Merge 32e6d58356 into b8a7004365

Bugfix/irl convergence

Grid/algorithms/iterative/ImplicitlyRestartedLanczos.h

@@ -419,14 +419,15 @@ until convergence
 	}
       }
 
-      if ( Nconv < Nstop )
+      if ( Nconv < Nstop ) {
 	std::cout << GridLogIRL << "Nconv ("<<Nconv<<") < Nstop ("<<Nstop<<")"<<std::endl;
-
+	std::cout << GridLogIRL << "returning Nstop vectors, the last "<< Nstop-Nconv << "of which might meet convergence criterion only approximately" <<std::endl;
+      }
       eval=eval2;
       
       //Keep only converged
-      eval.resize(Nconv);// Nstop?
-      evec.resize(Nconv,grid);// Nstop?
+      eval.resize(Nstop);// was Nconv
+      evec.resize(Nstop,grid);// was Nconv
       basisSortInPlace(evec,eval,reverse);
       
     }

Grid/communicator/SharedMemoryMPI.cc

@@ -27,7 +27,7 @@ Author: Christoph Lehner <christoph@lhnr.de>
 *************************************************************************************/
 /*  END LEGAL */
 
-#define header "SharedMemoryMpi: "
+#define Mheader "SharedMemoryMpi: "
 
 #include <Grid/GridCore.h>
 #include <pwd.h>
@@ -174,8 +174,8 @@ void GlobalSharedMemory::Init(Grid_MPI_Comm comm)
   MPI_Comm_size(WorldShmComm     ,&WorldShmSize);
 
   if ( WorldRank == 0) {
-    std::cout << header " World communicator of size " <<WorldSize << std::endl;  
-    std::cout << header " Node  communicator of size " <<WorldShmSize << std::endl;
+    std::cout << Mheader " World communicator of size " <<WorldSize << std::endl;  
+    std::cout << Mheader " Node  communicator of size " <<WorldShmSize << std::endl;
   }
   // WorldShmComm, WorldShmSize, WorldShmRank
 
@@ -452,7 +452,7 @@ void GlobalSharedMemory::OptimalCommunicatorSharedMemory(const Coordinate &proce
 #ifdef GRID_MPI3_SHMGET
 void GlobalSharedMemory::SharedMemoryAllocate(uint64_t bytes, int flags)
 {
-  std::cout << header "SharedMemoryAllocate "<< bytes<< " shmget implementation "<<std::endl;
+  std::cout << Mheader "SharedMemoryAllocate "<< bytes<< " shmget implementation "<<std::endl;
   assert(_ShmSetup==1);
   assert(_ShmAlloc==0);
 
@@ -537,7 +537,7 @@ void GlobalSharedMemory::SharedMemoryAllocate(uint64_t bytes, int flags)
     exit(EXIT_FAILURE);  
   }
 
-  std::cout << WorldRank << header " SharedMemoryMPI.cc acceleratorAllocDevice "<< bytes 
+  std::cout << WorldRank << Mheader " SharedMemoryMPI.cc acceleratorAllocDevice "<< bytes 
 	    << "bytes at "<< std::hex<< ShmCommBuf <<std::dec<<" for comms buffers " <<std::endl;
 
   SharedMemoryZero(ShmCommBuf,bytes);
@@ -580,7 +580,7 @@ void GlobalSharedMemory::SharedMemoryAllocate(uint64_t bytes, int flags)
     exit(EXIT_FAILURE);  
   }
   if ( WorldRank == 0 ){
-    std::cout << WorldRank << header " SharedMemoryMPI.cc acceleratorAllocDevice "<< bytes 
+    std::cout << WorldRank << Mheader " SharedMemoryMPI.cc acceleratorAllocDevice "<< bytes 
 	      << "bytes at "<< std::hex<< ShmCommBuf << " - "<<(bytes-1+(uint64_t)ShmCommBuf) <<std::dec<<" for comms buffers " <<std::endl;
   }
   SharedMemoryZero(ShmCommBuf,bytes);
@@ -744,7 +744,7 @@ void GlobalSharedMemory::SharedMemoryAllocate(uint64_t bytes, int flags)
 #ifdef GRID_MPI3_SHMMMAP
 void GlobalSharedMemory::SharedMemoryAllocate(uint64_t bytes, int flags)
 {
-  std::cout << header "SharedMemoryAllocate "<< bytes<< " MMAP implementation "<< GRID_SHM_PATH <<std::endl;
+  std::cout << Mheader "SharedMemoryAllocate "<< bytes<< " MMAP implementation "<< GRID_SHM_PATH <<std::endl;
   assert(_ShmSetup==1);
   assert(_ShmAlloc==0);
   //////////////////////////////////////////////////////////////////////////////////////////////////////////
@@ -781,7 +781,7 @@ void GlobalSharedMemory::SharedMemoryAllocate(uint64_t bytes, int flags)
     assert(((uint64_t)ptr&0x3F)==0);
     close(fd);
     WorldShmCommBufs[r] =ptr;
-    //    std::cout << header "Set WorldShmCommBufs["<<r<<"]="<<ptr<< "("<< bytes<< "bytes)"<<std::endl;
+    //    std::cout << Mheader "Set WorldShmCommBufs["<<r<<"]="<<ptr<< "("<< bytes<< "bytes)"<<std::endl;
   }
   _ShmAlloc=1;
   _ShmAllocBytes  = bytes;
@@ -791,7 +791,7 @@ void GlobalSharedMemory::SharedMemoryAllocate(uint64_t bytes, int flags)
 #ifdef GRID_MPI3_SHM_NONE
 void GlobalSharedMemory::SharedMemoryAllocate(uint64_t bytes, int flags)
 {
-  std::cout << header "SharedMemoryAllocate "<< bytes<< " MMAP anonymous implementation "<<std::endl;
+  std::cout << Mheader "SharedMemoryAllocate "<< bytes<< " MMAP anonymous implementation "<<std::endl;
   assert(_ShmSetup==1);
   assert(_ShmAlloc==0);
   //////////////////////////////////////////////////////////////////////////////////////////////////////////
@@ -838,7 +838,7 @@ void GlobalSharedMemory::SharedMemoryAllocate(uint64_t bytes, int flags)
 ////////////////////////////////////////////////////////////////////////////////////////////
 void GlobalSharedMemory::SharedMemoryAllocate(uint64_t bytes, int flags)
 { 
-  std::cout << header "SharedMemoryAllocate "<< bytes<< " SHMOPEN implementation "<<std::endl;
+  std::cout << Mheader "SharedMemoryAllocate "<< bytes<< " SHMOPEN implementation "<<std::endl;
   assert(_ShmSetup==1);
   assert(_ShmAlloc==0); 
   MPI_Barrier(WorldShmComm);

Grid/lattice/Lattice_transfer.h

@@ -707,9 +707,9 @@ void localCopyRegion(const Lattice<vobj> &From,Lattice<vobj> & To,Coordinate Fro
   Coordinate ist = Tg->_istride;
   Coordinate ost = Tg->_ostride;
 
-  autoView( t_v , To, AcceleratorWrite);
-  autoView( f_v , From, AcceleratorRead);
-  accelerator_for(idx,Fg->lSites(),1,{
+  autoView( t_v , To, CpuWrite);
+  autoView( f_v , From, CpuRead);
+  thread_for(idx,Fg->lSites(),{
     sobj s;
     Coordinate Fcoor(nd);
     Coordinate Tcoor(nd);
@@ -722,15 +722,20 @@ void localCopyRegion(const Lattice<vobj> &From,Lattice<vobj> & To,Coordinate Fro
       Tcoor[d] = ToLowerLeft[d]+ Fcoor[d]-FromLowerLeft[d];
     }
     if (in_region) {
-      Integer idx_f = 0; for(int d=0;d<nd;d++) idx_f+=isf[d]*(Fcoor[d]/rdf[d]);
-      Integer idx_t = 0; for(int d=0;d<nd;d++) idx_t+=ist[d]*(Tcoor[d]/rdt[d]);
-      Integer odx_f = 0; for(int d=0;d<nd;d++) odx_f+=osf[d]*(Fcoor[d]%rdf[d]);
-      Integer odx_t = 0; for(int d=0;d<nd;d++) odx_t+=ost[d]*(Tcoor[d]%rdt[d]);
-      vector_type * fp = (vector_type *)&f_v[odx_f];
-      vector_type * tp = (vector_type *)&t_v[odx_t];
+#if 0      
+      Integer idx_f = 0; for(int d=0;d<nd;d++) idx_f+=isf[d]*(Fcoor[d]/rdf[d]); // inner index from
+      Integer idx_t = 0; for(int d=0;d<nd;d++) idx_t+=ist[d]*(Tcoor[d]/rdt[d]); // inner index to
+      Integer odx_f = 0; for(int d=0;d<nd;d++) odx_f+=osf[d]*(Fcoor[d]%rdf[d]); // outer index from
+      Integer odx_t = 0; for(int d=0;d<nd;d++) odx_t+=ost[d]*(Tcoor[d]%rdt[d]); // outer index to
+      scalar_type * fp = (scalar_type *)&f_v[odx_f];
+      scalar_type * tp = (scalar_type *)&t_v[odx_t];
       for(int w=0;w<words;w++){
 	tp[w].putlane(fp[w].getlane(idx_f),idx_t);
       }
+#else
+    peekLocalSite(s,f_v,Fcoor);
+    pokeLocalSite(s,t_v,Tcoor);
+#endif
     }
   });
 }

Grid/lattice/PaddedCell.h

@@ -0,0 +1,136 @@
+/*************************************************************************************
+    Grid physics library, www.github.com/paboyle/Grid 
+
+    Source file: ./lib/lattice/PaddedCell.h
+
+    Copyright (C) 2019
+
+Author: Peter Boyle pboyle@bnl.gov
+
+    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 */
+#pragma once
+
+NAMESPACE_BEGIN(Grid);
+
+class PaddedCell {
+public:
+  GridCartesian * unpadded_grid;
+  int dims;
+  int depth;
+  std::vector<GridCartesian *> grids;
+  ~PaddedCell()
+  {
+    DeleteGrids();
+  }
+  PaddedCell(int _depth,GridCartesian *_grid)
+  {
+    unpadded_grid = _grid;
+    depth=_depth;
+    dims=_grid->Nd();
+    AllocateGrids();
+    Coordinate local     =unpadded_grid->LocalDimensions();
+    for(int d=0;d<dims;d++){
+      assert(local[d]>=depth);
+    }
+  }
+  void DeleteGrids(void)
+  {
+    for(int d=0;d<grids.size();d++){
+      delete grids[d];
+    }
+    grids.resize(0);
+  };
+  void AllocateGrids(void)
+  {
+    Coordinate local     =unpadded_grid->LocalDimensions();
+    Coordinate simd      =unpadded_grid->_simd_layout;
+    Coordinate processors=unpadded_grid->_processors;
+    Coordinate plocal    =unpadded_grid->LocalDimensions();
+    Coordinate global(dims);
+
+    // expand up one dim at a time
+    for(int d=0;d<dims;d++){
+
+      plocal[d] += 2*depth; 
+
+      for(int d=0;d<dims;d++){
+	global[d] = plocal[d]*processors[d];
+      }
+
+      grids.push_back(new GridCartesian(global,simd,processors));
+    }
+  };
+  template<class vobj>
+  inline Lattice<vobj> Extract(Lattice<vobj> &in)
+  {
+    Lattice<vobj> out(unpadded_grid);
+
+    Coordinate local     =unpadded_grid->LocalDimensions();
+    Coordinate fll(dims,depth); // depends on the MPI spread
+    Coordinate tll(dims,0); // depends on the MPI spread
+    localCopyRegion(in,out,fll,tll,local);
+    return out;
+  }
+  template<class vobj>
+  inline Lattice<vobj> Exchange(Lattice<vobj> &in)
+  {
+    GridBase *old_grid = in.Grid();
+    int dims = old_grid->Nd();
+    Lattice<vobj> tmp = in;
+    for(int d=0;d<dims;d++){
+      tmp = Expand(d,tmp); // rvalue && assignment
+    }
+    return tmp;
+  }
+  // expand up one dim at a time
+  template<class vobj>
+  inline Lattice<vobj> Expand(int dim,Lattice<vobj> &in)
+  {
+    GridBase *old_grid = in.Grid();
+    GridCartesian *new_grid = grids[dim];//These are new grids
+    Lattice<vobj>  padded(new_grid);
+    Lattice<vobj> shifted(old_grid);    
+    Coordinate local     =old_grid->LocalDimensions();
+    Coordinate plocal    =new_grid->LocalDimensions();
+    if(dim==0) conformable(old_grid,unpadded_grid);
+    else       conformable(old_grid,grids[dim-1]);
+
+    std::cout << " dim "<<dim<<" local "<<local << " padding to "<<plocal<<std::endl;
+    // Middle bit
+    for(int x=0;x<local[dim];x++){
+      InsertSliceLocal(in,padded,x,depth+x,dim);
+    }
+    // High bit
+    shifted = Cshift(in,dim,depth);
+    for(int x=0;x<depth;x++){
+      InsertSliceLocal(shifted,padded,local[dim]-depth+x,depth+local[dim]+x,dim);
+    }
+    // Low bit
+    shifted = Cshift(in,dim,-depth);
+    for(int x=0;x<depth;x++){
+      InsertSliceLocal(shifted,padded,x,x,dim);
+    }
+    return padded;
+  }
+
+};
+ 
+
+NAMESPACE_END(Grid);
+

Grid/qcd/QCD.h

@@ -104,6 +104,7 @@ template<typename vtype> using iSpinMatrix                = iScalar<iMatrix<iSca
 template<typename vtype> using iColourMatrix              = iScalar<iScalar<iMatrix<vtype, Nc> > > ;
 template<typename vtype> using iSpinColourMatrix          = iScalar<iMatrix<iMatrix<vtype, Nc>, Ns> >;
 template<typename vtype> using iLorentzColourMatrix       = iVector<iScalar<iMatrix<vtype, Nc> >, Nd > ;
+template<typename vtype> using iLorentzComplex            = iVector<iScalar<iScalar<vtype> >, Nd > ;
 template<typename vtype> using iDoubleStoredColourMatrix  = iVector<iScalar<iMatrix<vtype, Nc> >, Nds > ;
 template<typename vtype> using iSpinVector                = iScalar<iVector<iScalar<vtype>, Ns> >;
 template<typename vtype> using iColourVector              = iScalar<iScalar<iVector<vtype, Nc> > >;
@@ -178,6 +179,15 @@ typedef iLorentzColourMatrix<vComplexF>  vLorentzColourMatrixF;
 typedef iLorentzColourMatrix<vComplexD>  vLorentzColourMatrixD;
 typedef iLorentzColourMatrix<vComplexD2> vLorentzColourMatrixD2;
 
+// LorentzComplex
+typedef iLorentzComplex<Complex  > LorentzComplex;
+typedef iLorentzComplex<ComplexF > LorentzComplexF;
+typedef iLorentzComplex<ComplexD > LorentzComplexD;
+
+typedef iLorentzComplex<vComplex > vLorentzComplex;
+typedef iLorentzComplex<vComplexF> vLorentzComplexF;
+typedef iLorentzComplex<vComplexD> vLorentzComplexD;
+
 // DoubleStored gauge field
 typedef iDoubleStoredColourMatrix<Complex  > DoubleStoredColourMatrix;
 typedef iDoubleStoredColourMatrix<ComplexF > DoubleStoredColourMatrixF;
@@ -307,6 +317,10 @@ typedef Lattice<vLorentzColourMatrixF>  LatticeLorentzColourMatrixF;
 typedef Lattice<vLorentzColourMatrixD>  LatticeLorentzColourMatrixD;
 typedef Lattice<vLorentzColourMatrixD2> LatticeLorentzColourMatrixD2;
 
+typedef Lattice<vLorentzComplex>  LatticeLorentzComplex;
+typedef Lattice<vLorentzComplexF> LatticeLorentzComplexF;
+typedef Lattice<vLorentzComplexD> LatticeLorentzComplexD;
+
 // DoubleStored gauge field
 typedef Lattice<vDoubleStoredColourMatrix>   LatticeDoubleStoredColourMatrix;
 typedef Lattice<vDoubleStoredColourMatrixF>  LatticeDoubleStoredColourMatrixF;

Grid/qcd/action/ActionBase.h

@@ -34,10 +34,24 @@ directory
 
 NAMESPACE_BEGIN(Grid);
 
+///////////////////////////////////
+// Smart configuration base class
+///////////////////////////////////
+template< class Field >
+class ConfigurationBase
+{
+public:
+  ConfigurationBase() {}
+  virtual ~ConfigurationBase() {}
+  virtual void set_Field(Field& U) =0;
+  virtual void smeared_force(Field&) = 0;
+  virtual Field& get_SmearedU() =0;
+  virtual Field &get_U(bool smeared = false) = 0;
+};
+
 template <class GaugeField >
 class Action 
 {
-
 public:
   bool is_smeared = false;
   RealD deriv_norm_sum;
@@ -77,11 +91,39 @@ public:
   void refresh_timer_stop(void)  { refresh_us+=usecond(); }
   void S_timer_start(void)       { S_us-=usecond(); }
   void S_timer_stop(void)        { S_us+=usecond(); }
+  /////////////////////////////
   // Heatbath?
+  /////////////////////////////
   virtual void refresh(const GaugeField& U, GridSerialRNG &sRNG, GridParallelRNG& pRNG) = 0; // refresh pseudofermions
   virtual RealD S(const GaugeField& U) = 0;                             // evaluate the action
   virtual RealD Sinitial(const GaugeField& U) { return this->S(U); } ;  // if the refresh computes the action, can cache it. Alternately refreshAndAction() ?
   virtual void deriv(const GaugeField& U, GaugeField& dSdU) = 0;        // evaluate the action derivative
+
+  /////////////////////////////////////////////////////////////
+  // virtual smeared interface through configuration container
+  /////////////////////////////////////////////////////////////
+  virtual void refresh(ConfigurationBase<GaugeField> & U, GridSerialRNG &sRNG, GridParallelRNG& pRNG)
+  {
+    refresh(U.get_U(is_smeared),sRNG,pRNG);
+  }
+  virtual RealD S(ConfigurationBase<GaugeField>& U)
+  {
+    return S(U.get_U(is_smeared));
+  }
+  virtual RealD Sinitial(ConfigurationBase<GaugeField>& U) 
+  {
+    return Sinitial(U.get_U(is_smeared));
+  }
+  virtual void deriv(ConfigurationBase<GaugeField>& U, GaugeField& dSdU)
+  {
+    deriv(U.get_U(is_smeared),dSdU); 
+    if ( is_smeared ) {
+      U.smeared_force(dSdU);
+    }
+  }
+  ///////////////////////////////
+  // Logging
+  ///////////////////////////////
   virtual std::string action_name()    = 0;                             // return the action name
   virtual std::string LogParameters()  = 0;                             // prints action parameters
   virtual ~Action(){}

Grid/qcd/action/ActionCore.h

@@ -30,6 +30,8 @@ directory
 #ifndef QCD_ACTION_CORE
 #define QCD_ACTION_CORE
 
+#include <Grid/qcd/action/gauge/GaugeImplementations.h>
+
 #include <Grid/qcd/action/ActionBase.h>
 NAMESPACE_CHECK(ActionBase);
 #include <Grid/qcd/action/ActionSet.h>

