None, *, counter=None, key=None, number=4, width=64, numpy_seed=False, mode='sequence')¶
Container for the Philox family of pseudo-random number generators.
None¶
Random seed initializing the pseudo-random number generator. Can be an integer in [0, 2**64), array of integers in [0, 2**64), a SeedSequence instance or None (the default). If seed is None, data will be read from /dev/urandom (or the Windows analog) if available. If unavailable, a hash of the time and process ID is used.
None¶
Counter to use in the Philox state. Can be either a Python int in [0, 2**(N*W)) where N is number of W is the width, or a M-element uint64 array where M = N*W // 64. If not provided, the counter is initialized at 0.
None¶
Key to use in the Philox state. Unlike seed, which is run through another RNG before use, the value in key is directly set. Can be either a Python int in [0, 2**(N*W//2)) or a m-element uint64 array where m = N*W // (2 * 64). If number=2 and width=32, then the value must be in [0, 2**32) even if stored in a uint64 array. key and seed cannot both be used.
4¶
Number of values to produce in a single call. Maps to N in the Philox variant naming scheme PhiloxNxW.
64¶
Bit width the values produced. Maps to W in the Philox variant naming scheme PhiloxNxW.
False¶
Set to True to use the same seeding mechanism as NumPy and so matches NumPy exactly. To match NumPy, variant must be xsl-rr. When using “numpy”, inc must be None.
'sequence'¶
“sequence” uses a SeedSequence to transforms the seed into an initial state. “numpy” also uses a SeedSequence but seeds the generator in a way that is identical to NumPy. When using “numpy”, inc must be None. Additionally, to match NumPy, variant must be xsl-rr (this is not checked).
Lock instance that is shared so that the same bit git generator can be used in multiple Generators without corrupting the state. Code that generates values from a bit generator should hold the bit generator’s lock.
The SeedSequence instance used to initialize the generator if mode is “sequence” or is seed is a SeedSequence.
{None, SeedSequence}
Notes
Philox is a 32 or 64-bit PRNG that uses a counter-based design based on weaker (and faster) versions of cryptographic functions [1]. Instances using different values of the key produce distinct sequences. Philox has a period of \(N*2^{N*W}\) and supports arbitrary advancing and jumping the sequence in increments of \(2^{N*W//2}\). These features allow multiple non-overlapping sequences to be generated.
Philox provides a capsule containing function pointers that produce doubles, and unsigned 32 and 64- bit integers. These are not directly consumable in Python and must be consumed by a Generator or similar object that supports low-level access.
See ThreeFry for a closely related PRNG.
State and Seeding
The Philox state vector consists of a (N*W)-bit value and a (N*W//2)-bit value. These are encoded as an n-element w-bit array. One is a counter which is incremented by 1 for every n w-bit randoms produced. The second is a key which determines the sequence produced. Using different keys produces distinct sequences.
Using a single 64-bit value for the seed can only initialize a small range of the possible initial state values.
Parallel Features
Philox can be used in parallel applications by calling the jump method to advances the state as-if \(2^{N*W//2}\) random numbers have been generated. Alternatively, advance can be used to advance the counter for any positive step in [0, 2**N*W). When using jump, all generators should be initialized with the same seed to ensure that the segments come from the same sequence.
>>> from numpy.random import Generator
>>> from randomgen import Philox
>>> rg = [Generator(Philox(1234)) for _ in range(10)]
# Advance each Philox instance by i jumps
>>> for i in range(10):
... rg[i].bit_generator.jump(i)
Alternatively, Philox can be used in parallel applications by using a sequence of distinct keys where each instance uses different key.
>>> key = 2**196 + 2**132 + 2**65 + 2**33 + 2**17 + 2**9
>>> rg = [Generator(Philox(key=key+i)) for i in range(10)]
Compatibility Guarantee
Philox makes a guarantee that a fixed seed and will always produce the same random integer stream.
Examples
>>> from numpy.random import Generator
>>> from randomgen import Philox
>>> rg = Generator(Philox(1234))
>>> rg.standard_normal()
0.123 # random
References
seed([seed, counter, key])
Seed the generator
Get or set the PRNG state
Parallel generation¶advance(delta[, counter])
Advance the underlying RNG as-if delta draws have occurred.
jump([iter])
Jumps the state as-if 2**(W*N/2) random numbers have been generated.
jumped([iter])
Returns a new bit generator with the state jumped
Extending¶ Testing¶random_raw([size, output])
Return randoms as generated by the underlying BitGenerator
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