Fixed bug in direct PME

Added diagnostics for handling reorder of atoms

plugins/amoeba/openmmapi/src/AmoebaMultipoleForce.cpp

@@ -38,7 +38,7 @@ using namespace OpenMM;
 using std::string;
 using std::vector;
 
-AmoebaMultipoleForce::AmoebaMultipoleForce() : nonbondedMethod(NoCutoff), pmeBSplineOrder(5), cutoffDistance(1.0), ewaldErrorTol(5e-4), mutualInducedIterationMethod(SOR), mutualInducedMaxIterations(60),
+AmoebaMultipoleForce::AmoebaMultipoleForce() : nonbondedMethod(NoCutoff), pmeBSplineOrder(5), cutoffDistance(1.0), ewaldErrorTol(1e-4), mutualInducedIterationMethod(SOR), mutualInducedMaxIterations(60),
                                                mutualInducedTargetEpsilon(1.0e-05), scalingDistanceCutoff(100.0), electricConstant(138.9354558456) {
 }
 

plugins/amoeba/platforms/cuda/src/AmoebaCudaKernels.cpp

@@ -779,17 +779,15 @@ static void computeAmoebaMultipoleForce( AmoebaCudaData& data ) {
     if( data.getMultipoleForceCount() == 0 ){
         gpuCopyWorkUnit( gpu );
     }
-    //if( data.getApplyCutoff() && (data.getMultipoleForceCount() % 100) == 0 ){
-        //gpuReorderAtoms(gpu->gpuContext);
-    //}
     data.incrementMultipoleForceCount();
-    data.initializeGpu();
 
     if( 0 && data.getLog() ){
-        (void) fprintf( data.getLog(), "computeAmoebaMultipoleForce\n" );
+        (void) fprintf( data.getLog(), "In computeAmoebaMultipoleForce\n" );
         (void) fflush( data.getLog());
     }
 
+    data.initializeGpu();
+
     // calculate Born radii
 
     if( data.getHasAmoebaGeneralizedKirkwood() ){
@@ -974,23 +972,27 @@ void CudaCalcAmoebaMultipoleForceKernel::initialize(const System& system, const
         nb.setCutoffDistance(force.getCutoffDistance());
         std::vector<int> pmeGridDimension;
         force.getPmeGridDimensions( pmeGridDimension );
-        if( 1 || pmeGridDimension[0] == 0 ){
+        int pmeParametersSetBasedOnEwaldErrorTolerance;
+        if( pmeGridDimension[0] == 0 ){
             NonbondedForceImpl::calcPMEParameters(system, nb, alpha, xsize, ysize, zsize);
-/*
-alpha = 5.446;
-xsize = 60;
-ysize = 48;
-zsize = 48;
-*/
+            pmeParametersSetBasedOnEwaldErrorTolerance = 1;
         } else {
             alpha = force.getAEwald();
             xsize = pmeGridDimension[0];
             ysize = pmeGridDimension[1];
             zsize = pmeGridDimension[2];
+            pmeParametersSetBasedOnEwaldErrorTolerance = 0;
         }
         if( data.getLog() ){
-            (void) fprintf( data.getLog(), "AmoebaMultipoleForce: PME parameters tol=%12.3e cutoff=%12.3f alpha=%12.3f [%d %d %d]\n",
+            (void) fprintf( data.getLog(), "AmoebaMultipoleForce: PME parameters tol=%12.3e cutoff=%12.3f alpha=%12.3f [%d %d %d] -",
                             force.getEwaldErrorTolerance(), force.getCutoffDistance(),  alpha, xsize, ysize, zsize );
+            if( pmeParametersSetBasedOnEwaldErrorTolerance  ){
+                 (void) fprintf( data.getLog(), " parameters set based on error tolerance and OpenMM algorithm.\n" );
+            } else {
+                 double impliedTolerance  = alpha*force.getCutoffDistance();
+                        impliedTolerance  = 0.5*exp( -(impliedTolerance*impliedTolerance) );
+                 (void) fprintf( data.getLog(), " using input parameters   implied tolerance=%12.3e\n", impliedTolerance );
+            }
             (void) fflush( data.getLog() );
         }
         gpuSetAmoebaPMEParameters(data.getAmoebaGpu(), (float) alpha, xsize, ysize, zsize);

plugins/amoeba/platforms/cuda/src/kernels/amoebaCudaGpu.cpp

@@ -3909,6 +3909,33 @@ void cudaWriteVectorOfDoubleVectorsToFile( char* fname, std::vector<int>& fileId
     (void) fclose( filePtr );
 }
 
