I have that Haskell function, that's causing more than 50% of all the allocations of my program, causing 60% of my run time to be taken by the GC. I run with a small stack (`-K10K`

) so there is no stack overflow, but can I make this function faster, with less allocation?

The goal here is to calculate the product of a matrix by a vector. I cannot use `hmatrix`

for example because this is part of a bigger function using the `ad`

Automatic Differentiation package, so I need to use lists of `Num`

. At runtime I suppose the use of the `Numeric.AD`

module means my types must be `Scalar Double`

.

```
listMProd :: (Num a) => [a] -> [a] -> [a]
listMProd mdt vdt = go mdt vdt 0
where
go [] _ s = [s]
go ls [] s = s : go ls vdt 0
go (y:ys) (x:xs) ix = go ys xs (y*x+ix)
```

Basically we loop through the matrix, multiplying and adding an accumulator until we reach the end of the vector, storing the result, then continuing restarting the vector again. I have a `quickcheck`

test verifying that I get the same result than the matrix/vector product in hmatrix.

I have tried with `foldl`

, `foldr`

, etc. Nothing I've tried makes the function faster (and some things like `foldr`

cause a space leak).

Running with profiling tells me, on top of the fact that this function is where most of the time and allocation is spent, that there are loads of `Cells`

being created, `Cells`

being a data type from the `ad`

package.

A simple test to run:

```
import Numeric.AD
main = do
let m :: [Double] = replicate 400 0.2
v :: [Double] = replicate 4 0.1
mycost v m = sum $ listMProd m v
mygrads = gradientDescent (mycost (map auto v)) (map auto m)
print $ mygrads !! 1000
```

This on my machine tells me GC is busy 47% of the time.

Any ideas?

`ST`

? And stream-fusion/conduit/pipes? Maybe (?) it could even be worthwhile to transform your vector-list into something else, e.g. an unboxed vector? I do not have experience with any of these techniques but maybe the links can help you further. – Sam van Herwaarden Sep 24 '15 at 16:15`go`

, e.g.`go (y:ys) (x:xs) !ix = go ys xs (y*x+ix)`

– Yuras Sep 24 '15 at 16:16