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455 lines
17 KiB
C++
455 lines
17 KiB
C++
/*************************************************************************************
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Grid physics library, www.github.com/paboyle/Grid
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Source file: ./lib/qcd/action/fermion/WilsonKernels.cc
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Copyright (C) 2015
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Author: Peter Boyle <paboyle@ph.ed.ac.uk>
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Author: Peter Boyle <peterboyle@Peters-MacBook-Pro-2.local>
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Author: paboyle <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
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directory
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*************************************************************************************/
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/* END LEGAL */
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#include <Grid/qcd/action/fermion/FermionCore.h>
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NAMESPACE_BEGIN(Grid);
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int WilsonKernelsStatic::Opt = WilsonKernelsStatic::OptGeneric;
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int WilsonKernelsStatic::Comms = WilsonKernelsStatic::CommsAndCompute;
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template <class Impl>
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WilsonKernels<Impl>::WilsonKernels(const ImplParams &p) : Base(p){};
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////////////////////////////////////////////
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// Generic implementation; move to different file?
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////////////////////////////////////////////
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#define GENERIC_STENCIL_LEG(Dir,spProj,Recon) \
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SE = st.GetEntry(ptype, Dir, sF); \
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if (SE->_is_local) { \
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chi_p = χ \
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if (SE->_permute) { \
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spProj(tmp, in[SE->_offset]); \
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permute(chi, tmp, ptype); \
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} else { \
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spProj(chi, in[SE->_offset]); \
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} \
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} else { \
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chi_p = &buf[SE->_offset]; \
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} \
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Impl::multLink(Uchi, U[sU], *chi_p, Dir, SE, st); \
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Recon(result, Uchi);
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#define GENERIC_STENCIL_LEG_INT(Dir,spProj,Recon) \
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SE = st.GetEntry(ptype, Dir, sF); \
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if (SE->_is_local) { \
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chi_p = χ \
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if (SE->_permute) { \
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spProj(tmp, in[SE->_offset]); \
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permute(chi, tmp, ptype); \
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} else { \
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spProj(chi, in[SE->_offset]); \
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} \
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} else if ( st.same_node[Dir] ) { \
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chi_p = &buf[SE->_offset]; \
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} \
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if (SE->_is_local || st.same_node[Dir] ) { \
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Impl::multLink(Uchi, U[sU], *chi_p, Dir, SE, st); \
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Recon(result, Uchi); \
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}
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#define GENERIC_STENCIL_LEG_EXT(Dir,spProj,Recon) \
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SE = st.GetEntry(ptype, Dir, sF); \
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if ((!SE->_is_local) && (!st.same_node[Dir]) ) { \
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chi_p = &buf[SE->_offset]; \
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Impl::multLink(Uchi, U[sU], *chi_p, Dir, SE, st); \
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Recon(result, Uchi); \
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nmu++; \
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}
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#define GENERIC_DHOPDIR_LEG(Dir,spProj,Recon) \
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if (gamma == Dir) { \
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if (SE->_is_local && SE->_permute) { \
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spProj(tmp, in[SE->_offset]); \
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permute(chi, tmp, ptype); \
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} else if (SE->_is_local) { \
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spProj(chi, in[SE->_offset]); \
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} else { \
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chi = buf[SE->_offset]; \
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} \
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Impl::multLink(Uchi, U[sU], chi, dir, SE, st); \
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Recon(result, Uchi); \
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}
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////////////////////////////////////////////////////////////////////
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// All legs kernels ; comms then compute
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////////////////////////////////////////////////////////////////////
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template <class Impl>
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void WilsonKernels<Impl>::GenericDhopSiteDag(StencilImpl &st, LebesgueOrder &lo, DoubledGaugeField &U,
