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Commit 783c2115 authored by Mark Friedrichs's avatar Mark Friedrichs
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platforms/cuda/src/kernels/kCalculateGBVIBornSum.cu 0 → 100755
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/* -------------------------------------------------------------------------- *
* OpenMM *
* -------------------------------------------------------------------------- *
* This is part of the OpenMM molecular simulation toolkit originating from *
* Simbios, the NIH National Center for Physics-Based Simulation of *
* Biological Structures at Stanford, funded under the NIH Roadmap for *
* Medical Research, grant U54 GM072970. See https://simtk.org. *
* *
* Portions copyright (c) 2009 Stanford University and the Authors. *
* Authors: Scott Le Grand, Peter Eastman *
* Contributors: *
* *
* Permission is hereby granted, free of charge, to any person obtaining a *
* copy of this software and associated documentation files (the "Software"), *
* to deal in the Software without restriction, including without limitation *
* the rights to use, copy, modify, merge, publish, distribute, sublicense, *
* and/or sell copies of the Software, and to permit persons to whom the *
* Software is furnished to do so, subject to the following conditions: *
* *
* The above copyright notice and this permission notice shall be included in *
* all copies or substantial portions of the Software. *
* *
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR *
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, *
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL *
* THE AUTHORS, CONTRIBUTORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, *
* DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR *
* OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE *
* USE OR OTHER DEALINGS IN THE SOFTWARE. *
* -------------------------------------------------------------------------- */
#include <stdio.h>
#include <cuda.h>
#include <vector_functions.h>
#include <cstdlib>
#include <string>
#include <iostream>
#include <fstream>
using namespace std;
#include "gputypes.h"
#define UNROLLXX 0
#define UNROLLXY 0
struct Atom {
float x;
float y;
float z;
float r;
float sr;
float sum;
float gamma;
};
static __constant__ cudaGmxSimulation cSim;
void SetCalculateGBVIBornSumSim(gpuContext gpu)
{
cudaError_t status;
status = cudaMemcpyToSymbol(cSim, &gpu->sim, sizeof(cudaGmxSimulation));
RTERROR(status, "cudaMemcpyToSymbol: SetSim copy to cSim failed");
}
void GetCalculateGBVIBornSumSim(gpuContext gpu)
{
cudaError_t status;
status = cudaMemcpyFromSymbol(&gpu->sim, cSim, sizeof(cudaGmxSimulation));
RTERROR(status, "cudaMemcpyFromSymbol: SetSim copy from cSim failed");
}
// Include versions of the kernels for N^2 calculations.
#define METHOD_NAME(a, b) a##N2##b
#include "kCalculateGBVIBornSum.h"
#define USE_OUTPUT_BUFFER_PER_WARP
#undef METHOD_NAME
#define METHOD_NAME(a, b) a##N2ByWarp##b
#include "kCalculateGBVIBornSum.h"
// Include versions of the kernels with cutoffs.
#undef METHOD_NAME
#undef USE_OUTPUT_BUFFER_PER_WARP
#define USE_CUTOFF
#define METHOD_NAME(a, b) a##Cutoff##b
#include "kCalculateGBVIBornSum.h"
#define USE_OUTPUT_BUFFER_PER_WARP
#undef METHOD_NAME
#define METHOD_NAME(a, b) a##CutoffByWarp##b
#include "kCalculateGBVIBornSum.h"
// Include versions of the kernels with periodic boundary conditions.
#undef METHOD_NAME
#undef USE_OUTPUT_BUFFER_PER_WARP
#define USE_PERIODIC
#define METHOD_NAME(a, b) a##Periodic##b
#include "kCalculateGBVIBornSum.h"
#define USE_OUTPUT_BUFFER_PER_WARP
#undef METHOD_NAME
#define METHOD_NAME(a, b) a##PeriodicByWarp##b
#include "kCalculateGBVIBornSum.h"
__global__ void kClearGBVIBornSum_kernel()
{
unsigned int pos = blockIdx.x * blockDim.x + threadIdx.x;
while (pos < cSim.stride * cSim.nonbondOutputBuffers)
{
((float*)cSim.pBornSum)[pos] = 0.0f;
pos += gridDim.x * blockDim.x;
}
}
void kClearGBVIBornSum(gpuContext gpu) {
kClearGBVIBornSum_kernel<<<gpu->sim.blocks, 384>>>();
}
__global__ void kReduceGBVIBornSum_kernel()
{
unsigned int pos = (blockIdx.x * blockDim.x + threadIdx.x);
