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pair_dipole_cut_gpu.cpp
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rLAMMPS lammps
pair_dipole_cut_gpu.cpp
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/* ----------------------------------------------------------------------
LAMMPS - Large-scale Atomic/Molecular Massively Parallel Simulator
http://lammps.sandia.gov, Sandia National Laboratories
Steve Plimpton, sjplimp@sandia.gov
Copyright (2003) Sandia Corporation. Under the terms of Contract
DE-AC04-94AL85000 with Sandia Corporation, the U.S. Government retains
certain rights in this software. This software is distributed under
the GNU General Public License.
See the README file in the top-level LAMMPS directory.
------------------------------------------------------------------------- */
/* ----------------------------------------------------------------------
Contributing author: Trung Dac Nguyen (ORNL)
------------------------------------------------------------------------- */
#include "lmptype.h"
#include "math.h"
#include "stdio.h"
#include "stdlib.h"
#include "pair_dipole_cut_gpu.h"
#include "atom.h"
#include "atom_vec.h"
#include "comm.h"
#include "force.h"
#include "neighbor.h"
#include "neigh_list.h"
#include "integrate.h"
#include "memory.h"
#include "error.h"
#include "neigh_request.h"
#include "universe.h"
#include "update.h"
#include "domain.h"
#include "string.h"
#include "gpu_extra.h"
// External functions from cuda library for atom decomposition
int dpl_gpu_init(const int ntypes, double **cutsq, double **host_lj1,
double **host_lj2, double **host_lj3, double **host_lj4,
double **offset, double *special_lj, const int nlocal,
const int nall, const int max_nbors, const int maxspecial,
const double cell_size, int &gpu_mode, FILE *screen,
double **host_cut_ljsq, double **host_cut_coulsq,
double *host_special_coul, const double qqrd2e);
void dpl_gpu_clear();
int ** dpl_gpu_compute_n(const int ago, const int inum,
const int nall, double **host_x, int *host_type,
double *sublo, double *subhi, int *tag,
int **nspecial, int **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 **host_mu,
double *boxlo, double *prd);
void dpl_gpu_compute(const int ago, const int inum,
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, double **host_mu,
const int nlocal, double *boxlo, double *prd);
double dpl_gpu_bytes();
using namespace LAMMPS_NS;
/* ---------------------------------------------------------------------- */
PairDipoleCutGPU::PairDipoleCutGPU(LAMMPS *lmp) : PairDipoleCut(lmp),
gpu_mode(GPU_FORCE)
{
respa_enable = 0;
cpu_time = 0.0;
GPU_EXTRA::gpu_ready(lmp->modify, lmp->error);
}
/* ----------------------------------------------------------------------
free all arrays
------------------------------------------------------------------------- */
PairDipoleCutGPU::~PairDipoleCutGPU()
{
dpl_gpu_clear();
}
/* ---------------------------------------------------------------------- */
void PairDipoleCutGPU::compute(int eflag, int vflag)
{
if (eflag || vflag) ev_setup(eflag,vflag);
else evflag = vflag_fdotr = 0;
int nall = atom->nlocal + atom->nghost;
int inum, host_start;
bool success = true;
int *ilist, *numneigh, **firstneigh;
if (gpu_mode != GPU_FORCE) {
inum = atom->nlocal;
firstneigh = dpl_gpu_compute_n(neighbor->ago, inum, nall, atom->x,
atom->type, domain->sublo, domain->subhi,
atom->tag, atom->nspecial, atom->special,
eflag, vflag, eflag_atom, vflag_atom,
host_start, &ilist, &numneigh, cpu_time,
success, atom->q, atom->mu, domain->boxlo,
domain->prd);
} else {
inum = list->inum;
ilist = list->ilist;