Grid/qcd/action/fermion/implementation/WilsonKernelsImplementation.h

@@ -423,7 +423,6 @@ void WilsonKernels<Impl>::DhopDirKernel( StencilImpl &st, DoubledGaugeField &U,S
 #define KERNEL_CALL(A) KERNEL_CALLNB(A); accelerator_barrier();
 
 #define KERNEL_CALL_EXT(A)						\
-  const uint64_t    NN = Nsite*Ls;					\
   const uint64_t    sz = st.surface_list.size();			\
   auto ptr = &st.surface_list[0];					\
   accelerator_forNB( ss, sz, Simd::Nsimd(), {				\

Grid/qcd/action/pseudofermion/EvenOddSchurDifferentiable.h

@@ -86,8 +86,13 @@ public:
     assert(ForceE.Checkerboard()==Even);
     assert(ForceO.Checkerboard()==Odd);
 
+#if defined(GRID_CUDA) || defined(GRID_HIP)  || defined(GRID_SYCL)
+    acceleratorSetCheckerboard(Force,ForceE);
+    acceleratorSetCheckerboard(Force,ForceO);
+#else
     setCheckerboard(Force,ForceE); 
     setCheckerboard(Force,ForceO);
+#endif
     Force=-Force;
 
     delete forcecb;
@@ -130,8 +135,13 @@ public:
     assert(ForceE.Checkerboard()==Even);
     assert(ForceO.Checkerboard()==Odd);
 
+#if defined(GRID_CUDA) || defined(GRID_HIP)  || defined(GRID_SYCL)
+    acceleratorSetCheckerboard(Force,ForceE);
+    acceleratorSetCheckerboard(Force,ForceO);
+#else
     setCheckerboard(Force,ForceE); 
     setCheckerboard(Force,ForceO);
+#endif
     Force=-Force;
 
     delete forcecb;

Grid/qcd/hmc/HMC.h

@@ -284,11 +284,12 @@ public:
 
       TheIntegrator.print_timer();
       
+      TheIntegrator.Smearer.set_Field(Ucur);
       for (int obs = 0; obs < Observables.size(); obs++) {
       	std::cout << GridLogDebug << "Observables # " << obs << std::endl;
       	std::cout << GridLogDebug << "Observables total " << Observables.size() << std::endl;
       	std::cout << GridLogDebug << "Observables pointer " << Observables[obs] << std::endl;
-        Observables[obs]->TrajectoryComplete(traj + 1, Ucur, sRNG, pRNG);
+        Observables[obs]->TrajectoryComplete(traj + 1, TheIntegrator.Smearer, sRNG, pRNG);
       }
       std::cout << GridLogHMC << ":::::::::::::::::::::::::::::::::::::::::::" << std::endl;
     }

Grid/qcd/hmc/checkpointers/BaseCheckpointer.h

@@ -35,13 +35,16 @@ class CheckpointerParameters : Serializable {
 public:
   GRID_SERIALIZABLE_CLASS_MEMBERS(CheckpointerParameters, 
 				  std::string, config_prefix, 
+				  std::string, smeared_prefix, 
 				  std::string, rng_prefix, 
 				  int, saveInterval, 
+				  bool, saveSmeared, 
 				  std::string, format, );
 
-  CheckpointerParameters(std::string cf = "cfg", std::string rn = "rng",
+  CheckpointerParameters(std::string cf = "cfg", std::string sf="cfg_smr" , std::string rn = "rng",
 			 int savemodulo = 1, const std::string &f = "IEEE64BIG")
     : config_prefix(cf),
+      smeared_prefix(sf),
       rng_prefix(rn),
       saveInterval(savemodulo),
       format(f){};
@@ -61,13 +64,21 @@ template <class Impl>
 class BaseHmcCheckpointer : public HmcObservable<typename Impl::Field> {
 public:
   void build_filenames(int traj, CheckpointerParameters &Params,
-                       std::string &conf_file, std::string &rng_file) {
+                       std::string &conf_file,
+                       std::string &smear_file,
+		       std::string &rng_file) {
     {
       std::ostringstream os;
       os << Params.rng_prefix << "." << traj;
       rng_file = os.str();
     }
 
+    {
+      std::ostringstream os;
+      os << Params.smeared_prefix << "." << traj;
+      smear_file = os.str();
+    }
+
     {
       std::ostringstream os;
       os << Params.config_prefix << "." << traj;
@@ -84,6 +95,11 @@ public:
   }
   virtual void initialize(const CheckpointerParameters &Params) = 0;
 
+  virtual void TrajectoryComplete(int traj,
+                                  typename Impl::Field &U,
+                                  GridSerialRNG &sRNG,
+                                  GridParallelRNG &pRNG) { assert(0); } ; // HMC should pass the smart config with smeared and unsmeared
+  
   virtual void CheckpointRestore(int traj, typename Impl::Field &U,
                                  GridSerialRNG &sRNG,
                                  GridParallelRNG &pRNG) = 0;

Grid/qcd/hmc/checkpointers/BinaryCheckpointer.h

@@ -61,11 +61,14 @@ public:
     fout.close();
   }
 
-  void TrajectoryComplete(int traj, Field &U, GridSerialRNG &sRNG, GridParallelRNG &pRNG) {
+  void TrajectoryComplete(int traj,
+			  ConfigurationBase<Field> &SmartConfig,
+			  GridSerialRNG &sRNG, GridParallelRNG &pRNG)
+  {
 
     if ((traj % Params.saveInterval) == 0) {
-      std::string config, rng;
-      this->build_filenames(traj, Params, config, rng);
+      std::string config, rng, smr;
+      this->build_filenames(traj, Params, config, smr, rng);
 
       uint32_t nersc_csum;
       uint32_t scidac_csuma;
@@ -74,9 +77,15 @@ public:
       BinarySimpleUnmunger<sobj_double, sobj> munge;
       truncate(rng);
       BinaryIO::writeRNG(sRNG, pRNG, rng, 0,nersc_csum,scidac_csuma,scidac_csumb);
-      truncate(config);
+      std::cout << GridLogMessage << "Written Binary RNG " << rng
+                << " checksum " << std::hex 
+		<< nersc_csum   <<"/"
+		<< scidac_csuma   <<"/"
+		<< scidac_csumb 
+		<< std::dec << std::endl;
 
-      BinaryIO::writeLatticeObject<vobj, sobj_double>(U, config, munge, 0, Params.format,
+      truncate(config);
+      BinaryIO::writeLatticeObject<vobj, sobj_double>(SmartConfig.get_U(false), config, munge, 0, Params.format,
 						      nersc_csum,scidac_csuma,scidac_csumb);
 
       std::cout << GridLogMessage << "Written Binary Configuration " << config
@@ -85,6 +94,18 @@ public:
 		<< scidac_csuma   <<"/"
 		<< scidac_csumb 
 		<< std::dec << std::endl;
+
+      if ( Params.saveSmeared ) {
+	truncate(smr);
+	BinaryIO::writeLatticeObject<vobj, sobj_double>(SmartConfig.get_U(true), smr, munge, 0, Params.format,
+							nersc_csum,scidac_csuma,scidac_csumb);
+	std::cout << GridLogMessage << "Written Binary Smeared Configuration " << smr
+                << " checksum " << std::hex 
+		<< nersc_csum   <<"/"
+		<< scidac_csuma   <<"/"
+		<< scidac_csumb 
+		<< std::dec << std::endl;
+      }
     }
 
   };

Grid/qcd/hmc/checkpointers/ILDGCheckpointer.h

@@ -69,17 +69,27 @@ public:
     }
   }
 
-  void TrajectoryComplete(int traj, GaugeField &U, GridSerialRNG &sRNG,
+  void TrajectoryComplete(int traj,
+			  ConfigurationBase<GaugeField> &SmartConfig,
+			  GridSerialRNG &sRNG,
                           GridParallelRNG &pRNG) {
     if ((traj % Params.saveInterval) == 0) {
-      std::string config, rng;
+      std::string config, rng, smr;
       this->build_filenames(traj, Params, config, rng);
-      GridBase *grid = U.Grid();
+      GridBase *grid = SmartConfig.get_U(false).Grid();
       uint32_t nersc_csum,scidac_csuma,scidac_csumb;
       BinaryIO::writeRNG(sRNG, pRNG, rng, 0,nersc_csum,scidac_csuma,scidac_csumb);
+      std::cout << GridLogMessage << "Written BINARY RNG " << rng
+                << " checksum " << std::hex 
+		<< nersc_csum<<"/"
+		<< scidac_csuma<<"/"
+		<< scidac_csumb
+		<< std::dec << std::endl;
+
+      
       IldgWriter _IldgWriter(grid->IsBoss());
       _IldgWriter.open(config);
-      _IldgWriter.writeConfiguration<GaugeStats>(U, traj, config, config);
+      _IldgWriter.writeConfiguration<GaugeStats>(SmartConfig.get_U(false), traj, config, config);
       _IldgWriter.close();
 
       std::cout << GridLogMessage << "Written ILDG Configuration on " << config
@@ -88,6 +98,21 @@ public:
 		<< scidac_csuma<<"/"
 		<< scidac_csumb
 		<< std::dec << std::endl;
+
+      if ( Params.saveSmeared ) { 
+	IldgWriter _IldgWriter(grid->IsBoss());
+	_IldgWriter.open(smr);
+	_IldgWriter.writeConfiguration<GaugeStats>(SmartConfig.get_U(true), traj, config, config);
+	_IldgWriter.close();
+
+	std::cout << GridLogMessage << "Written ILDG Configuration on " << smr
+                << " checksum " << std::hex 
+		<< nersc_csum<<"/"
+		<< scidac_csuma<<"/"
+		<< scidac_csumb
+		<< std::dec << std::endl;
+      }
+
     }
   };
 

Grid/qcd/hmc/checkpointers/NerscCheckpointer.h

@@ -52,23 +52,29 @@ public:
     Params.format = "IEEE64BIG";  // fixed, overwrite any other choice
   }
 
-  void TrajectoryComplete(int traj, GaugeField &U, GridSerialRNG &sRNG,
-                          GridParallelRNG &pRNG) {
+  virtual void TrajectoryComplete(int traj,
+                                  ConfigurationBase<GaugeField> &SmartConfig,
+                                  GridSerialRNG &sRNG,
+                                  GridParallelRNG &pRNG)
+  {
     if ((traj % Params.saveInterval) == 0) {
-      std::string config, rng;
-      this->build_filenames(traj, Params, config, rng);
+      std::string config, rng, smr;
+      this->build_filenames(traj, Params, config, smr, rng);
       
       int precision32 = 1;
       int tworow = 0;
       NerscIO::writeRNGState(sRNG, pRNG, rng);
-      NerscIO::writeConfiguration<GaugeStats>(U, config, tworow, precision32);
+      NerscIO::writeConfiguration<GaugeStats>(SmartConfig.get_U(false), config, tworow, precision32);
+      if ( Params.saveSmeared ) {
+	NerscIO::writeConfiguration<GaugeStats>(SmartConfig.get_U(true), smr, tworow, precision32);
+      }
     }
   };
 
   void CheckpointRestore(int traj, GaugeField &U, GridSerialRNG &sRNG,
                          GridParallelRNG &pRNG) {
-    std::string config, rng;
-    this->build_filenames(traj, Params, config, rng);
+    std::string config, rng, smr;
+    this->build_filenames(traj, Params, config, smr, rng );
     this->check_filename(rng);
     this->check_filename(config);
 

Grid/qcd/hmc/checkpointers/ScidacCheckpointer.h

@@ -70,19 +70,37 @@ class ScidacHmcCheckpointer : public BaseHmcCheckpointer<Implementation> {
     }
   }
 
-  void TrajectoryComplete(int traj, Field &U, GridSerialRNG &sRNG,
+  void TrajectoryComplete(int traj, 
+			  ConfigurationBase<Field> &SmartConfig,
+			  GridSerialRNG &sRNG,
                           GridParallelRNG &pRNG) {
     if ((traj % Params.saveInterval) == 0) {
-      std::string config, rng;
-      this->build_filenames(traj, Params, config, rng);
-      GridBase *grid = U.Grid();
+      std::string config, rng,smr;
+      this->build_filenames(traj, Params, config, smr, rng);
+      GridBase *grid = SmartConfig.get_U(false).Grid();
       uint32_t nersc_csum,scidac_csuma,scidac_csumb;
       BinaryIO::writeRNG(sRNG, pRNG, rng, 0,nersc_csum,scidac_csuma,scidac_csumb);
+      std::cout << GridLogMessage << "Written Binary RNG " << rng
+                << " checksum " << std::hex 
+		<< nersc_csum   <<"/"
+		<< scidac_csuma   <<"/"
+		<< scidac_csumb 
+		<< std::dec << std::endl;
+
+
+      {
 	ScidacWriter _ScidacWriter(grid->IsBoss());
 	_ScidacWriter.open(config);
-      _ScidacWriter.writeScidacFieldRecord(U, MData);
+	_ScidacWriter.writeScidacFieldRecord(SmartConfig.get_U(false), MData);
 	_ScidacWriter.close();
+      }
       
+      if ( Params.saveSmeared ) {
+	ScidacWriter _ScidacWriter(grid->IsBoss());
+	_ScidacWriter.open(smr);
+	_ScidacWriter.writeScidacFieldRecord(SmartConfig.get_U(true), MData);
+	_ScidacWriter.close();
+      }
       std::cout << GridLogMessage << "Written Scidac Configuration on " << config << std::endl;
     }
   };

Grid/qcd/hmc/integrators/Integrator.h

@@ -66,6 +66,7 @@ public:
 template <class FieldImplementation_, class SmearingPolicy, class RepresentationPolicy>
 class Integrator {
 protected:
+public:
   typedef FieldImplementation_ FieldImplementation;
   typedef typename FieldImplementation::Field MomentaField;  //for readability
   typedef typename FieldImplementation::Field Field;
@@ -96,7 +97,6 @@ protected:
   {
     t_P[level] += ep;
     update_P(P, U, level, ep);
-
     std::cout << GridLogIntegrator << "[" << level << "] P " << " dt " << ep << " : t_P " << t_P[level] << std::endl;
   }
 
@@ -130,28 +130,20 @@ protected:
       Field force(U.Grid());
       conformable(U.Grid(), Mom.Grid());
 
-      Field& Us = Smearer.get_U(as[level].actions.at(a)->is_smeared);
       double start_force = usecond();
 
-      std::cout << GridLogMessage << "AuditForce["<<level<<"]["<<a<<"] before"<<std::endl;
-      
       as[level].actions.at(a)->deriv_timer_start();
-      as[level].actions.at(a)->deriv(Us, force);  // deriv should NOT include Ta
+      as[level].actions.at(a)->deriv(Smearer, force);  // deriv should NOT include Ta
       as[level].actions.at(a)->deriv_timer_stop();
 
-      std::cout << GridLogMessage << "AuditForce["<<level<<"]["<<a<<"] after"<<std::endl;
-
-      std::cout << GridLogIntegrator << "Smearing (on/off): " << as[level].actions.at(a)->is_smeared << std::endl;
       auto name = as[level].actions.at(a)->action_name();
-      if (as[level].actions.at(a)->is_smeared) Smearer.smeared_force(force);
 
       force = FieldImplementation::projectForce(force); // Ta for gauge fields
       double end_force = usecond();
       
-      //      DumpSliceNorm("force ",force,Nd-1);
       MomFilter->applyFilter(force);
+
       std::cout << GridLogIntegrator << " update_P : Level [" << level <<"]["<<a <<"] "<<name<<" dt "<<ep<<  std::endl;
-      DumpSliceNorm("force filtered ",force,Nd-1);
       
       Real force_abs   = std::sqrt(norm2(force)/U.Grid()->gSites()); //average per-site norm.  nb. norm2(latt) = \sum_x norm2(latt[x]) 
       Real impulse_abs = force_abs * ep * HMC_MOMENTUM_DENOMINATOR;    
@@ -377,14 +369,9 @@ public:
 	auto name = as[level].actions.at(actionID)->action_name();
         std::cout << GridLogMessage << "refresh [" << level << "][" << actionID << "] "<<name << std::endl;
 
-        Field& Us = Smearer.get_U(as[level].actions.at(actionID)->is_smeared);
-
-	std::cout << GridLogMessage << "AuditRefresh["<<level<<"]["<<actionID<<"] before"<<std::endl;
-
 	as[level].actions.at(actionID)->refresh_timer_start();
-        as[level].actions.at(actionID)->refresh(Us, sRNG, pRNG);
+        as[level].actions.at(actionID)->refresh(Smearer, sRNG, pRNG);
 	as[level].actions.at(actionID)->refresh_timer_stop();
-	std::cout << GridLogMessage << "AuditRefresh["<<level<<"]["<<actionID<<"] after"<<std::endl;
 
       }
 
@@ -425,10 +412,9 @@ public:
 
         // get gauge field from the SmearingPolicy and
         // based on the boolean is_smeared in actionID
-        Field& Us = Smearer.get_U(as[level].actions.at(actionID)->is_smeared);
         std::cout << GridLogMessage << "S [" << level << "][" << actionID << "] action eval " << std::endl;
 	        as[level].actions.at(actionID)->S_timer_start();
-        Hterm = as[level].actions.at(actionID)->S(Us);
+        Hterm = as[level].actions.at(actionID)->S(Smearer);
    	        as[level].actions.at(actionID)->S_timer_stop();
         std::cout << GridLogMessage << "S [" << level << "][" << actionID << "] H = " << Hterm << std::endl;
         H += Hterm;
@@ -469,11 +455,10 @@ public:
       for (int actionID = 0; actionID < as[level].actions.size(); ++actionID) {
         // get gauge field from the SmearingPolicy and
         // based on the boolean is_smeared in actionID
-        Field& Us = Smearer.get_U(as[level].actions.at(actionID)->is_smeared);
         std::cout << GridLogMessage << "S [" << level << "][" << actionID << "] action eval " << std::endl;
-	        as[level].actions.at(actionID)->S_timer_start();
 
-        Hterm = as[level].actions.at(actionID)->Sinitial(Us);
+	as[level].actions.at(actionID)->S_timer_start();
+        Hterm = as[level].actions.at(actionID)->S(Smearer);
 	as[level].actions.at(actionID)->S_timer_stop();
 
         std::cout << GridLogMessage << "S [" << level << "][" << actionID << "] H = " << Hterm << std::endl;

Grid/qcd/observables/hmc_observable.h

@@ -34,6 +34,13 @@ NAMESPACE_BEGIN(Grid);
 template <class Field>
 class HmcObservable {
  public:
+  virtual void TrajectoryComplete(int traj,
+                                  ConfigurationBase<Field> &SmartConfig,
+                                  GridSerialRNG &sRNG,
+                                  GridParallelRNG &pRNG)
+  {
+    TrajectoryComplete(traj,SmartConfig.get_U(false),sRNG,pRNG); // Unsmeared observable
+  };
   virtual void TrajectoryComplete(int traj,
                                   Field &U,
                                   GridSerialRNG &sRNG,

Grid/qcd/observables/plaquette.h

@@ -42,6 +42,18 @@ public:
   // necessary for HmcObservable compatibility
   typedef typename Impl::Field Field;
 