+CUDAStream<float>* reorderFloat( amoebaGpuContext amoebaGpu, CUDAStream<float>* arrayToReorder ){
+
+     gpuContext gpu                       = amoebaGpu->gpuContext;
+     CUDAStream<float>* reorderdArray     = new CUDAStream<float>(amoebaGpu->gpuContext->sim.paddedNumberOfAtoms, 1, "TempReorder");
+     int* order                           = gpu->psAtomIndex->_pSysData;
+     for( int ii = 0; ii < gpu->natoms; ii++ ){
+         reorderdArray->_pSysStream[0][order[ii]] = arrayToReorder->_pSysStream[0][ii];
+     }
+     return reorderdArray;
+
+}
+
+CUDAStream<float4>* reorderFloat4( amoebaGpuContext amoebaGpu, CUDAStream<float4>* arrayToReorder ){
+
+     gpuContext gpu                       = amoebaGpu->gpuContext;
+     CUDAStream<float4>* reorderdArray    = new CUDAStream<float4>(amoebaGpu->gpuContext->sim.paddedNumberOfAtoms, 1, "TempReorder4");
+     int* order                           = gpu->psAtomIndex->_pSysData;
+     for( int ii = 0; ii < gpu->natoms; ii++ ){
+         reorderdArray->_pSysStream[0][order[ii]].x = arrayToReorder->_pSysStream[0][ii].x;
+         reorderdArray->_pSysStream[0][order[ii]].y = arrayToReorder->_pSysStream[0][ii].y;
+         reorderdArray->_pSysStream[0][order[ii]].z = arrayToReorder->_pSysStream[0][ii].z;
+         reorderdArray->_pSysStream[0][order[ii]].w = arrayToReorder->_pSysStream[0][ii].w;
+     }
+     return reorderdArray;
+
+}
+
 /**---------------------------------------------------------------------------------------
 
    Load contents of arrays into vector
@@ -3920,7 +3947,9 @@ void cudaWriteVectorOfDoubleVectorsToFile( char* fname, std::vector<int>& fileId
 
    --------------------------------------------------------------------------------------- */
 
-void cudaLoadCudaFloatArray( int numberOfParticles, int entriesPerParticle, CUDAStream<float>* array, VectorOfDoubleVectors& outputVector )
+void cudaLoadCudaFloatArray( int numberOfParticles, int entriesPerParticle,
+                             CUDAStream<float>* array, VectorOfDoubleVectors& outputVector,
+                             int* order )
 {
     // ---------------------------------------------------------------------------------------
 
@@ -3929,14 +3958,19 @@ void cudaLoadCudaFloatArray( int numberOfParticles, int entriesPerParticle, CUDA
     // ---------------------------------------------------------------------------------------
 
     array->Download();
-    int runningIndex  = 0;
+    int orderIndex    = 0;
     
     outputVector.resize( numberOfParticles ); 
- 
     for( int ii = 0; ii < numberOfParticles; ii++ ){ 
-       for( int jj = 0; jj < entriesPerParticle; jj++ ) { 
-          outputVector[ii].push_back( array->_pSysStream[0][runningIndex++] );
-       }
+        if( order ){
+            orderIndex = order[ii];
+        } else {
+            orderIndex = ii;
+        }
+        for( int jj = 0; jj < entriesPerParticle; jj++ ) { 
+            outputVector[orderIndex].push_back( array->_pSysStream[0][entriesPerParticle*ii+jj] );
+        }
+        
     }
 }
 
@@ -3975,6 +4009,7 @@ void cudaLoadCudaFloat2Array( int numberOfParticles, int entriesPerParticle, CUD
     }
 }
 
+
 /**---------------------------------------------------------------------------------------
 
    Load contents of arrays into vector
@@ -3983,10 +4018,12 @@ void cudaLoadCudaFloat2Array( int numberOfParticles, int entriesPerParticle, CUD
    @param entriesPerParticle   entries/particles array
    @param array                cuda array
    @param outputVector         output vector
+   @param order                if set, reorder entries
 
    --------------------------------------------------------------------------------------- */
 
-void cudaLoadCudaFloat4Array( int numberOfParticles, int entriesPerParticle, CUDAStream<float4>* array, VectorOfDoubleVectors& outputVector ) 
+void cudaLoadCudaFloat4Array( int numberOfParticles, int entriesPerParticle, CUDAStream<float4>* array,
+                              VectorOfDoubleVectors& outputVector, int* order ) 
 {
     // ---------------------------------------------------------------------------------------
 
