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398 lines
14 KiB
C++
398 lines
14 KiB
C++
#include <Grid/Grid.h>
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using namespace Grid;
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/*
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/////////////////////////////////////////////////////////////////////////////////////////////
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// Grid/algorithms/SparseMatrix.h: Interface defining what I expect of a general sparse matrix, such as a Fermion action
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/////////////////////////////////////////////////////////////////////////////////////////////
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template<class Field> class SparseMatrixBase {
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public:
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virtual GridBase *Grid(void) =0;
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virtual void M (const Field &in, Field &out)=0;
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virtual void Mdag (const Field &in, Field &out)=0;
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virtual void MdagM(const Field &in, Field &out) {
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Field tmp (in.Grid());
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M(in,tmp);
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Mdag(tmp,out);
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}
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virtual void Mdiag (const Field &in, Field &out)=0;
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virtual void Mdir (const Field &in, Field &out,int dir, int disp)=0;
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virtual void MdirAll (const Field &in, std::vector<Field> &out)=0;
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};
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*/
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const std::vector<int> directions ({Xdir,Ydir,Zdir,Xdir,Ydir,Zdir});
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const std::vector<int> displacements({1,1,1,-1,-1,-1});
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template<class Field> class FreeLaplacianCshift : public SparseMatrixBase<Field>
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{
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public:
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GridBase *grid;
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FreeLaplacianCshift(GridBase *_grid)
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{
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grid=_grid;
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};
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virtual GridBase *Grid(void) { return grid; };
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virtual void M (const Field &in, Field &out)
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{
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out = Zero();
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for(int mu=0;mu<Nd-1;mu++) {
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out = out + Cshift(in,mu,1) + Cshift(in,mu,-1) - 2.0 * in;
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}
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};
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virtual void Mdag (const Field &in, Field &out) { M(in,out);}; // Laplacian is hermitian
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virtual void Mdiag (const Field &in, Field &out) {assert(0);}; // Unimplemented need only for multigrid
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virtual void Mdir (const Field &in, Field &out,int dir, int disp){assert(0);}; // Unimplemented need only for multigrid
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virtual void MdirAll (const Field &in, std::vector<Field> &out) {assert(0);}; // Unimplemented need only for multigrid
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};
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template<class Gimpl,class Field> class CovariantLaplacianCshift : public SparseMatrixBase<Field>
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{
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public:
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INHERIT_GIMPL_TYPES(Gimpl);
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GridBase *grid;
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GaugeField U;
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CovariantLaplacianCshift(GaugeField &_U) :
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grid(_U.Grid()),
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U(_U) { };
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virtual GridBase *Grid(void) { return grid; };
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virtual void M (const Field &in, Field &out)
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{
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out=Zero();
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for(int mu=0;mu<Nd-1;mu++) {
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GaugeLinkField Umu = PeekIndex<LorentzIndex>(U, mu); // NB: Inefficent
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out = out + Gimpl::CovShiftForward(Umu,mu,in);
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out = out + Gimpl::CovShiftBackward(Umu,mu,in);
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out = out - 2.0*in;
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}
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};
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virtual void Mdag (const Field &in, Field &out) { M(in,out);}; // Laplacian is hermitian
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virtual void Mdiag (const Field &in, Field &out) {assert(0);}; // Unimplemented need only for multigrid
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virtual void Mdir (const Field &in, Field &out,int dir, int disp){assert(0);}; // Unimplemented need only for multigrid
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virtual void MdirAll (const Field &in, std::vector<Field> &out) {assert(0);}; // Unimplemented need only for multigrid
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};
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#define LEG_LOAD(Dir) \
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SE = st.GetEntry(ptype, Dir, ss); \
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if (SE->_is_local ) { \
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int perm= SE->_permute; \
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chi = coalescedReadPermute(in[SE->_offset],ptype,perm,lane); \
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} else { \
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chi = coalescedRead(buf[SE->_offset],lane); \
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} \
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acceleratorSynchronise();
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template<class Field> class FreeLaplacianStencil : public SparseMatrixBase<Field>