+  virtual void TrajectoryComplete(int traj,
+                                  ConfigurationBase<Field> &SmartConfig,
+                                  GridSerialRNG &sRNG,
+                                  GridParallelRNG &pRNG)
+  {
+    std::cout << GridLogMessage << "+++++++++++++++++++"<<std::endl;
+    std::cout << GridLogMessage << "Unsmeared plaquette"<<std::endl;
+    TrajectoryComplete(traj,SmartConfig.get_U(false),sRNG,pRNG); // Unsmeared observable
+    std::cout << GridLogMessage << "Smeared plaquette"<<std::endl;
+    TrajectoryComplete(traj,SmartConfig.get_U(true),sRNG,pRNG); // Unsmeared observable
+    std::cout << GridLogMessage << "+++++++++++++++++++"<<std::endl;
+  };
   void TrajectoryComplete(int traj,
                           Field &U,
                           GridSerialRNG &sRNG,

Grid/qcd/smearing/GaugeConfiguration.h

@@ -7,26 +7,27 @@
 
 NAMESPACE_BEGIN(Grid);
 
+
 //trivial class for no smearing
 template< class Impl >
-class NoSmearing
+class NoSmearing : public ConfigurationBase<typename Impl::Field>
 {
 public:
   INHERIT_FIELD_TYPES(Impl);
 
-  Field* ThinField;
+  Field* ThinLinks;
 
-  NoSmearing(): ThinField(NULL) {}
+  NoSmearing(): ThinLinks(NULL) {}
 
-  void set_Field(Field& U) { ThinField = &U; }
+  virtual void set_Field(Field& U) { ThinLinks = &U; }
 
-  void smeared_force(Field&) const {}
+  virtual void smeared_force(Field&) {}
 
-  Field& get_SmearedU() { return *ThinField; }
+  virtual Field& get_SmearedU() { return *ThinLinks; }
 
-  Field &get_U(bool smeared = false)
+  virtual Field &get_U(bool smeared = false)
   {
-    return *ThinField;
+    return *ThinLinks;
   }
 };
 
@@ -42,19 +43,24 @@ public:
   It stores a list of smeared configurations.
 */
 template <class Gimpl>
-class SmearedConfiguration
+class SmearedConfiguration : public ConfigurationBase<typename Gimpl::Field>
 {
 public:
   INHERIT_GIMPL_TYPES(Gimpl);
 
-private:
+protected:
   const unsigned int smearingLevels;
   Smear_Stout<Gimpl> *StoutSmearing;
   std::vector<GaugeField> SmearedSet;
+public:
+  GaugeField*  ThinLinks; /* Pointer to the thin links configuration */ // move to base???
+protected:
   
   // Member functions
   //====================================================================
-  void fill_smearedSet(GaugeField &U)
+
+  // Overridden in masked version
+  virtual void fill_smearedSet(GaugeField &U)
   {
     ThinLinks = &U;  // attach the smearing routine to the field U
 
@@ -82,8 +88,9 @@ private:
       }
     }
   }
-  //====================================================================
-  GaugeField AnalyticSmearedForce(const GaugeField& SigmaKPrime,
+
+  //overridden in masked verson
+  virtual GaugeField AnalyticSmearedForce(const GaugeField& SigmaKPrime,
 					  const GaugeField& GaugeK) const 
   {
     GridBase* grid = GaugeK.Grid();
@@ -213,8 +220,6 @@ private:
 
   //====================================================================
 public:
-  GaugeField*
-      ThinLinks; /* Pointer to the thin links configuration */
 
   /* Standard constructor */
   SmearedConfiguration(GridCartesian* UGrid, unsigned int Nsmear,
@@ -230,7 +235,7 @@ public:
     : smearingLevels(0), StoutSmearing(nullptr), SmearedSet(), ThinLinks(NULL) {}
 
   // attach the smeared routines to the thin links U and fill the smeared set
-  void set_Field(GaugeField &U)
+  virtual void set_Field(GaugeField &U)
   {
     double start = usecond();
     fill_smearedSet(U);
@@ -240,7 +245,7 @@ public:
   }
 
   //====================================================================
-  void smeared_force(GaugeField &SigmaTilde) const
+  virtual void smeared_force(GaugeField &SigmaTilde) 
   {
     if (smearingLevels > 0)
     {
@@ -267,14 +272,16 @@ public:
       }
       double end = usecond();
       double time = (end - start)/ 1e3;
-      std::cout << GridLogMessage << "Smearing force in " << time << " ms" << std::endl;  
+      std::cout << GridLogMessage << " GaugeConfiguration: Smeared Force chain rule took " << time << " ms" << std::endl;
     }  // if smearingLevels = 0 do nothing
+    SigmaTilde=Gimpl::projectForce(SigmaTilde); // Ta
+      
   }
   //====================================================================
 
-  GaugeField& get_SmearedU() { return SmearedSet[smearingLevels - 1]; }
+  virtual GaugeField& get_SmearedU() { return SmearedSet[smearingLevels - 1]; }
 
-  GaugeField &get_U(bool smeared = false)
+  virtual GaugeField &get_U(bool smeared = false)
   {
     // get the config, thin links by default
     if (smeared)

