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How can we compute N choose K modulus a prime number without overflow?
Modified paths Counting in a Rectangle
nCr mod p for large n and p is prime

A 2-D array of 400000 * 400000 integers is not allowed, hence dynamic programming is not an option here. Neither will matrix multiplication help, since it will require storing of 400000 * 400000 2-D array. The Lucas theorem is of no use here since every integer is less than 1000000007, so the number of computations will be the same. I need to calculate:

   SUM( (l+i)Ci * (m + n - i)Cm ) 

where i ranges from 0 to X; X,l,m,n are fixed. What would be the most efficient algorithm to do so?

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marked as duplicate by nhahtdh, Paul R, amit, Donal Fellows, JaredMcAteer Dec 10 '12 at 15:12

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1 Answer 1

up vote 13 down vote accepted

Use the modular inverse. (a / b) mod p = (a * b^-1) mod p

We have:

nCr = n! / (r!*(n - r)!) = n! * (r!*(n - r)!)^-1 (mod p)

For p prime, the inverse of any number x mod p is x^(p - 2) mod p (Euler's Theorem).

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