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{
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public:
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typedef typename Field::vector_object siteObject;
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typedef CartesianStencil<siteObject, siteObject, SimpleStencilParams> StencilImpl;
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GridBase *grid;
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StencilImpl Stencil;
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SimpleCompressor<siteObject> Compressor;
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FreeLaplacianStencil(GridBase *_grid)
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: Stencil (_grid,6,Even,directions,displacements,SimpleStencilParams()), grid(_grid)
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{ };
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virtual GridBase *Grid(void) { return grid; };
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virtual void M (const Field &_in, Field &_out)
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{
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///////////////////////////////////////////////
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// Halo exchange for this geometry of stencil
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///////////////////////////////////////////////
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Stencil.HaloExchange(_in, Compressor);
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///////////////////////////////////
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// Arithmetic expressions
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///////////////////////////////////
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// Views; device friendly/accessible pointers
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auto st = Stencil.View(AcceleratorRead);
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auto buf = st.CommBuf();
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autoView( in , _in , AcceleratorRead);
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autoView( out , _out , AcceleratorWrite);
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typedef typename Field::vector_object vobj;
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typedef decltype(coalescedRead(in[0])) calcObj;
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const int Nsimd = vobj::Nsimd();
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const uint64_t NN = grid->oSites();
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accelerator_for( ss, NN, Nsimd, {
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StencilEntry *SE;
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const int lane=acceleratorSIMTlane(Nsimd);
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calcObj chi;
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calcObj res;
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int ptype;
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res = coalescedRead(in[ss])*(-6.0);
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LEG_LOAD(0); res = res + chi;
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LEG_LOAD(1); res = res + chi;
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LEG_LOAD(2); res = res + chi;
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LEG_LOAD(3); res = res + chi;
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LEG_LOAD(4); res = res + chi;
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LEG_LOAD(5); res = res + chi;
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coalescedWrite(out[ss], res,lane);
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});
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};
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virtual void Mdag (const Field &in, Field &out) { M(in,out);}; // Laplacian is hermitian
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virtual void Mdiag (const Field &in, Field &out) {assert(0);}; // Unimplemented need only for multigrid
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virtual void Mdir (const Field &in, Field &out,int dir, int disp){assert(0);}; // Unimplemented need only for multigrid
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virtual void MdirAll (const Field &in, std::vector<Field> &out) {assert(0);}; // Unimplemented need only for multigrid
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};
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template<class Gimpl,class Field> class CovariantLaplacianStencil : public SparseMatrixBase<Field>
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{
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public:
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INHERIT_GIMPL_TYPES(Gimpl);
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typedef typename Field::vector_object siteObject;
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template <typename vtype> using iImplDoubledGaugeField = iVector<iScalar<iMatrix<vtype, Nc> >, Nds>;
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typedef iImplDoubledGaugeField<Simd> SiteDoubledGaugeField;
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typedef Lattice<SiteDoubledGaugeField> DoubledGaugeField;
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typedef CartesianStencil<siteObject, siteObject,SimpleStencilParams> StencilImpl;
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SimpleStencilParams p;
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GridBase *grid;
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StencilImpl Stencil;
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SimpleCompressor<siteObject> Compressor;
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DoubledGaugeField Uds;
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CovariantLaplacianStencil(GaugeField &Umu)
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:
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grid(Umu.Grid()),
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Stencil (grid,6,Even,directions,displacements,p),
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Uds(grid)
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{
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for (int mu = 0; mu < Nd; mu++) {
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auto U = PeekIndex<LorentzIndex>(Umu, mu);
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PokeIndex<LorentzIndex>(Uds, U, mu );
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U = adj(Cshift(U, mu, -1));
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PokeIndex<LorentzIndex>(Uds, U, mu + 4);
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}
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};
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virtual GridBase *Grid(void) { return grid; };
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virtual void M (const Field &_in, Field &_out)
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{
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///////////////////////////////////////////////