Grid/qcd/smearing/GaugeConfigurationMasked.h

@@ -0,0 +1,813 @@
+/*!
+  @file GaugeConfiguration.h
+  @brief Declares the GaugeConfiguration class
+*/
+#pragma once
+
+NAMESPACE_BEGIN(Grid);
+
+/*!
+  @brief Smeared configuration masked container
+  Modified for a multi-subset smearing (aka Luscher Flowed HMC)
+*/
+template <class Gimpl>
+class SmearedConfigurationMasked : public SmearedConfiguration<Gimpl>
+{
+public:
+  INHERIT_GIMPL_TYPES(Gimpl);
+
+private:
+  // These live in base class
+  //  const unsigned int smearingLevels;
+  //  Smear_Stout<Gimpl> *StoutSmearing;
+  //  std::vector<GaugeField> SmearedSet;
+  
+  std::vector<LatticeLorentzComplex> masks;
+
+  typedef typename SU3Adjoint::AMatrix AdjMatrix;
+  typedef typename SU3Adjoint::LatticeAdjMatrix  AdjMatrixField;
+  typedef typename SU3Adjoint::LatticeAdjVector  AdjVectorField;
+
+  // Adjoint vector to GaugeField force
+  void InsertForce(GaugeField &Fdet,AdjVectorField &Fdet_nu,int nu)
+  {
+    Complex ci(0,1);
+    GaugeLinkField Fdet_pol(Fdet.Grid());
+    Fdet_pol=Zero();
+    for(int e=0;e<8;e++){
+      ColourMatrix te;
+      SU3::generator(e, te);
+      auto tmp=peekColour(Fdet_nu,e);
+      Fdet_pol=Fdet_pol + ci*tmp*te; // but norm of te is different.. why?
+    }
+    pokeLorentz(Fdet, Fdet_pol, nu);
+  }
+  void Compute_MpInvJx_dNxxdSy(const GaugeLinkField &PlaqL,const GaugeLinkField &PlaqR, AdjMatrixField MpInvJx,AdjVectorField &Fdet2 )
+  {
+    GaugeLinkField UtaU(PlaqL.Grid());
+    GaugeLinkField D(PlaqL.Grid());
+    AdjMatrixField Dbc(PlaqL.Grid());
+    LatticeComplex tmp(PlaqL.Grid());
+    const int Ngen = SU3Adjoint::Dimension;
+    Complex ci(0,1);
+    ColourMatrix   ta,tb,tc;
+    
+    for(int a=0;a<Ngen;a++) {
+      SU3::generator(a, ta);
+      // Qlat Tb = 2i Tb^Grid
+      UtaU= 2.0*ci*adj(PlaqL)*ta*PlaqR;
+      for(int c=0;c<Ngen;c++) {
+	SU3::generator(c, tc);
+	D = Ta( (2.0)*ci*tc *UtaU);
+	for(int b=0;b<Ngen;b++){
+	  SU3::generator(b, tb);
+	  tmp =-trace(ci*tb*D); 
+	  PokeIndex<ColourIndex>(Dbc,tmp,b,c);  // Adjoint rep
+	}
+      }
+      tmp = trace(MpInvJx * Dbc);
+      PokeIndex<ColourIndex>(Fdet2,tmp,a);
+    }
+  }
+  
+  void ComputeNxy(const GaugeLinkField &PlaqL,const GaugeLinkField &PlaqR,AdjMatrixField &NxAd)
+  {
+    GaugeLinkField Nx(PlaqL.Grid());
+    const int Ngen = SU3Adjoint::Dimension;
+    Complex ci(0,1);
+    ColourMatrix   tb;
+    ColourMatrix   tc;
+    for(int b=0;b<Ngen;b++) {
+      SU3::generator(b, tb);
+      Nx = (2.0)*Ta( adj(PlaqL)*ci*tb * PlaqR );
+      for(int c=0;c<Ngen;c++) {
+	SU3::generator(c, tc);
+	auto tmp =closure( -trace(ci*tc*Nx)); 
+	PokeIndex<ColourIndex>(NxAd,tmp,c,b); 
+      }
+    }
+  }
+  void ApplyMask(GaugeField &U,int smr)
+  {
+    LatticeComplex tmp(U.Grid());
+    GaugeLinkField Umu(U.Grid());
+    for(int mu=0;mu<Nd;mu++){
+      Umu=PeekIndex<LorentzIndex>(U,mu);
+      tmp=PeekIndex<LorentzIndex>(masks[smr],mu);
+      Umu=Umu*tmp;
+      PokeIndex<LorentzIndex>(U, Umu, mu);
+    }
+  }
+public:
+
+  void logDetJacobianForceLevel(const GaugeField &U, GaugeField &force ,int smr)
+  {
+    GridBase* grid = U.Grid();
+    ColourMatrix   tb;
+    ColourMatrix   tc;
+    ColourMatrix   ta;
+    GaugeField C(grid);
+    GaugeField Umsk(grid);
+    std::vector<GaugeLinkField> Umu(Nd,grid);
+    GaugeLinkField Cmu(grid); // U and staple; C contains factor of epsilon
+    GaugeLinkField Zx(grid);  // U times Staple, contains factor of epsilon
+    GaugeLinkField Nxx(grid);  // Nxx fundamental space
+    GaugeLinkField Utmp(grid);
+    GaugeLinkField PlaqL(grid);
+    GaugeLinkField PlaqR(grid);
+    const int Ngen = SU3Adjoint::Dimension;
+    AdjMatrix TRb;
+    ColourMatrix Ident;
+    LatticeComplex  cplx(grid);
+    
+    AdjVectorField  dJdXe_nMpInv(grid); 
+    AdjVectorField  dJdXe_nMpInv_y(grid); 
+    AdjMatrixField  MpAd(grid);    // Mprime luchang's notes
+    AdjMatrixField  MpAdInv(grid); // Mprime inverse
+    AdjMatrixField  NxxAd(grid);    // Nxx in adjoint space
+    AdjMatrixField  JxAd(grid);     
+    AdjMatrixField  ZxAd(grid);
+    AdjMatrixField  mZxAd(grid);
+    AdjMatrixField  X(grid);
+    Complex ci(0,1);
+
+    RealD t0 = usecond();
+    Ident = ComplexD(1.0);
+    for(int d=0;d<Nd;d++){
+      Umu[d] = peekLorentz(U, d);
+    }
+    int mu= (smr/2) %Nd;
+
+    ////////////////////////////////////////////////////////////////////////////////
+    // Mask the gauge field
+    ////////////////////////////////////////////////////////////////////////////////
+    auto mask=PeekIndex<LorentzIndex>(masks[smr],mu); // the cb mask
+
+    Umsk = U;
+    ApplyMask(Umsk,smr);
+    Utmp = peekLorentz(Umsk,mu);
+
+    ////////////////////////////////////////////////////////////////////////////////
+    // Retrieve the eps/rho parameter(s) -- could allow all different but not so far
+    ////////////////////////////////////////////////////////////////////////////////
+    double rho=this->StoutSmearing->SmearRho[1];
+    int idx=0;
+    for(int mu=0;mu<4;mu++){
+    for(int nu=0;nu<4;nu++){
+      if ( mu!=nu) assert(this->StoutSmearing->SmearRho[idx]==rho);
+      else         assert(this->StoutSmearing->SmearRho[idx]==0.0);
+      idx++;
+    }}
+    //////////////////////////////////////////////////////////////////
+    // Assemble the N matrix
+    //////////////////////////////////////////////////////////////////
+    // Computes ALL the staples -- could compute one only and do it here
+    RealD time;
+    time=-usecond();
+    this->StoutSmearing->BaseSmear(C, U);
+    Cmu = peekLorentz(C, mu);
+
+    //////////////////////////////////////////////////////////////////
+    // Assemble Luscher exp diff map J matrix 
+    //////////////////////////////////////////////////////////////////
+    // Ta so Z lives in Lie algabra
+    Zx  = Ta(Cmu * adj(Umu[mu]));
+    time+=usecond();
+    std::cout << GridLogMessage << "Z took "<<time<< " us"<<std::endl;
+
+    time=-usecond();
+    // Move Z to the Adjoint Rep == make_adjoint_representation
+    ZxAd = Zero();
+    for(int b=0;b<8;b++) {
+      // Adj group sets traceless antihermitian T's -- Guido, really????
+      SU3::generator(b, tb);         // Fund group sets traceless hermitian T's
+      SU3Adjoint::generator(b,TRb);
+      TRb=-TRb;
+      cplx = 2.0*trace(ci*tb*Zx); // my convention 1/2 delta ba
+      ZxAd = ZxAd + cplx * TRb; // is this right? YES - Guido used Anti herm Ta's and with bloody wrong sign.
+    }
+    time+=usecond();
+    std::cout << GridLogMessage << "ZxAd took "<<time<< " us"<<std::endl;
+
+    //////////////////////////////////////
+    // J(x) = 1 + Sum_k=1..N (-Zac)^k/(k+1)!
+    //////////////////////////////////////
+    time=-usecond();
+    X=1.0; 
+    JxAd = X;
+    mZxAd = (-1.0)*ZxAd; 
+    RealD kpfac = 1;
+    for(int k=1;k<12;k++){
+      X=X*mZxAd;
+      kpfac = kpfac /(k+1);
+      JxAd = JxAd + X * kpfac;
+    }
+    time+=usecond();
+    std::cout << GridLogMessage << "Jx took "<<time<< " us"<<std::endl;
+
+    //////////////////////////////////////
+    // dJ(x)/dxe
+    //////////////////////////////////////
+    time=-usecond();
+    std::vector<AdjMatrixField>  dJdX;    dJdX.resize(8,grid);
+    AdjMatrixField tbXn(grid);
+    AdjMatrixField sumXtbX(grid);
+    AdjMatrixField t2(grid);
+    AdjMatrixField dt2(grid);
+    AdjMatrixField t3(grid);
+    AdjMatrixField dt3(grid);
+    AdjMatrixField aunit(grid);
+    for(int b=0;b<8;b++){
+      aunit = ComplexD(1.0);
+      SU3Adjoint::generator(b, TRb); //dt2
+
+      X  = (-1.0)*ZxAd; 
+      t2 = X;
+      dt2 = TRb;
+      for (int j = 20; j > 1; --j) {
+	t3 = t2*(1.0 / (j + 1))  + aunit;
+	dt3 = dt2*(1.0 / (j + 1));
+	t2 = X * t3;
+	dt2 = TRb * t3 + X * dt3;
+      }
+      dJdX[b] = -dt2; 
+    }
+    time+=usecond();
+    std::cout << GridLogMessage << "dJx took "<<time<< " us"<<std::endl;
+    /////////////////////////////////////////////////////////////////
+    // Mask Umu for this link
+    /////////////////////////////////////////////////////////////////
+    time=-usecond();
+    PlaqL = Ident;
+    PlaqR = Utmp*adj(Cmu);
+    ComputeNxy(PlaqL,PlaqR,NxxAd);
+    time+=usecond();
+    std::cout << GridLogMessage << "ComputeNxy took "<<time<< " us"<<std::endl;
+    
+    ////////////////////////////
+    // Mab
+    ////////////////////////////
+    MpAd = Complex(1.0,0.0);
+    MpAd = MpAd - JxAd * NxxAd;
+
+    /////////////////////////
+    // invert the 8x8
+    /////////////////////////
+    time=-usecond();
+    MpAdInv = Inverse(MpAd);
+    time+=usecond();
+    std::cout << GridLogMessage << "MpAdInv took "<<time<< " us"<<std::endl;
+    
+    RealD t3a = usecond();
+    /////////////////////////////////////////////////////////////////
+    // Nxx Mp^-1
+    /////////////////////////////////////////////////////////////////
+    AdjVectorField  FdetV(grid);
+    AdjVectorField  Fdet1_nu(grid);
+    AdjVectorField  Fdet2_nu(grid);
+    AdjVectorField  Fdet2_mu(grid);
+    AdjVectorField  Fdet1_mu(grid);
+
+    AdjMatrixField nMpInv(grid);
+    nMpInv= NxxAd *MpAdInv;
+
+    AdjMatrixField MpInvJx(grid);
+    AdjMatrixField MpInvJx_nu(grid);
+    MpInvJx = (-1.0)*MpAdInv * JxAd;// rho is on the plaq factor
+
+    Compute_MpInvJx_dNxxdSy(PlaqL,PlaqR,MpInvJx,FdetV);
+    Fdet2_mu=FdetV;
+    Fdet1_mu=Zero();
+    
+    for(int e =0 ; e<8 ; e++){
+      LatticeComplexD tr(grid);
+      ColourMatrix te;
+      SU3::generator(e, te);
+      tr = trace(dJdX[e] * nMpInv);
+      pokeColour(dJdXe_nMpInv,tr,e);
+    }
+    ///////////////////////////////
+    // Mask it off
+    ///////////////////////////////
+    auto tmp=PeekIndex<LorentzIndex>(masks[smr],mu);
+    dJdXe_nMpInv = dJdXe_nMpInv*tmp;
+    
+    //    dJdXe_nMpInv needs to multiply:
+    //       Nxx_mu (site local)                           (1)
+    //       Nxy_mu one site forward  in each nu direction (3)
+    //       Nxy_mu one site backward in each nu direction (3)
+    //       Nxy_nu 0,0  ; +mu,0; 0,-nu; +mu-nu   [ 3x4 = 12]
+    // 19 terms.
+    AdjMatrixField Nxy(grid);
+
+    GaugeField Fdet1(grid);
+    GaugeField Fdet2(grid);
+    GaugeLinkField Fdet_pol(grid); // one polarisation
+
+    RealD t4 = usecond();
+    for(int nu=0;nu<Nd;nu++){
+
+      if (nu!=mu) {
+	///////////////// +ve nu /////////////////
+	//     __
+	//    |  |
+	//    x==    // nu polarisation -- clockwise
+
+	time=-usecond();
+	PlaqL=Ident;
+
+	PlaqR=(-rho)*Gimpl::CovShiftForward(Umu[nu], nu,
+ 	       Gimpl::CovShiftForward(Umu[mu], mu,
+	         Gimpl::CovShiftBackward(Umu[nu], nu,
+		   Gimpl::CovShiftIdentityBackward(Utmp, mu))));
+	time+=usecond();
+	std::cout << GridLogMessage << "PlaqLR took "<<time<< " us"<<std::endl;
+
+	time=-usecond();
+	dJdXe_nMpInv_y =   dJdXe_nMpInv;
+	ComputeNxy(PlaqL,PlaqR,Nxy);
+	Fdet1_nu = transpose(Nxy)*dJdXe_nMpInv_y;
+	time+=usecond();
+	std::cout << GridLogMessage << "ComputeNxy (occurs 6x) took "<<time<< " us"<<std::endl;
+
+	time=-usecond();
+	PlaqR=(-1.0)*PlaqR;
+	Compute_MpInvJx_dNxxdSy(PlaqL,PlaqR,MpInvJx,FdetV);
+	Fdet2_nu = FdetV;
+	time+=usecond();
+	std::cout << GridLogMessage << "Compute_MpInvJx_dNxxSy (occurs 6x) took "<<time<< " us"<<std::endl;
+	
+	//    x==
+	//    |  |
+	//    .__|    // nu polarisation -- anticlockwise
+
+	PlaqR=(rho)*Gimpl::CovShiftForward(Umu[nu], nu,
+		      Gimpl::CovShiftBackward(Umu[mu], mu,
+    	 	        Gimpl::CovShiftIdentityBackward(Umu[nu], nu)));
+
+	PlaqL=Gimpl::CovShiftIdentityBackward(Utmp, mu);
+
+	dJdXe_nMpInv_y = Cshift(dJdXe_nMpInv,mu,-1);
+	ComputeNxy(PlaqL, PlaqR,Nxy);
+	Fdet1_nu = Fdet1_nu+transpose(Nxy)*dJdXe_nMpInv_y;
+	
+
+	MpInvJx_nu = Cshift(MpInvJx,mu,-1);
+	Compute_MpInvJx_dNxxdSy(PlaqL,PlaqR,MpInvJx_nu,FdetV);
+	Fdet2_nu = Fdet2_nu+FdetV;
+	
+	///////////////// -ve nu /////////////////
+	//  __
+	// |  |
+	// x==          // nu polarisation -- clockwise
+
+	PlaqL=(rho)* Gimpl::CovShiftForward(Umu[mu], mu,
+		       Gimpl::CovShiftForward(Umu[nu], nu,
+			 Gimpl::CovShiftIdentityBackward(Utmp, mu)));
+
+        PlaqR = Gimpl::CovShiftIdentityForward(Umu[nu], nu);
+
+	dJdXe_nMpInv_y = Cshift(dJdXe_nMpInv,nu,1);
+	ComputeNxy(PlaqL,PlaqR,Nxy);
+	Fdet1_nu = Fdet1_nu + transpose(Nxy)*dJdXe_nMpInv_y;
+
+	MpInvJx_nu = Cshift(MpInvJx,nu,1);
+	Compute_MpInvJx_dNxxdSy(PlaqL,PlaqR,MpInvJx_nu,FdetV);
+	Fdet2_nu = Fdet2_nu+FdetV;
+	
+	// x==
+	// |  |
+	// |__|         // nu polarisation
+
+	PlaqL=(-rho)*Gimpl::CovShiftForward(Umu[nu], nu,
+ 	        Gimpl::CovShiftIdentityBackward(Utmp, mu));
+
+	PlaqR=Gimpl::CovShiftBackward(Umu[mu], mu,
+	        Gimpl::CovShiftIdentityForward(Umu[nu], nu));
+
+	dJdXe_nMpInv_y = Cshift(dJdXe_nMpInv,mu,-1);
+	dJdXe_nMpInv_y = Cshift(dJdXe_nMpInv_y,nu,1);
+
+	ComputeNxy(PlaqL,PlaqR,Nxy);
+	Fdet1_nu = Fdet1_nu + transpose(Nxy)*dJdXe_nMpInv_y;
+
+	MpInvJx_nu = Cshift(MpInvJx,mu,-1);
+	MpInvJx_nu = Cshift(MpInvJx_nu,nu,1);
+	Compute_MpInvJx_dNxxdSy(PlaqL,PlaqR,MpInvJx_nu,FdetV);
+	Fdet2_nu = Fdet2_nu+FdetV;
+
+	/////////////////////////////////////////////////////////////////////
+	// Set up the determinant force contribution in 3x3 algebra basis
+	/////////////////////////////////////////////////////////////////////
+	InsertForce(Fdet1,Fdet1_nu,nu);
+	InsertForce(Fdet2,Fdet2_nu,nu);
+	
+	//////////////////////////////////////////////////
+	// Parallel direction terms
+	//////////////////////////////////////////////////
+
+        //     __
+	//    |  "
+	//    |__"x    // mu polarisation
+	PlaqL=(-rho)*Gimpl::CovShiftForward(Umu[mu], mu,
+		      Gimpl::CovShiftBackward(Umu[nu], nu,
+   		        Gimpl::CovShiftIdentityBackward(Utmp, mu)));
+
+	PlaqR=Gimpl::CovShiftIdentityBackward(Umu[nu], nu);
+	
+	dJdXe_nMpInv_y = Cshift(dJdXe_nMpInv,nu,-1);
+
+	ComputeNxy(PlaqL,PlaqR,Nxy);
+	Fdet1_mu = Fdet1_mu + transpose(Nxy)*dJdXe_nMpInv_y;
+
+	MpInvJx_nu = Cshift(MpInvJx,nu,-1);
+
+	Compute_MpInvJx_dNxxdSy(PlaqL,PlaqR,MpInvJx_nu,FdetV);
+	Fdet2_mu = Fdet2_mu+FdetV;
+
+	//  __
+	// "  |
+	// x__|          // mu polarisation
+
+	PlaqL=(-rho)*Gimpl::CovShiftForward(Umu[mu], mu,
+		       Gimpl::CovShiftForward(Umu[nu], nu,
+		 	 Gimpl::CovShiftIdentityBackward(Utmp, mu)));
+
+        PlaqR=Gimpl::CovShiftIdentityForward(Umu[nu], nu);
+
+	dJdXe_nMpInv_y = Cshift(dJdXe_nMpInv,nu,1);
+
+	ComputeNxy(PlaqL,PlaqR,Nxy);
+	Fdet1_mu = Fdet1_mu + transpose(Nxy)*dJdXe_nMpInv_y;
+
+	MpInvJx_nu = Cshift(MpInvJx,nu,1);
+
+	Compute_MpInvJx_dNxxdSy(PlaqL,PlaqR,MpInvJx_nu,FdetV);
+	Fdet2_mu = Fdet2_mu+FdetV;
+	
+      }
+    }
+    RealD t5 = usecond();
+
+    Fdet1_mu = Fdet1_mu + transpose(NxxAd)*dJdXe_nMpInv;
+
+    InsertForce(Fdet1,Fdet1_mu,mu);
+    InsertForce(Fdet2,Fdet2_mu,mu);
+
+    force= (-0.5)*( Fdet1 + Fdet2);
+    RealD t1 = usecond();
+    std::cout << GridLogMessage << " logDetJacobianForce level took "<<t1-t0<<" us "<<std::endl;
+    std::cout << GridLogMessage << " logDetJacobianForce t3-t0 "<<t3a-t0<<" us "<<std::endl;
+    std::cout << GridLogMessage << " logDetJacobianForce t4-t3 dJdXe_nMpInv "<<t4-t3a<<" us "<<std::endl;
+    std::cout << GridLogMessage << " logDetJacobianForce t5-t4 mu nu loop "<<t5-t4<<" us "<<std::endl;
+    std::cout << GridLogMessage << " logDetJacobianForce t1-t5 "<<t1-t5<<" us "<<std::endl;
+    std::cout << GridLogMessage << " logDetJacobianForce level took "<<t1-t0<<" us "<<std::endl;
+  }
+  RealD logDetJacobianLevel(const GaugeField &U,int smr)
+  {
+    GridBase* grid = U.Grid();
+    GaugeField C(grid);
+    GaugeLinkField Nb(grid);
+    GaugeLinkField Z(grid);
+    GaugeLinkField Umu(grid), Cmu(grid);
+    ColourMatrix   Tb;
+    ColourMatrix   Tc;
+    typedef typename SU3Adjoint::AMatrix AdjMatrix;
+    typedef typename SU3Adjoint::LatticeAdjMatrix  AdjMatrixField;
+    typedef typename SU3Adjoint::LatticeAdjVector  AdjVectorField;
+    const int Ngen = SU3Adjoint::Dimension;
+    AdjMatrix TRb;
+    LatticeComplex       cplx(grid); 
+    AdjVectorField  AlgV(grid); 
+    AdjMatrixField  Mab(grid);
+    AdjMatrixField  Ncb(grid);
+    AdjMatrixField  Jac(grid);
+    AdjMatrixField  Zac(grid);
+    AdjMatrixField  mZac(grid);
+    AdjMatrixField  X(grid);
+
+    int mu= (smr/2) %Nd;
+
+    auto mask=PeekIndex<LorentzIndex>(masks[smr],mu); // the cb mask
+
+    //////////////////////////////////////////////////////////////////
+    // Assemble the N matrix
+    //////////////////////////////////////////////////////////////////
+    // Computes ALL the staples -- could compute one only here
+    this->StoutSmearing->BaseSmear(C, U);
+    Cmu = peekLorentz(C, mu);
+    Umu = peekLorentz(U, mu);
+    Complex ci(0,1);
+    for(int b=0;b<Ngen;b++) {
+      SU3::generator(b, Tb);
+      // Qlat Tb = 2i Tb^Grid
+      Nb = (2.0)*Ta( ci*Tb * Umu * adj(Cmu));
+      for(int c=0;c<Ngen;c++) {
+	SU3::generator(c, Tc);
+	auto tmp = -trace(ci*Tc*Nb); // Luchang's norm: (2Tc) (2Td) N^db = -2 delta cd N^db // - was important
+	PokeIndex<ColourIndex>(Ncb,tmp,c,b); 
+      }
+    }      
+
+    //////////////////////////////////////////////////////////////////
+    // Assemble Luscher exp diff map J matrix 
+    //////////////////////////////////////////////////////////////////
+    // Ta so Z lives in Lie algabra
+    Z  = Ta(Cmu * adj(Umu));
+
+    // Move Z to the Adjoint Rep == make_adjoint_representation
+    Zac = Zero();
+    for(int b=0;b<8;b++) {
+      // Adj group sets traceless antihermitian T's -- Guido, really????
+      // Is the mapping of these the same? Same structure constants
+      // Might never have been checked.
+      SU3::generator(b, Tb);         // Fund group sets traceless hermitian T's
+      SU3Adjoint::generator(b,TRb);
+      TRb=-TRb;
+      cplx = 2.0*trace(ci*Tb*Z); // my convention 1/2 delta ba
+      Zac = Zac + cplx * TRb; // is this right? YES - Guido used Anti herm Ta's and with bloody wrong sign.
+    }
+
+    //////////////////////////////////////
+    // J(x) = 1 + Sum_k=1..N (-Zac)^k/(k+1)!
+    //////////////////////////////////////
+    X=1.0; 
+    Jac = X;
+    mZac = (-1.0)*Zac; 
+    RealD kpfac = 1;
+    for(int k=1;k<12;k++){
+      X=X*mZac;
+      kpfac = kpfac /(k+1);
+      Jac = Jac + X * kpfac;
+    }
+
+    ////////////////////////////
+    // Mab
+    ////////////////////////////
+    Mab = Complex(1.0,0.0);
+    Mab = Mab - Jac * Ncb;
+
+    ////////////////////////////
+    // det
+    ////////////////////////////
+    LatticeComplex       det(grid); 
+    det = Determinant(Mab);
+
+    ////////////////////////////
+    // ln det
+    ////////////////////////////
+    LatticeComplex       ln_det(grid); 
+    ln_det = log(det);
+
+    ////////////////////////////
+    // Masked sum
+    ////////////////////////////
+    ln_det = ln_det * mask;
+    Complex result = sum(ln_det);
+    return result.real();
+  }
+public:
+  RealD logDetJacobian(void)
+  {
+    RealD ln_det = 0;
+    if (this->smearingLevels > 0)
+    {
+      double start = usecond();
+      for (int ismr = this->smearingLevels - 1; ismr > 0; --ismr) {
+	ln_det+= logDetJacobianLevel(this->get_smeared_conf(ismr-1),ismr);
+      }
+      ln_det +=logDetJacobianLevel(*(this->ThinLinks),0);
+
+      double end = usecond();
+      double time = (end - start)/ 1e3;
+      std::cout << GridLogMessage << "GaugeConfigurationMasked: logDetJacobian took " << time << " ms" << std::endl;  
+    }
+    return ln_det;
+  }
+  void logDetJacobianForce(GaugeField &force)
+  {
+    force =Zero();
+    GaugeField force_det(force.Grid());
+
+    if (this->smearingLevels > 0)
+    {
+      double start = usecond();
+
+      GaugeLinkField tmp_mu(force.Grid());
+
+      for (int ismr = this->smearingLevels - 1; ismr > 0; --ismr) {
+
+	// remove U in UdSdU...
+	for (int mu = 0; mu < Nd; mu++) {
+	  tmp_mu = adj(peekLorentz(this->get_smeared_conf(ismr), mu)) * peekLorentz(force, mu);
+	  pokeLorentz(force, tmp_mu, mu);
+	}
+	
+      	// Propagate existing force
+        force = this->AnalyticSmearedForce(force, this->get_smeared_conf(ismr - 1), ismr);
+
+	// Add back U in UdSdU...
+	for (int mu = 0; mu < Nd; mu++) {
+	  tmp_mu = peekLorentz(this->get_smeared_conf(ismr - 1), mu) * peekLorentz(force, mu);
+	  pokeLorentz(force, tmp_mu, mu);
+	}
+    	
+	// Get this levels determinant force
+	force_det = Zero();
+	logDetJacobianForceLevel(this->get_smeared_conf(ismr-1),force_det,ismr);
+
+	// Sum the contributions
+	force = force + force_det;
+      }
+    
+      // remove U in UdSdU...
+      for (int mu = 0; mu < Nd; mu++) {
+	tmp_mu = adj(peekLorentz(this->get_smeared_conf(0), mu)) * peekLorentz(force, mu);
+	pokeLorentz(force, tmp_mu, mu);
+      }
+
+      force = this->AnalyticSmearedForce(force, *this->ThinLinks,0);
+
+      for (int mu = 0; mu < Nd; mu++) {
+	tmp_mu = peekLorentz(*this->ThinLinks, mu) * peekLorentz(force, mu);
+	pokeLorentz(force, tmp_mu, mu);
+      }
+
+      force_det = Zero();
+
+      logDetJacobianForceLevel(*this->ThinLinks,force_det,0);
+
+      force = force + force_det;
+
+      force=Ta(force); // Ta
+      
+      double end = usecond();
+      double time = (end - start)/ 1e3;
+      std::cout << GridLogMessage << "GaugeConfigurationMasked: lnDetJacobianForce took " << time << " ms" << std::endl;  
+    }  // if smearingLevels = 0 do nothing
+  }
+
+private:
+  //====================================================================
+  // Override base clas here to mask it
+  virtual void fill_smearedSet(GaugeField &U)
+  {
+    this->ThinLinks = &U;  // attach the smearing routine to the field U
+
+    // check the pointer is not null
+    if (this->ThinLinks == NULL)
+      std::cout << GridLogError << "[SmearedConfigurationMasked] Error in ThinLinks pointer\n";
+
+    if (this->smearingLevels > 0)
+    {
+      std::cout << GridLogMessage << "[SmearedConfigurationMasked] Filling SmearedSet\n";
+      GaugeField previous_u(this->ThinLinks->Grid());
+
+      GaugeField smeared_A(this->ThinLinks->Grid());
+      GaugeField smeared_B(this->ThinLinks->Grid());
+
+      previous_u = *this->ThinLinks;
+      double start = usecond();
+      for (int smearLvl = 0; smearLvl < this->smearingLevels; ++smearLvl)
+      {
+        this->StoutSmearing->smear(smeared_A, previous_u);
+	ApplyMask(smeared_A,smearLvl);
+	smeared_B = previous_u;
+	ApplyMask(smeared_B,smearLvl);
+	// Replace only the masked portion
+	this->SmearedSet[smearLvl] = previous_u-smeared_B + smeared_A;
+        previous_u = this->SmearedSet[smearLvl];
+
+        // For debug purposes
+        RealD impl_plaq = WilsonLoops<Gimpl>::avgPlaquette(previous_u);
+        std::cout << GridLogMessage << "[SmearedConfigurationMasked] smeared Plaq: " << impl_plaq << std::endl;
+      }
+      double end = usecond();
+      double time = (end - start)/ 1e3;
+      std::cout << GridLogMessage << "GaugeConfigurationMasked: Link smearing took " << time << " ms" << std::endl;  
+    }
+  }
+  //====================================================================
+  // Override base to add masking
+  virtual GaugeField AnalyticSmearedForce(const GaugeField& SigmaKPrime,
+					  const GaugeField& GaugeK,int level) 
+  {
+    GridBase* grid = GaugeK.Grid();
+    GaugeField C(grid), SigmaK(grid), iLambda(grid);
+    GaugeField SigmaKPrimeA(grid);
+    GaugeField SigmaKPrimeB(grid);
+    GaugeLinkField iLambda_mu(grid);
+    GaugeLinkField iQ(grid), e_iQ(grid);
+    GaugeLinkField SigmaKPrime_mu(grid);
+    GaugeLinkField GaugeKmu(grid), Cmu(grid);
+    
+    this->StoutSmearing->BaseSmear(C, GaugeK);
+    SigmaK = Zero();
+    iLambda = Zero();
+
+    SigmaKPrimeA = SigmaKPrime;
+    ApplyMask(SigmaKPrimeA,level);
+    SigmaKPrimeB = SigmaKPrime - SigmaKPrimeA;
+    
+    // Could get away with computing only one polarisation here
+    // int mu= (smr/2) %Nd;
+    // SigmaKprime_A has only one component
+    for (int mu = 0; mu < Nd; mu++)
+    {
+      Cmu = peekLorentz(C, mu);
+      GaugeKmu = peekLorentz(GaugeK, mu);
+      SigmaKPrime_mu = peekLorentz(SigmaKPrimeA, mu);
+      iQ = Ta(Cmu * adj(GaugeKmu));
+      this->set_iLambda(iLambda_mu, e_iQ, iQ, SigmaKPrime_mu, GaugeKmu);
+      pokeLorentz(SigmaK, SigmaKPrime_mu * e_iQ + adj(Cmu) * iLambda_mu, mu);
+      pokeLorentz(iLambda, iLambda_mu, mu);
+    }
+    this->StoutSmearing->derivative(SigmaK, iLambda,GaugeK);  // derivative of SmearBase
+
+    ////////////////////////////////////////////////////////////////////////////////////
+    // propagate the rest of the force as identity map, just add back
+    ////////////////////////////////////////////////////////////////////////////////////
+    SigmaK = SigmaK+SigmaKPrimeB;
+
+    return SigmaK;
+  }
+
+public:
+
+  /* Standard constructor */
+  SmearedConfigurationMasked(GridCartesian* _UGrid, unsigned int Nsmear, Smear_Stout<Gimpl>& Stout)
+    : SmearedConfiguration<Gimpl>(_UGrid, Nsmear,Stout)
+  {
+    assert(Nsmear%(2*Nd)==0); // Or multiply by 8??
+
+    // was resized in base class
+    assert(this->SmearedSet.size()==Nsmear);
+    
+    GridRedBlackCartesian * UrbGrid;
+    UrbGrid = SpaceTimeGrid::makeFourDimRedBlackGrid(_UGrid);
+    LatticeComplex one(_UGrid); one = ComplexD(1.0,0.0);
+    LatticeComplex tmp(_UGrid);
+
+    for (unsigned int i = 0; i < this->smearingLevels; ++i) {
+
+      masks.push_back(*(new LatticeLorentzComplex(_UGrid)));
+
+      int mu= (i/2) %Nd;
+      int cb= (i%2);
+      LatticeComplex tmpcb(UrbGrid);
+	
+      masks[i]=Zero();
+      ////////////////////
+      // Setup the mask
+      ////////////////////
+      tmp = Zero();
+      pickCheckerboard(cb,tmpcb,one);
+      setCheckerboard(tmp,tmpcb);
+      PokeIndex<LorentzIndex>(masks[i],tmp, mu);
+	
+    }
+    delete UrbGrid;
+  }
+  
+  virtual void smeared_force(GaugeField &SigmaTilde) 
+  {
+    if (this->smearingLevels > 0)
+    {
+      double start = usecond();
+      GaugeField force = SigmaTilde; // actually = U*SigmaTilde
+      GaugeLinkField tmp_mu(SigmaTilde.Grid());
+
+      // Remove U from UdSdU
+      for (int mu = 0; mu < Nd; mu++)
+      {
+        // to get just SigmaTilde
+        tmp_mu = adj(peekLorentz(this->SmearedSet[this->smearingLevels - 1], mu)) * peekLorentz(force, mu);
+        pokeLorentz(force, tmp_mu, mu);
+      }
+
+      for (int ismr = this->smearingLevels - 1; ismr > 0; --ismr) {
+        force = this->AnalyticSmearedForce(force, this->get_smeared_conf(ismr - 1),ismr);
+      }
+      
+      force = this->AnalyticSmearedForce(force, *this->ThinLinks,0);
+
+      // Add U to UdSdU
+      for (int mu = 0; mu < Nd; mu++)
+      {
+        tmp_mu = peekLorentz(*this->ThinLinks, mu) * peekLorentz(force, mu);
+        pokeLorentz(SigmaTilde, tmp_mu, mu);
+      }
+
+
+      double end = usecond();
+      double time = (end - start)/ 1e3;
+      std::cout << GridLogMessage << " GaugeConfigurationMasked: Smeared Force chain rule took " << time << " ms" << std::endl;
+
+    }  // if smearingLevels = 0 do nothing
+    SigmaTilde=Gimpl::projectForce(SigmaTilde); // Ta
+  }
+
+};
+
+NAMESPACE_END(Grid);
+