@@ -3996,21 +4033,27 @@ void cudaLoadCudaFloat4Array( int numberOfParticles, int entriesPerParticle, CUD
 
     array->Download();
     int runningIndex  = 0;
+    int orderIndex;
     
     outputVector.resize( numberOfParticles ); 
  
     for( int ii = 0; ii < numberOfParticles; ii++ ){ 
+        if( order ){
+            orderIndex = order[runningIndex];
+        } else {
+            orderIndex = runningIndex;
+        }
         if( entriesPerParticle > 0 ){
-            outputVector[ii].push_back( array->_pSysStream[0][runningIndex].x );
+            outputVector[orderIndex].push_back( array->_pSysStream[0][ii].x );
         }
         if( entriesPerParticle > 1 ){
-            outputVector[ii].push_back( array->_pSysStream[0][runningIndex].y );
+            outputVector[orderIndex].push_back( array->_pSysStream[0][ii].y );
         }
         if( entriesPerParticle > 2 ){
-            outputVector[ii].push_back( array->_pSysStream[0][runningIndex].z );
+            outputVector[orderIndex].push_back( array->_pSysStream[0][ii].z );
         }
         if( entriesPerParticle > 3 ){
-            outputVector[ii].push_back( array->_pSysStream[0][runningIndex].w );
+            outputVector[orderIndex].push_back( array->_pSysStream[0][ii].w );
         }
         runningIndex++;
     }
@@ -4353,8 +4396,8 @@ void trackMutualInducedIterations( amoebaGpuContext amoebaGpu, int iteration){
         }
         (void) fflush( amoebaGpu->log );
         VectorOfDoubleVectors outputVector;
-        cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,                    outputVector );
-        cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psVelm4,                    outputVector );
+        cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,                    outputVector, NULL );
+        cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psVelm4,                    outputVector, NULL );
 /*
             cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psInducedDipole,      outputVector );
             cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psInducedDipolePolar, outputVector );

plugins/amoeba/platforms/cuda/src/kernels/amoebaCudaKernels.h

@@ -147,9 +147,9 @@ extern void cudaWriteFloat1AndFloat1ArraysToFile( int numberOfAtoms, char* fname
                                                   int entriesPerAtom2, CUDAStream<float>* array2 );
 extern void readFile( std::string fileName, StringVectorVector& fileContents );
  
-extern void cudaLoadCudaFloatArray( int numberOfParticles, int entriesPerParticle, CUDAStream<float>* array, VectorOfDoubleVectors& outputVector );
+extern void cudaLoadCudaFloatArray( int numberOfParticles, int entriesPerParticle, CUDAStream<float>* array, VectorOfDoubleVectors& outputVector, int* order );
 extern void cudaLoadCudaFloat2Array( int numberOfParticles, int entriesPerParticle, CUDAStream<float2>* array, VectorOfDoubleVectors& outputVector );
-extern void cudaLoadCudaFloat4Array( int numberOfParticles, int entriesPerParticle, CUDAStream<float4>* array, VectorOfDoubleVectors& outputVector );
+extern void cudaLoadCudaFloat4Array( int numberOfParticles, int entriesPerParticle, CUDAStream<float4>* array, VectorOfDoubleVectors& outputVector, int* order );
 extern void cudaWriteVectorOfDoubleVectorsToFile( char* fname, std::vector<int>& fileId, VectorOfDoubleVectors& outputVector );
 
 extern void kClearFloat( amoebaGpuContext amoebaGpu, unsigned int entries, CUDAStream<float>* fieldToClear );

plugins/amoeba/platforms/cuda/src/kernels/kCalculateAmoebaCudaElectrostatic.cu

@@ -947,9 +947,9 @@ void cudaComputeAmoebaElectrostatic( amoebaGpuContext amoebaGpu )
             std::vector<int> fileId;
             //fileId.push_back( 0 );
             VectorOfDoubleVectors outputVector;
-            cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,            outputVector );
-            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psForce,      outputVector );
-            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psTorque,     outputVector);
+            cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,            outputVector, NULL );
+            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psForce,      outputVector, NULL );
+            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psTorque,     outputVector, NULL);
             cudaWriteVectorOfDoubleVectorsToFile( "CudaForceTorque", fileId, outputVector );
          }
 

plugins/amoeba/platforms/cuda/src/kernels/kCalculateAmoebaCudaFixedEAndGkFields.cu

@@ -562,9 +562,9 @@ void cudaComputeAmoebaFixedEAndGkFields( amoebaGpuContext amoebaGpu )
             //fileId.push_back( 0 );
             VectorOfDoubleVectors outputVector;
             cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,              outputVector );
-            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psE_Field,      outputVector );
-            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psE_FieldPolar, outputVector);
-            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psGk_Field,     outputVector);
+            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psE_Field,      outputVector, NULL );
+            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psE_FieldPolar, outputVector, NULL);
+            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psGk_Field,     outputVector, NULL);
             cudaWriteVectorOfDoubleVectorsToFile( "CudaEAndGkField", fileId, outputVector );
 
