu+mu)U^dag_mu(x-nu)U_nu(x-nu)
shifts.push_back(genShift(0,-1));
shifts.push_back(genShift(0,-1));
shifts.push_back(genShift(+1,-1));
shifts.push_back(genShift(+2,-1));
shifts.push_back(genShift(+1,0));
//tmp5 = tmp4(x+mu) = U^dag_nu(x-nu+mu)U^dag_mu(x-nu)U^dag_mu(x-mu-nu)U_nu(x-mu-nu)U_mu(x-mu)
shifts.push_back(genShift(-1,0));
shifts.push_back(genShift(-1,-1));
shifts.push_back(genShift(-1,-1));
shifts.push_back(genShift(0,-1));
shifts.push_back(genShift(+1,-1));
//tmp5 = tmp4(x+mu) = U_nu(x+mu)U_mu^dag(x+nu)U_mu^dag(x-mu+nu)U_nu^dag(x-mu)U_mu(x-mu)
shifts.push_back(genShift(-1,0));
shifts.push_back(genShift(-1,0));
shifts.push_back(genShift(-1,+1));
shifts.push_back(genShift(0,+1));
shifts.push_back(genShift(+1,0));
//tmp6 = tmp5(x+mu) = U_nu(x+mu)U_nu(x+mu+nu)U_mu^dag(x+2nu)U_nu^dag(x+nu)U_nu^dag(x)
shifts.push_back(genShift(0,0));
shifts.push_back(genShift(0,+1));
shifts.push_back(genShift(0,+2));
shifts.push_back(genShift(+1,+1));
shifts.push_back(genShift(+1,0));
//tmp5 = tmp4(x+mu) = U_nu^dag(x+mu-nu)U_nu^dag(x+mu-2nu)U_mu^dag(x-2nu)U_nu(x-2nu)U_nu(x-nu)
shifts.push_back(genShift(0,-1));
shifts.push_back(genShift(0,-2));
shifts.push_back(genShift(0,-2));
shifts.push_back(genShift(+1,-2));
shifts.push_back(genShift(+1,-1));
}
}
size_t nshift = shifts.size();
GeneralLocalStencil gStencil(ggrid,shifts);
{
autoView( gStaple_v , gStaple, AcceleratorWrite);
auto gStencil_v = gStencil.View();
typedef LatticeView<typename GaugeMat::vector_object> GaugeViewType;
size_t vsize = Nd*sizeof(GaugeViewType);
GaugeViewType* Ug_dirs_v_host = (GaugeViewType*)malloc(vsize);
for(int i=0;i<Nd;i++) Ug_dirs_v_host[i] = Ug_dirs[i].View(AcceleratorRead);
GaugeViewType* Ug_dirs_v = (GaugeViewType*)acceleratorAllocDevice(vsize);
acceleratorCopyToDevice(Ug_dirs_v_host,Ug_dirs_v,vsize);
accelerator_for(ss, ggrid->oSites(), ggrid->Nsimd(), {
decltype(coalescedRead(Ug_dirs_v[0][0])) stencil_ss;
stencil_ss = Zero();
int s=0;
for(int nu=0;nu<Nd;nu++){
if(nu != mu){
//tmp6 = tmp5(x+mu) = U_mu(x+mu)U_nu(x+2mu)U_mu^dag(x+nu+mu) U_mu^dag(x+nu) U_nu^dag(x)
GeneralStencilEntry const* e = gStencil_v.GetEntry(s++,ss);
auto U0 = adj(coalescedReadGeneralPermute(Ug_dirs_v[nu][e->_offset], e->_permute, Nd));
e = gStencil_v.GetEntry(s++,ss);
auto U1 = adj(coalescedReadGeneralPermute(Ug_dirs_v[mu][e->_offset], e->_permute, Nd));
e = gStencil_v.GetEntry(s++,ss);
auto U2 = adj(coalescedReadGeneralPermute(Ug_dirs_v[mu][e->_offset], e->_permute, Nd));
e = gStencil_v.GetEntry(s++,ss);
auto U3 = coalescedReadGeneralPermute(Ug_dirs_v[nu][e->_offset], e->_permute, Nd);
e = gStencil_v.GetEntry(s++,ss);
auto U4 = coalescedReadGeneralPermute(Ug_dirs_v[mu][e->_offset], e->_permute, Nd);
stencil_ss = stencil_ss + U4*U3*U2*U1*U0;
//tmp5 = tmp4(x+mu) = U_mu(x+mu)U^dag_nu(x-nu+2mu)U^dag_mu(x-nu+mu)U^dag_mu(x-nu)U_nu(x-nu)
e = gStencil_v.GetEntry(s++,ss);
U0 = coalescedReadGeneralPermute(Ug_dirs_v[nu][e->_offset], e->_permute, Nd);