Grid/qcd/smearing/JacobianAction.h

@@ -0,0 +1,87 @@
+/*************************************************************************************
+
+Grid physics library, www.github.com/paboyle/Grid
+
+Source file: ./lib/qcd/action/gauge/JacobianAction.h
+
+Copyright (C) 2015
+
+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 */
+#pragma once
+
+NAMESPACE_BEGIN(Grid);
+
+////////////////////////////////////////////////////////////////////////
+// Jacobian Action .. 
+////////////////////////////////////////////////////////////////////////
+template <class Gimpl>
+class JacobianAction : public Action<typename Gimpl::GaugeField> {
+public:  
+  INHERIT_GIMPL_TYPES(Gimpl);
+
+  SmearedConfigurationMasked<Gimpl> * smearer;
+  /////////////////////////// constructors
+  explicit JacobianAction(SmearedConfigurationMasked<Gimpl> * _smearer ) { smearer=_smearer;};
+
+  virtual std::string action_name() {return "JacobianAction";}
+
+  virtual std::string LogParameters(){
+    std::stringstream sstream;
+    sstream << GridLogMessage << "[JacobianAction] " << std::endl;
+    return sstream.str();
+  }
+
+  //////////////////////////////////
+  // Usual cases are not used
+  //////////////////////////////////
+  virtual void refresh(const GaugeField &U, GridSerialRNG &sRNG, GridParallelRNG &pRNG){ assert(0);};
+  virtual RealD S(const GaugeField &U) { assert(0); }
+  virtual void deriv(const GaugeField &U, GaugeField &dSdU) { assert(0);  }
+
+  //////////////////////////////////
+  // Functions of smart configs only
+  //////////////////////////////////
+  virtual void refresh(ConfigurationBase<GaugeField> & U, GridSerialRNG &sRNG, GridParallelRNG& pRNG)
+  {
+    return;
+  }
+  virtual RealD S(ConfigurationBase<GaugeField>& U)
+  {
+    // det M = e^{ - ( - logDetM) }
+    assert( &U == smearer );
+    return -smearer->logDetJacobian();
+  }
+  virtual RealD Sinitial(ConfigurationBase<GaugeField>& U) 
+  {
+    return S(U);
+  }
+  virtual void deriv(ConfigurationBase<GaugeField>& U, GaugeField& dSdU)
+  {
+    assert( &U == smearer );
+    smearer->logDetJacobianForce(dSdU);
+  }
+
+private:
+ };
+
+NAMESPACE_END(Grid);
+

Grid/qcd/smearing/StoutSmearing.h

@@ -40,7 +40,9 @@ template <class Gimpl>
 class Smear_Stout : public Smear<Gimpl> {
  private:
   int OrthogDim = -1;
+public:
   const std::vector<double> SmearRho;
+private:
   // Smear<Gimpl>* ownership semantics:
   //    Smear<Gimpl>* passed in to constructor are owned by caller, so we don't delete them here
   //    Smear<Gimpl>* created within constructor need to be deleted as part of the destructor

Grid/qcd/utils/SUn.h

@@ -34,6 +34,61 @@ directory
 
 NAMESPACE_BEGIN(Grid);
 
+template<int N, class Vec>
+Lattice<iScalar<iScalar<iScalar<Vec> > > > Determinant(const Lattice<iScalar<iScalar<iMatrix<Vec, N> > > > &Umu)
+{
+  GridBase *grid=Umu.Grid();
+  auto lvol = grid->lSites();
+  Lattice<iScalar<iScalar<iScalar<Vec> > > > ret(grid);
+  typedef typename Vec::scalar_type scalar;
+  autoView(Umu_v,Umu,CpuRead);
+  autoView(ret_v,ret,CpuWrite);
+  thread_for(site,lvol,{
+    Eigen::MatrixXcd EigenU = Eigen::MatrixXcd::Zero(N,N);
+    Coordinate lcoor;
+    grid->LocalIndexToLocalCoor(site, lcoor);
+    iScalar<iScalar<iMatrix<scalar, N> > > Us;
+    peekLocalSite(Us, Umu_v, lcoor);
+    for(int i=0;i<N;i++){
+      for(int j=0;j<N;j++){
+	scalar tmp= Us()()(i,j);
+	ComplexD ztmp(real(tmp),imag(tmp));
+	EigenU(i,j)=ztmp;
+      }}
+    ComplexD detD  = EigenU.determinant();
+    typename Vec::scalar_type det(detD.real(),detD.imag());
+    pokeLocalSite(det,ret_v,lcoor);
+  });
+  return ret;
+}
+
+template<int N, class Vec>
+static void ProjectSUn(Lattice<iScalar<iScalar<iMatrix<Vec, N> > > > &Umu)
+{
+  Umu      = ProjectOnGroup(Umu);
+  auto det = Determinant(Umu);
+
+  det = conjugate(det);
+
+  for(int i=0;i<N;i++){
+    auto element = PeekIndex<ColourIndex>(Umu,N-1,i);
+    element = element * det;
+    PokeIndex<ColourIndex>(Umu,element,Nc-1,i);
+  }
+}
+template<int N,class Vec>
+static void ProjectSUn(Lattice<iVector<iScalar<iMatrix<Vec, N> >,Nd> > &U)
+{
+  GridBase *grid=U.Grid();
+  // Reunitarise
+  for(int mu=0;mu<Nd;mu++){
+    auto Umu = PeekIndex<LorentzIndex>(U,mu);
+    Umu      = ProjectOnGroup(Umu);
+    ProjectSUn(Umu);
+    PokeIndex<LorentzIndex>(U,Umu,mu);
+  }
+}
+
 template <int ncolour>
 class SU {
 public:
@@ -741,8 +796,14 @@ public:
     typedef Lattice<vMatrixType> LatticeMatrixType;
 
     LatticeMatrixType Umu(out.Grid());
+    LatticeMatrixType tmp(out.Grid());
     for (int mu = 0; mu < Nd; mu++) {
-      LieRandomize(pRNG, Umu, 1.0);
+      //      LieRandomize(pRNG, Umu, 1.0);
+      //      PokeIndex<LorentzIndex>(out, Umu, mu);
+      gaussian(pRNG,Umu);
+      tmp = Ta(Umu);
+      taExp(tmp,Umu);
+      ProjectSUn(Umu);
       PokeIndex<LorentzIndex>(out, Umu, mu);
     }
   }
@@ -799,11 +860,11 @@ public:
 };
 
 template<int N>
-LatticeComplexD Determinant(const Lattice<iScalar<iScalar<iMatrix<vComplexD, N> > > > &Umu)
+Lattice<iScalar<iScalar<iMatrix<vComplexD, N> > > > Inverse(const Lattice<iScalar<iScalar<iMatrix<vComplexD, N> > > > &Umu)
 {
   GridBase *grid=Umu.Grid();
   auto lvol = grid->lSites();
-  LatticeComplexD ret(grid);
+  Lattice<iScalar<iScalar<iMatrix<vComplexD, N> > > > ret(grid);
   
   autoView(Umu_v,Umu,CpuRead);
   autoView(ret_v,ret,CpuWrite);
@@ -812,42 +873,21 @@ LatticeComplexD Determinant(const Lattice<iScalar<iScalar<iMatrix<vComplexD, N>
     Coordinate lcoor;
     grid->LocalIndexToLocalCoor(site, lcoor);
     iScalar<iScalar<iMatrix<ComplexD, N> > > Us;
+    iScalar<iScalar<iMatrix<ComplexD, N> > > Ui;
     peekLocalSite(Us, Umu_v, lcoor);
     for(int i=0;i<N;i++){
       for(int j=0;j<N;j++){
 	EigenU(i,j) = Us()()(i,j);
       }}
-    ComplexD det = EigenU.determinant();
-    pokeLocalSite(det,ret_v,lcoor);
+    Eigen::MatrixXcd EigenUinv = EigenU.inverse();
+    for(int i=0;i<N;i++){
+      for(int j=0;j<N;j++){
+	Ui()()(i,j) = EigenUinv(i,j);
+      }}
+    pokeLocalSite(Ui,ret_v,lcoor);
   });
   return ret;
 }
-template<int N>
-static void ProjectSUn(Lattice<iScalar<iScalar<iMatrix<vComplexD, N> > > > &Umu)
-{
-  Umu      = ProjectOnGroup(Umu);
-  auto det = Determinant(Umu);
-
-  det = conjugate(det);
-
-  for(int i=0;i<N;i++){
-    auto element = PeekIndex<ColourIndex>(Umu,N-1,i);
-    element = element * det;
-    PokeIndex<ColourIndex>(Umu,element,Nc-1,i);
-  }
-}
-template<int N>
-static void ProjectSUn(Lattice<iVector<iScalar<iMatrix<vComplexD, N> >,Nd> > &U)
-{
-  GridBase *grid=U.Grid();
-  // Reunitarise
-  for(int mu=0;mu<Nd;mu++){
-    auto Umu = PeekIndex<LorentzIndex>(U,mu);
-    Umu      = ProjectOnGroup(Umu);
-    ProjectSUn(Umu);
-    PokeIndex<LorentzIndex>(U,Umu,mu);
-  }
-}
 // Explicit specialisation for SU(3).
 // Explicit specialisation for SU(3).
 static void

Grid/qcd/utils/SUnAdjoint.h

@@ -51,6 +51,7 @@ public:
   typedef Lattice<iVector<iScalar<iMatrix<vComplexF, Dimension> >, Nd> > LatticeAdjFieldF;
   typedef Lattice<iVector<iScalar<iMatrix<vComplexD, Dimension> >, Nd> > LatticeAdjFieldD;
 
+  typedef Lattice<iScalar<iScalar<iVector<vComplex, Dimension> > > >  LatticeAdjVector;
 
   template <class cplx>
   static void generator(int Index, iSUnAdjointMatrix<cplx> &iAdjTa) {

Grid/stencil/GeneralLocalStencil.h

@@ -123,7 +123,7 @@ public:
 	  }
 	  if ( permute_slice ) {
 	    int ptype       =grid->PermuteType(d);
-	    uint8_t mask    =grid->Nsimd() >> (ptype + 1);		
+	    uint8_t mask    =0x1<<ptype;
 	    SE._permute    |= mask;
 	  }
 	}	

Grid/stencil/Stencil.h

@@ -451,7 +451,6 @@ public:
     else if ( this->fullDirichlet ) DslashLogDirichlet();
     else DslashLogFull();
     acceleratorCopySynchronise();
-    // Everyone agrees we are all done
     _grid->StencilBarrier(); 
   }
   ////////////////////////////////////////////////////////////////////////
@@ -540,6 +539,7 @@ public:
       compress.Point(point);
       HaloGatherDir(source,compress,point,face_idx);
     }
+    accelerator_barrier();
     face_table_computed=1;
     assert(u_comm_offset==_unified_buffer_size);
 
@@ -705,7 +705,7 @@ public:
 	}
       }
     }
-    std::cout << "BuildSurfaceList size is "<<surface_list.size()<<std::endl;
+    std::cout << GridLogDebug << "BuildSurfaceList size is "<<surface_list.size()<<std::endl;
   }
   /// Introduce a block structure and switch off comms on boundaries
   void DirichletBlock(const Coordinate &dirichlet_block)

Grid/tensors/Tensor_exp.h

@@ -55,7 +55,7 @@ template<class vtype, int N> accelerator_inline iVector<vtype, N> Exponentiate(c
 
 
 // Specialisation: Cayley-Hamilton exponential for SU(3)
-#ifndef GRID_ACCELERATED
+#if 0
 template<class vtype, typename std::enable_if< GridTypeMapper<vtype>::TensorLevel == 0>::type * =nullptr> 
 accelerator_inline iMatrix<vtype,3> Exponentiate(const iMatrix<vtype,3> &arg, RealD alpha  , Integer Nexp = DEFAULT_MAT_EXP )
 {

HMC/FTHMC2p1f.cc

@@ -0,0 +1,224 @@
+/*************************************************************************************
+
+Grid physics library, www.github.com/paboyle/Grid
+
+Copyright (C) 2023
+
+Author: Peter Boyle <pabobyle@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/qcd/smearing/GaugeConfigurationMasked.h>
+#include <Grid/qcd/smearing/JacobianAction.h>
+
+using namespace Grid;
+
+int main(int argc, char **argv)
+{
+  std::cout << std::setprecision(12);
+  
+  Grid_init(&argc, &argv);
+  int threads = GridThread::GetThreads();
+  // here make a routine to print all the relevant information on the run
+  std::cout << GridLogMessage << "Grid is setup to use " << threads << " threads" << std::endl;
+
+   // Typedefs to simplify notation
+  typedef WilsonImplR FermionImplPolicy;
+  typedef MobiusFermionD FermionAction;
+  typedef typename FermionAction::FermionField FermionField;
+
+  typedef Grid::XmlReader       Serialiser;
+
+  //::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
+  IntegratorParameters MD;
+  //  typedef GenericHMCRunner<LeapFrog> HMCWrapper;
+  //  MD.name    = std::string("Leap Frog");
+  //  typedef GenericHMCRunner<ForceGradient> HMCWrapper;
+  //  MD.name    = std::string("Force Gradient");
+  typedef GenericHMCRunner<MinimumNorm2> HMCWrapper;
+  MD.name    = std::string("MinimumNorm2");
+  MD.MDsteps = 12;
+  MD.trajL   = 1.0;
+
+  HMCparameters HMCparams;
+  HMCparams.StartTrajectory  = 0;
+  HMCparams.Trajectories     = 200;
+  HMCparams.NoMetropolisUntil=  20;
+  // "[HotStart, ColdStart, TepidStart, CheckpointStart]\n";
+  HMCparams.StartingType     =std::string("HotStart");
+  HMCparams.MD = MD;
+  HMCWrapper TheHMC(HMCparams);
+
+  // Grid from the command line arguments --grid and --mpi
+  TheHMC.Resources.AddFourDimGrid("gauge"); // use default simd lanes decomposition
+
+  CheckpointerParameters CPparams;
+  CPparams.config_prefix = "ckpoint_EODWF_lat";
+  CPparams.smeared_prefix = "ckpoint_EODWF_lat_smr";
+  CPparams.rng_prefix    = "ckpoint_EODWF_rng";
+  CPparams.saveInterval  = 1;
+  CPparams.saveSmeared   = true;
+  CPparams.format        = "IEEE64BIG";
+  TheHMC.Resources.LoadNerscCheckpointer(CPparams);
+
+  RNGModuleParameters RNGpar;
+  RNGpar.serial_seeds = "1 2 3 4 5";
+  RNGpar.parallel_seeds = "6 7 8 9 10";
+  TheHMC.Resources.SetRNGSeeds(RNGpar);
+
+  // Construct observables
+  // here there is too much indirection
+  typedef PlaquetteMod<HMCWrapper::ImplPolicy> PlaqObs;
+  TheHMC.Resources.AddObservable<PlaqObs>();
+  //////////////////////////////////////////////
+
+  const int Ls      = 16;
+  Real beta         = 2.13;
+  Real light_mass   = 0.01;
+  Real strange_mass = 0.04;
+  Real pv_mass      = 1.0;
+  RealD M5  = 1.8;
+  RealD b   = 1.0; // Scale factor two
+  RealD c   = 0.0;
+
+  OneFlavourRationalParams OFRp;
+  OFRp.lo       = 1.0e-2;
+  OFRp.hi       = 64;
+  OFRp.MaxIter  = 10000;
+  OFRp.tolerance= 1.0e-10;
+  OFRp.degree   = 14;
+  OFRp.precision= 40;
+
+  std::vector<Real> hasenbusch({ 0.1 });
+
+  auto GridPtr   = TheHMC.Resources.GetCartesian();
+  auto GridRBPtr = TheHMC.Resources.GetRBCartesian();
+  auto FGrid     = SpaceTimeGrid::makeFiveDimGrid(Ls,GridPtr);
+  auto FrbGrid   = SpaceTimeGrid::makeFiveDimRedBlackGrid(Ls,GridPtr);
+
+  IwasakiGaugeActionR GaugeAction(beta);
+
+  // temporarily need a gauge field
+  LatticeGaugeField U(GridPtr);
+  LatticeGaugeField Uhot(GridPtr);
+
+  // These lines are unecessary if BC are all periodic
+  std::vector<Complex> boundary = {1,1,1,-1};
+  FermionAction::ImplParams Params(boundary);
+
+  double StoppingCondition = 1e-10;
+  double MaxCGIterations = 30000;
+  ConjugateGradient<FermionField>  CG(StoppingCondition,MaxCGIterations);
+
+  bool ApplySmearing = true;
+  
+  ////////////////////////////////////
+  // Collect actions
+  ////////////////////////////////////
+  ActionLevel<HMCWrapper::Field> Level1(1);
+  ActionLevel<HMCWrapper::Field> Level2(2);
+  ActionLevel<HMCWrapper::Field> Level3(4);
+
+  ////////////////////////////////////
+  // Strange action
+  ////////////////////////////////////
+
+  MobiusEOFAFermionD Strange_Op_L (U , *FGrid , *FrbGrid , *GridPtr , *GridRBPtr , strange_mass, strange_mass, pv_mass, 0.0, -1, M5, b, c);
+  MobiusEOFAFermionD Strange_Op_R (U , *FGrid , *FrbGrid , *GridPtr , *GridRBPtr , pv_mass, strange_mass,      pv_mass, -1.0, 1, M5, b, c);
+  ExactOneFlavourRatioPseudoFermionAction<FermionImplPolicy> 
+    EOFA(Strange_Op_L, Strange_Op_R, 
+	 CG,
+	 CG, CG,
+	 CG, CG, 
+	 OFRp, false);
+
+  EOFA.is_smeared = ApplySmearing;
+  Level1.push_back(&EOFA);
+
+  ////////////////////////////////////
+  // up down action
+  ////////////////////////////////////
+  std::vector<Real> light_den;
+  std::vector<Real> light_num;
+
+  int n_hasenbusch = hasenbusch.size();
+  light_den.push_back(light_mass);
+  for(int h=0;h<n_hasenbusch;h++){
+    light_den.push_back(hasenbusch[h]);
+    light_num.push_back(hasenbusch[h]);
+  }
+  light_num.push_back(pv_mass);
+
+  std::vector<FermionAction *> Numerators;
+  std::vector<FermionAction *> Denominators;
+  std::vector<TwoFlavourEvenOddRatioPseudoFermionAction<FermionImplPolicy> *> Quotients;
+
+  for(int h=0;h<n_hasenbusch+1;h++){
+    std::cout << GridLogMessage << " 2f quotient Action  "<< light_num[h] << " / " << light_den[h]<< std::endl;
+    Numerators.push_back  (new FermionAction(U,*FGrid,*FrbGrid,*GridPtr,*GridRBPtr,light_num[h],M5,b,c, Params));
+    Denominators.push_back(new FermionAction(U,*FGrid,*FrbGrid,*GridPtr,*GridRBPtr,light_den[h],M5,b,c, Params));
+    Quotients.push_back   (new TwoFlavourEvenOddRatioPseudoFermionAction<FermionImplPolicy>(*Numerators[h],*Denominators[h],CG,CG));
+  }
+
+  for(int h=0;h<n_hasenbusch+1;h++){
+    Quotients[h]->is_smeared = ApplySmearing;
+    Level1.push_back(Quotients[h]);
+  }
+
+  /////////////////////////////////////////////////////////////
+  // lnDetJacobianAction
+  /////////////////////////////////////////////////////////////
+  double rho = 0.1;  // smearing parameter
+  int Nsmear = 1;    // number of smearing levels - must be multiple of 2Nd
+  int Nstep  = 8*Nsmear;    // number of smearing levels - must be multiple of 2Nd
+  Smear_Stout<HMCWrapper::ImplPolicy> Stout(rho);
+  SmearedConfigurationMasked<HMCWrapper::ImplPolicy> SmearingPolicy(GridPtr, Nstep, Stout);
+  JacobianAction<HMCWrapper::ImplPolicy> Jacobian(&SmearingPolicy);
+  if( ApplySmearing ) Level2.push_back(&Jacobian);
+  std::cout << GridLogMessage << " Built the Jacobian "<< std::endl;
+
+
+  /////////////////////////////////////////////////////////////
+  // Gauge action
+  /////////////////////////////////////////////////////////////
+  //  GaugeAction.is_smeared = ApplySmearing;
+  GaugeAction.is_smeared = true;
+  Level3.push_back(&GaugeAction);
+
+  std::cout << GridLogMessage << " ************************************************"<< std::endl;
+  std::cout << GridLogMessage << " Action complete -- NO FERMIONS FOR NOW -- FIXME"<< std::endl;
+  std::cout << GridLogMessage << " ************************************************"<< std::endl;
+  std::cout << GridLogMessage <<  std::endl;
+  std::cout << GridLogMessage <<  std::endl;
+
+
+  std::cout << GridLogMessage << " Running the FT HMC "<< std::endl;
+
+  TheHMC.TheAction.push_back(Level1);
+  TheHMC.TheAction.push_back(Level2);
+  TheHMC.TheAction.push_back(Level3);
+
+  TheHMC.Run(SmearingPolicy); // for smearing
+
+  Grid_finalize();
+} // main
+
+
+

