cuda_neigh_list.cpp
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Created: Mon, Jul 1, 02:21

cuda_neigh_list.cpp
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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.
	------------------------------------------------------------------------- */

	#include "cuda_neigh_list.h"
	#include "neigh_list.h"
	#include <cstring>
	#include <vector>
	#include <map>
	#include <algorithm>
	#include "cuda.h"
	#include "atom.h"
	#include "error.h"

	using namespace LAMMPS_NS;

	CudaNeighList::CudaNeighList(LAMMPS lmp, class NeighList neigh_list) : Pointers(lmp)
	{
	cuda = lmp->cuda;
	if(cuda == NULL)
	error->all("You cannot use a /cuda class, without activating 'cuda' acceleration. Use no '-a' command line argument, or '-a cuda'.");

	MYDBG(printf("# CUDA: CudaNeighList::cudaNeighList() ... start\n");)
	this->neigh_list = neigh_list;
	neigh_list->cuda_list=this;
	sneighlist.maxlocal = neigh_list->get_maxlocal();
	sneighlist.maxneighbors = 32;
	sneighlist.maxcut = 0.0;
	sneighlist.cutneighsq = NULL;
	cu_neighbors = NULL;
	cu_neighbors_border = NULL;
	cu_neighbors_inner = NULL;
	cu_numneigh_border = NULL;
	cu_numneigh_inner = NULL;
	cu_numneigh = NULL;
	cu_ilist = NULL;
	cu_ilist_border = NULL;
	cu_inum_border = NULL;
	inum_border = 0;
	neighbors = NULL;
	neighbors_inner = NULL;
	neighbors_border = NULL;
	numneigh_border = NULL;
	numneigh_inner = NULL;
	ilist_border = NULL;

	build_cuda = false;
	sneighlist.binned_id=NULL;
	sneighlist.bin_dim=new int[3];
	sneighlist.bin_dim[0]=0;
	sneighlist.bin_dim[1]=0;
	sneighlist.bin_dim[2]=0;

	cu_ex_type = NULL;
	cu_ex1_bit = NULL;
	cu_ex2_bit = NULL;
	cu_ex_mol_bit = NULL;
	sneighlist.nex_type=0;
	sneighlist.nex_group=0;
	sneighlist.nex_mol=0;

	sneighlist.bin_nmax=0;
	sneighlist.bin_extraspace=0.05;
	MYDBG(printf("# CUDA: CudaNeighList::cudaNeighList() ... end\n");)

	}

	CudaNeighList::~CudaNeighList()
	{
	dev_free();
	}

	void CudaNeighList::dev_alloc()
	{
	MYDBG( printf("# CUDA: CudaNeighList::dev_alloc() ... start\n"); )
	cu_ilist = new cCudaData<int , int , x> (neigh_list->ilist , & sneighlist.ilist , sneighlist.maxlocal );
	cu_numneigh = new cCudaData<int , int , x> (neigh_list->numneigh, & sneighlist.numneigh , sneighlist.maxlocal );
	neighbors = new int[atom->nmax*sneighlist.maxneighbors];
	cu_neighbors= new cCudaData<int, int, x> (neighbors , & sneighlist.neighbors, atom->nmax*sneighlist.maxneighbors );

	if(cuda->shared_data.overlap_comm)
	{
	ilist_border = new int[sneighlist.maxlocal];
	numneigh_border = new int[sneighlist.maxlocal];
	numneigh_inner = new int[sneighlist.maxlocal];
	cu_inum_border = new cCudaData<int , int , x> (&inum_border , & sneighlist.inum_border , 1 );
	cu_ilist_border = new cCudaData<int , int , x> (ilist_border , & sneighlist.ilist_border , sneighlist.maxlocal );
	cu_numneigh_border = new cCudaData<int , int , x> (numneigh_border , & sneighlist.numneigh_border , sneighlist.maxlocal );
	cu_numneigh_inner = new cCudaData<int , int , x> (numneigh_inner , & sneighlist.numneigh_inner , sneighlist.maxlocal );
	neighbors_border = new int[sneighlist.maxlocal*sneighlist.maxneighbors];
	cu_neighbors_border= new cCudaData<int, int, x> (neighbors_border , & sneighlist.neighbors_border, sneighlist.maxlocal*sneighlist.maxneighbors );
	neighbors_inner = new int[sneighlist.maxlocal*sneighlist.maxneighbors];
	cu_neighbors_inner = new cCudaData<int, int, x> (neighbors_inner , & sneighlist.neighbors_inner , sneighlist.maxlocal*sneighlist.maxneighbors );
	}
	MYDBG( printf("# CUDA: CudaNeighList::dev_alloc() ... end\n"); )
	}

	void CudaNeighList::dev_free()
	{
	MYDBG( printf("# CUDA: CudaNeighList::dev_free() ... start\n"); )
	delete cu_numneigh;
	delete cu_ilist;
	delete [] neighbors;
	delete cu_neighbors;

	if(cuda->shared_data.overlap_comm)
	{
	delete [] ilist_border;
	delete [] numneigh_border;
	delete [] numneigh_inner;
	delete [] neighbors_border;
	delete [] neighbors_inner;
	delete cu_inum_border;
	delete cu_neighbors_border;
	delete cu_neighbors_inner;
	delete cu_numneigh_border;
	delete cu_numneigh_inner;
	delete cu_ilist_border;
	}
	MYDBG( printf("# CUDA: CudaNeighList::dev_free() ... end\n"); )
	}

	void CudaNeighList::grow_device()
	{
	MYDBG(printf("# CUDA: CudaNeighList::grow_device() ... start\n");)
	// if host has allocated more memory for atom arrays than device has, then allocate more memory on device
	int new_maxlocal = neigh_list->get_maxlocal();
	if(sneighlist.maxlocal < new_maxlocal)
	{
	sneighlist.maxlocal = new_maxlocal;
	dev_free();
	dev_alloc();
	}

	if(!cu_ilist \|\| !cu_numneigh) dev_alloc();

	// check, if hosts data has been allocated somewhere else
	if(cu_ilist ->get_host_data() != neigh_list->ilist) cu_ilist ->set_host_data(neigh_list->ilist);
	if(cu_numneigh->get_host_data() != neigh_list->numneigh) cu_numneigh->set_host_data(neigh_list->numneigh);

	MYDBG(printf("# CUDA: CudaNeighList::grow_device() ... end\n");)
	}


	void CudaNeighList::nl_upload(bool will_be_changed)
	{
	//return;
	MYDBG(printf("# CUDA: CudaNeighList::nl_upload() ... start\n");)
	if(cu_ilist)
	cu_ilist->upload();
	if(cu_numneigh)
	cu_numneigh->upload();
	MYDBG(printf("# CUDA: CudaNeighList::nl_upload() ... end\n");)
	}

	void CudaNeighList::nl_download(bool will_be_changed)
	{
	MYDBG(printf("# CUDA: CudaNeighList::nl_download() ... start\n");)
	if(cu_ilist)
	cu_ilist->download();
	if(cu_numneigh)
	cu_numneigh->download();
	MYDBG(printf("# CUDA: CudaNeighList::nl_download() ... end\n");)
	}

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