cosmotool/external/sharp/libsharp/sharp_mpi.c

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2012-11-10 13:59:10 +00:00
/*
* This file is part of libsharp.
*
* libsharp is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* libsharp 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with libsharp; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
/*
* libsharp is being developed at the Max-Planck-Institut fuer Astrophysik
* and financially supported by the Deutsches Zentrum fuer Luft- und Raumfahrt
* (DLR).
*/
/*! \file sharp_mpi.c
* Functionality only needed for MPI-parallel transforms
*
* Copyright (C) 2012 Max-Planck-Society
* \author Martin Reinecke
*/
#ifdef USE_MPI
#include "sharp_mpi.h"
typedef struct
{
int ntasks; /* number of tasks */
int mytask; /* own task number */
MPI_Comm comm; /* communicator to use */
int *nm; /* number of m values on every task */
int *ofs_m; /* accumulated nm */
int nmtotal; /* total number of m values (must be mmax+1) */
int *mval; /* array containing all m values of task 0, task 1 etc. */
int mmax;
int nph;
int *npair; /* number of ring pairs on every task */
int *ofs_pair; /* accumulated npair */
int npairtotal; /* total number of ring pairs */
double *theta; /* theta of first ring of every pair on task 0, task 1 etc. */
int *ispair; /* is this really a pair? */
int *almcount, *almdisp, *mapcount, *mapdisp; /* for all2all communication */
} sharp_mpi_info;
static void sharp_make_mpi_info (MPI_Comm comm, const sharp_job *job,
sharp_mpi_info *minfo)
{
minfo->comm = comm;
MPI_Comm_size (comm, &minfo->ntasks);
MPI_Comm_rank (comm, &minfo->mytask);
minfo->nm=RALLOC(int,minfo->ntasks);
MPI_Allgather ((int *)(&job->ainfo->nm),1,MPI_INT,minfo->nm,1,MPI_INT,comm);
minfo->ofs_m=RALLOC(int,minfo->ntasks+1);
minfo->ofs_m[0]=0;
for (int i=1; i<=minfo->ntasks; ++i)
minfo->ofs_m[i] = minfo->ofs_m[i-1]+minfo->nm[i-1];
minfo->nmtotal=minfo->ofs_m[minfo->ntasks];
minfo->mval=RALLOC(int,minfo->nmtotal);
MPI_Allgatherv(job->ainfo->mval, job->ainfo->nm, MPI_INT, minfo->mval,
minfo->nm, minfo->ofs_m, MPI_INT, comm);
minfo->mmax=sharp_get_mmax(minfo->mval,minfo->nmtotal);
minfo->npair=RALLOC(int,minfo->ntasks);
MPI_Allgather ((int *)(&job->ginfo->npairs), 1, MPI_INT, minfo->npair, 1,
MPI_INT, comm);
minfo->ofs_pair=RALLOC(int,minfo->ntasks+1);
minfo->ofs_pair[0]=0;
for (int i=1; i<=minfo->ntasks; ++i)
minfo->ofs_pair[i] = minfo->ofs_pair[i-1]+minfo->npair[i-1];
minfo->npairtotal=minfo->ofs_pair[minfo->ntasks];
double *theta_tmp=RALLOC(double,job->ginfo->npairs);
int *ispair_tmp=RALLOC(int,job->ginfo->npairs);
for (int i=0; i<job->ginfo->npairs; ++i)
{
theta_tmp[i]=job->ginfo->pair[i].r1.theta;
ispair_tmp[i]=job->ginfo->pair[i].r2.nph>0;
}
minfo->theta=RALLOC(double,minfo->npairtotal);
minfo->ispair=RALLOC(int,minfo->npairtotal);
