I am trying to find an efficient way for calculating N^N in java. As the result will be very large for large N, I used BigInteger as my result data type and N is integer. If N becomes large say N=10000000 then it takes more time to calculate the result. Is there any efficient way that will calculate it within a second.

  • 15
    I doubt it. That is a pretty big number.
    – Keppil
    May 14, 2013 at 19:48
  • 1
    Do you really need that number? The whole number? Because it's unlikely that you need a 70 million digit number (in decimal) every second. If you only need parts of it, say, the first few digits, there are ways to help you.
    – Carsten
    May 14, 2013 at 19:51
  • 3
    Go buy a supercomputer!
    – Tdorno
    May 14, 2013 at 19:54
  • 1
    @zch Sure it's possible, and not too hard, but not trivial to do in under a second. I'm still on the "this is not really what the OP needs" train.
    – Carsten
    May 14, 2013 at 19:58
  • 3
    This seems to require a longer discussion. Can we please continue it in the chat?
    – Carsten
    May 14, 2013 at 20:17

1 Answer 1


Handle the log of the number, which is N ln(N), in your program. As N grows, the size of N ln(N) relative to N^N shrinks faster and faster.

The way you would implement this depends on what you need to do. If you don’t need your N^N inside the program, then just forget about it and do it on paper once the program outputs. When you’re handling numbers that big, its log/order of magnitude/the number of digits it has (all of those are synonymous) is most of the essential information. If your program outputs x, you would report that the answer is around e^x, and that would be about all you could say.

If you do need N^N inside your program, then you should still calculate x = ln(N^N) = N ln(N). But then you’re going to have to come up with some creative way of going from x to some value that your program can actually use.

  • Pretty solid answer. Only taking what you care about, leaving the rest behind.
    – Makoto
    May 14, 2013 at 20:43

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