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In computational number theory, the Lucas test is a primality test for a natural number n; it requires that the prime factors of n − 1 be already known.[1][2] It is the basis of the Pratt certificate that gives a concise verification that n is prime.

Concepts

Let n be a positive integer. If there exists an integer 1 < a < n such that

an11(modn)

and for every prime factor q of n − 1

a(n1)/q≢1(modn)

then n is prime. If no such number a exists, then n is either 1 or composite.

The reason for the correctness of this claim is as follows: if the first equality holds for a, we can deduce that a and n are coprime. If a also survives the second step, then the order of a in the group (Z/nZ)* is equal to n−1, which means that the order of that group is n−1 (because the order of every element of a group divides the order of the group), implying that n is prime. Conversely, if n is prime, then there exists a primitive root modulo n, or generator of the group (Z/nZ)*. Such a generator has order |(Z/nZ)*| = n−1 and both equalities will hold for any such primitive root.

Note that if there exists an a < n such that the first equality fails, a is called a Fermat witness for the compositeness of n.

Example

For example, take n = 71. Then n − 1 = 70 and the prime factors of 70 are 2, 5 and 7. We randomly select an a < n of 17. Now we compute:

17701(mod71).

For all integers a it is known that

an11(modn) if and only if  ord(a)|(n1).

Therefore, the multiplicative order of 17 (mod 71) is not necessarily 70 because some factor of 70 may also work above. So check 70 divided by its prime factors:

173570≢1(mod71)
171425≢1(mod71)
171011(mod71).

Unfortunately, we get that 1710≡1 (mod 71). So we still don't know if 71 is prime or not.

We try another random a, this time choosing a = 11. Now we compute:

11701(mod71).

Again, this does not show that the multiplicative order of 11 (mod 71) is 70 because some factor of 70 may also work. So check 70 divided by its prime factors:

113570≢1(mod71)
111454≢1(mod71)
111032≢1(mod71).

So the multiplicative order of 11 (mod 71) is 70, and thus 71 is prime.

(To carry out these modular exponentiations, one could use a fast exponentiation algorithm like binary or addition-chain exponentiation).

Algorithm

The algorithm can be written in pseudocode as follows:

Input: n > 2, an odd integer to be tested for primality; k, a parameter that determines the accuracy of the test 
Output: prime if n is prime, otherwise composite or possibly composite;
determine the prime factors of n−1.
LOOP1: repeat k times:
   pick a randomly in the range [2, n − 1]
      if an-1 ≢ 1 (mod n) then return composite
      otherwise 
         LOOP2: for all prime factors q of n−1:
            if a(n-1)/q ≢ 1 (mod n) 
               if we did not check this equality for all prime factors of n−1 
                  then do next LOOP2
               otherwise return prime
            otherwise do next LOOP1
return possibly composite.

See also

Notes

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Template:Number theoretic algorithms

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  2. 20 year-old Real Estate Agent Rusty from Saint-Paul, has hobbies and interests which includes monopoly, property developers in singapore and poker. Will soon undertake a contiki trip that may include going to the Lower Valley of the Omo.

    My blog: http://www.primaboinca.com/view_profile.php?userid=5889534