# Fastest way to calculate Prime [duplicate]

I'm trying to Implement types of primes in my program. In one of the type Exponent Of Mersenne, the formula to calculate is `(2 power P) -1` Here `P is Prime.` and check the output is prime.

In calculating, I'm able to get the power but while checking for prime, the process is Hanging . and if I leave it for a very long long time then it is being calculated.

example would be, (2 power 10090) -1 and calculate if this is prime

I'm using Big Integer

I'musing this code

``````int prime1 = CalculatePrime(n);
BigInteger powerPrime = BigInteger.Pow(2, prime1);
bool isPrime = CheckPrime(powerPrime - 1);

private bool CheckPrime(BigInteger num)
{
if (num == 0 || num == 1)
return false;

bool isPrime = true;
for (int j = 2; j < num; j++)
{
if ((num % j) == 0)
{
isPrime = false;
break;
}
}
return isPrime;
}
``````

How would be this - http://www.dotnetperls.com/prime

-
Are you sure it's hanging and not just taking a very long time? This is a particularly poor algorithm for finding primes, so being as slow as it is it will take a very long time for all but the most trivial input values. –  Servy Feb 27 at 18:34
for starters, you can do `j < (num/2)` –  Martin Feb 27 at 18:35
Its taking a very long time. –  Krishna Thota Feb 27 at 18:36
The list of related questions shows quite a few questions on the topic of calculating primes. I’d suggest you to start there. –  poke Feb 27 at 18:37
Google/wikipedia are also good resources. –  Servy Feb 27 at 18:38

## marked as duplicate by Reed Copsey, cadrell0, Servy, Lion, SteveFeb 27 at 20:27

You can get a bit less work to do because of following:

1. You have to check only for `j < sqrt(num)`, not `j < num`
2. You don't have to check every even number: just try with 2 at the beginning and then check only odd numbers (that's because every even number can be divided by 2, so if x cannot be divided by 2 it cannot be divided by any other even number)
-
While this can help a bit, the general algorithm is just so poor that it just won't scale at all to very large numbers. –  Servy Feb 27 at 18:41
You've got even and odd mixed up. –  juharr Feb 27 at 18:43
True, thanks for that! –  MarcinJuraszek Feb 27 at 18:59
`2^10090 - 1` is a lot bigger than “a few million” though… ^^ –  poke Feb 27 at 18:40