I was trying to bench parMap vs map with a very simple example:

import Control.Parallel.Strategies
import Criterion.Main

sq x = x^2

a = whnf sum $ map sq [1..1000000]
b = whnf sum $ parMap rseq sq [1..1000000]

main = defaultMain [
    bench "1" a,
    bench "2" b

My results seem to indicate zero speedup from parMap and I was wondering why this might be?

benchmarking 1
Warning: Couldn't open /dev/urandom
Warning: using system clock for seed instead (quality will be lower)
time                 177.7 ms   (165.5 ms .. 186.1 ms)
                     0.997 R²   (0.992 R² .. 1.000 R²)
mean                 185.1 ms   (179.9 ms .. 194.1 ms)
std dev              8.265 ms   (602.3 us .. 10.57 ms)
variance introduced by outliers: 14% (moderately inflated)

benchmarking 2
time                 182.7 ms   (165.4 ms .. 199.5 ms)
                     0.993 R²   (0.976 R² .. 1.000 R²)
mean                 189.4 ms   (181.1 ms .. 195.3 ms)
std dev              8.242 ms   (5.896 ms .. 10.16 ms)
variance introduced by outliers: 14% (moderately inflated)
  • Square is almost a no op. You don't really gain anything from attempting to do it in parallel. – Cubic Apr 21 '16 at 18:27
  • @Cubic I was under the impression it should allocate parts of the list to different threads so there would be effectively less ops per thread. – allidoiswin Apr 21 '16 at 18:29

The problem is that parMap sparks a parallel computation for each individual list element. It doesn't chunk the list at all as you seem to think from your comments—that would require the use of the parListChunk strategy.

So parMap has high overheads, so the fact that each spark simply squares one number means that its cost is overwhelmed by that overhead.

  • 3
    Squaring is so cheap that I would guess the list splitting in parListChunk also overwhelms the parallel gains. – András Kovács Apr 21 '16 at 19:02
  • 3
    Plus paralellization kills fusion, which would otherwise yield orders of magnitude speedup. – András Kovács Apr 21 '16 at 19:09
  • @AndrásKovács: Indeed. When I parallelized a program of mine (using parBuffer, however) I observed precisely that sort of thing. The program computes a family of statistical functions over input data, and some much more expensive than others. So it made the fast ones a bit slower at the cost of making the slow ones much faster. With minimal effort. – Luis Casillas Apr 21 '16 at 19:12

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