mirror of
https://github.com/triqs/dft_tools
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155 lines
5.9 KiB
Python
155 lines
5.9 KiB
Python
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################################################################################
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#
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# TRIQS: a Toolbox for Research in Interacting Quantum Systems
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#
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# Copyright (C) 2011 by M. Ferrero, O. Parcollet
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#
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# TRIQS is free software: you can redistribute it and/or modify it under the
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# terms of the GNU General Public License as published by the Free Software
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# Foundation, either version 3 of the License, or (at your option) any later
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# version.
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#
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# TRIQS is distributed in the hope that it will be useful, but WITHOUT ANY
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# WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
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# FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
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# details.
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#
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# You should have received a copy of the GNU General Public License along with
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# TRIQS. If not, see <http://www.gnu.org/licenses/>.
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#
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################################################################################
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import os,sys,time,cPickle
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import pytriqs.utility.mpi as mpi
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class DistributionOnNodes:
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"""
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Distribution of the calculation of a function over the nodes.
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Derive from it and reimplement :
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- treate : will be called by the MASTER each time a point is computed. this function will typically
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store it, and possibly affect the list of points waiting to be computed, as returned by next...
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NB : "None" result is ignored.
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- next : next point to compute. If it returns None (which is not the same as finished())
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the computation is ignored.
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- finished() : Whether the calculation is finished
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- the_function : function to be computed, with the argument given by next()
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In the module DistributionOnNodeTest is a test example
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"""
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SleepTime = 1
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#def treate(self,x,node_where_computed): pass
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#def next(self): return None
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#def finished(self): return True #None
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#def the_function(self,x): return x
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def run(self):
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"""
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"""
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mpi.barrier()
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if mpi.size==1 : # single machine. Avoid the fork
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while not(self.finished()):
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n = self.next()
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if n!=None :
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self.treate(self.the_function(n),0)
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return
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# Code for multiprocessor machines
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RequestList,pid = [],0 # the pid of the child on the master
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node_running,node_stopped= mpi.size*[False],mpi.size*[False]
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if mpi.rank==0 :
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while not(self.finished()) or pid or [n for n in node_running if n] != [] :
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# Treat the request which have self.finished
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def keep_request(r) :
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#if not(mpi.test(r)) : return True
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#if r.message !=None : self.treate(*r.message)
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#node_running[r.status.source] = False
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T = r.test()
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if T is None : return True
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value = T[0]
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if value !=None : self.treate(*value)
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node_running[T[1].source] = False
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return False
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RequestList = filter(keep_request,RequestList)
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# send new calculation to the nodes or "stop" them
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for node in [ n for n in range(1,mpi.size) if not(node_running[n] or node_stopped[n]) ] :
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#open('tmp','a').write("master : comm to node %d %s\n"%(node,self.finished()))
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mpi.send(self.finished(),node)
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if not(self.finished()) :
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mpi.send(self.next(),node) # send the data for the computation
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node_running[node] = True
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RequestList.append(mpi.irecv(node)) #Post the receive
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else :
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node_stopped[node] = True
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# Look if the child process on the master has self.finished.
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if not(pid) or os.waitpid(pid,os.WNOHANG) :
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if pid :
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RR = cPickle.load(open("res_master",'r'))
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if RR != None : self.treate(*RR)
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if not(self.finished()) :
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pid=os.fork();
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currently_calculated_by_master = self.next()
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if pid==0 : # we are on the child
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if currently_calculated_by_master :
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res = self.the_function(currently_calculated_by_master)
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else:
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res = None
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cPickle.dump((res,mpi.rank),open('res_master','w'))
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os._exit(0) # Cf python doc. Used for child only.
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else : pid=0
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if (pid): time.sleep(self.SleepTime) # so that most of the time is for the actual calculation on the master
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else : # not master
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while not(mpi.recv(0)) : # master will first send a finished flag
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omega = mpi.recv(0)
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if omega ==None :
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res = None
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else :
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res = self.the_function(omega)
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mpi.send((res,mpi.rank),0)
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mpi.barrier()
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#########################################
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class DistributionOnNodesOneStack(DistributionOnNodes) :
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"""
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A special of distribution, when one has a given stack of points to compute
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Reimplement just the_function
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"""
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def __init__(self,the_stack) :
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self.__l = the_stack
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self.__l.reverse()
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self.__result = []
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def treate(self,x,node):
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self.__result.append((node,x))
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def finished(self):
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return self.__l==[]
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def next(self):
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return self.__l.pop()
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def result(self) : return self.__result
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def run(self):
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DistributionOnNodes.run(self)
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return self.result()
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# TEST ONLY
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class DistributionOnNodesTest(DistributionOnNodesOneStack) :
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"""
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"""
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def the_function(self,x):
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return (x,x+1,x+2)
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if __name__ == '__main__' :
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d = DistributionOnNodesTest(range(21))
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d.run()
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if mpi.rank==0 :
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print d.result()
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