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// Halo exchange for this geometry of stencil
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///////////////////////////////////////////////
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Stencil.HaloExchange(_in, Compressor);
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///////////////////////////////////
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// Arithmetic expressions
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///////////////////////////////////
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auto st = Stencil.View(AcceleratorRead);
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auto buf = st.CommBuf();
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autoView( in , _in , AcceleratorRead);
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autoView( out , _out , AcceleratorWrite);
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autoView( U , Uds , AcceleratorRead);
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typedef typename Field::vector_object vobj;
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typedef decltype(coalescedRead(in[0])) calcObj;
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typedef decltype(coalescedRead(U[0](0))) calcLink;
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const int Nsimd = vobj::Nsimd();
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const uint64_t NN = grid->oSites();
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accelerator_for( ss, NN, Nsimd, {
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StencilEntry *SE;
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const int lane=acceleratorSIMTlane(Nsimd);
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calcObj chi;
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calcObj res;
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calcObj Uchi;
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calcLink UU;
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int ptype;
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res = coalescedRead(in[ss])*(-6.0);
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#define LEG_LOAD_MULT(leg,polarisation) \
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UU = coalescedRead(U[ss](polarisation)); \
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LEG_LOAD(leg); \
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mult(&Uchi(), &UU, &chi()); \
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res = res + Uchi;
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LEG_LOAD_MULT(0,Xp);
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LEG_LOAD_MULT(1,Yp);
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LEG_LOAD_MULT(2,Zp);
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LEG_LOAD_MULT(3,Xm);
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LEG_LOAD_MULT(4,Ym);
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LEG_LOAD_MULT(5,Zm);
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coalescedWrite(out[ss], res,lane);
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});
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};
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virtual void Mdag (const Field &in, Field &out) { M(in,out);}; // Laplacian is hermitian
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virtual void Mdiag (const Field &in, Field &out) {assert(0);}; // Unimplemented need only for multigrid
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virtual void Mdir (const Field &in, Field &out,int dir, int disp){assert(0);}; // Unimplemented need only for multigrid
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virtual void MdirAll (const Field &in, std::vector<Field> &out) {assert(0);}; // Unimplemented need only for multigrid
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};
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#undef LEG_LOAD_MULT
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#undef LEG_LOAD
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int main(int argc, char ** argv)
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{
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Grid_init(&argc, &argv);
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typedef LatticeColourVector Field;
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auto latt_size = GridDefaultLatt();
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auto simd_layout = GridDefaultSimd(Nd,vComplex::Nsimd());
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auto mpi_layout = GridDefaultMpi();
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GridCartesian Grid(latt_size,simd_layout,mpi_layout);
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GridParallelRNG RNG(&Grid); RNG.SeedFixedIntegers(std::vector<int>({45,12,81,9}));
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FreeLaplacianCshift<Field> FLcs(&Grid);
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FreeLaplacianStencil<Field> FLst(&Grid);
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LatticeGaugeField U(&Grid);
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SU<Nc>::ColdConfiguration(RNG,U);
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std::cout << " Gauge field has norm " <<norm2(U)<<std::endl;
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CovariantLaplacianCshift <PeriodicGimplR,Field> CLcs(U);
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CovariantLaplacianStencil<PeriodicGimplR,Field> CLst(U);
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Field in(&Grid); gaussian(RNG,in);
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Field out_FLcs(&Grid);
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Field out_FLst(&Grid);
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Field out_CLcs(&Grid);
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Field out_CLst(&Grid);
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Field diff(&Grid);
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////////////////////////////////////////////////////////
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// First test: in free field these should all agree
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////////////////////////////////////////////////////////
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FLcs.M(in,out_FLcs);
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FLst.M(in,out_FLst);
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CLcs.M(in,out_CLcs);
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CLst.M(in,out_CLst);
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std:: cout << "******************************************************************" <<std::endl;
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std:: cout << " Test A: consistency of four different Laplacian implementations " <<std::endl;
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std:: cout << "******************************************************************" <<std::endl;
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std:: cout << " Input test vector " <<norm2(in)<<std::endl;
