Litcius/Paper detail

Perfectly-Secure Synchronous MPC with Asynchronous Fallback Guarantees

Ananya Appan, Anirudh Chandramouli, Ashish Choudhury

202217 citationsDOI

Abstract

Secure multi-party computation (MPC) is a fundamental problem in secure distributed computing. The optimal resilience for perfectly-secure MPC in synchronous and asynchronous networks is t < n/3 and t < n/4 respectively, where n is the number of parties and t is the number of corruptions. A natural question is whether there exists a protocol tolerating ts < n/3 corruptions in a synchronous network and ta < n/4 corruptions in an asynchronous network. We design such a protocol, if 3ts + ta < n. For our protocol, we present a perfectly-secure Byzantine agreement (BA) protocol, tolerating t < n/3 corruptions in any network and a perfectly-secure verifiable secret-sharing (VSS) protocol, tolerating ts and ta corruptions in a synchronous and an asynchronous network respectively.

Topics & Concepts

Asynchronous communicationComputer scienceProtocol (science)Verifiable secret sharingComputer networkResilience (materials science)Distributed computingSecure multi-party computationComputationAlgorithmPhysicsProgramming languageAlternative medicineSet (abstract data type)ThermodynamicsMedicinePathologyCryptography and Data SecurityDistributed systems and fault toleranceComplexity and Algorithms in Graphs