MPI_Allgatherv(theta_tmp, job->ginfo->npairs, MPI_DOUBLE, minfo->theta,
minfo->npair, minfo->ofs_pair, MPI_DOUBLE, comm);
MPI_Allgatherv(ispair_tmp, job->ginfo->npairs, MPI_INT, minfo->ispair,
minfo->npair, minfo->ofs_pair, MPI_INT, comm);
DEALLOC(theta_tmp);
DEALLOC(ispair_tmp);
minfo->nph=2*job->nmaps*job->ntrans;
minfo->almcount=RALLOC(int,minfo->ntasks);
minfo->almdisp=RALLOC(int,minfo->ntasks+1);
minfo->mapcount=RALLOC(int,minfo->ntasks);
minfo->mapdisp=RALLOC(int,minfo->ntasks+1);
minfo->almdisp[0]=minfo->mapdisp[0]=0;
for (int i=0; i<minfo->ntasks; ++i)
{
minfo->almcount[i] = 2*minfo->nph*minfo->nm[minfo->mytask]*minfo->npair[i];
minfo->almdisp[i+1] = minfo->almdisp[i]+minfo->almcount[i];
minfo->mapcount[i] = 2*minfo->nph*minfo->nm[i]*minfo->npair[minfo->mytask];
minfo->mapdisp[i+1] = minfo->mapdisp[i]+minfo->mapcount[i];
}
}
static void sharp_destroy_mpi_info (sharp_mpi_info *minfo)
{
DEALLOC(minfo->nm);
DEALLOC(minfo->ofs_m);
DEALLOC(minfo->mval);
DEALLOC(minfo->npair);
DEALLOC(minfo->ofs_pair);
DEALLOC(minfo->theta);
DEALLOC(minfo->ispair);
DEALLOC(minfo->almcount);
DEALLOC(minfo->almdisp);
DEALLOC(minfo->mapcount);
DEALLOC(minfo->mapdisp);
}
static void sharp_communicate_alm2map (const sharp_mpi_info *minfo, dcmplx **ph)
{
dcmplx *phas_tmp = RALLOC(dcmplx,minfo->mapdisp[minfo->ntasks]/2);
MPI_Alltoallv (*ph,minfo->almcount,minfo->almdisp,MPI_DOUBLE,phas_tmp,
minfo->mapcount,minfo->mapdisp,MPI_DOUBLE,minfo->comm);
DEALLOC(*ph);
ALLOC(*ph,dcmplx,minfo->nph*minfo->npair[minfo->mytask]*minfo->nmtotal);
for (int task=0; task<minfo->ntasks; ++task)
for (int th=0; th<minfo->npair[minfo->mytask]; ++th)
for (int mi=0; mi<minfo->nm[task]; ++mi)
{
int m = minfo->mval[mi+minfo->ofs_m[task]];
int o1 = minfo->nph*(th*(minfo->mmax+1) + m);
int o2 = minfo->mapdisp[task]/2+minfo->nph*(mi+th*minfo->nm[task]);
for (int i=0; i<minfo->nph; ++i)
(*ph)[o1+i] = phas_tmp[o2+i];
}
DEALLOC(phas_tmp);
}
static void sharp_communicate_map2alm (const sharp_mpi_info *minfo, dcmplx **ph)
{
dcmplx *phas_tmp = RALLOC(dcmplx,minfo->mapdisp[minfo->ntasks]/2);
for (int task=0; task<minfo->ntasks; ++task)
for (int th=0; th<minfo->npair[minfo->mytask]; ++th)
for (int mi=0; mi<minfo->nm[task]; ++mi)
{
int m = minfo->mval[mi+minfo->ofs_m[task]];
int o1 = minfo->mapdisp[task]/2+minfo->nph*(mi+th*minfo->nm[task]);
int o2 = minfo->nph*(th*(minfo->mmax+1) + m);
for (int i=0; i<minfo->nph; ++i)
phas_tmp[o1+i] = (*ph)[o2+i];
}
DEALLOC(*ph);
ALLOC(*ph,dcmplx,minfo->nph*minfo->nm[minfo->mytask]*minfo->npairtotal);
MPI_Alltoallv (phas_tmp,minfo->mapcount,minfo->mapdisp,MPI_DOUBLE,
*ph,minfo->almcount,minfo->almdisp,MPI_DOUBLE,minfo->comm);
DEALLOC(phas_tmp);
}
static void alloc_phase_mpi (sharp_job *job, int nm, int ntheta,
int nmfull, int nthetafull)
{
ptrdiff_t phase_size = (job->type==SHARP_MAP2ALM) ?
