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Created: Tue, Jul 30, 19:18

fix_aveforce_cuda_kernel.cu
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	/* ----------------------------------------------------------------------
	LAMMPS - Large-scale Atomic/Molecular Massively Parallel Simulator

	Original Version:
	http://lammps.sandia.gov, Sandia National Laboratories
	Steve Plimpton, sjplimp@sandia.gov

	See the README file in the top-level LAMMPS directory.

	-----------------------------------------------------------------------

	USER-CUDA Package and associated modifications:
	https://sourceforge.net/projects/lammpscuda/

	Christian Trott, christian.trott@tu-ilmenau.de
	Lars Winterfeld, lars.winterfeld@tu-ilmenau.de
	Theoretical Physics II, University of Technology Ilmenau, Germany

	See the README file in the USER-CUDA directory.

	This software is distributed under the GNU General Public License.
	------------------------------------------------------------------------- */

	extern __shared__ F_FLOAT sharedmem[];


	__global__ void Cuda_FixAveForceCuda_PostForce_FOrg_Kernel(int groupbit)
	{
	int i = (blockIdx.x * gridDim.y + blockIdx.y) * blockDim.x + threadIdx.x;
	sharedmem[threadIdx.x] = 0;
	sharedmem[threadIdx.x + blockDim.x] = 0;
	sharedmem[threadIdx.x + 2 * blockDim.x] = 0;
	sharedmem[threadIdx.x + 3 * blockDim.x] = 0;

	if(i < _nlocal)
	if(_mask[i] & groupbit) {
	sharedmem[threadIdx.x] = _f[i];
	sharedmem[threadIdx.x + blockDim.x] = _f[i + 1 * _nmax];
	sharedmem[threadIdx.x + 2 * blockDim.x] = _f[i + 2 * _nmax];
	sharedmem[threadIdx.x + 3 * blockDim.x] = 1;
	}

	reduceBlock(sharedmem);
	reduceBlock(&sharedmem[blockDim.x]);
	reduceBlock(&sharedmem[2 * blockDim.x]);
	reduceBlock(&sharedmem[3 * blockDim.x]);
	F_FLOAT* buffer = (F_FLOAT*) _buffer;

	if(threadIdx.x == 0) {
	buffer[blockIdx.x * gridDim.y + blockIdx.y] = sharedmem[0];
	buffer[blockIdx.x * gridDim.y + blockIdx.y + gridDim.x * gridDim.y] = sharedmem[blockDim.x];
	buffer[blockIdx.x * gridDim.y + blockIdx.y + 2 * gridDim.x * gridDim.y] = sharedmem[2 * blockDim.x];
	buffer[blockIdx.x * gridDim.y + blockIdx.y + 3 * gridDim.x * gridDim.y] = sharedmem[3 * blockDim.x];
	}
	}


	__global__ void Cuda_FixAveForceCuda_reduce_foriginal(int n, F_FLOAT* foriginal)
	{
	int i = 0;
	sharedmem[threadIdx.x] = 0;
	F_FLOAT myforig = 0.0;
	F_FLOAT* buf = (F_FLOAT*) _buffer;
	buf = &buf[blockIdx.x * n];

	while(i < n) {
	sharedmem[threadIdx.x] = 0;

	if(i + threadIdx.x < n)
	sharedmem[threadIdx.x] = buf[i + threadIdx.x];

	__syncthreads();
	reduceBlock(sharedmem);
	i += blockDim.x;

	if(threadIdx.x == 0)
	myforig += sharedmem[0];
	}

	if(threadIdx.x == 0)
	foriginal[blockIdx.x] = myforig;
	}

	__global__ void Cuda_FixAveForceCuda_PostForce_Set_Kernel(int groupbit, int xflag, int yflag, int zflag, F_FLOAT xvalue, F_FLOAT yvalue, F_FLOAT zvalue)
	{
	int i = (blockIdx.x * gridDim.y + blockIdx.y) * blockDim.x + threadIdx.x;

	if(i < _nlocal)
	if(_mask[i] & groupbit) {
	if(xflag) _f[i] = xvalue;

	if(yflag) _f[i + 1 * _nmax] = yvalue;

	if(zflag) _f[i + 2 * _nmax] = zvalue;
	}
	}

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