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Created: Mon, Nov 4, 05:16

lal_coul_long_ext.cpp
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	/***************************************************************************
	coul_long_ext.cpp
	-------------------
	Axel Kohlmeyer (Temple)

	Functions for LAMMPS access to coul/long acceleration routines.

	__________________________________________________________________________
	This file is part of the LAMMPS Accelerator Library (LAMMPS_AL)
	__________________________________________________________________________

	begin : July 2011
	email : a.kohlmeyer@temple.edu
	***************************************************************************/

	#include <iostream>
	#include <cassert>
	#include <math.h>

	#include "lal_coul_long.h"

	using namespace std;
	using namespace LAMMPS_AL;

	static CoulLong<PRECISION,ACC_PRECISION> CLMF;

	// ---------------------------------------------------------------------------
	// Allocate memory on host and device and copy constants to device
	// ---------------------------------------------------------------------------
	int cl_gpu_init(const int inum, const int nall, const int max_nbors,
	const int maxspecial, const double cell_size, int &gpu_mode,
	FILE screen, double host_cut_coulsq, double host_special_coul,
	const double qqrd2e, const double g_ewald) {
	CLMF.clear();
	gpu_mode=CLMF.device->gpu_mode();
	double gpu_split=CLMF.device->particle_split();
	int first_gpu=CLMF.device->first_device();
	int last_gpu=CLMF.device->last_device();
	int world_me=CLMF.device->world_me();
	int gpu_rank=CLMF.device->gpu_rank();
	int procs_per_gpu=CLMF.device->procs_per_gpu();

	CLMF.device->init_message(screen,"coul/long",first_gpu,last_gpu);

	bool message=false;
	if (CLMF.device->replica_me()==0 && screen)
	message=true;

	if (message) {
	fprintf(screen,"Initializing GPU and compiling on process 0...");
	fflush(screen);
	}

	int init_ok=0;
	if (world_me==0)
	init_ok=CLMF.init(inum, nall, 300, maxspecial, cell_size, gpu_split,
	screen, host_cut_coulsq, host_special_coul, qqrd2e,
	g_ewald);

	CLMF.device->world_barrier();
	if (message)
	fprintf(screen,"Done.\n");

	for (int i=0; i<procs_per_gpu; i++) {
	if (message) {
	if (last_gpu-first_gpu==0)
	fprintf(screen,"Initializing GPU %d on core %d...",first_gpu,i);
	else
	fprintf(screen,"Initializing GPUs %d-%d on core %d...",first_gpu,
	last_gpu,i);
	fflush(screen);
	}
	if (gpu_rank==i && world_me!=0)
	init_ok=CLMF.init(inum, nall, 300, maxspecial, cell_size, gpu_split,
	screen, host_cut_coulsq, host_special_coul,
	qqrd2e, g_ewald);

	CLMF.device->gpu_barrier();
	if (message)
	fprintf(screen,"Done.\n");
	}
	if (message)
	fprintf(screen,"\n");

	if (init_ok==0)
	CLMF.estimate_gpu_overhead();
	return init_ok;
	}

	void cl_gpu_clear() {
	CLMF.clear();
	}

	int** cl_gpu_compute_n(const int ago, const int inum_full,
	const int nall, double *host_x, int host_type,
	double sublo, double subhi, tagint tag, int *nspecial,
	tagint **special, const bool eflag, const bool vflag,
	const bool eatom, const bool vatom, int &host_start,
	int ilist, int jnum, const double cpu_time,
	bool &success, double host_q, double boxlo,
	double *prd) {
	return CLMF.compute(ago, inum_full, nall, host_x, host_type, sublo,
	subhi, tag, nspecial, special, eflag, vflag, eatom,
	vatom, host_start, ilist, jnum, cpu_time, success,
	host_q, boxlo, prd);
	}

	void cl_gpu_compute(const int ago, const int inum_full, const int nall,
	double *host_x, int host_type, int ilist, int numj,
	int **firstneigh, const bool eflag, const bool vflag,
	const bool eatom, const bool vatom, int &host_start,
	const double cpu_time, bool &success, double *host_q,
	const int nlocal, double boxlo, double prd) {
	CLMF.compute(ago,inum_full,nall,host_x,host_type,ilist,numj,
	firstneigh,eflag,vflag,eatom,vatom,host_start,cpu_time,success,
	host_q,nlocal,boxlo,prd);
	}

	double cl_gpu_bytes() {
	return CLMF.host_memory_usage();
	}

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