parallelwave-mpi.py
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| 6.5 KiB
| text/x-python
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r3656 | #!/usr/bin/env python | ||
| """ | ||||
| A simple python program of solving a 2D wave equation in parallel. | ||||
| Domain partitioning and inter-processor communication | ||||
| are done by an object of class MPIRectPartitioner2D | ||||
| (which is a subclass of RectPartitioner2D and uses MPI via mpi4py) | ||||
| An example of running the program is (8 processors, 4x2 partition, | ||||
| 400x100 grid cells):: | ||||
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r5643 | $ ipcluster start --engines=MPIExec -n 8 # start 8 engines with mpiexec | ||
| $ python parallelwave-mpi.py --grid 400 100 --partition 4 2 | ||||
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r3656 | |||
Bernardo B. Marques
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r4872 | See also parallelwave-mpi, which runs the same program, but uses MPI | ||
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r3656 | (via mpi4py) for the inter-engine communication. | ||
| Authors | ||||
| ------- | ||||
| * Xing Cai | ||||
| * Min Ragan-Kelley | ||||
| """ | ||||
| import sys | ||||
| import time | ||||
| from numpy import exp, zeros, newaxis, sqrt | ||||
| from IPython.external import argparse | ||||
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r3668 | from IPython.parallel import Client, Reference | ||
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r3664 | def setup_partitioner(index, num_procs, gnum_cells, parts): | ||
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r3656 | """create a partitioner in the engine namespace""" | ||
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r3664 | global partitioner | ||
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r3656 | p = MPIRectPartitioner2D(my_id=index, num_procs=num_procs) | ||
| p.redim(global_num_cells=gnum_cells, num_parts=parts) | ||||
| p.prepare_communication() | ||||
| # put the partitioner into the global namespace: | ||||
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r3664 | partitioner=p | ||
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r3664 | def setup_solver(*args, **kwargs): | ||
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r3656 | """create a WaveSolver in the engine namespace""" | ||
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r3664 | global solver | ||
| solver = WaveSolver(*args, **kwargs) | ||||
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r3656 | |||
| def wave_saver(u, x, y, t): | ||||
| """save the wave log""" | ||||
| global u_hist | ||||
| global t_hist | ||||
| t_hist.append(t) | ||||
| u_hist.append(1.0*u) | ||||
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r3656 | |||
| # main program: | ||||
| if __name__ == '__main__': | ||||
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r3656 | parser = argparse.ArgumentParser() | ||
| paa = parser.add_argument | ||||
| paa('--grid', '-g', | ||||
| type=int, nargs=2, default=[100,100], dest='grid', | ||||
| help="Cells in the grid, e.g. --grid 100 200") | ||||
| paa('--partition', '-p', | ||||
| type=int, nargs=2, default=None, | ||||
| help="Process partition grid, e.g. --partition 4 2 for 4x2") | ||||
| paa('-c', | ||||
| type=float, default=1., | ||||
| help="Wave speed (I think)") | ||||
| paa('-Ly', | ||||
| type=float, default=1., | ||||
| help="system size (in y)") | ||||
| paa('-Lx', | ||||
| type=float, default=1., | ||||
| help="system size (in x)") | ||||
| paa('-t', '--tstop', | ||||
| type=float, default=1., | ||||
| help="Time units to run") | ||||
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r4872 | paa('--profile', | ||
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r3656 | type=unicode, default=u'default', | ||
| help="Specify the ipcluster profile for the client to connect to.") | ||||
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r4872 | paa('--save', | ||
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r3656 | action='store_true', | ||
| help="Add this flag to save the time/wave history during the run.") | ||||
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r4872 | paa('--scalar', | ||
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r3656 | action='store_true', | ||
| help="Also run with scalar interior implementation, to see vector speedup.") | ||||
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r3656 | ns = parser.parse_args() | ||
| # set up arguments | ||||
| grid = ns.grid | ||||
| partition = ns.partition | ||||
| Lx = ns.Lx | ||||
| Ly = ns.Ly | ||||
| c = ns.c | ||||
| tstop = ns.tstop | ||||
| if ns.save: | ||||
| user_action = wave_saver | ||||
| else: | ||||
| user_action = None | ||||
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r3656 | num_cells = 1.0*(grid[0]-1)*(grid[1]-1) | ||
| final_test = True | ||||
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r3656 | # create the Client | ||
| rc = Client(profile=ns.profile) | ||||
| num_procs = len(rc.ids) | ||||
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r3656 | if partition is None: | ||
| partition = [1,num_procs] | ||||
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r3656 | assert partition[0]*partition[1] == num_procs, "can't map partition %s to %i engines"%(partition, num_procs) | ||
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r3662 | view = rc[:] | ||
