I have read about `Vector`

library that uses modern optimization techniques and try to compare its perfomance with lists. The code below generates some sound-like data (which is important to my subject area) and sums the result:

```
import System.Environment (getArgs)
import System.TimeIt
import Data.List
import Data.Vector.Unboxed as V
x1 :: Int -> [Double]
x1 n = [1..(fromIntegral n)]
x2 :: Int -> V.Vector Double
x2 n = V.enumFromN 1 n
osc1 f = Prelude.map (\x -> sin(2*pi*x*f/44100.0))
osc2 f = V.map (\x -> sin(2*pi*x*f/44100.0))
sum1 = Data.List.foldl1' (+)
sum2 = V.foldl1' (+)
zip1 = Prelude.zipWith (+)
zip2 = V.zipWith (+)
main = do s <- getArgs
let n = read (s !! 0) :: Int
print "Prelude version"
timeIt $ print $ sum1 $ zip1 (osc1 55.5 (x1 n)) (osc1 110.0 $ x1 n)
print "Vector version"
timeIt $ print $ sum2 $ zip2 (osc2 55.5 (x2 n)) (osc2 110.0 $ x2 n)
```

GHC 7.6.3 running on win7 with vector0.10.0.1 and timeit1.0.0.0 gave me these results:

```
c:\coding>test 10000000
"Prelude version"
90.98579564908658
CPU time: 9.92s
"Vector version"
90.98579564908658
CPU time: 11.03s
```

Vector version is a little bit slower even being `Unboxed`

and it takes 22.67 seconds for the boxed Vector version. Why does this happen? How should I write this code to get maximum perfomace?

UPD. After adding `-O2`

(**) I got more clear to me results. It looks like boxed vectors are harder to fuse.

```
List Vector.Unboxed Vector
ghc test.hs 9.78 10.94 21.95
ghc test.hs -O2 3.39 1.25 7.57
```

(**) I didn't note because ghc doesn't recompile unchanged files even if command line flags are different and I hadn't actually run `-O2`

version before noticed that. Sorry

`-O2`

and they didn't differ much but it was just because it wasn't actually recompiled. Now it is more clear but I still wonder why boxed vectors are slower – Dmitry Galchinsky Oct 3 '13 at 14:51