upstream/ipython Files · examples/Parallel Computing/rmt/rmt.ipy

Lots of doc work.

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Brian E. Granger Updating RMT parallel example.	r4591	# <nbformat>2</nbformat>

		# <markdowncell>

		# # Eigenvalue distribution of Gaussian orthogonal random matrices

		# <markdowncell>

Bernardo B. Marques remove all trailling spaces	r4872	# The eigenvalues of random matrices obey certain statistical laws. Here we construct random matrices
Brian E. Granger Updating RMT parallel example.	r4591	# from the Gaussian Orthogonal Ensemble (GOE), find their eigenvalues and then investigate the nearest
		# neighbor eigenvalue distribution $\rho(s)$.

		# <codecell>

		from rmtkernel import ensemble_diffs, normalize_diffs, GOE
		import numpy as np
MinRK remove kernel examples already ported to newparallel	r3675	from IPython.parallel import Client
MinRK updates to docs and examples	r3670
Brian E. Granger Updating RMT parallel example.	r4591	# <markdowncell>
MinRK updates to docs and examples	r3670
Brian E. Granger Updating RMT parallel example.	r4591	# ## Wigner's nearest neighbor eigenvalue distribution

		# <markdowncell>

		# The Wigner distribution gives the theoretical result for the nearest neighbor eigenvalue distribution
		# for the GOE:
Bernardo B. Marques remove all trailling spaces	r4872	#
Brian E. Granger Updating RMT parallel example.	r4591	# $$\rho(s) = \frac{\pi s}{2} \exp(-\pi s^2/4)$$

		# <codecell>

		def wigner_dist(s):
MinRK updates to docs and examples	r3670	"""Returns (s, rho(s)) for the Wigner GOE distribution."""
Brian E. Granger Updating RMT parallel example.	r4591	return (np.pis/2.0) np.exp(-np.pis*2/4.)
MinRK updates to docs and examples	r3670
Brian E. Granger Updating RMT parallel example.	r4591	# <codecell>
MinRK updates to docs and examples	r3670
Brian E. Granger Updating RMT parallel example.	r4591	def generate_wigner_data():
		s = np.linspace(0.0,4.0,400)
		rhos = wigner_dist(s)
MinRK updates to docs and examples	r3670	return s, rhos

Brian E. Granger Updating RMT parallel example.	r4591	# <codecell>

		s, rhos = generate_wigner_data()

		# <codecell>

		plot(s, rhos)
		xlabel('Normalized level spacing s')
		ylabel('Probability $\rho(s)$')

		# <markdowncell>

		# ## Serial calculation of nearest neighbor eigenvalue distribution

		# <markdowncell>

		# In this section we numerically construct and diagonalize a large number of GOE random matrices
		# and compute the nerest neighbor eigenvalue distribution. This comptation is done on a single core.

		# <codecell>

		def serial_diffs(num, N):
		"""Compute the nearest neighbor distribution for num NxX matrices."""
		diffs = ensemble_diffs(num, N)
		normalized_diffs = normalize_diffs(diffs)
		return normalized_diffs

		# <codecell>

		serial_nmats = 1000
		serial_matsize = 50

		# <codecell>

		%timeit -r1 -n1 serial_diffs(serial_nmats, serial_matsize)
MinRK updates to docs and examples	r3670
Brian E. Granger Updating RMT parallel example.	r4591	# <codecell>
MinRK updates to docs and examples	r3670
Brian E. Granger Updating RMT parallel example.	r4591	serial_diffs = serial_diffs(serial_nmats, serial_matsize)

		# <markdowncell>

		# The numerical computation agrees with the predictions of Wigner, but it would be nice to get more
		# statistics. For that we will do a parallel computation.

		# <codecell>

		hist_data = hist(serial_diffs, bins=30, normed=True)
		plot(s, rhos)
		xlabel('Normalized level spacing s')
		ylabel('Probability $P(s)$')

		# <markdowncell>

		# ## Parallel calculation of nearest neighbor eigenvalue distribution

		# <markdowncell>

		# Here we perform a parallel computation, where each process constructs and diagonalizes a subset of
		# the overall set of random matrices.

		# <codecell>

		def parallel_diffs(rc, num, N):
MinRK remove kernel examples already ported to newparallel	r3675	nengines = len(rc.targets)
MinRK updates to docs and examples	r3670	num_per_engine = num/nengines
		print "Running with", num_per_engine, "per engine."
Brian E. Granger Updating RMT parallel example.	r4591	ar = rc.apply_async(ensemble_diffs, num_per_engine, N)
		diffs = np.array(ar.get()).flatten()
		normalized_diffs = normalize_diffs(diffs)
		return normalized_diffs

		# <codecell>

		client = Client()
		view = client[:]
		view.run('rmtkernel.py')
		view.block = False

		# <codecell>

		parallel_nmats = 40*serial_nmats
		parallel_matsize = 50

		# <codecell>

		%timeit -r1 -n1 parallel_diffs(view, parallel_nmats, parallel_matsize)

		# <codecell>

		pdiffs = parallel_diffs(view, parallel_nmats, parallel_matsize)

		# <markdowncell>

		# Again, the agreement with the Wigner distribution is excellent, but now we have better
		# statistics.

		# <codecell>

		hist_data = hist(pdiffs, bins=30, normed=True)
		plot(s, rhos)
		xlabel('Normalized level spacing s')
		ylabel('Probability $P(s)$')

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