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引用次数: 0
摘要
COOL(Chen'21)是一种无差错、确定性的拜占庭协议,对于一个有n个节点(其中最多有t个节点可能是不诚实的)的网络,它能在四个阶段内以$O(\max\{nell, n t \log t \})$比特的通信复杂度就$ell$比特的消息达成共识,给定值为$n\geq3t + 1$。在这项工作中,我们证明 COOL 可以通过减少一个通信回合来优化。新协议被称为 OciorCOOL。此外,在 OciorCOOL 的基础上,我们还设计了一种只需六轮通信的最佳可靠广播协议。
OciorCOOL: Faster Byzantine Agreement and Reliable Broadcast
COOL (Chen'21) is an error-free and deterministic Byzantine agreement
protocol that achieves consensus on an $\ell$-bit message with a communication
complexity of $O(\max\{n\ell, n t \log t \})$ bits in four phases, given $n\geq
3t + 1$, for a network of $n$ nodes, where up to $t$ nodes may be dishonest. In
this work we show that COOL can be optimized by reducing one communication
round. The new protocol is called OciorCOOL. Additionally, building on
OciorCOOL, we design an optimal reliable broadcast protocol that requires only
six communication rounds.
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