Parallel Matrix Multiplication

I wrote a simple parallel matrix multiplication using `par` and `pseq`.

After running this program, none of the sparks converted (SPARKS: 20 (0 converted, 0 pruned)).

``````import Data.List
import Control.Parallel

parHelp :: ( Num a ) => [ a ] -> [ a ] -> a
parHelp [] [] = 0
parHelp ( x : xs ) ( y : ys ) = ret where
ret = par a ( pseq b ( a + b ) ) where
a = x * y
b = parHelp xs ys

helpMult :: ( Num a ) => [ a ] -> [ [ a ] ] -> [ a ]
helpMult _ [] = []
helpMult x ( y : ys ) = ret where
ret =  par a ( pseq b  ( a : b ) ) where
a = sum . zipWith ( *) x \$ y
b = helpMult x ys

mult :: ( Num a ) => [ [ a ] ] -> [ [ a ] ] -> [ [ a ] ]
mult [] _ = []
mult ( x : xs ) ys = ret where
ret = par a ( pseq b  ( a : b ) ) where
a = helpMult x ys
b = mult xs ys

main = print \$ mult [[1 .. 4 ] , [ 1 .. 4 ] , [ 1 .. 4 ] , [ 1 .. 4] ] ( transpose [[1 .. 4 ] , [ 1 .. 4 ] , [ 1 .. 4 ] , [ 1 .. 4] ])
``````
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OT. Try codereview.stackexchange.com –  larsmans Dec 12 '11 at 19:59
A list of lists is not a matrix. I suggest you learn and use Repa for this purpose. If you want to learn how to use the parallel package, I encourage you to select another application domain and re-ask the question. –  Thomas M. DuBuisson Dec 12 '11 at 20:02
Thank you. I will try Repa. –  keep_learning Dec 12 '11 at 21:24
Disagree with the close vote; SO could use more content on parallel Haskell. –  Dan Burton Dec 12 '11 at 21:40
Does this code actually work (give you the expected results), and you just want to improve the performance and/or parallelize it, or does this code not work (not give you the expected results) and you are looking to understand why it doesn't work? –  casperOne Dec 13 '11 at 19:07