upstream/ipython Files · docs/examples/newparallel/parallelpi.py

run_cell(exec_lines) now called with 'store_history=False'...

run_cell(exec_lines) now called with 'store_history=False' This prevents config file defined exec_lines from showing up in the history, and results in input counter always starting at 1 closes gh-125 closes gh-363

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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 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(1,16)]

      # 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 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(1,16)]

				# 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()