#ifndef OPENMM_FREE_ENERGY_CUDA_KERNELS_H_
#define OPENMM_FREE_ENERGY_CUDA_KERNELS_H_
/* -------------------------------------------------------------------------- *
* 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) 2008 Stanford University and the Authors. *
* Authors: Peter Eastman *
* Contributors: *
* *
* This program is free software: you can redistribute it and/or modify *
* it under the terms of the GNU Lesser General Public License as published *
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details. *
* *
* You should have received a copy of the GNU Lesser General Public License *
* along with this program. If not, see . *
* -------------------------------------------------------------------------- */
#include "CudaPlatform.h"
#include "openmm/kernels.h"
#include "kernels/gputypes.h"
#include "openmm/System.h"
#include "OpenMMFreeEnergy.h"
#include "openmm/freeEnergyKernels.h"
#include "kernels/GpuNonbondedSoftcore.h"
#include "kernels/GpuLJ14Softcore.h"
#include "kernels/GpuObcGbsaSoftcore.h"
#include "kernels/GpuGBVISoftcore.h"
//#define FreeEnergyDebug
namespace OpenMM {
/**
* This kernel is invoked by NonbondedSoftcoreForce to calculate the forces acting on the system.
*/
class CudaFreeEnergyCalcNonbondedSoftcoreForceKernel : public CalcNonbondedSoftcoreForceKernel {
public:
CudaFreeEnergyCalcNonbondedSoftcoreForceKernel(std::string name, const Platform& platform, CudaPlatform::PlatformData& data, System& system) :
CalcNonbondedSoftcoreForceKernel(name, platform), data(data), system(system) {
gpuNonbondedSoftcore = NULL;
gpuLJ14Softcore = NULL;
#ifdef FreeEnergyDebug
log = stderr;
#else
log = NULL;
#endif
setSim = 0;
numExceptions = 0;
numParticles = 0;
bIncludeGBSA = false;
bIncludeGBVI = false;
bIncludeSoftcore = false;
}
~CudaFreeEnergyCalcNonbondedSoftcoreForceKernel();
/**
* Initialize the kernel.
*
* @param system the System this kernel will be applied to
* @param force the NonbondedForce this kernel will be used for
*/
void initialize(const System& system, const NonbondedSoftcoreForce& force);
/**
* Execute the kernel to calculate the forces.
*
* @param context the context in which to execute this kernel
*/
void executeForces(ContextImpl& context);
/**
* Execute the kernel to calculate the energy.
*
* @param context the context in which to execute this kernel
* @return the potential energy due to the NonbondedForce
*/
double executeEnergy(ContextImpl& context);
/**
* Get flag signalling whether GBSA/OBC force is included
*
* @return flag
*/
bool getIncludeGBSA( void ) const;
/**
* Set flag signalling whether GBSA/OBC force is included
*
* @param inputIncludeGBSA input flag value
*/
void setIncludeGBSA( bool inputIncludeGBSA );
/**
* Get flag signalling whether GB/VI force is included
*
* @return flag
*/
bool getIncludeGBVI( void ) const;
/**
* Set flag signalling whether GB/VI force is included
*
* @param inputIncludeGBVI input flag value
*/
void setIncludeGBVI( bool inputIncludeGBVI );
/**
* Get flag signalling whether softcore force is included
*
* @return flag
*/
bool getIncludeSoftcore( void ) const;
/**
* Set flag signalling whether GB/VI force is included
*
* @param inputIncludeGBVI input flag value
*/
void setIncludeSoftcore( bool inputSoftcore);
/**
* Get number of exceptions
*
* @return number of exceptions
*/
int getNumExceptions( void ) const;
/**
* Get GpuLJ14Softcore
*
* @return GpuLJ14Softcore object
*/
GpuLJ14Softcore* getGpuLJ14Softcore( void ) const;
/**
* Set GpuLJ14Softcore
*
* @param GpuLJ14Softcore object
*/
void setGpuLJ14Softcore( GpuLJ14Softcore* gpuLJ14Softcore );
private:
CudaPlatform::PlatformData& data;
int numParticles;
System& system;
GpuNonbondedSoftcore* gpuNonbondedSoftcore;
GpuLJ14Softcore* gpuLJ14Softcore;
bool bIncludeGBSA;
bool bIncludeGBVI;
bool bIncludeSoftcore;
int numExceptions;
FILE* log;
int setSim;
};
/**
* This kernel is invoked by GBSAOBCForce to calculate the forces acting on the system.