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SiteHalfSpinor *buf, int sF,
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int sU, const FermionField &in, FermionField &out)
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{
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SiteHalfSpinor tmp;
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SiteHalfSpinor chi;
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SiteHalfSpinor *chi_p;
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SiteHalfSpinor Uchi;
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SiteSpinor result;
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StencilEntry *SE;
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int ptype;
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GENERIC_STENCIL_LEG(Xp,spProjXp,spReconXp);
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GENERIC_STENCIL_LEG(Yp,spProjYp,accumReconYp);
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GENERIC_STENCIL_LEG(Zp,spProjZp,accumReconZp);
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GENERIC_STENCIL_LEG(Tp,spProjTp,accumReconTp);
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GENERIC_STENCIL_LEG(Xm,spProjXm,accumReconXm);
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GENERIC_STENCIL_LEG(Ym,spProjYm,accumReconYm);
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GENERIC_STENCIL_LEG(Zm,spProjZm,accumReconZm);
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GENERIC_STENCIL_LEG(Tm,spProjTm,accumReconTm);
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vstream(out[sF], result);
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};
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template <class Impl>
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void WilsonKernels<Impl>::GenericDhopSite(StencilImpl &st, LebesgueOrder &lo, DoubledGaugeField &U,
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SiteHalfSpinor *buf, int sF,
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int sU, const FermionField &in, FermionField &out)
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{
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SiteHalfSpinor tmp;
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SiteHalfSpinor chi;
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SiteHalfSpinor *chi_p;
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SiteHalfSpinor Uchi;
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SiteSpinor result;
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StencilEntry *SE;
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int ptype;
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GENERIC_STENCIL_LEG(Xm,spProjXp,spReconXp);
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GENERIC_STENCIL_LEG(Ym,spProjYp,accumReconYp);
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GENERIC_STENCIL_LEG(Zm,spProjZp,accumReconZp);
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GENERIC_STENCIL_LEG(Tm,spProjTp,accumReconTp);
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GENERIC_STENCIL_LEG(Xp,spProjXm,accumReconXm);
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GENERIC_STENCIL_LEG(Yp,spProjYm,accumReconYm);
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GENERIC_STENCIL_LEG(Zp,spProjZm,accumReconZm);
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GENERIC_STENCIL_LEG(Tp,spProjTm,accumReconTm);
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vstream(out[sF], result);
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};
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////////////////////////////////////////////////////////////////////
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// Interior kernels
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////////////////////////////////////////////////////////////////////
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template <class Impl>
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void WilsonKernels<Impl>::GenericDhopSiteDagInt(StencilImpl &st, LebesgueOrder &lo, DoubledGaugeField &U,
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SiteHalfSpinor *buf, int sF,
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int sU, const FermionField &in, FermionField &out)
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{
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SiteHalfSpinor tmp;
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SiteHalfSpinor chi;
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SiteHalfSpinor *chi_p;
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SiteHalfSpinor Uchi;
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SiteSpinor result;
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StencilEntry *SE;
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int ptype;
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result=zero;
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GENERIC_STENCIL_LEG_INT(Xp,spProjXp,accumReconXp);
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GENERIC_STENCIL_LEG_INT(Yp,spProjYp,accumReconYp);
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GENERIC_STENCIL_LEG_INT(Zp,spProjZp,accumReconZp);
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GENERIC_STENCIL_LEG_INT(Tp,spProjTp,accumReconTp);
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GENERIC_STENCIL_LEG_INT(Xm,spProjXm,accumReconXm);
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GENERIC_STENCIL_LEG_INT(Ym,spProjYm,accumReconYm);
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GENERIC_STENCIL_LEG_INT(Zm,spProjZm,accumReconZm);
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GENERIC_STENCIL_LEG_INT(Tm,spProjTm,accumReconTm);
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vstream(out[sF], result);
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};
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template <class Impl>
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void WilsonKernels<Impl>::GenericDhopSiteInt(StencilImpl &st, LebesgueOrder &lo, DoubledGaugeField &U,
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SiteHalfSpinor *buf, int sF,
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int sU, const FermionField &in, FermionField &out)
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{
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SiteHalfSpinor tmp;
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SiteHalfSpinor chi;
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SiteHalfSpinor *chi_p;
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SiteHalfSpinor Uchi;
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SiteSpinor result;
