Fully Secure MPC and zk-FLIOP over Rings: New Constructions, Improvements and Extensions

Anders P. K. Dalskov; Daniel Escudero; Ariel Nof

Fully Secure MPC and zk-FLIOP over Rings: New Constructions, Improvements and Extensions

Anders P. K. Dalskov, Daniel Escudero, Ariel Nof

Published: 01 Jan 2024, Last Modified: 30 Sept 2024CRYPTO (8) 2024EveryoneRevisionsBibTeXCC BY-SA 4.0

Abstract: We revisit the question of the overhead to achieve full security (i.e., guaranteed output delivery) in secure multiparty computation (MPC). Recent works have closed the gap between full security and semi-honest security, by introducing protocols where the parties first compute the circuit using a semi-honest protocol and then run a verification step with sublinear communication in the circuit size. However, in these works the number of interaction rounds in the verification step is also sublinear in the circuit’s size. Unlike communication, the round complexity of the semi-honest execution typically grows with the circuit’s depth and not its size. Hence, for large but shallow circuits, this additional number of rounds incurs a significant overhead. Motivated by this gap, we make the following contributions:

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