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0e6197fbed
Must obtain and access lattice indexing through a view object that is safe to copy construct in copy to GPU (without copying the lattice).
321 lines
9.0 KiB
C++
321 lines
9.0 KiB
C++
/*************************************************************************************
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Grid physics library, www.github.com/paboyle/Grid
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Source file: ./lib/lattice/Lattice_arith.h
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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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#ifndef GRID_LATTICE_ARITH_H
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#define GRID_LATTICE_ARITH_H
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NAMESPACE_BEGIN(Grid);
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//////////////////////////////////////////////////////////////////////////////////////////////////////
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// avoid copy back routines for mult, mac, sub, add
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//////////////////////////////////////////////////////////////////////////////////////////////////////
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template<class obj1,class obj2,class obj3> inline
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void mult(Lattice<obj1> &ret,const Lattice<obj2> &lhs,const Lattice<obj3> &rhs){
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ret.Checkerboard() = lhs.Checkerboard();
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auto ret_v = ret.View();
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auto lhs_v = lhs.View();
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auto rhs_v = rhs.View();
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conformable(ret,rhs);
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conformable(lhs,rhs);
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#ifdef STREAMING_STORES
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accelerator_loop(ss,lhs_v,{
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obj1 tmp;
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mult(&tmp,&lhs_v[ss],&rhs_v[ss]);
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vstream(ret_v[ss],tmp);
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});
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#else
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accelerator_loop(ss,lhs_v,{
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mult(&ret_v[ss],&lhs_v[ss],&rhs_v[ss]);
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});
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#endif
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}
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template<class obj1,class obj2,class obj3> inline
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void mac(Lattice<obj1> &ret,const Lattice<obj2> &lhs,const Lattice<obj3> &rhs){
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ret.Checkerboard() = lhs.Checkerboard();
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conformable(ret,rhs);
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conformable(lhs,rhs);
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auto ret_v = ret.View();
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auto lhs_v = lhs.View();
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auto rhs_v = rhs.View();
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#ifdef STREAMING_STORES
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accelerator_loop(ss,lhs_v,{
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obj1 tmp;
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mac(&tmp,&lhs_v[ss],&rhs_v[ss]);
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vstream(ret_v[ss],tmp);
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});
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#else
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accelerator_loop(ss,lhs_v,{
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mac(&ret_v[ss],&lhs_v[ss],&rhs_v[ss]);
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});
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#endif
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}
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template<class obj1,class obj2,class obj3> inline
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void sub(Lattice<obj1> &ret,const Lattice<obj2> &lhs,const Lattice<obj3> &rhs){
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ret.Checkerboard() = lhs.Checkerboard();
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conformable(ret,rhs);
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conformable(lhs,rhs);
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auto ret_v = ret.View();
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auto lhs_v = lhs.View();
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auto rhs_v = rhs.View();
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#ifdef STREAMING_STORES
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accelerator_loop(ss,lhs_v,{
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obj1 tmp;
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sub(&tmp,&lhs_v[ss],&rhs_v[ss]);
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vstream(ret_v[ss],tmp);
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});
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#else
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accelerator_loop(ss,lhs_v,{
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sub(&ret[ss],&lhs_v[ss],&rhs_v[ss]);
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});
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#endif
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}
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template<class obj1,class obj2,class obj3> inline
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void add(Lattice<obj1> &ret,const Lattice<obj2> &lhs,const Lattice<obj3> &rhs){
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ret.Checkerboard() = lhs.Checkerboard();
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conformable(ret,rhs);
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conformable(lhs,rhs);
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auto ret_v = ret.View();
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auto lhs_v = lhs.View();
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auto rhs_v = rhs.View();
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#ifdef STREAMING_STORES
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accelerator_loop(ss,lhs_v,{
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obj1 tmp;
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add(&tmp,&lhs_v[ss],&rhs_v[ss]);
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vstream(ret_v[ss],tmp);
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});
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#else
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accelerator_loop(ss,lhs_v,{
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add(&ret_v[ss],&lhs_v[ss],&rhs_v[ss]);
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});
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#endif
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}
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//////////////////////////////////////////////////////////////////////////////////////////////////////