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StencilEntry *SE;
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int ptype;
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result=zero;
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GENERIC_STENCIL_LEG_INT(Xm,spProjXp,accumReconXp);
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GENERIC_STENCIL_LEG_INT(Ym,spProjYp,accumReconYp);
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GENERIC_STENCIL_LEG_INT(Zm,spProjZp,accumReconZp);
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GENERIC_STENCIL_LEG_INT(Tm,spProjTp,accumReconTp);
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GENERIC_STENCIL_LEG_INT(Xp,spProjXm,accumReconXm);
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GENERIC_STENCIL_LEG_INT(Yp,spProjYm,accumReconYm);
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GENERIC_STENCIL_LEG_INT(Zp,spProjZm,accumReconZm);
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GENERIC_STENCIL_LEG_INT(Tp,spProjTm,accumReconTm);
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vstream(out[sF], result);
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};
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////////////////////////////////////////////////////////////////////
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// Exterior kernels
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////////////////////////////////////////////////////////////////////
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template <class Impl>
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void WilsonKernels<Impl>::GenericDhopSiteDagExt(StencilImpl &st, LebesgueOrder &lo, DoubledGaugeField &U,
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SiteHalfSpinor *buf, int sF,
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int sU, const FermionField &in, FermionField &out)
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{
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// SiteHalfSpinor tmp;
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// SiteHalfSpinor chi;
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SiteHalfSpinor *chi_p;
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SiteHalfSpinor Uchi;
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SiteSpinor result;
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StencilEntry *SE;
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int ptype;
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int nmu=0;
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result=zero;
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GENERIC_STENCIL_LEG_EXT(Xp,spProjXp,accumReconXp);
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GENERIC_STENCIL_LEG_EXT(Yp,spProjYp,accumReconYp);
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GENERIC_STENCIL_LEG_EXT(Zp,spProjZp,accumReconZp);
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GENERIC_STENCIL_LEG_EXT(Tp,spProjTp,accumReconTp);
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GENERIC_STENCIL_LEG_EXT(Xm,spProjXm,accumReconXm);
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GENERIC_STENCIL_LEG_EXT(Ym,spProjYm,accumReconYm);
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GENERIC_STENCIL_LEG_EXT(Zm,spProjZm,accumReconZm);
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GENERIC_STENCIL_LEG_EXT(Tm,spProjTm,accumReconTm);
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if ( nmu ) {
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out[sF] = out[sF] + result;
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}
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};
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template <class Impl>
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void WilsonKernels<Impl>::GenericDhopSiteExt(StencilImpl &st, LebesgueOrder &lo, DoubledGaugeField &U,
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SiteHalfSpinor *buf, int sF,
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int sU, const FermionField &in, FermionField &out)
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{
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// SiteHalfSpinor tmp;
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// SiteHalfSpinor chi;
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SiteHalfSpinor *chi_p;
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SiteHalfSpinor Uchi;
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SiteSpinor result;
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StencilEntry *SE;
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int ptype;
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int nmu=0;
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result=zero;
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GENERIC_STENCIL_LEG_EXT(Xm,spProjXp,accumReconXp);
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GENERIC_STENCIL_LEG_EXT(Ym,spProjYp,accumReconYp);
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GENERIC_STENCIL_LEG_EXT(Zm,spProjZp,accumReconZp);
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GENERIC_STENCIL_LEG_EXT(Tm,spProjTp,accumReconTp);
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GENERIC_STENCIL_LEG_EXT(Xp,spProjXm,accumReconXm);
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GENERIC_STENCIL_LEG_EXT(Yp,spProjYm,accumReconYm);
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GENERIC_STENCIL_LEG_EXT(Zp,spProjZm,accumReconZm);
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GENERIC_STENCIL_LEG_EXT(Tp,spProjTm,accumReconTm);
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if ( nmu ) {
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out[sF] = out[sF] + result;
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}
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};
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template <class Impl>
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void WilsonKernels<Impl>::DhopDirK( StencilImpl &st, DoubledGaugeField &U,SiteHalfSpinor *buf, int sF,
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int sU, const FermionField &in, FermionField &out, int dir, int gamma) {
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SiteHalfSpinor tmp;
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SiteHalfSpinor chi;
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SiteSpinor result;
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SiteHalfSpinor Uchi;
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StencilEntry *SE;
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int ptype;
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SE = st.GetEntry(ptype, dir, sF);
