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FOLEAGE: F4-OLE-Based Multi-Party Computation for Boolean Circuits

Authors:
Maxime Bombar , Centrum Wiskunde & Informatica, IMB
Dung Bui , IRIF, Université Paris Cité
Geoffroy Couteau , CNRS, IRIF, Université Paris Cité
Alain Couvreur , Laboratoire LIX, École Polytechnique, Institut Polytechnique de Paris
Clément Ducros , IRIF, Université Paris Cité, INRIA
Sacha Servan-Schreiber , MIT
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Conference: ASIACRYPT 2024
Abstract: Secure Multi-party Computation (MPC) allows two or more parties to compute any public function over their privately-held inputs, without revealing any information beyond the result of the computation. Modern protocols for MPC generate a large amount of input-independent preprocessing material called multiplication triples, in an offline phase. This preprocessing can later be used by the parties to efficiently instantiate an input-dependent online phase computing the function. To date, the state-of-the-art secure multi-party computation protocols in the preprocessing model are tailored to secure computation of arithmetic circuits over large fields and require little communication in the preprocessing phase, typically O(N · m) to generate m triples among N parties. In contrast, when it comes to computing preprocessing for computations that are naturally represented as Boolean circuits, the state-of-the-art techniques have not evolved since the 1980s, and in particular, require every pair of parties to execute a large number of oblivious transfers before interacting to convert them to N-party triples, which induces an Ω(N^2 · m) communication overhead. In this paper, we introduce F4OLEAGE, which addresses this gap by introducing an efficient preprocessing protocol tailored to Boolean circuits. F4OLEAGE exhibits excellent performance: it generates m multiplication triples over F2 using only N · m + O(N^2 · log m) bits of communication for N-parties, and can concretely produce over 12 million triples per second in the 2-party setting on one core of a commodity machine. Our result builds upon an efficient Pseudorandom Correlation Generator (PCG) for multiplications triples over the field F4. Roughly speaking, a PCG enables parties to stretch a short seed into a large number of pseudorandom correlations non-interactively, which greatly improves the efficiency of the offline phase in MPC protocols. Our construction significantly outperforms the state-of-the-art, which we demonstrate via a prototype implementation. This is achieved by introducing a number of protocol-level, algorithmic-level, and implementation-level optimizations on the recent PCG construction of Bombar et al. (Crypto 2023) from the Quasi-Abelian Syndrome Decoding assumption.
BibTeX
@inproceedings{asiacrypt-2024-34621,
  title={FOLEAGE: F4-OLE-Based Multi-Party Computation for Boolean Circuits},
  publisher={Springer-Verlag},
  author={Maxime Bombar and Dung Bui and Geoffroy Couteau and Alain Couvreur and Clément Ducros and Sacha Servan-Schreiber},
  year=2024
}