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One one hand, in Haskell Vector a seems to be the preferred type to use as an array of numbers. There is even an (incomplete) Vector Tutorial.

On the other hand, Control.Parallel.Strategies are defined mostly in terms of Traversable. Vector library doesn't provide these instances.

The minimal complete definition of Traversable t should also define Foldable and

traverse :: Applicative f => (a -> f b) -> t a -> f (t b)
sequenceA :: Applicative f => t (f a) -> f (t a)

I don't see how sequenceA can be defined for Data.Vector.Unboxed.Vector. So, what is the best approach to writing parallel code with unboxed vectors? Defining some new ad hoc strategies like evalVector or using par and pseq explicitly or using plain Data.Array instead of vectors?

P.S. Plain Arrays are parallelizable without problems:

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Getting a little anxious for DPH to show some fruit, are you? – Thomas M. DuBuisson Nov 15 '10 at 18:10
Well, sort of. I'd like to try writing numeric code in Haskell, and don't understand yet what I should use for that. – sastanin Nov 15 '10 at 21:41
I don't think your version of parVector would work: rseq wouldn't evaluate any of the elements (its only WHNF) and the V.concat is an unnecessary O(n) operation - we're trying to force the computation of the elements, no need to construct a new vector. – Thomas M. DuBuisson Nov 16 '10 at 17:55
also vLen - half should probably be vLen - 1, but that isn't quite right either as it segfaults for me. – Thomas M. DuBuisson Nov 16 '10 at 19:25
I uploaded this as the package vector-strategies as it seemed useful enough to a wide audience but Roman wasn't willing to add to the Vector build-deps (understandable). – Thomas M. DuBuisson Nov 18 '10 at 21:45

2 Answers 2

up vote 5 down vote accepted

It's a hack job for parVector but this worked for me:

import qualified Data.Vector as V
import Control.Parallel.Strategies
import Control.Parallel
import Control.DeepSeq

ack :: Int -> Int -> Int
ack 0 n = n+1
ack m 0 = ack (m-1) 1
ack m n = ack (m-1) (ack m (n-1))

main = do
  let vec = V.enumFromN 1 1000
  let res = ( (ack 2) vec) `using` parVector
  print res

parVector :: NFData a => Strategy (V.Vector a)
parVector vec = eval vec `seq` Done vec
  chunkSize = 1
  eval v
    | vLen == 0 = ()
    | vLen <= chunkSize = rnf (v V.! 0) -- FIX this to handle chunks > 1
    | otherwise = eval (V.take half v) `par` eval (V.drop half v)
    where vLen = V.length v
          half = vLen `div` 2

And running this code:

[tommd@Mavlo Test]$ ghc --make -O2 -threaded t.hs
... dumb warning ...
[tommd@Mavlo Test]$ time ./t +RTS -N1 >/dev/null
real    0m1.962s user    0m1.951s sys     0m0.009s
[tommd@Mavlo Test]$ time ./t +RTS -N2 >/dev/null
real    0m1.119s user    0m2.221s sys 0m0.005s

When I run the code with Integer instead of Int in the type signature:

[tommd@Mavlo Test]$ time ./t +RTS -N2 >/dev/null

real    0m4.754s
user    0m9.435s
sys     0m0.028s
[tommd@Mavlo Test]$ time ./t +RTS -N1 >/dev/null

real    0m9.008s
user    0m8.952s
sys     0m0.029s


EDIT: And a solution that is a bit closer to your earlier attempt is cleaner (it doesn't use functions from three separate modules) and works great:

parVector :: NFData a => Strategy (V.Vector a)
parVector vec =
  let vLen = V.length vec
      half = vLen `div` 2
      minChunk = 10
  in  if vLen > minChunk
      then do
        let v1 = V.unsafeSlice 0 half vec
            v2 = V.unsafeSlice half (vLen - half) vec
        parVector v1
        parVector v2
        return vec
        evalChunk (vLen-1) >>
        return vec
  evalChunk 0 = rpar (rdeepseq (vec V.! 0)) >> return vec
  evalChunk i = rpar (rdeepseq (vec V.! i)) >> evalChunk (i-1)

Things to learn from this solution:

  1. It uses the Eval monad, which is strict so we're sure to spark everything (compared to wrapping things in let and remembering to use bang patterns).
  2. Contrary to your proposed implementation it (a) doesn't construct a new vector, which is costly (b) evalChunk forces evaluation of each element using rpar and rdeepseq (I don't believe rpar vec forces any of the vector's elements).
  3. Contrary to my belief, slice takes a start index and length, not a start and end index. Oops!
  4. We still need to import Control.DeepSeq (NFData), but I've e-mailed the libraries list to try and fix that issue.

Performance seems similar to the first parVector solution in this answer, so I won't post numbers.

share|improve this answer
This works! Thank you. – sastanin Nov 17 '10 at 11:01
Note Tom's library is now on Hackage: – Don Stewart May 2 '11 at 23:12

1) As you probably know, vector is a product of the DPH work that has proven harder than the researchers initially expected.

2) Unboxed vectors can't divide up the work for individual elements across multiple CPUs.

3) I'd be a lot more hopeful for boxed vectors. Something like:

using (map (rnf . (vec !)) [0..V.length vec - 1]) (parList rdeepseq)

Or maybe you can avoid constructing the list and using parlist. I think just assigning parts of the array is sufficient. The below code is likely broken, but the concept of making your own parVector using rnf and dividing the vector in half until it is a single element (or some tunable chunk size of elements) should work.

parVector :: Strategy (Vector a)
parVector = let !_ = eval vec in Done vec
  chunkSize = 1
  eval v
    | vLen == 0 = ()
    | vLen <= chunkSize = rnf (v ! 0) -- FIX this to handle chunks > 1
    | otherwise = eval (V.take half v) `par` eval (V.drop half v)
    where vLen = V.length v
          half = vLen `div` 2
share|improve this answer
Tom, thank you for the idea. I'll try it. Did I understood correctly that even this parVector won't work on unboxed vectors? – sastanin Nov 15 '10 at 21:44
Right. Perhaps Roman (author of vector, posts here sometimes) will come in and make things clearer but unboxed data can't be a delayed computation (can't be a thunk). Forcing any element of an unboxed vector forces the others and any parallelism must be done inside the Vector package (if that's even possible). – Thomas M. DuBuisson Nov 15 '10 at 22:07
I tried parVector strategy, though I had to rewrite it to build with the newer parallel (see the edited question). Unfortunately, it didn't give any speed-up. – sastanin Nov 16 '10 at 14:22

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