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Definition :

O(kM(n)) : - computational complexity of modular exponentiation

where k is number of exponent bits , n is number of digits , and M(n) is computational complexity of the Newton's division algorithm.

How can I determine is this computational complexity polynomial complexity ?

In fact notation M(n) is that what confusing me most .

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Agreed that the notation is confusing. Personally I hate when people say "the function f(n)" when they really mean "the function f". I cringe whenever I see "O(f(n))" when what is really meant is "O(f)". I know it's convention, but.... :) – Ray Toal Nov 30 '11 at 8:05
Some times complexity is multivariate and then you want to know which variables you apply the functions to... – Antti Huima Nov 30 '11 at 8:09
up vote 1 down vote accepted

Think about the division algorithm.

  • Does the division algorithm have complexity O(n)? If so, then modular exponentiation is O(k n).

  • Does the division algorithm have complexity O(n^c) for some constant c? If so, then modular exponentiation is O(k n^c).

  • Does the division algorithm have complexity O(log n)? If so, then modular exponentiation is O(k log n).


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The complexity of modular exponentiation is polynomial in the length of the exponent and the length of the modulus even with regular long division, so it is also polynomial with a faster division algorithm. M(n) is the complexity of multiplying two n-digit/bit numbers together (see here).

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