HMC/Mobius2p1f_EOFA_96I_hmc.cc

@@ -146,6 +146,8 @@ NAMESPACE_END(Grid);
 int main(int argc, char **argv) {
   using namespace Grid;
 
+  std::cout << " Grid Initialise "<<std::endl;
+  
   Grid_init(&argc, &argv);
 
   CartesianCommunicator::BarrierWorld();
@@ -170,24 +172,24 @@ int main(int argc, char **argv) {
   IntegratorParameters MD;
   //  typedef GenericHMCRunner<LeapFrog> HMCWrapper;
   //  MD.name    = std::string("Leap Frog");
-  typedef GenericHMCRunner<ForceGradient> HMCWrapper;
-  MD.name    = std::string("Force Gradient");
-  //typedef GenericHMCRunner<MinimumNorm2> HMCWrapper;
-  // MD.name    = std::string("MinimumNorm2");
+  //  typedef GenericHMCRunner<ForceGradient> HMCWrapper;
+  //  MD.name    = std::string("Force Gradient");
+  typedef GenericHMCRunner<MinimumNorm2> HMCWrapper;
+  MD.name    = std::string("MinimumNorm2");
   // TrajL = 2
   // 4/2 => 0.6 dH
   // 3/3 => 0.8 dH .. depth 3, slower
   //MD.MDsteps =  4;
-  MD.MDsteps =  12;
+  MD.MDsteps =  14;
   MD.trajL   = 0.5;
 
   HMCparameters HMCparams;
   HMCparams.StartTrajectory  = 1077;
-  HMCparams.Trajectories     = 1;
+  HMCparams.Trajectories     = 20;
   HMCparams.NoMetropolisUntil=  0;
   // "[HotStart, ColdStart, TepidStart, CheckpointStart]\n";
-  //  HMCparams.StartingType     =std::string("ColdStart");
-  HMCparams.StartingType     =std::string("CheckpointStart");
+  HMCparams.StartingType     =std::string("ColdStart");
+  //  HMCparams.StartingType     =std::string("CheckpointStart");
   HMCparams.MD = MD;
   HMCWrapper TheHMC(HMCparams);
 
@@ -223,7 +225,7 @@ int main(int argc, char **argv) {
   Real pv_mass      = 1.0;
   //  std::vector<Real> hasenbusch({ 0.01, 0.045, 0.108, 0.25, 0.51 , pv_mass });
   //  std::vector<Real> hasenbusch({ light_mass, 0.01, 0.045, 0.108, 0.25, 0.51 , pv_mass });
-  std::vector<Real> hasenbusch({ 0.005, 0.0145, 0.045, 0.108, 0.25, 0.51 , pv_mass }); // Updated
+  std::vector<Real> hasenbusch({ 0.005, 0.0145, 0.045, 0.108, 0.25, 0.51 }); // Updated
   //  std::vector<Real> hasenbusch({ light_mass, 0.0145, 0.045, 0.108, 0.25, 0.51 , 0.75 , pv_mass });
 
   auto GridPtr   = TheHMC.Resources.GetCartesian();
@@ -275,10 +277,10 @@ int main(int argc, char **argv) {
 
   //  double StoppingCondition = 1e-14;
   //  double MDStoppingCondition = 1e-9;
-  double StoppingCondition = 1e-8;
-  double MDStoppingCondition = 1e-7;
-  double MDStoppingConditionLoose = 1e-7;
-  double MDStoppingConditionStrange = 1e-7;
+  double StoppingCondition = 1e-9;
+  double MDStoppingCondition = 1e-8;
+  double MDStoppingConditionLoose = 1e-8;
+  double MDStoppingConditionStrange = 1e-8;
   double MaxCGIterations = 300000;
   ConjugateGradient<FermionField>  CG(StoppingCondition,MaxCGIterations);
   ConjugateGradient<FermionField>  MDCG(MDStoppingCondition,MaxCGIterations);

documentation/David_notes.txt

@@ -0,0 +1,90 @@
+Branch: develop
+
+Files:
+
+Grid/lattice/PaddedCell.h -- Halo exchange
+tests/Test_general_stencil.cc -- test local off axis stencil addressing
+tests/debug/Test_padded_cell.cc -- test PaddedCell halo exchange and the General local stencil  by computing ALL plaquettes on lattice
+
+Functionality:
+
+-- extend a lattice field:
+Grid/lattice/PaddedCell.h
+
+// Constructor
+  PaddedCell(int _depth,GridCartesian *_grid)
+
+// Expand a field "in" to depth "d"
+  template<class vobj>
+  inline Lattice<vobj> Exchange(Lattice<vobj> &in)
+  
+// Take the "apple core" of in to a smaller local volume
+  template<class vobj>
+  inline Lattice<vobj> Extract(Lattice<vobj> &in)
+
+-- Plaquette test:
+tests/debug/Test_padded_cell.cc
+  /////////////////////////////////////////////////
+  // Create a padded cell of extra padding depth=1
+  /////////////////////////////////////////////////
+  int depth = 1;
+  PaddedCell Ghost(depth,&GRID);
+  LatticeGaugeField Ughost = Ghost.Exchange(Umu);
+
+///// Array for the site plaquette
+  GridBase *GhostGrid = Ughost.Grid();
+  LatticeComplex gplaq(GhostGrid); 
+
+  std::vector<Coordinate> shifts;
+  for(int mu=0;mu<Nd;mu++){
+    for(int nu=mu+1;nu<Nd;nu++){
+  
+      //    Umu(x) Unu(x+mu) Umu^dag(x+nu) Unu^dag(x)
+      Coordinate shift_0(Nd,0);
+      Coordinate shift_mu(Nd,0); shift_mu[mu]=1;
+      Coordinate shift_nu(Nd,0); shift_nu[nu]=1;
+      shifts.push_back(shift_0);
+      shifts.push_back(shift_mu);
+      shifts.push_back(shift_nu);
+      shifts.push_back(shift_0);
+    }
+  }
+  GeneralLocalStencil gStencil(GhostGrid,shifts);
+
+  gplaq=Zero();
+  {
+    autoView( gp_v , gplaq, CpuWrite);
+    autoView( t_v , trplaq, CpuRead);
+    autoView( U_v , Ughost, CpuRead);
+    for(int ss=0;ss<gp_v.size();ss++){
+      int s=0;
+      for(int mu=0;mu<Nd;mu++){
+	for(int nu=mu+1;nu<Nd;nu++){
+
+	  auto SE0 = gStencil.GetEntry(s+0,ss);
+	  auto SE1 = gStencil.GetEntry(s+1,ss);
+	  auto SE2 = gStencil.GetEntry(s+2,ss);
+	  auto SE3 = gStencil.GetEntry(s+3,ss);
+	
+	  int o0 = SE0->_offset;
+	  int o1 = SE1->_offset;
+	  int o2 = SE2->_offset;
+	  int o3 = SE3->_offset;
+	  
+	  auto U0 = U_v[o0](mu);
+	  auto U1 = U_v[o1](nu);
+	  auto U2 = adj(U_v[o2](mu));
+	  auto U3 = adj(U_v[o3](nu));
+
+	  gpermute(U0,SE0->_permute);
+	  gpermute(U1,SE1->_permute);
+	  gpermute(U2,SE2->_permute);
+	  gpermute(U3,SE3->_permute);
+	  
+	  gp_v[ss]() =gp_v[ss]() + trace( U0*U1*U2*U3 );
+	  s=s+4;
+	}
+      }
+    }
+  }
+  cplaq = Ghost.Extract(gplaq);

grid-config.in

@@ -60,7 +60,7 @@ while test $# -gt 0; do
     ;;
     
     --cxxflags)
-      echo @GRID_CXXFLAGS@
+      echo @GRID_CXXFLAGS@ -I@prefix@/include
     ;;
     
     --cxx)
@@ -72,11 +72,11 @@ while test $# -gt 0; do
     ;;
     
     --ldflags)
-      echo @GRID_LDFLAGS@
+      echo @GRID_LDFLAGS@ -L@prefix@/lib
     ;;
     
     --libs)
-      echo @GRID_LIBS@
+      echo @GRID_LIBS@ -lGrid
     ;;
     
     --summary)

systems/Lumi/benchmarks/bench2.slurm

@@ -0,0 +1,44 @@
+#!/bin/bash -l
+#SBATCH --job-name=bench_lehner
+#SBATCH --partition=small-g
+#SBATCH --nodes=2
+#SBATCH --ntasks-per-node=8
+#SBATCH --cpus-per-task=7
+#SBATCH --gpus-per-node=8
+#SBATCH --time=00:10:00
+#SBATCH --account=project_465000546
+#SBATCH --gpu-bind=none
+#SBATCH --exclusive
+#SBATCH --mem=0
+
+CPU_BIND="map_cpu:48,56,32,40,16,24,1,8"
+echo $CPU_BIND
+
+cat << EOF > select_gpu
+#!/bin/bash
+export GPU_MAP=(0 1 2 3 4 5 6 7)
+export GPU=\${GPU_MAP[\$SLURM_LOCALID]}
+export HIP_VISIBLE_DEVICES=\$GPU
+unset ROCR_VISIBLE_DEVICES
+echo RANK \$SLURM_LOCALID using GPU \$GPU    
+exec \$*
+EOF
+
+chmod +x ./select_gpu
+
+root=/scratch/project_465000546/boylepet/Grid/systems/Lumi
+source ${root}/sourceme.sh
+
+export OMP_NUM_THREADS=7
+export MPICH_GPU_SUPPORT_ENABLED=1
+export MPICH_SMP_SINGLE_COPY_MODE=XPMEM
+
+for vol in 16.16.16.64 32.32.32.64  32.32.32.128
+do
+srun --cpu-bind=${CPU_BIND} ./select_gpu ./Benchmark_dwf_fp32 --mpi 2.2.2.2 --accelerator-threads 8 --comms-overlap --shm 2048 --shm-mpi 0 --grid $vol  > log.shm0.ov.$vol
+#srun --cpu-bind=${CPU_BIND} ./select_gpu ./Benchmark_dwf_fp32 --mpi 2.2.2.2 --accelerator-threads 8 --comms-overlap --shm 2048 --shm-mpi 1 --grid $vol  > log.shm1.ov.$vol
+
+srun --cpu-bind=${CPU_BIND} ./select_gpu ./Benchmark_dwf_fp32 --mpi 2.2.2.2 --accelerator-threads 8 --comms-sequential --shm 2048 --shm-mpi 0 --grid $vol  > log.shm0.seq.$vol
+#srun --cpu-bind=${CPU_BIND} ./select_gpu ./Benchmark_dwf_fp32 --mpi 2.2.2.2 --accelerator-threads 8 --comms-sequential --shm 2048 --shm-mpi 1 --grid $vol > log.shm1.seq.$vol
+done
+

systems/Lumi/config-command

@@ -0,0 +1,30 @@
+spack load c-lime
+spack load gmp
+spack load mpfr
+CLIME=`spack find --paths c-lime | grep c-lime| cut -c 15-`
+GMP=`spack find --paths gmp | grep gmp | cut -c 12-`
+MPFR=`spack find --paths mpfr | grep mpfr | cut -c 13-`
+echo clime X$CLIME
+echo gmp X$GMP
+echo mpfr X$MPFR
+
+../../configure \
+--enable-comms=mpi-auto \
+--with-lime=$CLIME \
+--enable-unified=no \
+--enable-shm=nvlink \
+--enable-accelerator=hip \
+--enable-gen-simd-width=64 \
+--enable-simd=GPU \
+--enable-accelerator-cshift \
+--with-gmp=$GMP \
+--with-mpfr=$MPFR \
+--with-fftw=$FFTW_DIR/.. \
+--disable-fermion-reps \
+--disable-gparity \
+CXX=hipcc MPICXX=mpicxx \
+  CXXFLAGS="-fPIC --offload-arch=gfx90a -I/opt/rocm/include/ -std=c++14 -I/opt/cray/pe/mpich/8.1.23/ofi/gnu/9.1/include" \
+  LDFLAGS="-L/opt/cray/pe/mpich/8.1.23/ofi/gnu/9.1/lib -lmpi -L/opt/cray/pe/mpich/8.1.23/gtl/lib -lmpi_gtl_hsa -lamdhip64 -fopenmp" 
+
+
+

systems/Lumi/sourceme.sh

@@ -0,0 +1,5 @@
+source ~/spack/share/spack/setup-env.sh
+module load CrayEnv LUMI/22.12 partition/G  cray-fftw/3.3.10.1 rocm
+spack load c-lime
+spack load gmp
+spack load mpfr

systems/Sunspot/benchmarks/bench.pbs

@@ -0,0 +1,46 @@
+#!/bin/bash
+
+#PBS -l select=1:system=sunspot,place=scatter
+#PBS -A LatticeQCD_aesp_CNDA
+#PBS -l walltime=01:00:00
+#PBS -N dwf
+#PBS -k doe
+
+HDIR=/home/paboyle/
+module use /soft/testing/modulefiles/
+module load intel-UMD23.05.25593.11/23.05.25593.11
+module load tools/pti-gpu  
+export LD_LIBRARY_PATH=$HDIR/tools/lib64:$LD_LIBRARY_PATH
+export PATH=$HDIR/tools/bin:$PATH
+
+export TZ='/usr/share/zoneinfo/US/Central'
+export OMP_PROC_BIND=spread
+export OMP_NUM_THREADS=3
+unset OMP_PLACES
+
+cd $PBS_O_WORKDIR
+
+qsub jobscript.pbs
+
+echo Jobid: $PBS_JOBID
+echo Running on host `hostname`
+echo Running on nodes `cat $PBS_NODEFILE`
+
+echo NODES
+cat $PBS_NODEFILE
+NNODES=`wc -l < $PBS_NODEFILE`
+NRANKS=12         # Number of MPI ranks per node
+NDEPTH=4          # Number of hardware threads per rank, spacing between MPI ranks on a node
+NTHREADS=$OMP_NUM_THREADS # Number of OMP threads per rank, given to OMP_NUM_THREADS
+
+NTOTRANKS=$(( NNODES * NRANKS ))
+
+echo "NUM_NODES=${NNODES}  TOTAL_RANKS=${NTOTRANKS}  RANKS_PER_NODE=${NRANKS}  THREADS_PER_RANK=${OMP_NUM_THREADS}"
+echo "OMP_PROC_BIND=$OMP_PROC_BIND OMP_PLACES=$OMP_PLACES"
+
+    
+CMD="mpiexec -np ${NTOTRANKS} -ppn ${NRANKS} -d ${NDEPTH} --cpu-bind=depth -envall \
+	     ./gpu_tile_compact.sh \
+	./Benchmark_dwf_fp32 --mpi 1.1.2.6 --grid 16.32.64.192 --comms-overlap \
+	--shm-mpi 0 --shm 2048 --device-mem 32000 --accelerator-threads 32"
+

