# Schoof–Elkies–Atkin algorithm

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The **Schoof–Elkies–Atkin algorithm (SEA)** is an algorithm used for finding the order of or calculating the number of points on an elliptic curve over a finite field. Its primary application is in elliptic curve cryptography. The algorithm is an extension of Schoof's algorithm by Noam Elkies and A. O. L. Atkin to significantly improve its efficiency.

## DetailsEdit

The Elkies-Atkin extension to Schoof's algorithm works by restricting the set of primes considered to primes of a certain kind. These came to be called Elkies primes and Atkin primes respectively. A prime is called an Elkies prime if the characteristic equation: splits over , while an Atkin prime is a prime that is not an Elkies prime. Atkin showed how to combine information obtained from the Atkin primes with the information obtained from Elkies primes to produce an efficient algorithm, which came to be known as the Schoof-Elkies-Atkin algorithm. The first problem to address is to determine whether a given prime is Elkies or Atkin. In order to do so, we make use of modular polynomials, which come from the study of modular forms and an interpretation of elliptic curves over the complex numbers as lattices. Once we have determined which case we are in, instead of using division polynomials, we proceed by working modulo the modular polynomials which have a lower degree than the corresponding division polynomial (degree rather than ). This results in a further reduction in the running time, giving us an algorithm more efficient than Schoof's, with complexity .^{[1]}

## ReferencesEdit

- ↑ C. Peters: Counting ponts on elliptic curves over . Available at http://www.win.tue.nl/~cpeters/presentations/2008.eccs.pdf

## External linksEdit

- article on Mathworld
- "Remarks on the Schoof-Elkies-Atkin algorithm"
- "The Schoof-Elkies-Atkin Algorithm in Characteristic 2"

Template:Crypto-stubja:スクーフ・エルキス・アトキン・アルゴリズム pl:Algorytm Schoofa-Elkiesa-Atkina