On the efficient generation of generalized MNT elliptic curves

Abstract

Finding suitable elliptic curves for pairing-based cryptosystems is a crucial step for their actual deployment. Miyaji, Nakabayashi and Takano [12] (MNT) were the first to produce ordinary pairing-friendly elliptic curves of prime order with embedding degree . Scott and Barreto [16] as well as Galbraith et al. [10] extended this method by allowing the group order to be non-prime. The advantage of this idea is the construction of much more suitable elliptic curves, which we will call generalized MNT curves. A necessary step for the construction of such elliptic curves is finding the solutions of a generalized Pell equation. However, these equations are not always solvable and this fact considerably affects the efficiency of the curve construction. In this paper we discuss a way to construct generalized MNT curves through Pell equations which are always solvable and thus considerably improve the efficiency of the whole generation process. We provide analytic tables with all polynomial families that lead to non-prime pairing-friendly elliptic curves with embedding degree k ∈ {3, 4, 6} and discuss the efficiency of our method through extensive experimental assessments. © 2013 Springer-Verlag.