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I had a problem that of calculation of a^b mod m , is possible using modular exponentiation but the problem i am having is that the b I have is of very large value , b > 2^63 - 1 so could we modify the modular exponentiation code

function modular_pow(base, exponent, modulus)
    result := 1
    while exponent > 0
        if (exponent mod 2 == 1):
           result := (result * base) mod modulus
        exponent := exponent >> 1
        base = (base * base) mod modulus
    return result

to accomodate for such a large b

or is it correct that a^b mod m is equal to (a^(b mod m)) mod m ?

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marked as duplicate by Juhana, Dave, Wayne Conrad, Yan Sklyarenko, Joran Den Houting Apr 10 at 14:12

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

Your question is better asked here: math.stackexchange.com But I do recall there is an equality like that. –  Dave May 5 '13 at 12:39
stackoverflow.com/a/11272606/1180785 –  Dave May 5 '13 at 12:41

1 Answer 1

up vote 0 down vote accepted

It's correct that a^b mod m = a^(b mod phi(m)) mod m, where phi(m) is Euler totient function

Your code is correct too (if types are long enough to represent all values)

You may also combine two methods

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