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std:: cout << "--------------------------------------------------------" <<std::endl;
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std:: cout << " Free cshift output vector " <<norm2(out_FLcs)<<std::endl;
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std:: cout << " Free stencil output vector " <<norm2(out_FLst)<<std::endl;
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std:: cout << " Cov cshift output vector " <<norm2(out_CLcs)<<std::endl;
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std:: cout << " Cov stencil output vector " <<norm2(out_CLst)<<std::endl;
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std:: cout << "--------------------------------------------------------" <<std::endl;
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diff = out_FLcs - out_FLst;
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std:: cout << " Difference between free Cshift Laplacian and free Stencil Laplacian = " <<norm2(diff)<<std::endl;
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diff = out_FLcs - out_CLcs;
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std:: cout << " Difference between free Cshift Laplacian and covariant Cshift Laplacian = " <<norm2(diff)<<std::endl;
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diff = out_FLcs - out_CLst;
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std:: cout << " Difference between free Cshift Laplacian and covariant Stencil Laplacian = " <<norm2(diff)<<std::endl;
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std:: cout << "--------------------------------------------------------" <<std::endl;
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std:: cout << "******************************************************************" <<std::endl;
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std:: cout << " Test B: gauge covariance " <<std::endl;
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std:: cout << "******************************************************************" <<std::endl;
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LatticeGaugeField U_GT(&Grid); // Gauge transformed field
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LatticeColourMatrix g(&Grid); // local Gauge xform matrix
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U_GT = U;
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// Make a random xform to teh gauge field
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SU<Nc>::RandomGaugeTransform<PeriodicGimplR>(RNG,U_GT,g); // Unit gauge
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Field in_GT(&Grid);
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Field out_GT(&Grid);
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Field out_CLcs_GT(&Grid);
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Field out_CLst_GT(&Grid);
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CovariantLaplacianCshift <PeriodicGimplR,Field> CLcs_GT(U_GT);
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CovariantLaplacianStencil<PeriodicGimplR,Field> CLst_GT(U_GT);
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in_GT = g*in;
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out_GT = g*out_FLcs;
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// Check M^GT_xy in_GT = g(x) M_xy g^dag(y) g(y) in = g(x) out(x)
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CLcs_GT.M(in_GT,out_CLcs_GT);
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CLst_GT.M(in_GT,out_CLst_GT);
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diff = out_CLcs_GT - out_GT;
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std:: cout << " Difference between Gauge xformed result and covariant Cshift Laplacian in xformed gauge = " <<norm2(diff)<<std::endl;
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diff = out_CLst_GT - out_GT;
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std:: cout << " Difference between Gauge xformed result and covariant Stencil Laplacian in xformed gauge = " <<norm2(diff)<<std::endl;
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std:: cout << "--------------------------------------------------------" <<std::endl;
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std:: cout << "******************************************************************" <<std::endl;
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std:: cout << " Test C: compare in free Field to \"Feynman rule\" " <<std::endl;
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std:: cout << "******************************************************************" <<std::endl;
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std::vector<int> dim_mask({1,1,1,0}); // 3d FFT
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FFT theFFT(&Grid);
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Field out(&Grid);
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Field F_out(&Grid);
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Field F_in(&Grid);
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// FFT the random input vector
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theFFT.FFT_dim_mask(F_in,in,dim_mask,FFT::forward);
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// Convolution theorem: multiply by Fourier representation of (discrete) Laplacian to apply diff op
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LatticeComplexD lap(&Grid); lap = Zero();
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LatticeComplexD kmu(&Grid);
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ComplexD ci(0.0,1.0);
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for(int mu=0;mu<3;mu++) {
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RealD TwoPiL = M_PI * 2.0/ latt_size[mu];
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LatticeCoordinate(kmu,mu);
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kmu = TwoPiL * kmu;
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// (e^ik_mu + e^-ik_mu - 2) = 2( cos kmu - 1) ~ 2 (1 - k_mu^2/2 -1 ) = - k_mu^2 + O(k^4)
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lap = lap + 2.0*cos(kmu) - 2.0;
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}
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F_out = lap * F_in;
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// Inverse FFT the result
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theFFT.FFT_dim_mask(out,F_out,dim_mask,FFT::backward);
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std::cout<<"Fourier xformed (in) "<<norm2(F_in)<<std::endl;
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std::cout<<"Fourier xformed Laplacian x (in) "<<norm2(F_out)<<std::endl;
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std::cout<<"Momentum space Laplacian application "<< norm2(out)<<std::endl;
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std::cout<<"Stencil Laplacian application "<< norm2(out_CLcs)<<std::endl;
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diff = out_CLcs - out;
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std::cout<<"diff "<< norm2(diff)<<std::endl;
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Grid_finalize();
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}
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