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Firstly this is not my homework ..I am stuck on a question during my practice.

I want to compute the value of this expression: ans=(2^huge)%p..


huge=n1Ck1+ n2Ck2 +n3Ck3 ..... [n1,n2.. can be as large as 10^4 and k1,k2.. are less than 10]

p=a prime number less than 2^32

I know how to find out (a^b)%p using fast right to left binary method , but my problem is how to find the combination [nCk] of a numbers like 10000C9 that can result in such a huge number and then later use that in the modular exponentiation method ??

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possible duplicate of Fast n choose k mod p for large n? – Daniel Fischer Aug 1 '12 at 21:29
But can I then use the remainder value (suppose r) in (2^r)%p??Will it be correct?? – Wayne Rooney Aug 1 '12 at 21:46
Do you want to calculate x ^ C(n,k) % p for some x? In that case, you don't need C(n,k) % p but C(n,k) % (p-1). – Daniel Fischer Aug 1 '12 at 21:49

1 Answer 1

up vote 4 down vote accepted

Because 2^(p-1)==1 mod p, you can do all the calculations of the exponents modulo p-1.

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Unless p == 2 of course. – Alexandre C. Aug 1 '12 at 22:12
In the case p == 2 then a is either 0 or 1 mod 2. If a = 0 then the answer is 0. If a = 1 then we only need to know if huge = 0. – mcdowella Aug 2 '12 at 3:59

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