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// avoid copy back routines for mult, mac, sub, add
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//////////////////////////////////////////////////////////////////////////////////////////////////////
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template<class obj1,class obj2,class obj3> inline
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void mult(Lattice<obj1> &ret,const Lattice<obj2> &lhs,const obj3 &rhs){
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ret.Checkerboard() = lhs.Checkerboard();
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conformable(lhs,ret);
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auto ret_v = ret.View();
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auto lhs_v = lhs.View();
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accelerator_loop(ss,lhs_v,{
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obj1 tmp;
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mult(&tmp,&lhs_v[ss],&rhs);
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vstream(ret_v[ss],tmp);
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});
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}
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template<class obj1,class obj2,class obj3> inline
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void mac(Lattice<obj1> &ret,const Lattice<obj2> &lhs,const obj3 &rhs){
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ret.Checkerboard() = lhs.Checkerboard();
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conformable(ret,lhs);
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auto ret_v = ret.View();
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auto lhs_v = lhs.View();
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accelerator_loop(ss,lhs_v,{
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obj1 tmp;
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mac(&tmp,&lhs_v[ss],&rhs);
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vstream(ret_v[ss],tmp);
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});
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}
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template<class obj1,class obj2,class obj3> inline
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void sub(Lattice<obj1> &ret,const Lattice<obj2> &lhs,const obj3 &rhs){
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ret.Checkerboard() = lhs.Checkerboard();
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conformable(ret,lhs);
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auto ret_v = ret.View();
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auto lhs_v = lhs.View();
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#ifdef STREAMING_STORES
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accelerator_loop(ss,lhs_v,{
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obj1 tmp;
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sub(&tmp,&lhs_v[ss],&rhs);
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vstream(ret_v[ss],tmp);
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});
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#else
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accelerator_loop(ss,lhs_v,{
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sub(&ret_v[ss],&lhs_v[ss],&rhs);
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});
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#endif
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}
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template<class obj1,class obj2,class obj3> inline
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void add(Lattice<obj1> &ret,const Lattice<obj2> &lhs,const obj3 &rhs){
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ret.Checkerboard() = lhs.Checkerboard();
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conformable(lhs,ret);
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auto ret_v = ret.View();
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auto lhs_v = lhs.View();
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#ifdef STREAMING_STORES
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accelerator_loop(ss,lhs_v,{
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obj1 tmp;
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add(&tmp,&lhs_v[ss],&rhs);
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vstream(ret_v[ss],tmp);
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});
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#else
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accelerator_loop(ss,lhs_v,{
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add(&ret_v[ss],&lhs_v[ss],&rhs);
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});
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#endif
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}
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//////////////////////////////////////////////////////////////////////////////////////////////////////
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// avoid copy back routines for mult, mac, sub, add
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//////////////////////////////////////////////////////////////////////////////////////////////////////
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template<class obj1,class obj2,class obj3> inline
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void mult(Lattice<obj1> &ret,const obj2 &lhs,const Lattice<obj3> &rhs){
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ret.Checkerboard() = rhs.Checkerboard();
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conformable(ret,rhs);
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auto ret_v = ret.View();
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auto rhs_v = lhs.View();
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#ifdef STREAMING_STORES
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accelerator_loop(ss,rhs_v,{
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obj1 tmp;
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mult(&tmp,&lhs,&rhs_v[ss]);
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vstream(ret_v[ss],tmp);
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});
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#else
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accelerator_loop(ss,rhs_v,{
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mult(&ret_v[ss],&lhs,&rhs_v[ss]);
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});
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#endif
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}
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template<class obj1,class obj2,class obj3> inline
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void mac(Lattice<obj1> &ret,const obj2 &lhs,const Lattice<obj3> &rhs){
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ret.Checkerboard() = rhs.Checkerboard();
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conformable(ret,rhs);
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auto ret_v = ret.View();
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auto rhs_v = lhs.View();
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#ifdef STREAMING_STORES
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accelerator_loop(ss,rhs_v,{
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obj1 tmp;
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mac(&tmp,&lhs,&rhs_v[ss]);
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vstream(ret_v[ss],tmp);
