委员会选择中的确定性界限:增强分布式账本的去中心化和可扩展性

Grigorii Melnikov, Sebastian Müller, Nikita Polyanskii, Yury Yanovich
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引用次数: 0

摘要

共识在分布式账本系统中起着至关重要的作用,对可扩展性和去中心化都有影响。许多区块链系统使用基于稀缺资源(如股权、存储、内存或计算能力)的加权乐透彩票来选择一个委员会,该委员会的成员推动共识的达成,并负责将新信息添加到分类账中。因此,确保委员会选择过程的稳健性和公平性对于维护安全、效率和去中心化至关重要。随机委员会选择有两种主要方法。在一种方法中,每个验证候选者都会在本地检查自己是否当选为委员会成员,并在共识阶段披露自己的证明。相比之下,在第二种方法中,排序算法会决定一个固定规模的委员会,并对其进行全局验证。本文侧重于后一种方法,将加密排序作为一种公平选择委员会的方法,以保证委员会规模恒定。我们的目标是开发能加强去中心化的确定性保证。我们引入了新方法,通过数值实验证明,这种方法能对委员会内部对手的影响提供确定性约束。这种方法克服了现有协议的局限性,因为现有协议只提供概率保证,通常提供的大型委员会对于许多基于法定人数的应用(如原子广播和随机信标协议)来说是不切实际的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Deterministic Bounds in Committee Selection: Enhancing Decentralization and Scalability in Distributed Ledgers
Consensus plays a crucial role in distributed ledger systems, impacting both scalability and decentralization. Many blockchain systems use a weighted lottery based on a scarce resource such as a stake, storage, memory, or computing power to select a committee whose members drive the consensus and are responsible for adding new information to the ledger. Therefore, ensuring a robust and fair committee selection process is essential for maintaining security, efficiency, and decentralization. There are two main approaches to randomized committee selection. In one approach, each validator candidate locally checks whether they are elected to the committee and reveals their proof during the consensus phase. In contrast, in the second approach, a sortition algorithm decides a fixed-sized committee that is globally verified. This paper focuses on the latter approach, with cryptographic sortition as a method for fair committee selection that guarantees a constant committee size. Our goal is to develop deterministic guarantees that strengthen decentralization. We introduce novel methods that provide deterministic bounds on the influence of adversaries within the committee, as evidenced by numerical experiments. This approach overcomes the limitations of existing protocols that only offer probabilistic guarantees, often providing large committees that are impractical for many quorum-based applications like atomic broadcast and randomness beacon protocols.
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