          }

plugins/amoeba/platforms/cuda/src/kernels/kCalculateAmoebaCudaFixedEField.cu

@@ -307,8 +307,8 @@ void cudaComputeAmoebaFixedEField( amoebaGpuContext amoebaGpu )
             //fileId.push_back( 0 );
             VectorOfDoubleVectors outputVector;
             //cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,              outputVector );
-            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psE_Field,      outputVector );
-            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psE_FieldPolar, outputVector);
+            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psE_Field,      outputVector, NULL );
+            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psE_FieldPolar, outputVector, NULL);
             cudaWriteVectorOfDoubleVectorsToFile( "CudaEField", fileId, outputVector );
 
          }

plugins/amoeba/platforms/cuda/src/kernels/kCalculateAmoebaCudaKirkwood.cu

@@ -1748,10 +1748,10 @@ static void kReduceToBornForcePrefactor( amoebaGpuContext amoebaGpu )
             std::vector<int> fileId;
             //fileId.push_back( 0 );
             VectorOfDoubleVectors outputVector;
-            cudaLoadCudaFloat4Array( amoebaGpu->gpuContext->natoms,  3, amoebaGpu->gpuContext->psPosq4,       outputVector );
-            cudaLoadCudaFloatArray(  amoebaGpu->gpuContext->natoms,  1, amoebaGpu->gpuContext->psBornRadii,   outputVector );
-            cudaLoadCudaFloat2Array( amoebaGpu->gpuContext->natoms,  2, amoebaGpu->gpuContext->psObcData,     outputVector );
-            cudaLoadCudaFloatArray(  amoebaGpu->gpuContext->natoms,  1, amoebaGpu->gpuContext->psBornForce,   outputVector );
+            cudaLoadCudaFloat4Array( amoebaGpu->gpuContext->natoms,  3, amoebaGpu->gpuContext->psPosq4,       outputVector, NULL );
+            cudaLoadCudaFloatArray(  amoebaGpu->gpuContext->natoms,  1, amoebaGpu->gpuContext->psBornRadii,   outputVector, NULL );
+            cudaLoadCudaFloat2Array( amoebaGpu->gpuContext->natoms,  2, amoebaGpu->gpuContext->psObcData,     outputVector, NULL );
+            cudaLoadCudaFloatArray(  amoebaGpu->gpuContext->natoms,  1, amoebaGpu->gpuContext->psBornForce,   outputVector, NULL );
             cudaWriteVectorOfDoubleVectorsToFile( "CudaBornForce", fileId, outputVector );
             (void) fprintf( amoebaGpu->log, "kReduceToBornForcePrefactor: exiting.\n" );
             (void) fprintf( stderr, "kReduceToBornForcePrefactor: exiting.\n" ); (void) fflush( stderr );
@@ -2069,8 +2069,8 @@ void kCalculateAmoebaKirkwood( amoebaGpuContext amoebaGpu )
             //fileId.push_back( 0 );
             VectorOfDoubleVectors outputVector;
             cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,                    outputVector );
-            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psKirkwoodForce,      outputVector );
-            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psTorque,             outputVector);
+            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psKirkwoodForce,      outputVector, NULL );
+            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psTorque,             outputVector, NULL);
             cudaWriteVectorOfDoubleVectorsToFile( "CudaForceTorque", fileId, outputVector );
 
          }
@@ -2113,8 +2113,8 @@ void kCalculateAmoebaKirkwood( amoebaGpuContext amoebaGpu )
             std::vector<int> fileId;
             //fileId.push_back( 0 );
             VectorOfDoubleVectors outputVector;
-            cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,                    outputVector );
-            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psKirkwoodForce,      outputVector );
+            cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,                    outputVector, NULL );
+            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psKirkwoodForce,      outputVector, NULL );
             cudaWriteVectorOfDoubleVectorsToFile( "CudaKirkwoodForce", fileId, outputVector );
          }
 

plugins/amoeba/platforms/cuda/src/kernels/kCalculateAmoebaCudaKirkwoodEDiff.cu

@@ -1215,9 +1215,9 @@ void kCalculateAmoebaKirkwoodEDiff( amoebaGpuContext amoebaGpu )
             std::vector<int> fileId;
             //fileId.push_back( 0 );
             VectorOfDoubleVectors outputVector;
-            cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,                    outputVector );
-            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psKirkwoodEDiffForce,      outputVector );
-            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psTorque,             outputVector);
+            cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,                    outputVector, NULL );
+            cudaLoadCudaFloatArray(  gpu->natoms, 3, amoebaGpu->psKirkwoodEDiffForce, outputVector, NULL );
+            cudaLoadCudaFloatArray(  gpu->natoms, 3, amoebaGpu->psTorque,             outputVector, NULL);
             cudaWriteVectorOfDoubleVectorsToFile( "CudaForceTorque", fileId, outputVector );
          }
 