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});
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#else
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accelerator_loop(ss,rhs_v,{
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mac(&ret_v[ss],&lhs,&rhs_v[ss]);
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});
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#endif
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}
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template<class obj1,class obj2,class obj3> inline
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void sub(Lattice<obj1> &ret,const obj2 &lhs,const Lattice<obj3> &rhs){
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ret.Checkerboard() = rhs.Checkerboard();
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conformable(ret,rhs);
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auto ret_v = ret.View();
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auto rhs_v = lhs.View();
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#ifdef STREAMING_STORES
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accelerator_loop(ss,rhs_v,{
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obj1 tmp;
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sub(&tmp,&lhs,&rhs_v[ss]);
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vstream(ret_v[ss],tmp);
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});
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#else
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accelerator_loop(ss,rhs_v,{
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sub(&ret_v[ss],&lhs,&rhs_v[ss]);
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});
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#endif
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}
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template<class obj1,class obj2,class obj3> inline
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void add(Lattice<obj1> &ret,const obj2 &lhs,const Lattice<obj3> &rhs){
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ret.Checkerboard() = rhs.Checkerboard();
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conformable(ret,rhs);
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auto ret_v = ret.View();
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auto rhs_v = lhs.View();
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#ifdef STREAMING_STORES
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accelerator_loop(ss,rhs_v,{
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obj1 tmp;
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add(&tmp,&lhs,&rhs_v[ss]);
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vstream(ret_v[ss],tmp);
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});
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#else
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accelerator_loop(ss,rhs_v,{
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add(&ret_v[ss],&lhs,&rhs_v[ss]);
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});
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#endif
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}
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template<class sobj,class vobj> inline
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void axpy(Lattice<vobj> &ret,sobj a,const Lattice<vobj> &x,const Lattice<vobj> &y){
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ret.Checkerboard() = x.Checkerboard();
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conformable(ret,x);
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conformable(x,y);
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auto ret_v = ret.View();
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auto x_v = x.View();
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auto y_v = y.View();
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#ifdef STREAMING_STORES
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accelerator_loop(ss,x_v,{
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vobj tmp = a*x_v[ss]+y_v[ss];
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vstream(ret_v[ss],tmp);
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});
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#else
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accelerator_loop(ss,x_v,{
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ret_v[ss]=a*x_v[ss]+y_v[ss];
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});
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#endif
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}
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template<class sobj,class vobj> inline
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void axpby(Lattice<vobj> &ret,sobj a,sobj b,const Lattice<vobj> &x,const Lattice<vobj> &y){
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ret.Checkerboard() = x.Checkerboard();
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conformable(ret,x);
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conformable(x,y);
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auto ret_v = ret.View();
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auto x_v = x.View();
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auto y_v = y.View();
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#ifdef STREAMING_STORES
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accelerator_loop(ss,x_v,{
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vobj tmp = a*x_v[ss]+b*y_v[ss];
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vstream(ret_v[ss],tmp);
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});
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#else
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accelerator_loop(ss,x_v,{
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ret_v[ss]=a*x_v[ss]+b*y_v[ss];
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});
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#endif
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}
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template<class sobj,class vobj> inline
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RealD axpy_norm(Lattice<vobj> &ret,sobj a,const Lattice<vobj> &x,const Lattice<vobj> &y){
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ret.Checkerboard() = x.Checkerboard();
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conformable(ret,x);
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conformable(x,y);
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axpy(ret,a,x,y);
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return norm2(ret);
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}
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template<class sobj,class vobj> inline
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RealD axpby_norm(Lattice<vobj> &ret,sobj a,sobj b,const Lattice<vobj> &x,const Lattice<vobj> &y){
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ret.Checkerboard() = x.Checkerboard();
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conformable(ret,x);
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conformable(x,y);
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axpby(ret,a,b,x,y);
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return norm2(ret); // FIXME implement parallel norm in ss loop
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}
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NAMESPACE_END(Grid);
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#endif
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