| print "Running %s system on %s processes until %f"%(grid, partition, tstop) | ||||
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r3656 | # functions defining initial/boundary/source conditions | ||
| def I(x,y): | ||||
| from numpy import exp | ||||
| return 1.5*exp(-100*((x-0.5)**2+(y-0.5)**2)) | ||||
| def f(x,y,t): | ||||
| return 0.0 | ||||
| # from numpy import exp,sin | ||||
| # return 10*exp(-(x - sin(100*t))**2) | ||||
| def bc(x,y,t): | ||||
| return 0.0 | ||||
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r3656 | # initial imports, setup rank | ||
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r3662 | view.execute('\n'.join([ | ||
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r3656 | "from mpi4py import MPI", | ||
| "import numpy", | ||||
| "mpi = MPI.COMM_WORLD", | ||||
| "my_id = MPI.COMM_WORLD.Get_rank()"]), block=True) | ||||
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r3656 | # initialize t_hist/u_hist for saving the state at each step (optional) | ||
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r3662 | view['t_hist'] = [] | ||
| view['u_hist'] = [] | ||||
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r3656 | # set vector/scalar implementation details | ||
| impl = {} | ||||
| impl['ic'] = 'vectorized' | ||||
| impl['inner'] = 'scalar' | ||||
| impl['bc'] = 'vectorized' | ||||
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r3656 | # execute some files so that the classes we need will be defined on the engines: | ||
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r3662 | view.run('RectPartitioner.py') | ||
| view.run('wavesolver.py') | ||||
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r3656 | # setup remote partitioner | ||
| # note that Reference means that the argument passed to setup_partitioner will be the | ||||
| # object named 'my_id' in the engine's namespace | ||||
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r3664 | view.apply_sync(setup_partitioner, Reference('my_id'), num_procs, grid, partition) | ||
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r3656 | # wait for initial communication to complete | ||
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r3662 | view.execute('mpi.barrier()') | ||
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r3656 | # setup remote solvers | ||
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r3664 | view.apply_sync(setup_solver, I,f,c,bc,Lx,Ly,partitioner=Reference('partitioner'), dt=0,implementation=impl) | ||
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r3656 | |||
| # lambda for calling solver.solve: | ||||
| _solve = lambda *args, **kwargs: solver.solve(*args, **kwargs) | ||||
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r3656 | if ns.scalar: | ||
| impl['inner'] = 'scalar' | ||||
| # run first with element-wise Python operations for each cell | ||||
| t0 = time.time() | ||||
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r3662 | ar = view.apply_async(_solve, tstop, dt=0, verbose=True, final_test=final_test, user_action=user_action) | ||
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r3656 | if final_test: | ||
| # this sum is performed element-wise as results finish | ||||
| s = sum(ar) | ||||
| # the L2 norm (RMS) of the result: | ||||
| norm = sqrt(s/num_cells) | ||||
| else: | ||||
| norm = -1 | ||||
| t1 = time.time() | ||||
| print 'scalar inner-version, Wtime=%g, norm=%g'%(t1-t0, norm) | ||||
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r3656 | impl['inner'] = 'vectorized' | ||
| # setup new solvers | ||||
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r3664 | view.apply_sync(setup_solver, I,f,c,bc,Lx,Ly,partitioner=Reference('partitioner'), dt=0,implementation=impl) | ||
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r3662 | view.execute('mpi.barrier()') | ||
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r3656 | # run again with numpy vectorized inner-implementation | ||
| t0 = time.time() | ||||
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r5643 | ar = view.apply_async(_solve, tstop, dt=0, verbose=True, final_test=final_test, user_action=user_action) | ||
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r3656 | if final_test: | ||
| # this sum is performed element-wise as results finish | ||||
| s = sum(ar) | ||||
| # the L2 norm (RMS) of the result: | ||||
| norm = sqrt(s/num_cells) | ||||
| else: | ||||
| norm = -1 | ||||
| t1 = time.time() | ||||
| print 'vector inner-version, Wtime=%g, norm=%g'%(t1-t0, norm) | ||||
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r3656 | # if ns.save is True, then u_hist stores the history of u as a list | ||
| # If the partion scheme is Nx1, then u can be reconstructed via 'gather': | ||||
| if ns.save and partition[-1] == 1: | ||||
| import pylab | ||||
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r3662 | view.execute('u_last=u_hist[-1]') | ||
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r3656 | # map mpi IDs to IPython IDs, which may not match | ||
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r3662 | ranks = view['my_id'] | ||
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r3656 | targets = range(len(ranks)) | ||
| for idx in range(len(ranks)): | ||||
| targets[idx] = ranks.index(idx) | ||||
| u_last = rc[targets].gather('u_last', block=True) | ||||
| pylab.pcolor(u_last) | ||||
| pylab.show() | ||||