upstream/ipython Files · examples/parallel/pi/parallelpi.py

Get widgets from function annotations and default arguments....

Get widgets from function annotations and default arguments. Also, preserve the order of function parameters from the signature where possible. This uses a backport of the Python 3.3 signature machinery that @minrk found and improved.

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      """Calculate statistics on the digits of pi in parallel.

      This program uses the functions in :file:`pidigits.py` to calculate

      the frequencies of 2 digit sequences in the digits of pi. The

      results are plotted using matplotlib.

      To run, text files from http://www.super-computing.org/

      must be installed in the working directory of the IPython engines.

      The actual filenames to be used can be set with the ``filestring``

      variable below.

      The dataset we have been using for this is the 200 million digit one here:

      ftp://pi.super-computing.org/.2/pi200m/

      and the files used will be downloaded if they are not in the working directory

      of the IPython engines.

      """

      from __future__ import print_function

      from IPython.parallel import Client

      from matplotlib import pyplot as plt

      import numpy as np

      from pidigits import *

      from timeit import default_timer as clock

      # Files with digits of pi (10m digits each)

      filestring = 'pi200m.ascii.%(i)02dof20'

      files = [filestring % {'i':i} for i in range(1,21)]

      # Connect to the IPython cluster

      c = Client()

      c[:].run('pidigits.py')

      # the number of engines

      n = len(c)

      id0 = c.ids[0]

      v = c[:]

      v.block=True

      # fetch the pi-files

      print("downloading %i files of pi"%n)

      v.map(fetch_pi_file, files[:n])

      print("done")

      # Run 10m digits on 1 engine

      t1 = clock()

      freqs10m = c[id0].apply_sync(compute_two_digit_freqs, files[0])

      t2 = clock()

      digits_per_second1 = 10.0e6/(t2-t1)

      print("Digits per second (1 core, 10m digits):   ", digits_per_second1)

      # Run n*10m digits on all engines

      t1 = clock()

      freqs_all = v.map(compute_two_digit_freqs, files[:n])

      freqs150m = reduce_freqs(freqs_all)

      t2 = clock()

      digits_per_second8 = n*10.0e6/(t2-t1)

      print("Digits per second (%i engines, %i0m digits): "%(n,n), digits_per_second8)

      print("Speedup: ", digits_per_second8/digits_per_second1)

      plot_two_digit_freqs(freqs150m)

      plt.title("2 digit sequences in %i0m digits of pi"%n)

      plt.show()

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				"""Calculate statistics on the digits of pi in parallel.

				This program uses the functions in :file:`pidigits.py` to calculate
				the frequencies of 2 digit sequences in the digits of pi. The
				results are plotted using matplotlib.

				To run, text files from http://www.super-computing.org/
				must be installed in the working directory of the IPython engines.
				The actual filenames to be used can be set with the ``filestring``
				variable below.

				The dataset we have been using for this is the 200 million digit one here:
				ftp://pi.super-computing.org/.2/pi200m/

				and the files used will be downloaded if they are not in the working directory
				of the IPython engines.
				"""
				from __future__ import print_function

				from IPython.parallel import Client
				from matplotlib import pyplot as plt
				import numpy as np
				from pidigits import *
				from timeit import default_timer as clock

				# Files with digits of pi (10m digits each)
				filestring = 'pi200m.ascii.%(i)02dof20'
				files = [filestring % {'i':i} for i in range(1,21)]

				# Connect to the IPython cluster
				c = Client()
				c[:].run('pidigits.py')

				# the number of engines
				n = len(c)
				id0 = c.ids[0]
				v = c[:]
				v.block=True
				# fetch the pi-files
				print("downloading %i files of pi"%n)
				v.map(fetch_pi_file, files[:n])
				print("done")

				# Run 10m digits on 1 engine
				t1 = clock()
				freqs10m = c[id0].apply_sync(compute_two_digit_freqs, files[0])
				t2 = clock()
				digits_per_second1 = 10.0e6/(t2-t1)
				print("Digits per second (1 core, 10m digits): ", digits_per_second1)


				# Run n*10m digits on all engines
				t1 = clock()
				freqs_all = v.map(compute_two_digit_freqs, files[:n])
				freqs150m = reduce_freqs(freqs_all)
				t2 = clock()
				digits_per_second8 = n*10.0e6/(t2-t1)
				print("Digits per second (%i engines, %i0m digits): "%(n,n), digits_per_second8)

				print("Speedup: ", digits_per_second8/digits_per_second1)

				plot_two_digit_freqs(freqs150m)
				plt.title("2 digit sequences in %i0m digits of pi"%n)
				plt.show()