e = gStencil_v.GetEntry(s++,ss);
U1 = adj(coalescedReadGeneralPermute(Ug_dirs_v[mu][e->_offset], e->_permute, Nd));
e = gStencil_v.GetEntry(s++,ss);
U2 = adj(coalescedReadGeneralPermute(Ug_dirs_v[mu][e->_offset], e->_permute, Nd));
e = gStencil_v.GetEntry(s++,ss);
U3 = adj(coalescedReadGeneralPermute(Ug_dirs_v[nu][e->_offset], e->_permute, Nd));
e = gStencil_v.GetEntry(s++,ss);
U4 = coalescedReadGeneralPermute(Ug_dirs_v[mu][e->_offset], e->_permute, Nd);
stencil_ss = stencil_ss + U4*U3*U2*U1*U0;
//tmp5 = tmp4(x+mu) = U^dag_nu(x-nu+mu)U^dag_mu(x-nu)U^dag_mu(x-mu-nu)U_nu(x-mu-nu)U_mu(x-mu)
e = gStencil_v.GetEntry(s++,ss);
U0 = coalescedReadGeneralPermute(Ug_dirs_v[mu][e->_offset], e->_permute, Nd);
e = gStencil_v.GetEntry(s++,ss);
U1 = coalescedReadGeneralPermute(Ug_dirs_v[nu][e->_offset], e->_permute, Nd);
e = gStencil_v.GetEntry(s++,ss);
U2 = adj(coalescedReadGeneralPermute(Ug_dirs_v[mu][e->_offset], e->_permute, Nd));
e = gStencil_v.GetEntry(s++,ss);
U3 = adj(coalescedReadGeneralPermute(Ug_dirs_v[mu][e->_offset], e->_permute, Nd));
e = gStencil_v.GetEntry(s++,ss);
U4 = adj(coalescedReadGeneralPermute(Ug_dirs_v[nu][e->_offset], e->_permute, Nd));
stencil_ss = stencil_ss + U4*U3*U2*U1*U0;
//tmp5 = tmp4(x+mu) = U_nu(x+mu)U_mu^dag(x+nu)U_mu^dag(x-mu+nu)U_nu^dag(x-mu)U_mu(x-mu)
e = gStencil_v.GetEntry(s++,ss);
U0 = coalescedReadGeneralPermute(Ug_dirs_v[mu][e->_offset], e->_permute, Nd);
e = gStencil_v.GetEntry(s++,ss);
U1 = adj(coalescedReadGeneralPermute(Ug_dirs_v[nu][e->_offset], e->_permute, Nd));
e = gStencil_v.GetEntry(s++,ss);
U2 = adj(coalescedReadGeneralPermute(Ug_dirs_v[mu][e->_offset], e->_permute, Nd));
e = gStencil_v.GetEntry(s++,ss);
U3 = adj(coalescedReadGeneralPermute(Ug_dirs_v[mu][e->_offset], e->_permute, Nd));
e = gStencil_v.GetEntry(s++,ss);
U4 = coalescedReadGeneralPermute(Ug_dirs_v[nu][e->_offset], e->_permute, Nd);
stencil_ss = stencil_ss + U4*U3*U2*U1*U0;
//tmp6 = tmp5(x+mu) = U_nu(x+mu)U_nu(x+mu+nu)U_mu^dag(x+2nu)U_nu^dag(x+nu)U_nu^dag(x)
e = gStencil_v.GetEntry(s++,ss);
U0 = adj(coalescedReadGeneralPermute(Ug_dirs_v[nu][e->_offset], e->_permute, Nd));
e = gStencil_v.GetEntry(s++,ss);
U1 = adj(coalescedReadGeneralPermute(Ug_dirs_v[nu][e->_offset], e->_permute, Nd));
e = gStencil_v.GetEntry(s++,ss);
U2 = adj(coalescedReadGeneralPermute(Ug_dirs_v[mu][e->_offset], e->_permute, Nd));
e = gStencil_v.GetEntry(s++,ss);
U3 = coalescedReadGeneralPermute(Ug_dirs_v[nu][e->_offset], e->_permute, Nd);
e = gStencil_v.GetEntry(s++,ss);
U4 = coalescedReadGeneralPermute(Ug_dirs_v[nu][e->_offset], e->_permute, Nd);
stencil_ss = stencil_ss + U4*U3*U2*U1*U0;
//tmp5 = tmp4(x+mu) = U_nu^dag(x+mu-nu)U_nu^dag(x+mu-2nu)U_mu^dag(x-2nu)U_nu(x-2nu)U_nu(x-nu)
e = gStencil_v.GetEntry(s++,ss);
U0 = coalescedReadGeneralPermute(Ug_dirs_v[nu][e->_offset], e->_permute, Nd);
e = gStencil_v.GetEntry(s++,ss);
U1 = coalescedReadGeneralPermute(Ug_dirs_v[nu][e->_offset], e->_permute, Nd);
