CVP和SVP的并行改进Schnorr-Euchner枚举

2016 24th Euromicro International Conference on Parallel, Distributed, and Network-Based Processing (PDP) Pub Date : 2016-04-04 DOI:10.1109/PDP.2016.95

Fábio Correia, Artur Mariano, A. Proença, C. Bischof, E. Agrell

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引用次数: 10

摘要

最近向量问题(CVP)和最短向量问题(SVP)是基于格的密码分析中的主要问题，因为它们支撑着许多基于格的密码系统的安全性。尽管这些问题很重要，但只有少数几个cvp求解器公开可用，而且它们的可扩展性从未被研究过。本文提出了一种基于枚举的多核cvp求解器的可扩展实现，它可以很容易地适应于求解SVP。特别是，当在50维晶格上求解CVP时，它在高达8核的某些情况下实现了超线性加速，在16核的情况下实现了几乎线性加速。我们的结果表明，基于枚举的cvp求解器可以像基于枚举的SVP求解器一样有效地并行化，这是基于与最先进的SVP求解器的比较。此外，我们还表明，我们可以优化求解器的SVP变体，使其比迄今为止最快的基于枚举的SVP求解器快35%-60%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Parallel Improved Schnorr-Euchner Enumeration SE++ for the CVP and SVP

The Closest Vector Problem (CVP) and the Shortest Vector Problem (SVP) are prime problems in lattice-based cryptanalysis, since they underpin the security of many lattice-based cryptosystems. Despite the importance of these problems, there are only a few CVP-solvers publicly available, and their scalability was never studied. This paper presents a scalable implementation of an enumeration-based CVP-solver for multi-cores, which can be easily adapted to solve the SVP. In particular, it achieves super-linear speedups in some instances on up to 8 cores and almost linear speedups on 16 cores when solving the CVP on a 50-dimensional lattice. Our results show that enumeration-based CVP-solvers can be parallelized as effectively as enumeration-based solvers for the SVP, based on a comparison with a state of the art SVP-solver. In addition, we show that we can optimize the SVP variant of our solver in such a way that it becomes 35%-60% faster than the fastest enumeration-based SVP-solver to date.

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2016 24th Euromicro International Conference on Parallel, Distributed, and Network-Based Processing (PDP)

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