I have a bit of a combinatorics problem. I have a array of values and i compute all permutations thus that no two values are the same and the array is increasing from left to right (similar to a decimal system). This yields (n choose k) permutations.

Example for n=6, k=4

0 1 2 3

0 1 2 4

0 1 2 5

0 1 3 4

0 1 3 5

...

2 3 4 5

I compute the permutations iteratively using a for loop (as i know how many iterations there will be, that is no problem). I want to parallelize my code now (simple data parallelization). That means, that every thread gets a portion of the permutations to compute. For that i want to create a start/stop value from which the permutaitons have to run. E.g.:

Thread 1:

0 1 2 3 --to-> 1 2 3 4

Thread 2:

1 2 3 5 --to-> 2 3 4 5

To divide the for loop in similar parts, i divide the number of iterations by the number of threads (approximately - you know what i mean). That means i have to tell the threads to run from a certain point to another certain point:

Thread 1:

0 1 2 3 --to-> (values after n iterations)

Thread 2:

(values after n iterations)+1 --to-> 2 3 4 5

As I know for how long the loop runs and in what fashion the values in my array change, it should be possible to compute their value after n iterations. Unfortunately, i don't know how. Do you guys have any suggestions? I don't want to do it iteratively, that costs to much time; i need a formula to compute it.

Thanks in advance, Leif

nto then-th (constrained as you specify) permutation, or to write a parallel program to list all the (constrained) permutations ? I ask because it is possible to do the latter without the former. – High Performance Mark Aug 23 '12 at 11:41