e = gStencil_v.GetEntry(s++,ss);
U2 = adj(coalescedReadGeneralPermute(Ug_dirs_v[mu][e->_offset], e->_permute, Nd));
e = gStencil_v.GetEntry(s++,ss);
U3 = adj(coalescedReadGeneralPermute(Ug_dirs_v[nu][e->_offset], e->_permute, Nd));
e = gStencil_v.GetEntry(s++,ss);
U4 = adj(coalescedReadGeneralPermute(Ug_dirs_v[nu][e->_offset], e->_permute, Nd));
stencil_ss = stencil_ss + U4*U3*U2*U1*U0;
}
}
assert(s==nshift);
coalescedWrite(gStaple_v[ss],stencil_ss);
}
);
for(int i=0;i<Nd;i++) Ug_dirs_v_host[i].ViewClose();
free(Ug_dirs_v_host);
acceleratorFreeDevice(Ug_dirs_v);
}
Stap = Ghost.Extract(gStaple);
}
};
int main (int argc, char ** argv)
{
Grid_init(&argc,&argv);
Coordinate latt_size = GridDefaultLatt();
Coordinate simd_layout= GridDefaultSimd(Nd,vComplexD::Nsimd());
Coordinate mpi_layout = GridDefaultMpi();
std::cout << " mpi "<<mpi_layout<<std::endl;
std::cout << " simd "<<simd_layout<<std::endl;
std::cout << " latt "<<latt_size<<std::endl;
GridCartesian GRID(latt_size,simd_layout,mpi_layout);
GridParallelRNG pRNG(&GRID);
pRNG.SeedFixedIntegers(std::vector<int>({45,12,81,9}));
LatticeGaugeField U(&GRID);
SU<Nc>::HotConfiguration(pRNG,U);
//typedef PeriodicGimplD Gimpl;
typedef ConjugateGimplD Gimpl;
std::vector<int> conj_dirs(Nd,0); conj_dirs[0]=1; conj_dirs[3]=1;
Gimpl::setDirections(conj_dirs);
typedef typename WilsonLoopsTest<Gimpl>::GaugeMat GaugeMat;
typedef typename WilsonLoopsTest<Gimpl>::GaugeLorentz GaugeLorentz;
std::cout << GridLogMessage << "Checking Staple" << std::endl;
int count = 0;
double torig=0, tpadded=0;
for(int mu=0;mu<Nd;mu++){
for(int nu=0;nu<Nd;nu++){
if(mu != nu){
GaugeMat staple_orig(&GRID), staple_padded(&GRID);
double t0 = usecond();
WilsonLoopsTest<Gimpl>::StapleOrig(staple_orig,U,mu,nu);
double t1 = usecond();
WilsonLoopsTest<Gimpl>::StaplePadded(staple_padded,U,mu,nu);
double t2 = usecond();
torig += t1-t0; tpadded += t2-t1;
++count;
GaugeMat diff = staple_orig - staple_padded;
double n = norm2(diff);
std::cout << GridLogMessage << mu << " " << nu << " " << n << std::endl;
assert(n<1e-10);
}
}
}
std::cout << GridLogMessage << "Staple timings orig: " << torig/1000/count << "ms, padded: " << tpadded/1000/count << "ms" << std::endl;
count=0; torig=tpadded=0;
std::cout << GridLogMessage << "Checking RectStaple" << std::endl;
for(int mu=0;mu<Nd;mu++){
GaugeMat staple_orig(&GRID), staple_padded(&GRID);
double t0 = usecond();
WilsonLoopsTest<Gimpl>::RectStapleOrig(staple_orig,U,mu);
double t1 = usecond();
WilsonLoopsTest<Gimpl>::RectStaplePadded(staple_padded,U,mu);
double t2 = usecond();
torig += t1-t0; tpadded += t2-t1;
++count;
GaugeMat diff = staple_orig - staple_padded;
double n = norm2(diff);
std::cout << GridLogMessage << mu << " " << n << std::endl;
assert(n<1e-10);
}
std::cout << GridLogMessage << "RectStaple timings orig: " << torig/1000/count << "ms, padded: " << tpadded/1000/count << "ms" << std::endl;
Grid_finalize();
}