@@ -1260,8 +1260,8 @@ void kCalculateAmoebaKirkwoodEDiff( amoebaGpuContext amoebaGpu )
             std::vector<int> fileId;
             //fileId.push_back( 0 );
             VectorOfDoubleVectors outputVector;
-            cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,                    outputVector );
-            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psKirkwoodEDiffForce,      outputVector );
+            cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,                    outputVector, NULL );
+            cudaLoadCudaFloatArray(  gpu->natoms, 3, amoebaGpu->psKirkwoodEDiffForce, outputVector, NULL );
             cudaWriteVectorOfDoubleVectorsToFile( "CudaKirkwoodEDiffForce", fileId, outputVector );
          }
 

plugins/amoeba/platforms/cuda/src/kernels/kCalculateAmoebaCudaMapTorques.cu

@@ -829,8 +829,8 @@ void cudaComputeAmoebaMapTorques( amoebaGpuContext amoebaGpu, CUDAStream<float>*
         //fileId.push_back( 0 );
         VectorOfDoubleVectors outputVector;
         cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,              outputVector );
-        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psForce,      outputVector );
-        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psTorque, outputVector);
+        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psForce,      outputVector, NULL );
+        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psTorque, outputVector, NULL);
         cudaWriteVectorOfDoubleVectorsToFile( "CudaVacuumElecForce", fileId, outputVector );
     }
 #endif
@@ -1031,9 +1031,9 @@ void cudaComputeAmoebaMapTorquesAndAddTotalForce( amoebaGpuContext amoebaGpu,
         //fileId.push_back( 0 );
         VectorOfDoubleVectors outputVector;
         //cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,              outputVector );
-        cudaLoadCudaFloat4Array( gpu->natoms, 4, gpu->psForce4,             outputVector );
-        cudaLoadCudaFloatArray( gpu->natoms,  3, psForce,        outputVector );
-        cudaLoadCudaFloatArray( gpu->natoms,  3, psTorque,       outputVector);
+        cudaLoadCudaFloat4Array( gpu->natoms, 4, gpu->psForce4,             outputVector, NULL );
+        cudaLoadCudaFloatArray( gpu->natoms,  3, psForce,        outputVector, NULL );
+        cudaLoadCudaFloatArray( gpu->natoms,  3, psTorque,       outputVector, NULL);
         cudaWriteVectorOfDoubleVectorsToFile( "CudaVacuumElecForce", fileId, outputVector );
     }
 #endif
@@ -1123,9 +1123,9 @@ void cudaComputeAmoebaMapTorquesAndAddTotalForce2( amoebaGpuContext amoebaGpu,
         //fileId.push_back( 0 );
         VectorOfDoubleVectors outputVector;
         //cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,              outputVector );
-        cudaLoadCudaFloat4Array( gpu->natoms, 4, gpu->psForce4,             outputVector );
-        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psForce,        outputVector );
-        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psTorque,       outputVector);
+        cudaLoadCudaFloat4Array( gpu->natoms, 4, gpu->psForce4,             outputVector, NULL );
+        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psForce,        outputVector, NULL );
+        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psTorque,       outputVector, NULL);
         cudaWriteVectorOfDoubleVectorsToFile( "CudaVacuumElecForce", fileId, outputVector );
     }
 #endif

plugins/amoeba/platforms/cuda/src/kernels/kCalculateAmoebaCudaMutualInducedAndGkFields.cu

@@ -925,9 +925,9 @@ static void cudaComputeAmoebaMutualInducedAndGkFieldBySOR( amoebaGpuContext amoe
         std::vector<int> fileId;
         //fileId.push_back( 0 );
         VectorOfDoubleVectors outputVector;
-        cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,                    outputVector );
-        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psInducedDipole,      outputVector );
-        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psInducedDipolePolar, outputVector );
+        cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,                    outputVector, NULL );
+        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psInducedDipole,      outputVector, NULL );
+        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psInducedDipolePolar, outputVector, NULL );
         cudaWriteVectorOfDoubleVectorsToFile( "CudaMI_GK", fileId, outputVector );
      }
 #endif

plugins/amoeba/platforms/cuda/src/kernels/kCalculateAmoebaCudaMutualInducedField.cu