numneigh = list->numneigh;
firstneigh = list->firstneigh;
dpl_gpu_compute(neighbor->ago, inum, nall, atom->x, atom->type,
ilist, numneigh, firstneigh, eflag, vflag, eflag_atom,
vflag_atom, host_start, cpu_time, success, atom->q,
atom->mu, atom->nlocal, domain->boxlo, domain->prd);
}
if (!success)
error->one(FLERR,"Insufficient memory on accelerator");
if (host_start<inum) {
cpu_time = MPI_Wtime();
cpu_compute(host_start, inum, eflag, vflag, ilist, numneigh, firstneigh);
cpu_time = MPI_Wtime() - cpu_time;
}
}
/* ----------------------------------------------------------------------
init specific to this pair style
------------------------------------------------------------------------- */
void PairDipoleCutGPU::init_style()
{
if (!atom->q_flag || !atom->mu_flag || !atom->torque_flag)
error->all(FLERR,"Pair dipole/cut/gpu requires atom attributes q, mu, torque");
if (force->newton_pair)
error->all(FLERR,"Cannot use newton pair with dipole/cut/gpu pair style");
// Repeat cutsq calculation because done after call to init_style
double maxcut = -1.0;
double cut;
for (int i = 1; i <= atom->ntypes; i++) {
for (int j = i; j <= atom->ntypes; j++) {
if (setflag[i][j] != 0 || (setflag[i][i] != 0 && setflag[j][j] != 0)) {
cut = init_one(i,j);
cut *= cut;
if (cut > maxcut)
maxcut = cut;
cutsq[i][j] = cutsq[j][i] = cut;
} else
cutsq[i][j] = cutsq[j][i] = 0.0;
}
}
double cell_size = sqrt(maxcut) + neighbor->skin;
int maxspecial=0;
if (atom->molecular)
maxspecial=atom->maxspecial;
int success = dpl_gpu_init(atom->ntypes+1, cutsq, lj1, lj2, lj3, lj4,
offset, force->special_lj, atom->nlocal,
atom->nlocal+atom->nghost, 300, maxspecial,
cell_size, gpu_mode, screen, cut_ljsq, cut_coulsq,
force->special_coul, force->qqrd2e);
GPU_EXTRA::check_flag(success,error,world);
if (gpu_mode == GPU_FORCE) {
int irequest = neighbor->request(this);
neighbor->requests[irequest]->half = 0;
neighbor->requests[irequest]->full = 1;
}
}
/* ---------------------------------------------------------------------- */
double PairDipoleCutGPU::memory_usage()
{
double bytes = Pair::memory_usage();
return bytes + dpl_gpu_bytes();
}
/* ---------------------------------------------------------------------- */
void PairDipoleCutGPU::cpu_compute(int start, int inum, int eflag, int vflag,
int *ilist, int *numneigh,
int **firstneigh)
{
int i,j,ii,jj,jnum,itype,jtype;
double qtmp,xtmp,ytmp,ztmp,delx,dely,delz,evdwl,ecoul,fx,fy,fz;
double rsq,rinv,r2inv,r6inv,r3inv,r5inv,r7inv;
double forcecoulx,forcecouly,forcecoulz,crossx,crossy,crossz;
double tixcoul,tiycoul,tizcoul,tjxcoul,tjycoul,tjzcoul;
double fq,pdotp,pidotr,pjdotr,pre1,pre2,pre3,pre4;
double forcelj,factor_coul,factor_lj;
int *jlist;
evdwl = ecoul = 0.0;
if (eflag || vflag) ev_setup(eflag,vflag);
else evflag = vflag_fdotr = 0;
double **x = atom->x;
double **f = atom->f;
double *q = atom->q;
double **mu = atom->mu;
double **torque = atom->torque;
int *type = atom->type;
double *special_coul = force->special_coul;
double *special_lj = force->special_lj;
double qqrd2e = force->qqrd2e;
// loop over neighbors of my atoms
for (ii = start; ii < inum; ii++) {
i = ilist[ii];
qtmp = q[i];
xtmp = x[i][0];
ytmp = x[i][1];
ztmp = x[i][2];
itype = type[i];
jlist = firstneigh[i];
jnum = numneigh[i];
for (jj = 0; jj < jnum; jj++) {
j = jlist[jj];
factor_lj = special_lj[sbmask(j)];
factor_coul = special_coul[sbmask(j)];
j &= NEIGHMASK;
delx = xtmp - x[j][0];
dely = ytmp - x[j][1];
delz = ztmp - x[j][2];
rsq = delx*delx + dely*dely + delz*delz;
jtype = type[j];
if (rsq < cutsq[itype][jtype]) {
r2inv = 1.0/rsq;
rinv = sqrt(r2inv);
