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BeeGees: Stayin' Alive in Chained BFT

Neil Giridharan, Florian Suri-Payer, Matthew Ding, Heidi Howard, Ittai Abraham, Natacha Crooks

202336 citationsDOIOpen Access PDF

Abstract

Modern chained Byzantine Fault Tolerant (BFT) systems leverage a combination of pipelining and leader rotation to obtain both efficiency and fairness. These protocols, however, require a sequence of three or four consecutive honest leaders to commit operations. Therefore, even simple leader failures such as crashes can weaken liveness, resulting in high commit latency or lack of commit all together. We show that, unfortunately, this vulnerability is inherent to all existing BFT protocols that rotate leaders with pipelined agreement. To resolve this liveness shortcoming we present BeeGees1, a novel chained BFT protocol that successfully commits blocks even with non-consecutive honest leaders. It does this while also maintaining quadratic word complexity with threshold signatures, linear word complexity with SNARKs, and responsiveness between consecutive honest leaders. BeeGees reduces the expected commit latency of HotStuff by a factor of three under failures, and the worst-case latency by a factor of seven.

Topics & Concepts

LivenessCommitComputer scienceLatency (audio)Byzantine fault toleranceLeverage (statistics)Parallel computingDistributed computingFault toleranceDatabaseMachine learningTelecommunicationsDistributed systems and fault toleranceSoftware System Performance and ReliabilityAge of Information Optimization
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