@@ -594,8 +594,8 @@ static void cudaComputeAmoebaMutualInducedFieldBySOR( amoebaGpuContext amoebaGpu
         //fileId.push_back( 0 );
         VectorOfDoubleVectors outputVector;
 //        cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,                    outputVector );
-        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psInducedDipole,      outputVector );
-        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psInducedDipolePolar, outputVector );
+        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psInducedDipole,      outputVector, NULL );
+        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psInducedDipolePolar, outputVector, NULL );
         cudaWriteVectorOfDoubleVectorsToFile( "CudaMI", fileId, outputVector );
      }
 

plugins/amoeba/platforms/cuda/src/kernels/kCalculateAmoebaCudaPmeFixedEField.cu

@@ -194,18 +194,18 @@ __device__ void calculateFixedFieldRealSpacePairIxn_kernel( FixedFieldParticle&
 
         float ralpha      = cSim.alphaEwald*r;
 
-        float bn0             = erfc(ralpha)/r;
+        float bn0         = erfc(ralpha)/r;
         float alsq2       = 2.0f*cSim.alphaEwald*cSim.alphaEwald;
         float alsq2n      = 1.0f/(cAmoebaSim.sqrtPi*cSim.alphaEwald);
         float exp2a       = exp(-(ralpha*ralpha));
         alsq2n           *= alsq2;
-        float bn1             = (bn0+alsq2n*exp2a)/r2;
+        float bn1         = (bn0+alsq2n*exp2a)/r2;
 
         alsq2n           *= alsq2;
-        float bn2             = (3.0f*bn1+alsq2n*exp2a)/r2;
+        float bn2         = (3.0f*bn1+alsq2n*exp2a)/r2;
 
         alsq2n           *= alsq2;
-        float bn3             = (5.0f*bn2+alsq2n*exp2a)/r2;
+        float bn3         = (5.0f*bn2+alsq2n*exp2a)/r2;
 
         // compute the error function scaled and unscaled terms
 
@@ -565,9 +565,9 @@ if( fabs(debugArray->_pSysStream[0][jj+3*paddedNumberOfAtoms].x) > 0.0 ){
             std::vector<int> fileId;
             //fileId.push_back( 0 );
             VectorOfDoubleVectors outputVector;
-            cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,              outputVector );
-            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psE_Field,      outputVector );
-            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psE_FieldPolar, outputVector);
+            cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,              outputVector, gpu->psAtomIndex->_pSysData );
+            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psE_Field,      outputVector, gpu->psAtomIndex->_pSysData );
+            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psE_FieldPolar, outputVector, gpu->psAtomIndex->_pSysData );
             cudaWriteVectorOfDoubleVectorsToFile( "CudaEField", fileId, outputVector );
          }
          delete debugArray;
@@ -578,9 +578,9 @@ if( fabs(debugArray->_pSysStream[0][jj+3*paddedNumberOfAtoms].x) > 0.0 ){
             std::vector<int> fileId;
             fileId.push_back( 0 );
             VectorOfDoubleVectors outputVector;
-            cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,              outputVector );
-            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psE_Field,      outputVector );
-            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psE_FieldPolar, outputVector);
+            cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,              outputVector, gpu->psAtomIndex->_pSysData );
+            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psE_Field,      outputVector, gpu->psAtomIndex->_pSysData );
+            cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psE_FieldPolar, outputVector, gpu->psAtomIndex->_pSysData);
             cudaWriteVectorOfDoubleVectorsToFile( "CudaEField", fileId, outputVector );
 
          }
@@ -590,4 +590,15 @@ void cudaComputeAmoebaPmeFixedEField( amoebaGpuContext amoebaGpu )
 {
     kCalculateAmoebaPMEFixedMultipoles( amoebaGpu );
     cudaComputeAmoebaPmeDirectFixedEField( amoebaGpu );
+
+    if( 0 ){
+        gpuContext gpu                       = amoebaGpu->gpuContext;
+        std::vector<int> fileId;
+        fileId.push_back( 0 );
+        VectorOfDoubleVectors outputVector;
+        cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,              outputVector, gpu->psAtomIndex->_pSysData );
+        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psE_Field,      outputVector, gpu->psAtomIndex->_pSysData );
+        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psE_FieldPolar, outputVector, gpu->psAtomIndex->_pSysData );
+        cudaWriteVectorOfDoubleVectorsToFile( "CudaEField", fileId, outputVector );
+    }
 }

plugins/amoeba/platforms/cuda/src/kernels/kCalculateAmoebaCudaPmeMutualInducedField.cu

