Round efficient computationally secure multi-party computation revisited

Laasya Bangalore, Ashish Choudhury, Gayathri Garimella
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引用次数: 1

Abstract

In this work, we consider the problem of secure multi-party computation (MPC) with n parties where at most t are under the control of a computationally bounded adversary given the constraint t < n/2. We aim to design a round efficient protocol by minimizing the number of rounds in which the broadcast primitive is involved. In this setting, the previous best protocol can be attributed to Katz-Koo (EUROCRYPT 2007) which is set in the offline-online paradigm (where the parties generate preprocessing data during the offline phase to lighten the computation in the online phase). Their online phase is a constant round protocol with no invocations of broadcast, while the offline phase protocol needs total 29 rounds with a broadcast invocation in one round. Our work improves the round complexity of their offline phase protocol, by running in 4 rounds, with only a single broadcast round. Additionally, we also improve the communication complexity of the offline phase protocol by a factor of Ω(n3). As a technical contribution, we present the first two round computationally-secure verifiable secret-sharing (VSS) scheme that invokes broadcast in only one round.
重新讨论了轮有效计算安全多方计算
在这项工作中,我们考虑了安全多方计算(MPC)的问题,在给定约束t < n/2的情况下,有n个当事方,其中最多t个在计算有界对手的控制下。我们的目标是通过最小化广播原语所涉及的轮数来设计一个有效的轮数协议。在这种情况下,之前的最佳协议可以归功于Katz-Koo (EUROCRYPT 2007),它是在离线-在线范式中设置的(各方在离线阶段生成预处理数据,以减轻在线阶段的计算)。它们的在线阶段是一个不调用广播的恒轮协议,而离线阶段协议在一轮中需要总共29轮广播调用。我们的工作提高了他们的离线阶段协议的回合复杂度,通过运行4轮,只有一个广播轮。此外,我们还将离线阶段协议的通信复杂度提高了Ω(n3)。作为技术贡献,我们提出了第一个两轮计算安全可验证秘密共享(VSS)方案,该方案仅在一轮中调用广播。
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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