systems/Sunspot/benchmarks/gpu_tile_compact.sh

@@ -0,0 +1,52 @@
+#!/bin/bash
+
+display_help() {
+  echo " Will map gpu tile to rank in compact and then round-robin fashion"
+  echo " Usage (only work for one node of ATS/PVC):"
+  echo "   mpiexec --np N gpu_tile_compact.sh ./a.out"
+  echo
+  echo " Example 3 GPU of 2 Tiles with 7 Ranks:"
+  echo "   0 Rank 0.0"
+  echo "   1 Rank 0.1"
+  echo "   2 Rank 1.0"
+  echo "   3 Rank 1.1"
+  echo "   4 Rank 2.0"
+  echo "   5 Rank 2.1"
+  echo "   6 Rank 0.0"
+  echo
+  echo " Hacked together by apl@anl.gov, please contact if bug found"
+  exit 1
+}
+
+#This give the exact GPU count i915 knows about and I use udev to only enumerate the devices with physical presence.
+#works? num_gpu=$(/usr/bin/udevadm info /sys/module/i915/drivers/pci\:i915/* |& grep -v Unknown | grep -c "P: /devices")
+num_gpu=6
+num_tile=2
+
+if [ "$#" -eq 0 ] || [ "$1" == "--help" ] || [ "$1" == "-h" ] || [ "$num_gpu" = 0 ]; then
+  display_help
+fi
+
+gpu_id=$(( (PALS_LOCAL_RANKID / num_tile ) % num_gpu ))
+tile_id=$((PALS_LOCAL_RANKID % num_tile))
+
+unset EnableWalkerPartition
+export EnableImplicitScaling=0
+export ZE_ENABLE_PCI_ID_DEVICE_ORDER=1
+export ZE_AFFINITY_MASK=$gpu_id.$tile_id
+export ONEAPI_DEVICE_FILTER=gpu,level_zero
+export SYCL_PI_LEVEL_ZERO_DEVICE_SCOPE_EVENTS=0
+export SYCL_PI_LEVEL_ZERO_USE_IMMEDIATE_COMMANDLISTS=1
+export SYCL_PI_LEVEL_ZERO_USE_COPY_ENGINE=0:2
+export SYCL_PI_LEVEL_ZERO_USE_COPY_ENGINE_FOR_D2D_COPY=1
+#export SYCL_PI_LEVEL_ZERO_USM_RESIDENT=1
+
+echo "rank $PALS_RANKID ; local rank $PALS_LOCAL_RANKID ; ZE_AFFINITY_MASK=$ZE_AFFINITY_MASK"
+
+if [ $PALS_LOCAL_RANKID = 0 ]
+then
+    onetrace --chrome-device-timeline "$@"
+#    "$@"
+else
+"$@"
+fi

systems/Sunspot/config-command

@@ -0,0 +1,16 @@
+TOOLS=$HOME/tools
+../../configure \
+	--enable-simd=GPU \
+	--enable-gen-simd-width=64 \
+	--enable-comms=mpi-auto \
+	--enable-accelerator-cshift \
+	--disable-gparity \
+	--disable-fermion-reps \
+	--enable-shm=nvlink \
+	--enable-accelerator=sycl \
+	--enable-unified=no \
+	MPICXX=mpicxx \
+	CXX=icpx \
+	LDFLAGS="-fiopenmp -fsycl -fsycl-device-code-split=per_kernel -fsycl-device-lib=all -lze_loader -lapmidg -L$TOOLS/lib64/" \
+	CXXFLAGS="-fiopenmp -fsycl-unnamed-lambda -fsycl -I$INSTALL/include -Wno-tautological-compare -I$HOME/ -I$TOOLS/include"
+

systems/mac-arm/config-command-mpi

@@ -1,2 +1,4 @@
-CXX=mpicxx-openmpi-mp CXXFLAGS=-I/opt/local/include/ LDFLAGS=-L/opt/local/lib/ ../../configure --enable-simd=GEN --enable-debug --enable-comms=mpi --enable-unified=yes
+BREW=/opt/local/
+MPICXX=mpicxx CXX=c++-12 ../../configure --enable-simd=GEN --enable-comms=mpi-auto --enable-unified=yes --prefix $HOME/QCD/GridInstall --with-lime=/Users/peterboyle/QCD/SciDAC/install/ --with-openssl=$BREW --disable-fermion-reps --disable-gparity --disable-debug
+
 

tests/Test_general_stencil.cc

@@ -115,6 +115,7 @@ int main(int argc, char ** argv)
 	  if (SE->_permute & 0x2 ) { permute(check[i],tmp,1); tmp=check[i];}
 	  if (SE->_permute & 0x4 ) { permute(check[i],tmp,2); tmp=check[i];}
 	  if (SE->_permute & 0x8 ) { permute(check[i],tmp,3); tmp=check[i];}
+	  //	  std::cout<<GridLogMessage<<"stencil["<<i<<"] "<< check[i]<< " perm "<<(uint32_t)SE->_permute <<std::endl;
 	}
 
 	Real nrmC = norm2(Check);
@@ -138,18 +139,17 @@ int main(int argc, char ** argv)
 	  ddiff = check -bar;
 	  diff =norm2(ddiff);
 	  if ( diff > 0){
-	    std::cout <<"Coor (" << coor[0]<<","<<coor[1]<<","<<coor[2]<<","<<coor[3]
-		      <<") " <<check<<" vs "<<bar<<std::endl;
+	    std::cout <<"Diff at Coor (" << coor[0]<<","<<coor[1]<<","<<coor[2]<<","<<coor[3]
+		      <<") stencil " <<check<<" vs cshift "<<bar<<std::endl;
 	  }
 
-
 	}}}}
 
 	if (nrm > 1.0e-4) {
 	  autoView( check , Check, CpuRead);
 	  autoView(   bar ,   Bar, CpuRead);
 	  for(int i=0;i<check.size();i++){
-	    std::cout << i<<" Check "<<check[i]<< "\n"<<i<<" Bar "<<bar[i]<<std::endl;
+	    std::cout << i<<" ERROR Check \n"<<check[i]<< "\n"<<i<<" Bar \n"<<bar[i]<<std::endl;
 	  }
 	}
 	if (nrm > 1.0e-4) exit(-1);

tests/core/Test_fft_pf.cc

@@ -0,0 +1,307 @@
+    /*************************************************************************************
+
+    grid` physics library, www.github.com/paboyle/Grid 
+
+    Source file: ./tests/Test_cshift.cc
+
+    Copyright (C) 2015
+
+Author: Azusa Yamaguchi <ayamaguc@staffmail.ed.ac.uk>
+Author: Peter Boyle <paboyle@ph.ed.ac.uk>
+
+    This program is free software; you can redistribute it and/or modify
+    it under the terms of the GNU General Public License as published by
+    the Free Software Foundation; either version 2 of the License, or
+    (at your option) any later version.
+
+    This program is distributed in the hope that it will be useful,
+    but WITHOUT ANY WARRANTY; without even the implied warranty of
+    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+    GNU General Public License for more details.
+
+    You should have received a copy of the GNU General Public License along
+    with this program; if not, write to the Free Software Foundation, Inc.,
+    51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
+
+    See the full license in the file "LICENSE" in the top level distribution directory
+    *************************************************************************************/
+    /*  END LEGAL */
+#include <Grid/Grid.h>
+
+using namespace Grid;
+
+int main (int argc, char ** argv)
+{
+  Grid_init(&argc,&argv);
+
+  int threads = GridThread::GetThreads();
+  std::cout<<GridLogMessage << "Grid is setup to use "<<threads<<" threads"<<std::endl;
+
+  Coordinate latt_size   = GridDefaultLatt();
+  Coordinate simd_layout( { vComplexD::Nsimd(),1,1,1});
+  Coordinate mpi_layout  = GridDefaultMpi();
+
+  int vol = 1;
+  for(int d=0;d<latt_size.size();d++){
+    vol = vol * latt_size[d];
+  }
+  GridCartesian         GRID(latt_size,simd_layout,mpi_layout);
+  GridRedBlackCartesian RBGRID(&GRID);
+
+  ComplexD ci(0.0,1.0);
+
+  std::vector<int> seeds({1,2,3,4});
+  GridSerialRNG          sRNG;  sRNG.SeedFixedIntegers(seeds); // naughty seeding
+  GridParallelRNG          pRNG(&GRID);
+  pRNG.SeedFixedIntegers(seeds);
+
+  LatticeGaugeFieldD Umu(&GRID);
+
+  SU<Nc>::ColdConfiguration(pRNG,Umu); // Unit gauge
+
+  ////////////////////////////////////////////////////
+  // PF prop
+  ////////////////////////////////////////////////////
+  LatticeFermionD    src(&GRID);
+
+  gaussian(pRNG,src);
+#if 1
+    Coordinate point(4,0);
+    src=Zero();
+    SpinColourVectorD ferm; gaussian(sRNG,ferm);
+    pokeSite(ferm,src,point);
+#endif
+  
+  {
+    std::cout<<"****************************************"<<std::endl;
+    std::cout << "Testing PartialFraction Hw kernel Mom space 4d propagator \n";
+    std::cout<<"****************************************"<<std::endl;
+
+    //    LatticeFermionD    src(&GRID); gaussian(pRNG,src);
+    LatticeFermionD    tmp(&GRID);
+    LatticeFermionD    ref(&GRID);
+    LatticeFermionD    diff(&GRID);
+
+    const int Ls=48+1;
+    GridCartesian         * FGrid   = SpaceTimeGrid::makeFiveDimGrid(Ls,&GRID);
+    GridRedBlackCartesian * FrbGrid = SpaceTimeGrid::makeFiveDimRedBlackGrid(Ls,&GRID);
+
+    RealD mass=0.1;
+    RealD M5  =0.8;
+    OverlapWilsonPartialFractionZolotarevFermionD Dov(Umu,*FGrid,*FrbGrid,GRID,RBGRID,mass,M5,0.001,8.0);
+
+    // Momentum space prop
+    std::cout << " Solving by FFT and Feynman rules" <<std::endl;
+    bool fiveD = false; //calculate 4d free propagator
+
+    std::cout << " Free propagator " <<std::endl;
+    Dov.FreePropagator(src,ref,mass) ;
+    std::cout << " Free propagator norm "<< norm2(ref) <<std::endl;
+
+    Gamma G5(Gamma::Algebra::Gamma5);
+
+    LatticeFermionD    src5(FGrid); src5=Zero();
+    LatticeFermionD    tmp5(FGrid); 
+    LatticeFermionD    result5(FGrid); result5=Zero();
+    LatticeFermionD    result4(&GRID); 
+    const int sdir=0;
+
+    ////////////////////////////////////////////////////////////////////////
+    // Import
+    ////////////////////////////////////////////////////////////////////////
+    std::cout << " Free propagator Import "<< norm2(src) <<std::endl;
+    Dov.ImportPhysicalFermionSource  (src,src5);
+    std::cout << " Free propagator Imported "<< norm2(src5) <<std::endl;
+    
+    ////////////////////////////////////////////////////////////////////////
+    // Conjugate gradient on normal equations system
+    ////////////////////////////////////////////////////////////////////////
+    std::cout << " Solving by Conjugate Gradient (CGNE)" <<std::endl;
+    Dov.Mdag(src5,tmp5);
+    src5=tmp5;
+    MdagMLinearOperator<OverlapWilsonPartialFractionZolotarevFermionD,LatticeFermionD> HermOp(Dov);
+    ConjugateGradient<LatticeFermionD> CG(1.0e-8,10000);
+    CG(HermOp,src5,result5);
+    ////////////////////////////////////////////////////////////////////////
+    // Domain wall physical field propagator
+    ////////////////////////////////////////////////////////////////////////
+    Dov.ExportPhysicalFermionSolution(result5,result4);
+
+    // From DWF4d.pdf :
+    //
+    // Dov_pf = 2/(1-m) D_cayley_ovlap  [ Page 43 ]
+    // Dinv_cayley_ovlap = 2/(1-m) Dinv_pf 
+    // Dinv_cayley_surface =1/(1-m) ( Dinv_cayley_ovlap - 1 ) =>  2/(1-m)^2 Dinv_pf - 1/(1-m) * src   [ Eq.2.67 ]
+
+    RealD scale = 2.0/(1.0-mass)/(1.0-mass);
+    result4 = result4 * scale;
+    result4 = result4 - src*(1.0/(1.0-mass)); // Subtract contact term
+    DumpSliceNorm("Src",src);
+    DumpSliceNorm("Grid",result4);
+    DumpSliceNorm("Fourier",ref);
+
+    std::cout << "Dov result4 "<<norm2(result4)<<std::endl;
+    std::cout << "Dov ref     "<<norm2(ref)<<std::endl;
+
+    diff = result4- ref;
+    DumpSliceNorm("diff ",diff);
+    
+  }
+  
+  ////////////////////////////////////////////////////
+  // Dwf prop
+  ////////////////////////////////////////////////////
+  {
+    std::cout<<"****************************************"<<std::endl;
+    std::cout << "Testing Dov(Hw) Mom space 4d propagator \n";
+    std::cout<<"****************************************"<<std::endl;
+
+    LatticeFermionD    tmp(&GRID);
+    LatticeFermionD    ref(&GRID);
+    LatticeFermionD    diff(&GRID);
+
+    const int Ls=48;
+    GridCartesian         * FGrid   = SpaceTimeGrid::makeFiveDimGrid(Ls,&GRID);
+    GridRedBlackCartesian * FrbGrid = SpaceTimeGrid::makeFiveDimRedBlackGrid(Ls,&GRID);
+
+    RealD mass=0.1;
+    RealD M5  =0.8;
+
+    OverlapWilsonCayleyTanhFermionD Dov(Umu,*FGrid,*FrbGrid,GRID,RBGRID,mass,M5,1.0);
+
+    // Momentum space prop
+    std::cout << " Solving by FFT and Feynman rules" <<std::endl;
+    Dov.FreePropagator(src,ref,mass) ;
+
+    Gamma G5(Gamma::Algebra::Gamma5);
+
+    LatticeFermionD    src5(FGrid); src5=Zero();
+    LatticeFermionD    tmp5(FGrid); 
+    LatticeFermionD    result5(FGrid); result5=Zero();
+    LatticeFermionD    result4(&GRID); 
+    const int sdir=0;
+
+    ////////////////////////////////////////////////////////////////////////
+    // Domain wall physical field source; need D_minus
+    ////////////////////////////////////////////////////////////////////////
+    /*
+	chi_5[0]   = chiralProjectPlus(chi);
+	chi_5[Ls-1]= chiralProjectMinus(chi);
+    */      
+    tmp =   (src + G5*src)*0.5;      InsertSlice(tmp,src5,   0,sdir);
+    tmp =   (src - G5*src)*0.5;      InsertSlice(tmp,src5,Ls-1,sdir);
+    
+    ////////////////////////////////////////////////////////////////////////
+    // Conjugate gradient on normal equations system
+    ////////////////////////////////////////////////////////////////////////
+    std::cout << " Solving by Conjugate Gradient (CGNE)" <<std::endl;
+    Dov.Dminus(src5,tmp5);
+    src5=tmp5;
+    Dov.Mdag(src5,tmp5);
+    src5=tmp5;
+    MdagMLinearOperator<OverlapWilsonCayleyTanhFermionD,LatticeFermionD> HermOp(Dov);
+    ConjugateGradient<LatticeFermionD> CG(1.0e-16,10000);
+    CG(HermOp,src5,result5);
+    
+    ////////////////////////////////////////////////////////////////////////
+    // Domain wall physical field propagator
+    ////////////////////////////////////////////////////////////////////////
+    /*
+      psi  = chiralProjectMinus(psi_5[0]);
+      psi += chiralProjectPlus(psi_5[Ls-1]);
+    */
+    ExtractSlice(tmp,result5,0   ,sdir);   result4 =         (tmp-G5*tmp)*0.5;
+    ExtractSlice(tmp,result5,Ls-1,sdir);   result4 = result4+(tmp+G5*tmp)*0.5;
+    
+    std::cout << " Taking difference" <<std::endl;
+    std::cout << "Dov result4 "<<norm2(result4)<<std::endl;
+    std::cout << "Dov ref     "<<norm2(ref)<<std::endl;
+    DumpSliceNorm("Grid",result4);
+    DumpSliceNorm("Fourier",ref);
+    diff = ref - result4;
+    std::cout << "result - ref     "<<norm2(diff)<<std::endl;
+    
+    DumpSliceNorm("diff",diff);
+
+  }
+
+  
+  {
+    std::cout<<"****************************************"<<std::endl;
+    std::cout << "Testing PartialFraction Hw kernel Mom space 4d propagator with q\n";
+    std::cout<<"****************************************"<<std::endl;
+
+    //    LatticeFermionD    src(&GRID); gaussian(pRNG,src);
+    LatticeFermionD    tmp(&GRID);
+    LatticeFermionD    ref(&GRID);
+    LatticeFermionD    diff(&GRID);
+
+    const int Ls=48+1;
+    GridCartesian         * FGrid   = SpaceTimeGrid::makeFiveDimGrid(Ls,&GRID);
+    GridRedBlackCartesian * FrbGrid = SpaceTimeGrid::makeFiveDimRedBlackGrid(Ls,&GRID);
+
+    RealD mass=0.1;
+    RealD M5  =0.8;
+    OverlapWilsonPartialFractionZolotarevFermionD Dov(Umu,*FGrid,*FrbGrid,GRID,RBGRID,mass,M5,0.001,8.0);
+
+    // Momentum space prop
+    std::cout << " Solving by FFT and Feynman rules" <<std::endl;
+    bool fiveD = false; //calculate 4d free propagator
+
+    std::cout << " Free propagator " <<std::endl;
+    Dov.FreePropagator(src,ref,mass) ;
+    std::cout << " Free propagator norm "<< norm2(ref) <<std::endl;
+
+    Gamma G5(Gamma::Algebra::Gamma5);
+
+    LatticeFermionD    src5(FGrid); src5=Zero();
+    LatticeFermionD    tmp5(FGrid); 
+    LatticeFermionD    result5(FGrid); result5=Zero();
+    LatticeFermionD    result4(&GRID); 
+    const int sdir=0;
+
+    ////////////////////////////////////////////////////////////////////////
+    // Import
+    ////////////////////////////////////////////////////////////////////////
+    std::cout << " Free propagator Import "<< norm2(src) <<std::endl;
+    Dov.ImportPhysicalFermionSource  (src,src5);
+    std::cout << " Free propagator Imported "<< norm2(src5) <<std::endl;
+    
+    ////////////////////////////////////////////////////////////////////////
+    // Conjugate gradient on normal equations system
+    ////////////////////////////////////////////////////////////////////////
+    std::cout << " Solving by Conjugate Gradient (CGNE)" <<std::endl;
+    Dov.Mdag(src5,tmp5);
+    src5=tmp5;
+    MdagMLinearOperator<OverlapWilsonPartialFractionZolotarevFermionD,LatticeFermionD> HermOp(Dov);
+    ConjugateGradient<LatticeFermionD> CG(1.0e-8,10000);
+    CG(HermOp,src5,result5);
+    ////////////////////////////////////////////////////////////////////////
+    // Domain wall physical field propagator
+    ////////////////////////////////////////////////////////////////////////
+    Dov.ExportPhysicalFermionSolution(result5,result4);
+
+    // From DWF4d.pdf :
+    //
+    // Dov_pf = 2/(1-m) D_cayley_ovlap  [ Page 43 ]
+    // Dinv_cayley_ovlap = 2/(1-m) Dinv_pf 
+    // Dinv_cayley_surface =1/(1-m) ( Dinv_cayley_ovlap - 1 ) =>  2/(1-m)^2 Dinv_pf - 1/(1-m) * src   [ Eq.2.67 ]
+
+    RealD scale = 2.0/(1.0-mass)/(1.0-mass);
+    result4 = result4 * scale;
+    result4 = result4 - src*(1.0/(1.0-mass)); // Subtract contact term
+    DumpSliceNorm("Src",src);
+    DumpSliceNorm("Grid",result4);
+    DumpSliceNorm("Fourier",ref);
+
+    std::cout << "Dov result4 "<<norm2(result4)<<std::endl;
+    std::cout << "Dov ref     "<<norm2(ref)<<std::endl;
+
+    diff = result4- ref;
+    DumpSliceNorm("diff ",diff);
+    
+  }
+
+  
+  Grid_finalize();
+}

tests/core/Test_lie_generators.cc

@@ -63,7 +63,9 @@ int main(int argc, char** argv) {
   std::cout << "Dimension of adjoint representation: "<< SU2Adjoint::Dimension << std::endl;
 
