[jira] [Commented] (RNG-50) PoissonSampler single use speed improvements

[Alex D Herbert (JIRA)]

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https://issues.apache.org/jira/browse/RNG-50?page=com.atlassian.jira.plugin.system.issuetabpanels:comment-tabpanel&focusedCommentId=16562407#comment-16562407
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Alex D Herbert commented on RNG-50:
-----------------------------------

{quote}I'm a bit lost with layout of the tables
{quote}
I just pasted pre-formatted output text from the JUnit tests into the comment. 
It looks fine through a web browser; not sure about other means of viewing it. 
Sorry.
{quote}Correct?
{quote}
Yes. Basically the {{PoissonSampler}} is using two methods and each can 
precompute some values for reuse that help speed them up. This is significant 
for the {{LargeMeanPoissonSampler}}. However the {{SmallMeanPoissonSampler}} is 
only marginal in my JUnit test. It is precomputing {{Math.exp(-mean)}} which 
should give it an advantage. In the above results it is slower when mean=35. 
This was repeatable on my machine at work (running linux Open JDK 1.8). I've 
updated the code to use final methods and final inner classes which should help 
the JVM optimisation. The later version is faster but I've switch machines to a 
Mac running Sun Hotspot JDK 1.8. I'll repeat again tomorrow to check this is 
the best option.

 

> PoissonSampler single use speed improvements
> --------------------------------------------
>
>                 Key: RNG-50
>                 URL: https://issues.apache.org/jira/browse/RNG-50
>             Project: Commons RNG
>          Issue Type: Improvement
>    Affects Versions: 1.0
>            Reporter: Alex D Herbert
>            Priority: Minor
>         Attachments: PoissonSamplerTest.java
>
>
> The Sampler architecture of {{org.apache.commons.rng.sampling.distribution}} 
> is nicely written for fast sampling of small dataset sizes. The constructors 
> for the samplers do not check the input parameters are valid for the 
> respective distributions (in contrast to the old 
> {{org.apache.commons.math3.random.distribution}} classes). I assume this is a 
> design choice for speed. Thus most of the samplers can be used within a loop 
> to sample just one value with very little overhead.
> The {{PoissonSampler}} precomputes log factorial numbers upon construction if 
> the mean is above 40. This is done using the {{InternalUtils.FactorialLog}} 
> class. As of version 1.0 this internal class is currently only used in the 
> {{PoissonSampler}}.
> The cache size is limited to 2*PIVOT (where PIVOT=40). But it creates and 
> precomputes the cache every time a PoissonSampler is constructed if the mean 
> is above the PIVOT value.
> Why not create this once in a static block for the PoissonSampler?
> {code:java}
> /** {@code log(n!)}. */
> private static final FactorialLog factorialLog;
>      
> static 
> {
>     factorialLog = FactorialLog.create().withCache((int) (2 * 
> PoissonSampler.PIVOT));
> }
> {code}
> This will make the construction cost of a new {{PoissonSampler}} negligible. 
> If the table is computed dynamically as a static construction method then the 
> overhead will be in the first use. Thus the following call will be much 
> faster:
> {code:java}
> UniformRandomProvider rng = ...;
> int value = new PoissonSampler(rng, 50).sample();
> {code}
> I have tested this modification (see attached file) and the results are:
> {noformat}
> Mean 40  Single construction ( 7330792) vs Loop construction                  
>         (24334724)   (3.319522.2x faster)
> Mean 40  Single construction ( 7330792) vs Loop construction with static 
> FactorialLog ( 7990656)   (1.090013.2x faster)
> Mean 50  Single construction ( 6390303) vs Loop construction                  
>         (19389026)   (3.034132.2x faster)
> Mean 50  Single construction ( 6390303) vs Loop construction with static 
> FactorialLog ( 6146556)   (0.961857.2x faster)
> Mean 60  Single construction ( 6041165) vs Loop construction                  
>         (21337678)   (3.532047.2x faster)
> Mean 60  Single construction ( 6041165) vs Loop construction with static 
> FactorialLog ( 5329129)   (0.882136.2x faster)
> Mean 70  Single construction ( 6064003) vs Loop construction                  
>         (23963516)   (3.951765.2x faster)
> Mean 70  Single construction ( 6064003) vs Loop construction with static 
> FactorialLog ( 5306081)   (0.875013.2x faster)
> Mean 80  Single construction ( 6064772) vs Loop construction                  
>         (26381365)   (4.349935.2x faster)
> Mean 80  Single construction ( 6064772) vs Loop construction with static 
> FactorialLog ( 6341274)   (1.045591.2x faster)
> {noformat}
> Thus the speed improvements would be approximately 3-4 fold for single use 
> Poisson sampling.



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