@@ -193,6 +193,7 @@ __device__ void calculatePmeDirectMutualInducedFieldPairIxn_kernel( MutualInduce
         fields[2].z       = 0.0f;
         fields[2].w       = 0.0f;
     }
+/*
 #ifdef AMOEBA_DEBUG
     pullBack[0].x = xr;
     pullBack[0].y = yr;
@@ -204,7 +205,6 @@ __device__ void calculatePmeDirectMutualInducedFieldPairIxn_kernel( MutualInduce
     pullBack[1].z = bn2;
     pullBack[1].w = exp2a;
 
-/*
     pullBack[1].x = atomJ.x - atomI.x;
     pullBack[1].y = atomJ.y - atomI.y;
     pullBack[1].z = atomJ.z - atomI.z;
@@ -212,8 +212,8 @@ __device__ void calculatePmeDirectMutualInducedFieldPairIxn_kernel( MutualInduce
     pullBack[1].x = scale3;
     pullBack[1].y = scale5;
     pullBack[1].z = scale7;
-*/
 #endif
+*/
 }
 
 // Include versions of the kernels for N^2 calculations.
@@ -385,8 +385,7 @@ static void cudaComputeAmoebaPmeMutualInducedFieldMatrixMultiply( amoebaGpuConte
     static const char* methodName = "cudaComputeAmoebaPmeMutualInducedFieldMatrixMultiply";
     static int iteration = 1;
     if( 1 && amoebaGpu->log ){
-        (void) fprintf( amoebaGpu->log, "%s: scalingDistanceCutoff=%.5f\n",
-                        methodName, amoebaGpu->scalingDistanceCutoff );
+        (void) fprintf( amoebaGpu->log, "%s\n", methodName );
         (void) fflush( amoebaGpu->log );
     }
     int paddedNumberOfAtoms                    = amoebaGpu->gpuContext->sim.paddedNumberOfAtoms;
@@ -748,9 +747,9 @@ static void cudaComputeAmoebaPmeMutualInducedFieldBySOR( amoebaGpuContext amoeba
         std::vector<int> fileId;
         fileId.push_back( iteration );
         VectorOfDoubleVectors outputVector;
-        cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,                    outputVector );
-        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psInducedDipole,      outputVector );
-        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psInducedDipolePolar, outputVector );
+        cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,                    outputVector, gpu->psAtomIndex->_pSysData );
+        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psInducedDipole,      outputVector, gpu->psAtomIndex->_pSysData );
+        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psInducedDipolePolar, outputVector, gpu->psAtomIndex->_pSysData );
         cudaWriteVectorOfDoubleVectorsToFile( "CudaPmeMI", fileId, outputVector );
      }
 
@@ -780,9 +779,9 @@ fflush( amoebaGpu->log );
         std::vector<int> fileId;
         //fileId.push_back( 0 );
         VectorOfDoubleVectors outputVector;
-        cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,                    outputVector );
-        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psInducedDipole,      outputVector );
-        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psInducedDipolePolar, outputVector );
+        //cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,                    outputVector );
+        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psInducedDipole,      outputVector, gpu->psAtomIndex->_pSysData );
+        cudaLoadCudaFloatArray( gpu->natoms,  3, amoebaGpu->psInducedDipolePolar, outputVector, gpu->psAtomIndex->_pSysData );
         cudaWriteVectorOfDoubleVectorsToFile( "CudaPmeMI", fileId, outputVector );
      }
 

plugins/amoeba/platforms/cuda/src/kernels/kCalculateAmoebaCudaPmeMutualInducedField.h

@@ -122,6 +122,7 @@ void METHOD_NAME(kCalculateAmoebaPmeMutualInducedField, _kernel)(
                 fieldPolarSum[1]       += mask ? ijField[1].z : 0.0f;
                 fieldPolarSum[2]       += mask ? ijField[2].z : 0.0f;
 
+/*
 #ifdef AMOEBA_DEBUG
 if( atomI == targetAtom || (y+j) == targetAtom ){
             unsigned int index                 = atomI == targetAtom ? (y+j) : atomI;
@@ -173,7 +174,6 @@ if( atomI == targetAtom || (y+j) == targetAtom ){
             debugArray[index].z                = ijField[indexJ+1][2];
             debugArray[index].w                = flag;
 
-/*
             index                             += cAmoebaSim.paddedNumberOfAtoms;
 
             index                             += cAmoebaSim.paddedNumberOfAtoms;
@@ -189,10 +189,10 @@ if( atomI == targetAtom || (y+j) == targetAtom ){
             debugArray[index].y                = scaleMask.x & mask ? 1.0f : -1.0f;
             debugArray[index].z                = scaleMask.y & mask ? 1.0f : -1.0f;
             debugArray[index].w                = + 10.0f;
-*/
 