   // guard as this code fails to compile for Nc != 3
-#if (Nc == 3)
+#if 1
+
+  std::cout << " Printing  Adjoint Generators"<< std::endl;
     
   SU2Adjoint::printGenerators();
   SU2::testGenerators();
@@ -149,9 +151,32 @@ int main(int argc, char** argv) {
     pokeLorentz(UrVr,Urmu*Vrmu, mu);
   }
 
+  typedef typename SU_Adjoint<Nc>::AMatrix AdjointMatrix;
   typename AdjointRep<Nc>::LatticeField Diff_check = UVr - UrVr;
   std::cout << GridLogMessage << "Group structure SU("<<Nc<<") check difference (Adjoint representation) : " << norm2(Diff_check) << std::endl;
 
+  std::cout << GridLogMessage << "****************************************** " << std::endl;
+  std::cout << GridLogMessage << " MAP BETWEEN FUNDAMENTAL AND ADJOINT CHECK " << std::endl;
+  std::cout << GridLogMessage << "****************************************** " << std::endl;
+  for(int a=0;a<Nc*Nc-1;a++){
+  for(int b=0;b<Nc*Nc-1;b++){
+  for(int c=0;c<Nc*Nc-1;c++){
+    ColourMatrix Ta;
+    ColourMatrix Tb;
+    ColourMatrix Tc;
+    SU3::generator(a, Ta);
+    SU3::generator(b, Tb);
+    SU3::generator(c, Tc);
+    AdjointMatrix TRa;
+    SU3Adjoint::generator(a,TRa);
+    Complex tr1 = trace ( Tc * ( Ta*Tb-Tb*Ta)); // i/2 fabc
+    Complex tr2 = TRa()()(b,c) * Complex(0,1);
+    std::cout << " 2 Tr( Tc[Ta,Tb]) " << 2.0*tr1<<std::endl;
+    std::cout << " - TRa_bc " << tr2<<std::endl;
+    assert(abs( (2.0*tr1-tr2) ) < 1.0e-7);
+    std::cout << "------------------"<<std::endl;
+  }}}
+  
   // Check correspondence of algebra and group transformations
   // Create a random vector
   SU3::LatticeAlgebraVector h_adj(grid);

tests/debug/Test_padded_cell.cc

@@ -0,0 +1,184 @@
+    /*************************************************************************************
+
+    Grid physics library, www.github.com/paboyle/Grid 
+
+    Source file: ./tests/Test_padded_cell.cc
+
+    Copyright (C) 2015
+
+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 vobj> void gpermute(vobj & inout,int perm){
+  vobj tmp=inout;
+  if (perm & 0x1 ) { permute(inout,tmp,0); tmp=inout;}
+  if (perm & 0x2 ) { permute(inout,tmp,1); tmp=inout;}
+  if (perm & 0x4 ) { permute(inout,tmp,2); tmp=inout;}
+  if (perm & 0x8 ) { permute(inout,tmp,3); tmp=inout;}
+}
+  
+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 Umu(&GRID);
+
+  SU<Nc>::HotConfiguration(pRNG,Umu);
+
+  Real plaq=WilsonLoops<PeriodicGimplR>::avgPlaquette(Umu);
+  LatticeComplex trplaq(&GRID);
+
+  std::vector<LatticeColourMatrix> U(Nd, Umu.Grid());
+  for (int mu = 0; mu < Nd; mu++) {
+    U[mu] = PeekIndex<LorentzIndex>(Umu, mu);
+  }
+
+  std::cout << GridLogMessage << " Average plaquette "<<plaq<<std::endl;
+
+  LatticeComplex cplaq(&GRID); cplaq=Zero();
+
+  /////////////////////////////////////////////////
+  // Create a padded cell of extra padding depth=1
+  /////////////////////////////////////////////////
+  int depth = 1;
+  PaddedCell Ghost(depth,&GRID);
+  LatticeGaugeField Ughost = Ghost.Exchange(Umu);
+
+  ///////////////////////////////////////////////////////////////////
+  // Temporary debug Hack for single rank sim:
+  // Check the contents of the cell are periodcally replicated
+  // In future ONLY pad those dimensions that are not local to node
+  ///////////////////////////////////////////////////////////////////
+#if 0
+  {
+    double diff=0;
+    double n=0;
+  {
+    autoView( Ug_v , Ughost, CpuRead);
+    autoView( Ul_v , Umu   , CpuRead);
+  for(int x=0;x<latt_size[0]+2;x++){
+  for(int y=0;y<latt_size[1]+2;y++){
+  for(int z=0;z<latt_size[2]+2;z++){
+  for(int t=0;t<latt_size[3]+2;t++){
+    int lx=(x-1+latt_size[0])%latt_size[0];
+    int ly=(y-1+latt_size[1])%latt_size[1];
+    int lz=(z-1+latt_size[2])%latt_size[2];
+    int lt=(t-1+latt_size[3])%latt_size[3];
+    Coordinate gcoor({x,y,z,t});
+    Coordinate lcoor({lx,ly,lz,lt});
+    LorentzColourMatrix g;
+    LorentzColourMatrix l;
+    peekLocalSite(g,Ug_v,gcoor);
+    peekLocalSite(l,Ul_v,lcoor);
+    g=g-l;
+    assert(norm2(g)==0);
+    diff = diff + norm2(g);
+    n = n + norm2(l);
+  }}}}
+  }
+  std::cout << "padded field check diff "<< diff <<" / "<< n<<std::endl;
+  std::cout << norm2(Ughost)<< " " << norm2(Umu)<<std::endl;
+  }
+#endif
+
+  ///// Array for the site plaquette
+  GridBase *GhostGrid = Ughost.Grid();
+  LatticeComplex gplaq(GhostGrid); 
+  
+  std::vector<Coordinate> shifts;
+  for(int mu=0;mu<Nd;mu++){
+    for(int nu=mu+1;nu<Nd;nu++){
+  
+      //    Umu(x) Unu(x+mu) Umu^dag(x+nu) Unu^dag(x)
+      Coordinate shift_0(Nd,0);
+      Coordinate shift_mu(Nd,0); shift_mu[mu]=1;
+      Coordinate shift_nu(Nd,0); shift_nu[nu]=1;
+      shifts.push_back(shift_0);
+      shifts.push_back(shift_mu);
+      shifts.push_back(shift_nu);
+      shifts.push_back(shift_0);
+    }
+  }
+  GeneralLocalStencil gStencil(GhostGrid,shifts);
+
+  gplaq=Zero();
+  {
+    autoView( gp_v , gplaq, CpuWrite);
+    autoView( t_v , trplaq, CpuRead);
+    autoView( U_v , Ughost, CpuRead);
+    for(int ss=0;ss<gp_v.size();ss++){
+      int s=0;
+      for(int mu=0;mu<Nd;mu++){
+	for(int nu=mu+1;nu<Nd;nu++){
+
+	  auto SE0 = gStencil.GetEntry(s+0,ss);
+	  auto SE1 = gStencil.GetEntry(s+1,ss);
+	  auto SE2 = gStencil.GetEntry(s+2,ss);
+	  auto SE3 = gStencil.GetEntry(s+3,ss);
+	
+	  int o0 = SE0->_offset;
+	  int o1 = SE1->_offset;
+	  int o2 = SE2->_offset;
+	  int o3 = SE3->_offset;
+	  
+	  auto U0 = U_v[o0](mu);
+	  auto U1 = U_v[o1](nu);
+	  auto U2 = adj(U_v[o2](mu));
+	  auto U3 = adj(U_v[o3](nu));
+
+	  gpermute(U0,SE0->_permute);
+	  gpermute(U1,SE1->_permute);
+	  gpermute(U2,SE2->_permute);
+	  gpermute(U3,SE3->_permute);
+	  
+	  gp_v[ss]() =gp_v[ss]() + trace( U0*U1*U2*U3 );
+	  s=s+4;
+	}
+      }
+    }
+  }
+  cplaq = Ghost.Extract(gplaq);
+  RealD vol = cplaq.Grid()->gSites();
+  RealD faces = (Nd * (Nd-1))/2;
+  auto p = TensorRemove(sum(cplaq));
+  auto result = p.real()/vol/faces/Nc;
+
+  std::cout << GridLogMessage << " Average plaquette via padded cell "<<result<<std::endl;
+  std::cout << GridLogMessage << " Diff "<<result-plaq<<std::endl;
+  
+  assert(fabs(result-plaq)<1.0e-8);
+  Grid_finalize();
+}

tests/forces/Test_fthmc.cc

@@ -0,0 +1,219 @@
+/*************************************************************************************
+
+    Grid physics library, www.github.com/paboyle/Grid 
+
+    Source file: ./tests/Test_fthmc.cc
+
+    Copyright (C) 2022
+
+Author: Peter Boyle <pboyle@bnl.gov>
+
+    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/qcd/smearing/GaugeConfigurationMasked.h>
+#include <Grid/qcd/smearing/JacobianAction.h>
+
+using namespace std;
+using namespace Grid;
+
+typedef MobiusFermionD FermionAction;
+typedef WilsonImplD FimplD;
+typedef WilsonImplD FermionImplPolicy;
+
+template<class Gimpl>
+void ForceTest(Action<LatticeGaugeField> &action,ConfigurationBase<LatticeGaugeField> & smU,MomentumFilterBase<LatticeGaugeField> &Filter)
+{
+  LatticeGaugeField U = smU.get_U(false); // unsmeared config
+  GridBase *UGrid = U.Grid();
+
+  std::vector<int> seeds({1,2,3,5});
+  GridSerialRNG            sRNG;         sRNG.SeedFixedIntegers(seeds);
+  GridParallelRNG          RNG4(UGrid);  RNG4.SeedFixedIntegers(seeds);
+
+  LatticeColourMatrix Pmu(UGrid); 
+  LatticeGaugeField P(UGrid); 
+  LatticeGaugeField UdSdU(UGrid); 
+
+  std::cout << GridLogMessage << "*********************************************************"<<std::endl;
+  std::cout << GridLogMessage << " Force test for "<<action.action_name()<<std::endl;
+  std::cout << GridLogMessage << "*********************************************************"<<std::endl;
+  
+  RealD eps=0.01;
+
+  std::cout << GridLogMessage << "+++++++++++++++++++++++++++++++++++++++++++++++++++++++++"<<std::endl;
+  std::cout << GridLogMessage << " Refresh "<<action.action_name()<<std::endl;
+  std::cout << GridLogMessage << "+++++++++++++++++++++++++++++++++++++++++++++++++++++++++"<<std::endl;
+  
+  Gimpl::generate_momenta(P,sRNG,RNG4);
+  //  Filter.applyFilter(P);
+
+  action.refresh(smU,sRNG,RNG4);
+
+  std::cout << GridLogMessage << "+++++++++++++++++++++++++++++++++++++++++++++++++++++++++"<<std::endl;
+  std::cout << GridLogMessage << " Action "<<action.action_name()<<std::endl;
+  std::cout << GridLogMessage << "+++++++++++++++++++++++++++++++++++++++++++++++++++++++++"<<std::endl;
+
+  RealD S1 = action.S(smU);
+
+  Gimpl::update_field(P,U,eps);
+  smU.set_Field(U);
+
+  std::cout << GridLogMessage << "+++++++++++++++++++++++++++++++++++++++++++++++++++++++++"<<std::endl;
+  std::cout << GridLogMessage << " Derivative "<<action.action_name()<<std::endl;
+  std::cout << GridLogMessage << "+++++++++++++++++++++++++++++++++++++++++++++++++++++++++"<<std::endl;
+  action.deriv(smU,UdSdU);
+  UdSdU = Ta(UdSdU);
+  //  Filter.applyFilter(UdSdU);
+
+  DumpSliceNorm("Force",UdSdU,Nd-1);
+  
+  Gimpl::update_field(P,U,eps);
+  smU.set_Field(U);
+
+  std::cout << GridLogMessage << "+++++++++++++++++++++++++++++++++++++++++++++++++++++++++"<<std::endl;
+  std::cout << GridLogMessage << " Action "<<action.action_name()<<std::endl;
+  std::cout << GridLogMessage << "+++++++++++++++++++++++++++++++++++++++++++++++++++++++++"<<std::endl;
+  
+  RealD S2 = action.S(smU);
+
+  // Use the derivative
+  LatticeComplex dS(UGrid); dS = Zero();
+  for(int mu=0;mu<Nd;mu++){
+    auto UdSdUmu = PeekIndex<LorentzIndex>(UdSdU,mu);
+    Pmu= PeekIndex<LorentzIndex>(P,mu);
+    dS = dS - trace(Pmu*UdSdUmu)*eps*2.0*HMC_MOMENTUM_DENOMINATOR;
+  }
+  ComplexD dSpred    = sum(dS);
+  RealD diff =  S2-S1-dSpred.real();
+
+  std::cout<< GridLogMessage << "+++++++++++++++++++++++++++++++++++++++++++++++++++++++++"<<std::endl;
+  std::cout<< GridLogMessage << "S1 : "<< S1    <<std::endl;
+  std::cout<< GridLogMessage << "S2 : "<< S2    <<std::endl;
+  std::cout<< GridLogMessage << "dS : "<< S2-S1 <<std::endl;
+  std::cout<< GridLogMessage << "dSpred : "<< dSpred.real() <<std::endl;
+  std::cout<< GridLogMessage << "diff : "<< diff<<std::endl;
+  std::cout<< GridLogMessage << "*********************************************************"<<std::endl;
+  //  assert(diff<1.0);
+  std::cout<< GridLogMessage << "Done" <<std::endl;
+  std::cout << GridLogMessage << "*********************************************************"<<std::endl;
+}
+
+int main (int argc, char ** argv)
+{
+  Grid_init(&argc,&argv);
+
+  std::cout << std::setprecision(14);
+  Coordinate latt_size   = GridDefaultLatt();
+  Coordinate mpi_layout  = GridDefaultMpi();
+  Coordinate simd_layout = GridDefaultSimd(Nd,vComplex::Nsimd());
+  Coordinate shm;
+  GlobalSharedMemory::GetShmDims(mpi_layout,shm);
+
+  const int Ls=12;
+  const int Nt = latt_size[3];
+  GridCartesian         * UGrid   = SpaceTimeGrid::makeFourDimGrid(GridDefaultLatt(), GridDefaultSimd(Nd,vComplex::Nsimd()),GridDefaultMpi());
+  GridRedBlackCartesian * UrbGrid = SpaceTimeGrid::makeFourDimRedBlackGrid(UGrid);
+  GridCartesian         * FGrid   = SpaceTimeGrid::makeFiveDimGrid(Ls,UGrid);
+  GridRedBlackCartesian * FrbGrid = SpaceTimeGrid::makeFiveDimRedBlackGrid(Ls,UGrid);
+
+  
+  ///////////////////// Gauge Field and Gauge Forces ////////////////////////////
+  LatticeGaugeField U(UGrid);
+
+#if  0
+  FieldMetaData header;
+  std::string file("./ckpoint_lat.2000");
+  NerscIO::readConfiguration(U,header,file);
+#else
+  std::vector<int> seeds({1,2,3,4,5,6,7,8});
+  GridParallelRNG          RNG4(UGrid);  RNG4.SeedFixedIntegers(seeds);
+  SU<Nc>::HotConfiguration(RNG4,U);
+#endif
+
+  
+  WilsonGaugeActionR  PlaqAction(6.0);
+  IwasakiGaugeActionR RectAction(2.13);
+  PlaqAction.is_smeared = true;  
+  RectAction.is_smeared = true;  
+
+  ////////////////////////////////////
+  // Fermion Action
+  ////////////////////////////////////
+  RealD mass=0.01; 
+  RealD pvmass=1.0; 
+  RealD M5=1.8; 
+  RealD b=1.5;
+  RealD c=0.5;
+  
+  // Double versions
+  std::vector<Complex> boundary = {1,1,1,-1};
+  FermionAction::ImplParams Params(boundary);
+  FermionAction DdwfPeriodic(U,*FGrid,*FrbGrid,*UGrid,*UrbGrid,mass,M5,b,c,Params);
+  FermionAction PVPeriodic  (U,*FGrid,*FrbGrid,*UGrid,*UrbGrid,pvmass,M5,b,c,Params);
+
+  double StoppingCondition = 1.0e-8;
+  double MaxCGIterations = 50000;
+  ConjugateGradient<LatticeFermion>  CG(StoppingCondition,MaxCGIterations);
+
+  TwoFlavourRatioPseudoFermionAction<FimplD> Nf2(PVPeriodic, DdwfPeriodic,CG,CG);
+  Nf2.is_smeared = true;  
+  
+  ////////////////////////////////////////////////
+  // Plaquette only FTHMC smearer
+  ////////////////////////////////////////////////
+  double rho = 0.1;
+  Smear_Stout<PeriodicGimplR> Smearer(rho);
+  SmearedConfigurationMasked<PeriodicGimplR> SmartConfig(UGrid,2*Nd,Smearer);
+  SmearedConfiguration<PeriodicGimplR> StoutConfig(UGrid,1,Smearer);
+
+  JacobianAction<PeriodicGimplR> Jacobian(&SmartConfig);
+  
+  ////////////////////////////////////////////////
+  // Run some tests
+  ////////////////////////////////////////////////
+  MomentumFilterNone<LatticeGaugeField> FilterNone;
+
+  std::cout << " *********  FIELD TRANSFORM SMEARING ***** "<<std::endl;
+
+  SmartConfig.set_Field(U);
+  ForceTest<GimplTypesR>(PlaqAction,SmartConfig,FilterNone);
+
+  SmartConfig.set_Field(U);
+  ForceTest<GimplTypesR>(RectAction,SmartConfig,FilterNone);
+
+  SmartConfig.set_Field(U);
+  ForceTest<GimplTypesR>(Jacobian,SmartConfig,FilterNone);
+
+  SmartConfig.set_Field(U);
+  ForceTest<GimplTypesR>(Nf2,SmartConfig,FilterNone);
+
+  std::cout << " *********    STOUT SMEARING ***** "<<std::endl;
+
+  StoutConfig.set_Field(U);
+  ForceTest<GimplTypesR>(PlaqAction,StoutConfig,FilterNone);
+
+  StoutConfig.set_Field(U);
+  ForceTest<GimplTypesR>(RectAction,StoutConfig,FilterNone);
+  
+  StoutConfig.set_Field(U);
+  ForceTest<GimplTypesR>(Nf2,StoutConfig,FilterNone);
+  
+
+  Grid_finalize();
+}