while (pos < cSim.atoms)
{
float sum = 0.0f;
float* pSt = cSim.pBornSum + pos;
float4 atom = cSim.pGBVIData[pos];
// Get summed Born data
for (int i = 0; i < cSim.nonbondOutputBuffers; i++)
{
sum += *pSt;
// printf("%4d %4d A: %9.4f\n", pos, i, *pSt);
pSt += cSim.stride;
}
// Now calculate Born radius
float Rinv = 1.0f/atom.x;
sum = Rinv*Rinv*Rinv - sum;
cSim.pBornRadii[pos] = pow( sum, (-1.0f/3.0f) );
pos += gridDim.x * blockDim.x;
}
}
void kReduceGBVIBornSum(gpuContext gpu)
{
//printf("kReduceGBVIBornSum\n");
#define GBVI_DEBUG 0
#if ( GBVI_DEBUG == 1 )
gpu->psGBVIData->Download();
gpu->psBornSum->Download();
gpu->psPosq4->Download();
(void) fprintf( stderr, "\nkReduceGBVIBornSum: Post BornSum %s Born radii & params\n",
(gpu->bIncludeGBVI ? "GBVI" : "Obc") );
for( int ii = 0; ii < gpu->natoms; ii++ ){
(void) fprintf( stderr, "%d bSum=%14.6e param[%14.6e %14.6e %14.6e] x[%14.6f %14.6f %14.6f %14.6f]\n",
ii,
gpu->psBornSum->_pSysStream[0][ii],
gpu->psGBVIData->_pSysStream[0][ii].x,
gpu->psGBVIData->_pSysStream[0][ii].y,
gpu->psGBVIData->_pSysStream[0][ii].z,
gpu->psPosq4->_pSysStream[0][ii].x, gpu->psPosq4->_pSysStream[0][ii].y,
gpu->psPosq4->_pSysStream[0][ii].z, gpu->psPosq4->_pSysStream[0][ii].w
);
}
#endif
#undef GBVI_DEBUG
kReduceGBVIBornSum_kernel<<<gpu->sim.blocks, 384>>>();
gpu->bRecalculateBornRadii = false;
LAUNCHERROR("kReduceGBVIBornSum");
}
void kCalculateGBVIBornSum(gpuContext gpu)
{
//printf("kCalculateGBVIBornSum\n");
kClearGBVIBornSum( gpu );
LAUNCHERROR("kClearBornSum");
size_t numWithInteractions;
switch (gpu->sim.nonbondedMethod)
{
case NO_CUTOFF:
#define GBVI 0
#if GBVI == 1
int maxPrint = 10;
gpu->psWorkUnit->Download();
fprintf( stderr, "kCalculateGBVIBornSum: bOutputBufferPerWarp=%u blks=%u th/blk=%u wu=%u %u shrd=%u\n", gpu->bOutputBufferPerWarp,
gpu->sim.nonbond_blocks, gpu->sim.nonbond_threads_per_block, gpu->sim.workUnits, gpu->psWorkUnit->_pSysStream[0][0],
sizeof(Atom)*gpu->sim.nonbond_threads_per_block );
gpu->psGBVIData->Download();
gpu->psBornSum->Download();
gpu->psPosq4->Download();
(void) fprintf( stderr, "\nkCalculateGBVIBornSum: pre BornSum %s Born radii & params\n",
(gpu->bIncludeGBVI ? "GBVI" : "Obc") );
for( int ii = 0; ii < gpu->natoms; ii++ ){
(void) fprintf( stderr, "%d bSum=%14.6e param[%14.6e %14.6e %14.6e] x[%14.6f %14.6f %14.6f %14.6f]\n",
ii,
gpu->psBornSum->_pSysStream[0][ii],
gpu->psGBVIData->_pSysStream[0][ii].x,
gpu->psGBVIData->_pSysStream[0][ii].y,
gpu->psGBVIData->_pSysStream[0][ii].z,
gpu->psPosq4->_pSysStream[0][ii].x, gpu->psPosq4->_pSysStream[0][ii].y,
gpu->psPosq4->_pSysStream[0][ii].z, gpu->psPosq4->_pSysStream[0][ii].w
);
if( (ii == maxPrint) && ( ii < (gpu->natoms - maxPrint)) ){
ii = gpu->natoms - maxPrint;
}
}
#endif
#undef GBVI
if (gpu->bOutputBufferPerWarp){
kCalculateGBVIN2ByWarpBornSum_kernel<<<gpu->sim.nonbond_blocks, gpu->sim.nonbond_threads_per_block,
sizeof(Atom)*gpu->sim.nonbond_threads_per_block>>>(gpu->sim.pWorkUnit);
} else {
kCalculateGBVIN2BornSum_kernel<<<gpu->sim.nonbond_blocks, gpu->sim.nonbond_threads_per_block,
sizeof(Atom)*gpu->sim.nonbond_threads_per_block>>>(gpu->sim.pWorkUnit);
}
break;
case CUTOFF:
if (gpu->bOutputBufferPerWarp)
kCalculateGBVICutoffByWarpBornSum_kernel<<<gpu->sim.nonbond_blocks, gpu->sim.nonbond_threads_per_block,
(sizeof(Atom)+sizeof(float))*gpu->sim.nonbond_threads_per_block>>>(gpu->sim.pInteractingWorkUnit);
else
kCalculateGBVICutoffBornSum_kernel<<<gpu->sim.nonbond_blocks, gpu->sim.nonbond_threads_per_block,
(sizeof(Atom)+sizeof(float))*gpu->sim.nonbond_threads_per_block>>>(gpu->sim.pInteractingWorkUnit );
break;
case PERIODIC:
if (gpu->bOutputBufferPerWarp)
kCalculateGBVIPeriodicByWarpBornSum_kernel<<<gpu->sim.nonbond_blocks, gpu->sim.nonbond_threads_per_block,
(sizeof(Atom)+sizeof(float))*gpu->sim.nonbond_threads_per_block>>>(gpu->sim.pInteractingWorkUnit );
else
kCalculateGBVIPeriodicBornSum_kernel<<<gpu->sim.nonbond_blocks, gpu->sim.nonbond_threads_per_block,
(sizeof(Atom)+sizeof(float))*gpu->sim.nonbond_threads_per_block>>>(gpu->sim.pInteractingWorkUnit );
break;
}
LAUNCHERROR("kCalculateGBVIBornSum");
}
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