| Autor: |
Seongan Lim, Ikkwon Yie, Kyunghwan Song, Hyang-Sook Lee |
| Rok vydání: |
2020 |
| Předmět: |
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| Zdroj: |
Discrete Applied Mathematics. 283:323-335 |
| ISSN: |
0166-218X |
| Popis: |
The security of most lattice based cryptography relies on the hardness of computing a shortest nonzero vector of lattices. We say that a lattice basis is SV-reduced if it contains a shortest nonzero vector of the lattice. In this paper, we prove that, π ∕ 6 orthogonality between the shortest vector of the basis and the vector space spanned by other vectors of the basis is enough to be SV-reduced under the assumption that a plausible condition C n holds. By using the π ∕ 6 orthogonality under C 2 , we prove a new complexity bound log 3 ∥ x ∥ 2 3 det L + 1 for Gauss–Lagrange algorithm which clarifies why the currently known complexity is so far fall short to expose the efficiency of the algorithm we experience in practice. Our experiments suggest that our complexity bound of Gauss–Lagrange algorithm is somewhat close to actual efficiency of the algorithm. We also show that LLL( δ ) algorithm outputs a S V -reduced basis if δ ≥ 1 ∕ 3 for two dimensional lattice. We present an efficient three dimensional SV-reduction algorithm by using the condition C 3 and π ∕ 6 orthogonality and how to generalize the algorithm for higher dimension. |
| Databáze: |
OpenAIRE |
| Externí odkaz: |
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