-- $ runhaskell parallel.hs 2000 import System(getArgs) import Numeric.LinearAlgebra import Control.Parallel.Strategies import System.Time inParallel = parMap rwhnf id -- matrix product decomposed into p parallel subtasks parMul p x y = fromBlocks [ inParallel ( map (x <>) ys ) ] where [ys] = toBlocksEvery (rows y) (cols y `div` p) y main = do n <- (read . head) `fmap` getArgs let m = ident n :: Matrix Double time $ print $ maxElement $ takeDiag $ m <> m time $ print $ maxElement $ takeDiag $ parMul 2 m m time $ print $ maxElement $ takeDiag $ parMul 4 m m time $ print $ maxElement $ takeDiag $ parMul 8 m m time act = do t0 <- getClockTime act t1 <- getClockTime print $ tdSec $ normalizeTimeDiff $ diffClockTimes t1 t0