// atom can have both a charge and dipole
// i,j = charge-charge, dipole-dipole, dipole-charge, or charge-dipole
forcecoulx = forcecouly = forcecoulz = 0.0;
tixcoul = tiycoul = tizcoul = 0.0;
tjxcoul = tjycoul = tjzcoul = 0.0;
if (rsq < cut_coulsq[itype][jtype]) {
if (qtmp != 0.0 && q[j] != 0.0) {
r3inv = r2inv*rinv;
pre1 = qtmp*q[j]*r3inv;
forcecoulx += pre1*delx;
forcecouly += pre1*dely;
forcecoulz += pre1*delz;
}
if (mu[i][3] > 0.0 && mu[j][3] > 0.0) {
r3inv = r2inv*rinv;
r5inv = r3inv*r2inv;
r7inv = r5inv*r2inv;
pdotp = mu[i][0]*mu[j][0] + mu[i][1]*mu[j][1] + mu[i][2]*mu[j][2];
pidotr = mu[i][0]*delx + mu[i][1]*dely + mu[i][2]*delz;
pjdotr = mu[j][0]*delx + mu[j][1]*dely + mu[j][2]*delz;
pre1 = 3.0*r5inv*pdotp - 15.0*r7inv*pidotr*pjdotr;
pre2 = 3.0*r5inv*pjdotr;
pre3 = 3.0*r5inv*pidotr;
pre4 = -1.0*r3inv;
forcecoulx += pre1*delx + pre2*mu[i][0] + pre3*mu[j][0];
forcecouly += pre1*dely + pre2*mu[i][1] + pre3*mu[j][1];
forcecoulz += pre1*delz + pre2*mu[i][2] + pre3*mu[j][2];
crossx = pre4 * (mu[i][1]*mu[j][2] - mu[i][2]*mu[j][1]);
crossy = pre4 * (mu[i][2]*mu[j][0] - mu[i][0]*mu[j][2]);
crossz = pre4 * (mu[i][0]*mu[j][1] - mu[i][1]*mu[j][0]);
tixcoul += crossx + pre2 * (mu[i][1]*delz - mu[i][2]*dely);
tiycoul += crossy + pre2 * (mu[i][2]*delx - mu[i][0]*delz);
tizcoul += crossz + pre2 * (mu[i][0]*dely - mu[i][1]*delx);
tjxcoul += -crossx + pre3 * (mu[j][1]*delz - mu[j][2]*dely);
tjycoul += -crossy + pre3 * (mu[j][2]*delx - mu[j][0]*delz);
tjzcoul += -crossz + pre3 * (mu[j][0]*dely - mu[j][1]*delx);
}
if (mu[i][3] > 0.0 && q[j] != 0.0) {
r3inv = r2inv*rinv;
r5inv = r3inv*r2inv;
pidotr = mu[i][0]*delx + mu[i][1]*dely + mu[i][2]*delz;
pre1 = 3.0*q[j]*r5inv * pidotr;
pre2 = q[j]*r3inv;
forcecoulx += pre2*mu[i][0] - pre1*delx;
forcecouly += pre2*mu[i][1] - pre1*dely;
forcecoulz += pre2*mu[i][2] - pre1*delz;
tixcoul += pre2 * (mu[i][1]*delz - mu[i][2]*dely);
tiycoul += pre2 * (mu[i][2]*delx - mu[i][0]*delz);
tizcoul += pre2 * (mu[i][0]*dely - mu[i][1]*delx);
}
if (mu[j][3] > 0.0 && qtmp != 0.0) {
r3inv = r2inv*rinv;
r5inv = r3inv*r2inv;
pjdotr = mu[j][0]*delx + mu[j][1]*dely + mu[j][2]*delz;
pre1 = 3.0*qtmp*r5inv * pjdotr;
pre2 = qtmp*r3inv;
forcecoulx += pre1*delx - pre2*mu[j][0];
forcecouly += pre1*dely - pre2*mu[j][1];
forcecoulz += pre1*delz - pre2*mu[j][2];
tjxcoul += -pre2 * (mu[j][1]*delz - mu[j][2]*dely);
tjycoul += -pre2 * (mu[j][2]*delx - mu[j][0]*delz);
tjzcoul += -pre2 * (mu[j][0]*dely - mu[j][1]*delx);
}
}
// LJ interaction
if (rsq < cut_ljsq[itype][jtype]) {
r6inv = r2inv*r2inv*r2inv;
forcelj = r6inv * (lj1[itype][jtype]*r6inv - lj2[itype][jtype]);
forcelj *= factor_lj * r2inv;
} else forcelj = 0.0;
// total force
fq = factor_coul*qqrd2e;
fx = fq*forcecoulx + delx*forcelj;
fy = fq*forcecouly + dely*forcelj;
fz = fq*forcecoulz + delz*forcelj;
// force & torque accumulation
f[i][0] += fx;
f[i][1] += fy;
f[i][2] += fz;
torque[i][0] += fq*tixcoul;
torque[i][1] += fq*tiycoul;
torque[i][2] += fq*tizcoul;
if (eflag) {
if (rsq < cut_coulsq[itype][jtype]) {
ecoul = qtmp*q[j]*rinv;
if (mu[i][3] > 0.0 && mu[j][3] > 0.0)
ecoul += r3inv*pdotp - 3.0*r5inv*pidotr*pjdotr;
if (mu[i][3] > 0.0 && q[j] != 0.0)
ecoul += -q[j]*r3inv*pidotr;
if (mu[j][3] > 0.0 && qtmp != 0.0)
ecoul += qtmp*r3inv*pjdotr;
ecoul *= factor_coul*qqrd2e;
} else ecoul = 0.0;
if (rsq < cut_ljsq[itype][jtype]) {
evdwl = r6inv*(lj3[itype][jtype]*r6inv-lj4[itype][jtype]) -
offset[itype][jtype];
evdwl *= factor_lj;
} else evdwl = 0.0;
}
if (evflag) ev_tally_xyz_full(i,evdwl,ecoul,fx,fy,fz,delx,dely,delz);
}
}
}
}
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