Round efficiency of multi-party computation with a dishonest majority
Title | Round efficiency of multi-party computation with a dishonest majority |
Publication Type | Conference Papers |
Year of Publication | 2003 |
Authors | Katz J, Ostrovsky R, Smith A |
Conference Name | Proceedings of the 22nd international conference on Theory and applications of cryptographic techniques |
Date Published | 2003/// |
Publisher | Springer-Verlag |
Conference Location | Berlin, Heidelberg |
ISBN Number | 3-540-14039-5 |
Abstract | We consider the round complexity of multi-party computation in the presence of a static adversary who controls a majority of the parties. Here, n players wish to securely compute some functionality and up to n - 1 of these players may be arbitrarily malicious. Previous protocols for this setting (when a broadcast channel is available) require O(n) rounds. We present two protocols with improved round complexity: The first assumes only the existence of trapdoor permutations and dense cryptosystems, and achieves round complexity O(log n) based on a proof scheduling technique of Chor and Rabin [13]; the second requires a stronger hardness assumption (along with the non-black-box techniques of Barak [2]) and achieves O(1) round complexity. |
URL | http://dl.acm.org/citation.cfm?id=1766171.1766222 |