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
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,
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.