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I have been working though a network book and hit the RSA section. Consider the RSA algorithm with p=5 and q=11.

so I get N = p*q = 55 right?

and z = (p-1) * (q -1) = 40 

I think I got this right but the book is not very clear on how to calculate this.

The example in the book says that e = 3 but does not give a reason why. Because the author likes it or is there another reason?

and how do i go about finding d so that de= 1(mod z) and d < 160

Thanks for any help with this its a bit above me right now.

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Define 'e' please. – Killercam Apr 3 '13 at 14:16
up vote 3 down vote accepted

Your calculations of n and z are correct.

An RSA cryptosystem consists of three variables n, d and e. Variable e is the least important of the three, and is usually chosen arbitrarily to make computations simple; 3 and 65537 are the most common choices for e. The only requirements are that e is odd and co-prime to the totient (z in your implementation); thus e is frequently chosen prime so that it will be co-prime to the totient no matter what totient is chosen. The reason that 3 and 65537 are frequently used for e is because it makes the computation easy; both numbers have only two 1-bits in their binary representation, so only two iterations of a complicated loop are needed.

You can see an implementation of an RSA cryptosystem at my blog. If you poke around there, you will also find some other crypto-related stuff that may interest you.

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The totient (p-1)(q-1) is not necessarily co-prime to e: e may divide it. If p and q are chosen to have special properties, e.g. p - 1 = 2p' then your statement may be true. – James K Polk Apr 3 '13 at 15:31

what you are looking for is the extended euclidean algorithm

for an example see wikipedia or here

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