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In my recent work with Gibbs sampling, I've been making great use of the RVar which, in my view, provides a near ideal interface to random number generation. Sadly, I've been unable to make use of Repa due to the inability to use monadic actions in maps.

While clearly monadic maps can't be parallelized in general, it seems to me that RVar may be at least one example of a monad where effects can be safely parallelized (at least in principle; I'm not terribly familiar with the inner workings of RVar). Namely, I want to write something like the following,

drawClass :: Sample -> RVar Class
drawClass = ...

drawClasses :: Array U DIM1 Sample -> RVar (Array U DIM1 Class)
drawClasses samples = A.mapM drawClass samples

where A.mapM would look something like,

mapM :: ParallelMonad m => (a -> m b) -> Array r sh a -> m (Array r sh b)

While clearly how this would work depends crucially on the implementation of RVar and its underlying RandomSource, in principle one would think that this would involve drawing a new random seed for each thread spawned and proceeding as usual.

Intuitively, it seems that this same idea might generalize to some other monads.

So, my question is: Could one construct a class ParallelMonad of monads for which effects can be safely parallelized (presumably inhabited by, at the least, RVar)?

What might it look like? What other monads might inhabit this class? Have others considered the possibility of how this might work in Repa?

Finally, if this notion of parallel monadic actions can't be generalized, does anyone see any nice way to make this work in the specific case of RVar (where it would be very useful)? Giving up RVar for parallelism is a very difficult trade-off.

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I guess the sticking point is "drawing a new random seed for each thread spawned" -- how should this step work, and how should the seeds be merged again once all the threads return? – Daniel Wagner Jun 27 '12 at 17:46
The RVar interface would almost certainly need some additions to accommodate spawning a new generator with a given seed. Admittedly, it's unclear how the mechanics of this work and it does seem quite RandomSource specific. My naive attempt at drawing a seed would be to do something simple and likely very wrong such as draw a vector of elements (in the case of mwc-random) and add 1 to each element to produce a seed for the first worker, add 2 for the second worker, etc. Woefully inadequate if you need cryptographic-quality entropy; hopefully fine if you just need a random walk. – bgamari Jun 27 '12 at 18:41
I have been able to do something similar to what you're asking for using fillChunkedIOP. – kosmikus Jun 30 '12 at 9:45
I've come across this question while trying to solve a similar problem. I'm using MonadRandom and System.Random for monadic random computations in parallel. This is only possible with System.Random's split function. It has the disadvantage of producing different results (due to the nature of split but it does work. However, I'm trying to extend this to Repa arrays and not having much luck. Have you made any progress with this or is it a dead-end? – Tom Savage Feb 1 '13 at 14:07
I am hesitant. As Tom Savage notes, split provides a necessary foundation, but note the comment on the source for how split is implemented: "-- no statistical foundation for this!". I incline to think that any method of splitting a PRNG will leave exploitable correlation between its branches, but do not have the statistical background to prove that. Regarding the general question, I am not certain that – isturdy May 2 '13 at 19:02

It's probably not a good idea to do this due to inherently sequential nature of PRNGs. Instead, you might want to transition your code as follows:

  1. Declare an IO function (main, or what have you).
  2. Read as many random numbers as you need.
  3. Pass the (now pure) numbers onto your repa functions.
share|improve this answer
Would it be possible to burn-in each PRNG in each parallel thread to create statistical independence? – J. Abrahamson May 17 '13 at 12:44

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