We present new faster algorithms for the exact solution of the shortest vector problem in arbitrary lattices. Our main result shows that the shortest vector in any n-dimensional lattice can be found in time 2~(3.199n)...
详细信息
ISBN:
(纸本)9780898717013
We present new faster algorithms for the exact solution of the shortest vector problem in arbitrary lattices. Our main result shows that the shortest vector in any n-dimensional lattice can be found in time 2~(3.199n) (and space 2~(1.325n)), or in space 2~(1.095n) (and still time 2~O(n)). This improves the best previously known algorithm by Ajtai, Kumar and Sivakumar [Proceedings of STOC 2001] which was shown by Nguyen and Vidick [J. Math. Crypto. 2(2):181{207} to run in time 2~(5.9n) and space 2~(2.95n). We also present a practical variant of our algorithm which provably uses an amount of space proportional to τ_n, the "kissing" constant in dimension n. No upper bound on the running time of our second algorithm is currently known, but experimentally the algorithm seems to perform fairly well in practice, with running time 2~(0.52n), and space complexity 2~(0.2n).
暂无评论