Paper 2020/694
The nearest-colattice algorithm
Thomas Espitau and Paul Kirchner
Abstract
In this work, we exhibit a hierarchy of polynomial time algorithms solving approximate variants of the Closest Vector Problem (CVP). Our first contribution is a heuristic algorithm achieving the same distance tradeoff as HSVP algorithms, namely $\approx \beta^{\frac{n}{2\beta}}\textrm{covol}(\Lambda)^{\frac{1}{n}}$ for a random lattice $\Lambda$ of rank $n$. Compared to the so-called Kannan's embedding technique, our algorithm allows using precomputations and can be used for efficient batch CVP~instances. This implies that some attacks on lattice-based signatures lead to very cheap forgeries, after a precomputation. Our second contribution is a \emph{proven} reduction from approximating the closest vector with a factor $\approx n^{\frac32}\beta^{\frac{3n}{2\beta}}$ to the Shortest Vector Problem (SVP) in dimension $\beta$.
Metadata
- Available format(s)
-
PDF
- Category
- Public-key cryptography
- Publication info
- Published elsewhere. Minor revision. Algorithmic Number Theory Symposium (ANTS 2020)
- Keywords
- lattice algorithmlattice reduction
- Contact author(s)
- t espitau @ gmail com
- History
- 2020-06-10: received
- Short URL
- https://ia.cr/2020/694
- License
-
CC BY
BibTeX
@misc{cryptoeprint:2020/694,
author = {Thomas Espitau and Paul Kirchner},
title = {The nearest-colattice algorithm},
howpublished = {Cryptology {ePrint} Archive, Paper 2020/694},
year = {2020},
url = {https://eprint.iacr.org/2020/694}
}
