Efficient Three-Party Computation from Cut-and-Choose
Seung Geol Choi, Jonathan Katz, Alex J. Malozemoff, and Vassilis Zikas
With relatively few exceptions, the literature on efficient (practical) secure computation has focused on secure two-party computation (2PC). It is, in general, unclear whether the techniques used to construct practical 2PC protocols—in particular, the cut-and-choose approach—can be adapted to the multi-party setting.
In this work we explore the possibility of using cut-and-choose for practical secure three-party computation. The three-party case has been studied in prior work in the semi-honest setting, and is motivated by the observation that real-world deployments of multi-party computation are likely to involve few parties. We propose a constant-round protocol for three-party computation tolerating any number of malicious parties, whose computational cost is only a small constant worse than that of state-of-the-art two-party protocols.
BibTeX Citation
@inproceedings{CKMZ14,
author = {Seung Geol Choi and Jonathan Katz and Alex J. Malozemoff and Vassilis Zikas},
title = {Efficient Three-Party Computation from Cut-and-Choose},
editor = {Juan A. Garay and Rosario Gennaro},
booktitle = {Advances in Cryptology --- CRYPTO 2014},
pages = 513-530,
series = {Lecture Notes in Computer Science},
volume = 8617,
year = 2014,
month = 8,
publisher = {Springer-Verlag},
}