Marc Rivinius
University of Stuttgart

Keywords:

Abstract

Publicly identifiable abort is a critical feature for ensuring accountability in outsourced computations using secure multiparty computation (MPC). Despite its importance, no prior work has specifically addressed identifiable abort in the context of outsourced computations. In this paper, we present the first MPC protocol that supports publicly identifiable abort with minimal overhead for external clients. Our approach minimizes client-side computation by requiring only a few pseudorandom function evaluations per input. On the server side, the verification process involves lightweight linear function evaluations using homomorphic encryption. This results in verification times of a few nanoseconds per operation for servers, with client overhead being approximately two orders of magnitude lower. Additionally, the public verifiability of our protocol reduces client input/output costs compared to SPDZ-based protocols, on which we base our protocol. For example, in secure aggregation use cases, our protocol achieves over twice the efficiency during the offline phase and up to an 18 % speedup in the online phase, significantly outperforming SPDZ.