(ptrdiff_t)(nmfull)*ntheta : (ptrdiff_t)(nm)*nthetafull;
job->phase=RALLOC(dcmplx,2*job->ntrans*job->nmaps*phase_size);
}
static void alm2map_comm (sharp_job *job, const sharp_mpi_info *minfo)
{
if (job->type != SHARP_MAP2ALM)
sharp_communicate_alm2map (minfo,&job->phase);
}
static void map2alm_comm (sharp_job *job, const sharp_mpi_info *minfo)
{
if (job->type == SHARP_MAP2ALM)
sharp_communicate_map2alm (minfo,&job->phase);
}
static void sharp_execute_job_mpi (sharp_job *job, MPI_Comm comm)
{
double timer=wallTime();
int ntasks;
MPI_Comm_size(comm, &ntasks);
if (ntasks==1) /* fall back to scalar implementation */
{ sharp_execute_job (job); return; }
int lmax = job->ainfo->lmax;
job->norm_l = sharp_Ylmgen_get_norm (lmax, job->spin);
sharp_mpi_info minfo;
sharp_make_mpi_info(comm, job, &minfo);
/* clear output arrays if requested */
init_output (job);
alloc_phase_mpi (job,job->ainfo->nm,job->ginfo->npairs,minfo.mmax+1,
minfo.npairtotal);
double *cth = RALLOC(double,minfo.npairtotal),
*sth = RALLOC(double,minfo.npairtotal);
idxhelper *stmp = RALLOC(idxhelper,minfo.npairtotal);
for (int i=0; i<minfo.npairtotal; ++i)
{
cth[i] = cos(minfo.theta[i]);
sth[i] = sin(minfo.theta[i]);
stmp[i].s=sth[i];
stmp[i].i=i;
}
qsort (stmp,minfo.npairtotal,sizeof(idxhelper),idx_compare);
int *idx = RALLOC(int,minfo.npairtotal);
for (int i=0; i<minfo.npairtotal; ++i)
idx[i]=stmp[i].i;
DEALLOC(stmp);
/* map->phase where necessary */
map2phase (job, minfo.mmax, 0, job->ginfo->npairs);
map2alm_comm (job, &minfo);
#pragma omp parallel
{
sharp_job ljob = *job;
sharp_Ylmgen_C generator;
sharp_Ylmgen_init (&generator,lmax,minfo.mmax,ljob.spin);
alloc_almtmp(&ljob,lmax);
#pragma omp for schedule(dynamic,1)
for (int mi=0; mi<job->ainfo->nm; ++mi)
{
/* alm->alm_tmp where necessary */
alm2almtmp (&ljob, lmax, mi);
/* inner conversion loop */
inner_loop (&ljob, minfo.ispair, cth, sth, 0, minfo.npairtotal,
&generator, mi, idx);
/* alm_tmp->alm where necessary */
almtmp2alm (&ljob, lmax, mi);
}
sharp_Ylmgen_destroy(&generator);
dealloc_almtmp(&ljob);
#pragma omp critical
job->opcnt+=ljob.opcnt;
} /* end of parallel region */
alm2map_comm (job, &minfo);
/* phase->map where necessary */
phase2map (job, minfo.mmax, 0, job->ginfo->npairs);
DEALLOC(cth);
DEALLOC(sth);
DEALLOC(idx);
DEALLOC(job->norm_l);
dealloc_phase (job);
sharp_destroy_mpi_info(&minfo);
job->time=wallTime()-timer;
}
void sharp_execute_mpi (MPI_Comm comm, sharp_jobtype type, int spin,
int add_output, void *alm, void *map, const sharp_geom_info *geom_info,
const sharp_alm_info *alm_info, int ntrans, int dp, int nv, double *time,
unsigned long long *opcnt)
{
sharp_job job;
sharp_build_job_common (&job, type, spin, add_output, alm, map, geom_info,
alm_info, ntrans, dp, nv);
sharp_execute_job_mpi (&job, comm);
if (time!=NULL) *time = job.time;
if (opcnt!=NULL) *opcnt = job.opcnt;
}
#endif