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GENERIC_DHOPDIR_LEG(Xp,spProjXp,spReconXp);
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GENERIC_DHOPDIR_LEG(Yp,spProjYp,spReconYp);
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GENERIC_DHOPDIR_LEG(Zp,spProjZp,spReconZp);
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GENERIC_DHOPDIR_LEG(Tp,spProjTp,spReconTp);
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GENERIC_DHOPDIR_LEG(Xm,spProjXm,spReconXm);
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GENERIC_DHOPDIR_LEG(Ym,spProjYm,spReconYm);
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GENERIC_DHOPDIR_LEG(Zm,spProjZm,spReconZm);
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GENERIC_DHOPDIR_LEG(Tm,spProjTm,spReconTm);
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vstream(out[sF], result);
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}
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/*******************************************************************************
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* Conserved current utilities for Wilson fermions, for contracting propagators
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* to make a conserved current sink or inserting the conserved current
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* sequentially. Common to both 4D and 5D.
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******************************************************************************/
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// N.B. Functions below assume a -1/2 factor within U.
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#define WilsonCurrentFwd(expr, mu) ((expr - Gamma::gmu[mu]*expr))
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#define WilsonCurrentBwd(expr, mu) ((expr + Gamma::gmu[mu]*expr))
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/*******************************************************************************
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* Name: ContractConservedCurrentSiteFwd
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* Operation: (1/2) * q2[x] * U(x) * (g[mu] - 1) * q1[x + mu]
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* Notes: - DoubledGaugeField U assumed to contain -1/2 factor.
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* - Pass in q_in_1 shifted in +ve mu direction.
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******************************************************************************/
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template<class Impl>
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void WilsonKernels<Impl>::ContractConservedCurrentSiteFwd(
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const SitePropagator &q_in_1,
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const SitePropagator &q_in_2,
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SitePropagator &q_out,
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DoubledGaugeField &U,
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unsigned int sU,
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unsigned int mu,
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bool switch_sign)
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{
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SitePropagator result, tmp;
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Gamma g5(Gamma::Algebra::Gamma5);
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Impl::multLinkProp(tmp, U[sU], q_in_1, mu);
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result = g5 * adj(q_in_2) * g5 * WilsonCurrentFwd(tmp, mu);
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if (switch_sign)
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{
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q_out -= result;
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}
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else
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{
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q_out += result;
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}
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}
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/*******************************************************************************
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* Name: ContractConservedCurrentSiteBwd
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* Operation: (1/2) * q2[x + mu] * U^dag(x) * (g[mu] + 1) * q1[x]
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* Notes: - DoubledGaugeField U assumed to contain -1/2 factor.
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* - Pass in q_in_2 shifted in +ve mu direction.
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******************************************************************************/
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template<class Impl>
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void WilsonKernels<Impl>::ContractConservedCurrentSiteBwd(
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const SitePropagator &q_in_1,
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const SitePropagator &q_in_2,
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SitePropagator &q_out,
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DoubledGaugeField &U,
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unsigned int sU,
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unsigned int mu,
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bool switch_sign)
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{
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SitePropagator result, tmp;
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Gamma g5(Gamma::Algebra::Gamma5);
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Impl::multLinkProp(tmp, U[sU], q_in_1, mu + Nd);
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result = g5 * adj(q_in_2) * g5 * WilsonCurrentBwd(tmp, mu);
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if (switch_sign)
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{
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q_out += result;
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}
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else
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{
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q_out -= result;
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}
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}
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// G-parity requires more specialised implementation.