*/
class CudaFreeEnergyCalcGBSAOBCSoftcoreForceKernel : public CalcGBSAOBCSoftcoreForceKernel {
public:
CudaFreeEnergyCalcGBSAOBCSoftcoreForceKernel(std::string name, const Platform& platform, CudaPlatform::PlatformData& data) :
CalcGBSAOBCSoftcoreForceKernel(name, platform), data(data) {
#ifdef FreeEnergyDebug
log = stderr;
#else
log = NULL;
#endif
setSim = 0;
gpuObcGbsaSoftcore = NULL;
}
~CudaFreeEnergyCalcGBSAOBCSoftcoreForceKernel();
/**
* Initialize the kernel.
*
* @param system the System this kernel will be applied to
* @param force the GBSAOBCForce this kernel will be used for
*/
void initialize(const System& system, const GBSAOBCSoftcoreForce& force);
/**
* Execute the kernel to calculate the forces.
*
* @param context the context in which to execute this kernel
*/
void executeForces(ContextImpl& context);
/**
* Execute the kernel to calculate the energy.
*
* @param context the context in which to execute this kernel
* @return the potential energy due to the GBSAOBCForce
*/
double executeEnergy(ContextImpl& context);
private:
CudaPlatform::PlatformData& data;
FILE* log;
int setSim;
GpuObcGbsaSoftcore* gpuObcGbsaSoftcore;
};
/**
* This kernel is invoked by GBVIForce to calculate the forces acting on the system.
*/
class CudaFreeEnergyCalcGBVISoftcoreForceKernel : public CalcGBVISoftcoreForceKernel {
public:
CudaFreeEnergyCalcGBVISoftcoreForceKernel(std::string name, const Platform& platform, CudaPlatform::PlatformData& data) :
CalcGBVISoftcoreForceKernel(name, platform), data(data) {
#ifdef FreeEnergyDebug
log = stderr;
#else
log = NULL;
#endif
setSim = 0;
quinticScaling = 0;
gpuGBVISoftcore = NULL;
}
~CudaFreeEnergyCalcGBVISoftcoreForceKernel();
/**
* Initialize the kernel.
*
* @param system the System this kernel will be applied to
* @param force the GBVIForce this kernel will be used for
* @param scaledRadii the scaled radii (Eq. 5 of Labute paper)
*/
void initialize(const System& system, const GBVISoftcoreForce& force, const std::vector & scaledRadii);
/**
* Execute the kernel to calculate the forces.
*
* @param context the context in which to execute this kernel
*/
void executeForces(ContextImpl& context);
/**
* Execute the kernel to calculate the energy.
*
* @param context the context in which to execute this kernel
* @return the potential energy due to the GBVIForce
*/
double executeEnergy(ContextImpl& context);
/**
* Apply quintic scaling for Born radii
*
* @return nonzero value if scaling is to be applied
*/
int getQuinticScaling(void) const;
/**
* Set flag for quintic scaling for Born radii
*
* @param nonzero value if scaling is to be applied
*/
void setQuinticScaling(int quinticScaling );
private:
CudaPlatform::PlatformData& data;
GpuGBVISoftcore* gpuGBVISoftcore;
FILE* log;
int setSim;
int quinticScaling;
};
} // namespace OpenMM
#endif /*OPENMM_FREE_ENERGY_CUDA_KERNELS_H_*/