I have an array A of positive integers [a0, a1, a2, ..., an] and a positive number K. I need to find all (or almost all) pairs of subsets U and V of array A such as:

- sum of all elements in U are less or equal to K
- sum of all elements in V are less or equal to K
- U + V may contain not all elements of original array A
- all elements from U should come before all elements in V in initial array A. For example, let's imagine that we choose U = [a1, a3, a5] then we can start building array V only from a6. It is not allowed to use element a0, a2 or a4 in this case.

I was able to find DP solution, which is O(N^2 * K^2) (where N is total number of elements in A). Although N and K are small (< 100) it is still too slow.

I'm looking for some approximation algorithm or pseudo-polynomial dynamic programming algorithm. Bin packing problem looks similar to mine, but I'm not sure how I can apply it to my constraints...

Please advise.

EDIT: each number has upper bound equal to 50