This is a library and generic interface for alternative random generators in Python and Numpy.
- Immediate drop in replacement for NumPy's RandomState
# import numpy.random as rnd
import randomstate as rnd
x = rnd.standard_normal(100)
y = rnd.random_sample(100)
z = rnd.randn(10,10)
- Default random generator is identical to NumPy's RandomState (i.e., same seed, same random numbers).
- Support for random number generators that support independent streams and jumping ahead so that substreams can be generated
- Faster random number generation, especially for Normals using the Ziggurat method
import randomstate as rnd
w = rnd.standard_normal(10000, method='zig')
-
Support for 32-bit floating randoms for core generators. Currently supported:
- Uniforms (
random_sample
) - Exponentials (
standard_exponential
) - Normals (
standard_normal
, both Box-Muller and Ziggurat) - Standard Gammas (via
standard_gamma
)
WARNING: The 32-bit generators are experimental and subjust to change.
Note: There are no plans to extend the alternative precision generation to all random number types.
- Uniforms (
This modules includes a number of alternative random number generators in addition to the MT19937 that is included in NumPy. The RNGs include:
- MT19937, the NumPy rng
- dSFMT a SSE2-aware version of the MT19937 generator that is especially fast at generating doubles
- xorshift128+, xoroshiro128+ and xorshift1024*
- PCG32 and PCG64
- MRG32K3A
- A multiplicative lagged fibonacci generator (LFG(63, 1279, 861, *))
standard_normal
,normal
,randn
andmultivariate_normal
all support an additionalmethod
keyword argument which can bebm
orzig
wherebm
corresponds to the current method using the Box-Muller transformation andzig
uses the much faster (100%+) ziggurat method.random_sample
can produce either single precision (np.float32
) or double precision (np.float64
, the default) using an the optional keyword argumentdtype
.
random_entropy
- Read from the system entropy provider, which is commonly used in cryptographic applicationsrandom_raw
- Direct access to the values produced by the underlying PRNG. The range of the values returned depends on the specifics of the PRNG implementation.jump
- Jumps RNGs that support it.jump
moves the state a great distance. Only available if supported by the RNG.advance
- Advanced the core RNG 'as-if' a number of draws were made, without actually drawing the numbers. Only available if supported by the RNG.
- Complete drop-in replacement for
numpy.random.RandomState
. Themt19937
generator is identical tonumpy.random.RandomState
, and will produce an identical sequence of random numbers for a given seed. - Builds and passes all tests on:
- Linux 32/64 bit, Python 2.7, 3.4, 3.5 (should work on 2.6 and 3.3)
- PC-BSD (FreeBSD) 64-bit, Python 2.7
- OSX 64-bit, Python 2.7
- Windows 32/64 bit (only tested on Python 2.7 and 3.5, but should work on 3.3/3.4)
The version matched the latest version of NumPy where
randomstate.prng.mt19937
passes all NumPy test.
An occasionally updated build of the documentation is available on my github pages.
This module is essentially complete. There are a few rough edges that need to be smoothed.
- Stream support for MLFG
- Creation of additional streams from a RandomState where supported
(i.e. a
next_stream()
method)
Building requires:
- Python (2.7, 3.4, 3.5)
- Numpy (1.9, 1.10, 1.11)
- Cython (0.22, 0.23, 0.24)
- tempita (0.5+), if not provided by Cython
Testing requires nose (1.3+).
Note: it might work with other versions but only tested with these versions.
All development has been on 64-bit Linux, and it is regularly tested on
Travis-CI. The library is occasionally tested on Linux 32-bit,
OSX 10.10, PC-BSD 10.2 (should also work on Free BSD) and Windows
(Python 2.7/3.5, both 32 and 64-bit).
Basic tests are in place for all RNGs. The MT19937 is tested against NumPy's implementation for identical results. It also passes NumPy's test suite.
python setup.py install
dSFTM
makes use of SSE2 by default. If you have a very old computer
or are building on non-x86, you can install using:
python setup.py install --no-sse2
Either use a binary installer, or if building from scratch, use
Python 3.5 with Visual Studio 2015 Community Edition. It can also be
build using Microsoft Visual C++ Compiler for Python 2.7 and Python 2.7,
although some modifications may be needed to distutils
to find the
compiler.
The separate generators are importable from randomstate.prng
.
import randomstate
rs = randomstate.prng.xorshift128.RandomState()
rs.random_sample(100)
rs = randomstate.prng.pcg64.RandomState()
rs.random_sample(100)
# Identical to NumPy
rs = randomstate.prng.mt19937.RandomState()
rs.random_sample(100)
Like NumPy, randomstate
also exposes a single instance of the
mt19937
generator directly at the module level so that commands like
import randomstate
randomstate.standard_normal()
randomstate.exponential(1.0, 1.0, size=10)
will work.
Standard NCSA, plus sub licenses for components.
Performance is promising, and even the mt19937 seems to be faster than NumPy's mt19937.
Speed-up relative to NumPy (Uniform Doubles)
************************************************************
randomstate.prng-dsfmt-random_sample 313.5%
randomstate.prng-mlfg_1279_861-random_sample 459.4%
randomstate.prng-mrg32k3a-random_sample -57.6%
randomstate.prng-mt19937-random_sample 72.5%
randomstate.prng-pcg32-random_sample 232.8%
randomstate.prng-pcg64-random_sample 330.6%
randomstate.prng-xoroshiro128plus-random_sample 609.9%
randomstate.prng-xorshift1024-random_sample 348.8%
randomstate.prng-xorshift128-random_sample 489.7%
Speed-up relative to NumPy (Normals using Box-Muller)
************************************************************
randomstate.prng-dsfmt-standard_normal 26.8%
randomstate.prng-mlfg_1279_861-standard_normal 30.9%
randomstate.prng-mrg32k3a-standard_normal -14.8%
randomstate.prng-mt19937-standard_normal 17.7%
randomstate.prng-pcg32-standard_normal 24.5%
randomstate.prng-pcg64-standard_normal 26.2%
randomstate.prng-xoroshiro128plus-standard_normal 31.4%
randomstate.prng-xorshift1024-standard_normal 27.4%
randomstate.prng-xorshift128-standard_normal 30.3%
Speed-up relative to NumPy (Normals using Ziggurat)
************************************************************
randomstate.prng-dsfmt-standard_normal 491.7%
randomstate.prng-mlfg_1279_861-standard_normal 439.6%
randomstate.prng-mrg32k3a-standard_normal 101.2%
randomstate.prng-mt19937-standard_normal 354.4%
randomstate.prng-pcg32-standard_normal 531.0%
randomstate.prng-pcg64-standard_normal 517.9%
randomstate.prng-xoroshiro128plus-standard_normal 674.0%
randomstate.prng-xorshift1024-standard_normal 486.7%
randomstate.prng-xorshift128-standard_normal 617.0%