How to calculate the Modular Multiplicative inverse of a number in the context of RSA encryption?
Direct Modular Exponentiation The direct modular exponentiation method, as an alternative to the extended Euclidean algorithm, is as follows: Source: http://en.wikipedia.org/wiki/Modular_multiplicative_inverse 


Use the Extended Euclidean Algorithm, which is significantly faster than direct modular exponentiation in practice. 


There are two algorithms explained in detail in the Modular multiplicative inverse Wikipedia article. 


If You need to calculate
is actually
See: http://en.wikipedia.org/wiki/Modular_multiplicative_inverse#Using_Euler.27s_theorem 


I worked out a an simpler inverse function
The equation d*e=1 (mod totient) can be rewritten as d*e=1+k*totient (for some value of k) and the program just searches for first value of k which makes the equation divisible by e (the public exponent). This will work if e is small (as is usually recommended). We can move all the bignum operations out of the loop to improve its performance.
It turns out that for e=3, we don't really have to search as the answer is always 2*((p1)*(q1)+1)/3 

