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I am a student studying IT in an University. I've been giving an assignment of searching for prime numbers above one quadrillion. Steps have been given:

  • Start number as one quadrillion

  • Select odd-numbered candidates

  • Divide them by every odd integer between 3 and their square root. if one of the integers evenly divides the candidate, it's declared prime.

Now this is what i've come up with :

import javax.servlet.*;
import javax.servlet.http.*;

public class PrimeSearcher extends HttpServlet{
    private long number = 10000000000000001L;
private boolean found = false;
public void doGet(HttpServletRequest request, HttpServletResponse response) throws IOException, ServletException {
    PrintWriter out = response.getWriter();

        number = number+2;

        out.println("The first prime number above 1 quadrillion is : " + number);


public boolean checkForPrime(long numberToCheck){
    double sqrRoof = Math.sqrt(numberToCheck);
    for(int i=3; i< sqrRoof; i++){
         return false;
    found= true;
    return found;


My worry is that am not sure whether am on the right path and another issue is that this always one number ,the first one. after googling i found that on and javafaq that they are using thread and i've run theirs and it seem to be cool. I don't really understand that one but it gives different numbers.

So I am now confused right now about how to implement that algorithm and i really don't want to copy that one. Maybe after understanding their method i can code this algorithm better.


share|improve this question
So who to mark as accepted answer? – highjo Aug 23 '12 at 10:44
you accept the answer that helped you the most, if any. You can also upvote answers that you think are good. – Will Ness Aug 23 '12 at 10:54

4 Answers 4

up vote 1 down vote accepted

I think it looks OK, but you might need the i in checkForPrime to be a long type. And you're not incrementing i by 2 (you only need to check for odd divisors).

Just be prepared for this to take a long time.......

share|improve this answer

Moreover you need to checkForPrime until i<=sqrRoof (sqrRoof could be an integer).

share|improve this answer

you have 10 quadrillion written in your source code, not one quadrillion. Just so you know. :)

In case you need them, primes above one quadrillion are:

37,91,159,187,223 ...

Above 10 quadrillion:

61,69,79 ... 
share|improve this answer
Thanks, really appreciated – highjo Aug 23 '12 at 10:42
+1 .so you also agree that i should keep my code provided i added @EthanB suggestion? – highjo Aug 23 '12 at 12:21
both EthanB's and drakyoko's about the <=. and then, you're supposed to add multithreading to it, I guess. – Will Ness Aug 23 '12 at 12:25

The standard way to check a large prime is to generate a list of low primes, up to some limit, using the Sieve of Eratosthenes. Use that list to check odd numbers in the quadrillion range, to eliminate most non-primes.

Then use the Miller-Rabin probabilistic prime test to check if any remaining large number really is prime. If you repeat the M-R test up to 64 times, then there is a far larger chance that your hardware has failed than that you have inadvertently found a composite number.

The M-R test is much faster than trial division for large numbers.

share|improve this answer
thanks so much. will look at other algorithm you cited – highjo Aug 23 '12 at 15:08
actually, near one quadrillion we only need about 2 million primes, which can be quite easily produced through Sieve of Eratosthenes in full, so there'll be no need in additional M-R testing. But it will take its time of course, to trial divide by all of them. -- ( sqrt (one quadrillion) = 3,163,000 ; 1,952,000 primes ) – Will Ness Aug 23 '12 at 17:28
typo: sqrt (one quadrillion) = 31,623,000 ; 1,952,000 primes. – Will Ness Aug 24 '12 at 9:52

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