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
    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?

  • 1
    More info! How are you running this program? Where is your test harness? What concrete types are you using? What are the flags and version on your Haskell compiler? – Thomas M. DuBuisson Sep 24 '15 at 15:37
  • Added some info. That function is called via the ad grad function which uses its own types (instances of Num). Profiling shows allocations of "Cells". – JP Moresmau Sep 24 '15 at 15:45
  • Some half-informed suggestions: did you consider using mutable state with 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
  • 3
    Just to exclude an obvious thing: what if you add a bang pattern in the last clause of go, e.g. go (y:ys) (x:xs) !ix = go ys xs (y*x+ix) – Yuras Sep 24 '15 at 16:16
  • 1
    Could you give a minimum executable example? – Thomas M. DuBuisson Sep 24 '15 at 17:24

A very simple optimization is to make the go function strict by its accumulator parameter, because it's small, can be unboxed if a is primitive and always needs to be fully evaluated:

{-# LANGUAGE BangPatterns #-}
listMProd :: (Num a) => [a] -> [a] -> [a]
listMProd mdt vdt = go mdt vdt 0
    go [] _  !s = [s]
    go ls [] !s = s : go ls vdt 0
    go (y:ys) (x:xs) !ix = go ys xs (y*x+ix)

On my machine, it gives 3-4x speedup (compiled with -O2).

On the other hand, intermediate lists shouldn't be strict so they could be fused.

  • Mhh, good idea, but it doesn't help at all in my use case (no improvement in speed or GC usage). I think the fact that the function is called via the ad library is what's impacting the performance (I see a Cells datatype with a strict Int field). – JP Moresmau Sep 24 '15 at 16:28

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