https://gitlab.com/januseriksen/pymbe
Tip revision: fa294891d13becb02294e639ccfbe43b899f9ac7 authored by Janus Juul Eriksen on 17 February 2017, 07:52:26 UTC
polish of mpi impl. of orb_generation.
polish of mpi impl. of orb_generation.
Tip revision: fa29489
bg_mpi_energy.py
#!/usr/bin/env python
# -*- coding: utf-8 -*
""" bg_mpi_energy.py: MPI energy-related routines for Bethe-Goldstone correlation calculations."""
from mpi4py import MPI
from bg_utilities import run_calc_corr, orb_string
from bg_print import print_status
from bg_mpi_utilities import enum
__author__ = 'Dr. Janus Juul Eriksen, JGU Mainz'
__copyright__ = 'Copyright 2017'
__credits__ = ['Prof. Juergen Gauss', 'Dr. Filippo Lipparini']
__license__ = '???'
__version__ = '0.4'
__maintainer__ = 'Dr. Janus Juul Eriksen'
__email__ = 'jeriksen@uni-mainz.de'
__status__ = 'Development'
def energy_calc_mono_exp_master(molecule,order,tup,n_tup,l_limit,u_limit,level):
#
# --- master routine
#
# init job_info dictionary
#
job_info = {}
#
# number of slaves
#
num_slaves = molecule['mpi_size'] - 1
#
# number of available slaves
#
slaves_avail = num_slaves
#
# define mpi message tags
#
tags = enum('ready','done','exit','start')
#
# init job index
#
i = 0
#
# init stat counter
#
counter = 0
#
# wake up slaves
#
msg = {'task': 'energy_calc_mono_exp_par'}
#
molecule['mpi_comm'].bcast(msg,root=0)
#
while (slaves_avail >= 1):
#
# write string
#
if (i <= (n_tup[order-1]-1)): orb_string(molecule,l_limit,u_limit,tup[order-1][i][0],job_info)
#
# receive data dict
#
data = molecule['mpi_comm'].recv(source=MPI.ANY_SOURCE,tag=MPI.ANY_TAG,status=molecule['mpi_stat'])
#
# probe for source
#
source = molecule['mpi_stat'].Get_source()
#
# probe for tag
#
tag = molecule['mpi_stat'].Get_tag()
#
if (tag == tags.ready):
#
if (i <= (n_tup[order-1]-1)):
#
# store job index
#
job_info['index'] = i
#
# send string dict
#
molecule['mpi_comm'].send(job_info,dest=source,tag=tags.start)
#
# increment job index
#
i += 1
#
else:
#
molecule['mpi_comm'].send(None,dest=source,tag=tags.exit)
#
elif (tag == tags.done):
#
# write tuple energy
#
tup[order-1][data['index']].append(data['e_tmp'])
#
# increment stat counter
#
counter += 1
#
# print status
#
print_status(float(counter)/float(n_tup[order-1]),level)
#
# error check
#
if (data['error']):
#
print('problem with slave '+str(source)+' in energy_calc_mono_exp_master --- aborting...')
#
molecule['error'].append(True)
#
return molecule, tup
#
elif (tag == tags.exit):
#
slaves_avail -= 1
#
return molecule, tup
def energy_calc_slave(molecule):
#
# --- slave routine
#
level = 'SLAVE'
#
# define mpi message tags
#
tags = enum('ready','done','exit','start')
#
# init data dict
#
data = {}
#
while True:
#
# ready for task
#
start_comm = MPI.Wtime()
#
molecule['mpi_comm'].send(None,dest=0,tag=tags.ready)
#
# receive drop string
#
job_info = molecule['mpi_comm'].recv(source=0,tag=MPI.ANY_SOURCE,status=molecule['mpi_stat'])
#
molecule['mpi_time_comm_slave'] += MPI.Wtime()-start_comm
#
start_work = MPI.Wtime()
#
# recover tag
#
tag = molecule['mpi_stat'].Get_tag()
#
# do job or break out (exit)
#
if (tag == tags.start):
#
run_calc_corr(molecule,job_info['drop'],level)
#
# write e_tmp
#
data['e_tmp'] = molecule['e_tmp']
#
# copy job index / indices
#
data['index'] = job_info['index']
#
# write error logical
#
data['error'] = molecule['error'][-1]
#
molecule['mpi_time_work_slave'] += MPI.Wtime()-start_work
#
start_comm = MPI.Wtime()
#
# send data back to master
#
molecule['mpi_comm'].send(data,dest=0,tag=tags.done)
#
molecule['mpi_time_comm_slave'] += MPI.Wtime()-start_comm
#
elif (tag == tags.exit):
#
molecule['mpi_time_work_slave'] += MPI.Wtime()-start_work
#
break
#
# exit
#
start_comm = MPI.Wtime()
#
molecule['mpi_comm'].send(None,dest=0,tag=tags.exit)
#
molecule['mpi_time_comm_slave'] += MPI.Wtime()-start_comm
#
return molecule
