Byzantine Agreement, Broadcast and State Machine Replication with Near-optimal Good-case Latency

Abstract

This paper investigates the problem good-case latency of Byzantine agreement, broadcast and state machine replication in the synchronous authenticated setting. The good-case latency measure captures the time it takes to reach agreement when all non-faulty parties have the same input (or in BB/SMR when the sender/leader is non-faulty). Previous result implies a lower bound showing that any Byzantine agreement or broadcast protocol tolerating more than n/3 faults must have a good-case latency of at least , where is the assumed maximum message delay bound. Our first result is a family of protocols we call 1 that have near-optimal good-case latency. We propose a protocol 1-BA that solves Byzantine agreement in the synchronous and authenticated setting with near-optimal good-case latency of +2δ and optimal resilience f<n/2, where δ is the actual (unknown) delay bound. We then extend our protocol and present 1-BB and 1-SMR for Byzantine fault tolerant broadcast and state machine replication, respectively, in the same setting and with the same good-case latency of +2δ and f<n/2 fault tolerance. Our 1-SMR upper bound improves the gap between the best current solution, Sync HotStuff, which obtains a good-case latency of 2 per command and the lower bound of on good-case latency. Finally, we investigate weaker notions of the synchronous setting and show how to adopt the 1 approach to these models.