I have implemented a code that generate the infinite sequence given the base case and the coefficients of a linear recurrence relation.

```
import Data.List
linearRecurrence coef base | n /= (length base) = []
| otherwise = base ++ map (sum . (zipWith (*) coef)) (map (take n) (tails a))
where a = linearRecurrence coef base
n = (length coef)
```

Here is a implementation of Fibonacci numbers. fibs = 0 : 1 : (zipWith (+) fibs (tail fibs))

It's easy to see that

```
linearRecurrence [1,1] [0,1] = fibs
```

However the time to calculate `fibs!!2000`

is 0.001s, and around 1s for `(linearRecurrence [1,1] [0,1])!!2000`

. Where does the huge difference in speed come from? I have made some of the functions strict. For example, `(sum . (zipWith (*) coef))`

is replaced by `(id $! (sum . (zipWith (*) coef)))`

, and it did not help.

`-O2`

) on my netbook, and I get roughly a 10x difference between the two, not anything near the 1000x you claim to be seeing. – hammar Nov 30 '11 at 9:17