I'd start with PGM library. This is a very simple uncompressed graymap format. Almost no additinal dependencies. You can convert PGM to other formats with ImageMagick or other tools.
PGM supports generic
IArray interface, and should work with most of the standard Haskell arrays. You can easily parallelize array computations with
PGM usage example:
ghci> :m + Data.Array Graphics.Pgm
ghci> let a = accumArray (+) 0 ((0::Int,0::Int),(127,127)) [ ((i,i), 1.0::Double) | i <- [0..127] ]
ghci> arrayToFile "t.pgm" (fmap round a)
And this is the image:
Otherwise you may use Codec-Image-DevIL which can save unboxed arrays to many of the image formats. You'll need DevIL library too. And you'll need to convert all arrays to that particular type of them (
UArray (Int, Int, Int) Word8).
Finally, if you want bleeding edge, you may consider
repa parallel arrays and corresponding
repa-io library, which can write them to BMP images. Unfortunately, today
repa is not yet buildable with the new GHC 7.0.2 and doesn't give performance advantages on old GHC 6.12.