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#define NO_CURR_SITE(Impl) \
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template <> \
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void WilsonKernels<Impl>::ContractConservedCurrentSiteFwd( \
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const SitePropagator &q_in_1, \
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const SitePropagator &q_in_2, \
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SitePropagator &q_out, \
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DoubledGaugeField &U, \
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unsigned int sU, \
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unsigned int mu, \
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bool switch_sign) \
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{ \
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assert(0); \
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} \
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template <> \
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void WilsonKernels<Impl>::ContractConservedCurrentSiteBwd( \
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const SitePropagator &q_in_1, \
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const SitePropagator &q_in_2, \
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SitePropagator &q_out, \
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DoubledGaugeField &U, \
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unsigned int mu, \
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unsigned int sU, \
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bool switch_sign) \
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{ \
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assert(0); \
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}
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NO_CURR_SITE(GparityWilsonImplF);
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NO_CURR_SITE(GparityWilsonImplD);
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NO_CURR_SITE(GparityWilsonImplFH);
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NO_CURR_SITE(GparityWilsonImplDF);
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/*******************************************************************************
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* Name: SeqConservedCurrentSiteFwd
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* Operation: (1/2) * U(x) * (g[mu] - 1) * q[x + mu]
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* Notes: - DoubledGaugeField U assumed to contain -1/2 factor.
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* - Pass in q_in shifted in +ve mu direction.
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******************************************************************************/
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template<class Impl>
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void WilsonKernels<Impl>::SeqConservedCurrentSiteFwd(const SitePropagator &q_in,
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SitePropagator &q_out,
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DoubledGaugeField &U,
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unsigned int sU,
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unsigned int mu,
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vInteger t_mask,
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bool switch_sign)
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{
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SitePropagator result;
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Impl::multLinkProp(result, U[sU], q_in, mu);
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result = WilsonCurrentFwd(result, mu);
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// Zero any unwanted timeslice entries.
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result = predicatedWhere(t_mask, result, 0.*result);
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if (switch_sign)
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{
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q_out -= result;
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}
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else
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{
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q_out += result;
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}
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}
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/*******************************************************************************
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* Name: SeqConservedCurrentSiteFwd
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* Operation: (1/2) * U^dag(x) * (g[mu] + 1) * q[x - mu]
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* Notes: - DoubledGaugeField U assumed to contain -1/2 factor.
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* - Pass in q_in shifted in -ve mu direction.
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******************************************************************************/
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template<class Impl>
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void WilsonKernels<Impl>::SeqConservedCurrentSiteBwd(const SitePropagator &q_in,
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SitePropagator &q_out,
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DoubledGaugeField &U,
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unsigned int sU,
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unsigned int mu,
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vInteger t_mask,
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bool switch_sign)
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{
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SitePropagator result;
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Impl::multLinkProp(result, U[sU], q_in, mu + Nd);
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result = WilsonCurrentBwd(result, mu);
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// Zero any unwanted timeslice entries.
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result = predicatedWhere(t_mask, result, 0.*result);
|
|
|
|
if (switch_sign)
|
|
{
|
|
q_out += result;
|
|
}
|
|
else
|
|
{
|
|
q_out -= result;
|
|
}
|
|
}
|
|
|
|
FermOpTemplateInstantiate(WilsonKernels);
|
|
AdjointFermOpTemplateInstantiate(WilsonKernels);
|
|
TwoIndexFermOpTemplateInstantiate(WilsonKernels);
|
|
|
|
NAMESPACE_END(Grid);
|
|
|