 }
 #endif
+*/
             }
 
             // Write results
@@ -308,6 +308,7 @@ if( atomI == targetAtom || (y+j) == targetAtom ){
 
                         }
     
+/*
 #ifdef AMOEBA_DEBUG
 if( atomI == targetAtom || (y+jIdx) == targetAtom ){
             unsigned int index                 = atomI == targetAtom ? (y+jIdx) : atomI;
@@ -360,6 +361,7 @@ if( atomI == targetAtom || (y+jIdx) == targetAtom ){
             debugArray[index].w                = flag;
 }
 #endif
+*/
                     }
     
                     tj                  = (tj + 1) & (GRID - 1);

plugins/amoeba/platforms/cuda/src/kernels/kCalculateAmoebaCudaRotateFrame.cu

@@ -528,8 +528,8 @@ void cudaComputeAmoebaLabFrameMoments( amoebaGpuContext amoebaGpu )
         std::vector<int> fileId;
         //fileId.push_back( 0 );
         VectorOfDoubleVectors outputVector;
-        cudaLoadCudaFloat4Array( particles, 3, gpu->psPosq4,                     outputVector );
-        cudaLoadCudaFloatArray( particles,  9, amoebaGpu->psRotationMatrix,      outputVector );
+        cudaLoadCudaFloat4Array( particles, 3, gpu->psPosq4,                     outputVector, gpu->psAtomIndex->_pSysData );
+        cudaLoadCudaFloatArray( particles,  9, amoebaGpu->psRotationMatrix,      outputVector, gpu->psAtomIndex->_pSysData );
         cudaWriteVectorOfDoubleVectorsToFile( "CudaRotationMatrices", fileId, outputVector );
     }
     if( 0 ){
@@ -539,9 +539,9 @@ void cudaComputeAmoebaLabFrameMoments( amoebaGpuContext amoebaGpu )
         //fileId.push_back( 0 );
 
         VectorOfDoubleVectors outputVector;
-        cudaLoadCudaFloat4Array( particles, 3, gpu->psPosq4,                     outputVector );
-        cudaLoadCudaFloatArray( particles,  3, amoebaGpu->psLabFrameDipole,      outputVector );
-        cudaLoadCudaFloatArray( particles,  9, amoebaGpu->psLabFrameQuadrupole,  outputVector );
+        cudaLoadCudaFloat4Array( particles, 3, gpu->psPosq4,                     outputVector, gpu->psAtomIndex->_pSysData );
+        cudaLoadCudaFloatArray( particles,  3, amoebaGpu->psLabFrameDipole,      outputVector, gpu->psAtomIndex->_pSysData );
+        cudaLoadCudaFloatArray( particles,  9, amoebaGpu->psLabFrameQuadrupole,  outputVector, gpu->psAtomIndex->_pSysData );
         cudaWriteVectorOfDoubleVectorsToFile( "CudaRotatedMoments", fileId, outputVector );
     }
   

plugins/amoeba/platforms/cuda/src/kernels/kCalculateAmoebaCudaVdw14_7.cu

@@ -715,8 +715,8 @@ void kCalculateAmoebaVdw14_7Forces( amoebaGpuContext amoebaGpu, int applyCutoff
         std::vector<int> fileId;
         //fileId.push_back( 0 );
         VectorOfDoubleVectors outputVector;
-        cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,                    outputVector );
-        cudaLoadCudaFloat4Array( gpu->natoms,  3, psTempForce,      outputVector );
+        cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4, outputVector, gpu->psAtomIndex->_pSysData );
+        cudaLoadCudaFloat4Array( gpu->natoms,  3, psTempForce, outputVector, gpu->psAtomIndex->_pSysData );
         cudaWriteVectorOfDoubleVectorsToFile( "CudaVdw", fileId, outputVector );
         delete psTempForce;
         //exit(0);

plugins/amoeba/platforms/cuda/src/kernels/kCalculateAmoebaCudaWcaDispersion.cu

@@ -631,8 +631,8 @@ void kCalculateAmoebaWcaDispersionForces( amoebaGpuContext amoebaGpu )
         std::vector<int> fileId;
         //fileId.push_back( 0 );
         VectorOfDoubleVectors outputVector;
-        cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,   outputVector );
-        cudaLoadCudaFloatArray(  gpu->natoms, 3, psTempForce,    outputVector );
+        cudaLoadCudaFloat4Array( gpu->natoms, 3, gpu->psPosq4,   outputVector, NULL );
+        cudaLoadCudaFloatArray(  gpu->natoms, 3, psTempForce,    outputVector, NULL );
         cudaWriteVectorOfDoubleVectorsToFile( "CudaWca", fileId, outputVector );
         delete psTempForce;
         //exit(0);