Pépin's test


In mathematics, Pépin's test is a primality test, which can be used to determine whether a Fermat number is prime. It is a variant of Proth's test. The test is named for a French mathematician, Théophile Pépin.

Description of the test

Let be the nth Fermat number. Pépin's test states that for n > 0,
The expression can be evaluated modulo by repeated squaring. This makes the test a fast polynomial-time algorithm. However, Fermat numbers grow so rapidly that only a handful of Fermat numbers can be tested in a reasonable amount of time and space.
Other bases may be used in place of 3, these bases are
The primes in the above sequence are called Elite primes, they are
For integer b > 1, base b may be used if and only if only a finite number of Fermat numbers Fn satisfies that, where is the Jacobi symbol.
In fact, Pépin's test is the same as the Euler-Jacobi test for Fermat numbers, since the Jacobi symbol is −1, i.e. there are no Fermat numbers which are Euler-Jacobi pseudoprimes to these bases listed above.

Proof of correctness

Sufficiency: assume that the congruence
holds. Then, thus the multiplicative order of 3 modulo divides, which is a power of two. On the other hand, the order does not divide, and therefore it must be equal to. In particular, there are at least numbers below coprime to, and this can happen only if is prime.
Necessity: assume that is prime. By Euler's criterion,
where is the Legendre symbol. By repeated squaring, we find that, thus, and.
As, we conclude from the law of quadratic reciprocity.

Historical Pépin tests

Because of the sparsity of the Fermat numbers, the Pépin test has only been run eight times.
Mayer, Papadopoulos and Crandall speculate that in fact, because of the size of the still undetermined Fermat numbers, it will take considerable advances in technology before any more Pépin tests can be run in a reasonable amount of time. the smallest untested Fermat number with no known prime factor is which has 2,585,827,973 digits.
YearProversFermat numberPépin test resultFactor found later?
1905Morehead & WesterncompositeYes
1909Morehead & WesterncompositeYes
1952RobinsoncompositeYes
1960PaxsoncompositeYes
1961Selfridge & HurwitzcompositeYes
1987Buell & YoungcompositeNo
1993Crandall, Doenias, Norrie & YoungcompositeYes
1999Mayer, Papadopoulos & CrandallcompositeNo