Paper 2001/096

Constructing elliptic curves with a given number of points over a finite field

Amod Agashe, Kristin Lauter, and Ramarathnam Venkatesan

Abstract

In using elliptic curves for cryptography, one often needs to construct elliptic curves with a given or known number of points over a given finite field. In the context of primality proving, Atkin and Morain suggested the use of the theory of complex multiplication to construct such curves. One of the steps in this method is the calculation of the Hilbert class polynomial $H_D(X)$ modulo some integer $p$ for a certain fundamental discriminant $D$. The usual way of doing this is to compute $H_D(X)$ over the integers and then reduce modulo $p$. But this involves computing the roots with very high accuracy and subsequent rounding of the coefficients to the closest integer. (Such accuracy issues also arise for higher genus cases.) We present a modified version of the Chinese remainder theorem (CRT) to compute $H_D(X)$ modulo $p$ directly from the knowledge of $H_D(X)$ modulo enough small primes. Our algorithm is inspired by Couveigne's method for computing square roots in the number field sieve, which is useful in other scenarios as well. It runs in heuristic expected time less than the CRT method in [CNST]. Moreover, our method requires very few digits of precision to succeed, and avoids calculating the exponentially large coefficients of the Hilbert class polynomial over the integers.

Metadata
Available format(s)
PS
Category
Public-key cryptography
Publication info
Published elsewhere. submitted for publication
Keywords
elliptic curve cryptosystem
Contact author(s)
klauter @ microsoft com
History
2001-11-13: received
Short URL
https://ia.cr/2001/096
License
Creative Commons Attribution
CC BY

BibTeX

@misc{cryptoeprint:2001/096,
      author = {Amod Agashe and Kristin Lauter and Ramarathnam Venkatesan},
      title = {Constructing elliptic curves with a given number of points over a finite field},
      howpublished = {Cryptology {ePrint} Archive, Paper 2001/096},
      year = {2001},
      url = {https://eprint.iacr.org/2001/096}
}
Note: In order to protect the privacy of readers, eprint.iacr.org does not use cookies or embedded third party content.