It's interesting that Data.Array.Repa is actually faster than hmatrix, which is unexpected since hmatrix is implemented using LAPACK. Is this because Repa uses the unboxed type?

```
import Data.Array.Repa
import Data.Array.Repa.Algorithms.Matrix
main = do
let
a = fromListUnboxed (Z:.1000:.1000::DIM2) $ replicate (1000*1000) 1.0 :: Array U DIM2 Double
b = fromListUnboxed (Z:.1000:.1000::DIM2) $ replicate (1000*1000) 1.0 :: Array U DIM2 Double
m <- (a `mmultP` b)
print $ m!(Z:.900:.900)
```

running time with 1 core: 7.011s

running time with 2 core: 3.975s

```
import Numeric.LinearAlgebra
import Numeric.LinearAlgebra.LAPACK
main = do
let
a = (1000><1000) $ replicate (1000*1000) 1.0
b = (1000><1000) $ replicate (1000*1000) 1.0
print $ (a `multiplyR` b) @@> (900,900)
```

Running time: 20.714s

`repa`

, but is it possible that`repa`

is being lazy and not computing the entire matrix? – Gabriel Gonzalez Nov 2 '13 at 14:57unboxedrepa arrays (`fromListUnboxed`

and also the`U`

parameter to Array). I think laziness would have kicked in with`Delayed`

arrays (`D`

parameter). – Alp Mestanogullari Nov 3 '13 at 19:26