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I was wondering how RSA algorithm deals with such big numbers and tried one example in WolframAlpha. How can they deal with such crazy numbers?

EDIT: Just to make it more bizarre, one more example

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Maybe this article can help you. Specifically the section about implementation. –  Shashank Oct 14 '13 at 0:25

1 Answer 1

up vote 13 down vote accepted

There's a simple algorithm called exponentiation by squaring that can be used to compute ab mod c very efficiently. It's based on the observation that

a2k mod c = (ak)2 mod c

a2k + 1 mod c = a · (ak)2 mod c

Given this, you can compute ab mod c with this recursive approach:

function raiseModPower(a, b, c):
    if b == 0 return 1
    let d = raiseModPower(a, floor(b/2), c)
    if b mod 2 = 1:
        return d * d * a mod c
        return d * d mod c

This does only O(log b) multiplications, each of which can't have any more digits in them than O(log c), so it's really fast. This is how RSA implementations raise things to powers as well. You can rewrite this to be iterative if you'd like, though I think the recursive presentation is really clean.

Once you have this algorithm, you can use standard techniques for multiplying arbitrary-precision numbers to do the computation. Since only O(log b) iterations of the multiplication are required (as opposed to, say, b iterations), it's crazy fast. You never actually end up computing ab and then modding it by c, which also keeps the number of digits low and makes it even faster.

Hope this helps!

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Omg, that's just amazing... Science is f*cking amazing... –  good_evening Oct 14 '13 at 0:30
@good_evening- This is why I love algorithms. :-) –  templatetypedef Oct 14 '13 at 0:34

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