Vault:快速引导算法和加密货币

Derek Leung, Adam Suhl, Y. Gilad, N. Zeldovich
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引用次数: 42

摘要

去中心化的加密货币依赖于参与者跟踪系统的状态,以验证新的交易。随着用户和事务数量的增长,这一需求成为一个重大负担,需要用户下载、验证和存储大量数据才能参与。Vault是一种基于Algorand的新型加密货币设计,可以最大限度地减少参与者的存储和启动成本。Vault的设计基于Algorand的权益证明共识协议,并使用多种技术来实现其目标。首先,Vault将最近事务的存储与帐户余额的存储解耦,这使Vault能够删除旧的帐户状态。其次,Vault允许在参与者之间进行状态分片,以保持强大的安全保证。最后,Vault引入了盖章证书的概念,它允许新客户在权益证明系统中安全有效地赶上,而无需验证每个区块。对Vault数据结构原型实现的实验表明,在下载包含5亿笔交易的分类账时,与比特币相比,Vault的设计将作为完整客户端加入网络的带宽成本降低了99.7%,与以太坊相比降低了90.5%。
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Vault: Fast Bootstrapping for the Algorand Cryptocurrency
Decentralized cryptocurrencies rely on participants to keep track of the state of the system in order to verify new transactions. As the number of users and transactions grows, this requirement becomes a significant burden, requiring users to download, verify, and store a large amount of data to participate. Vault is a new cryptocurrency design based on Algorand that minimizes these storage and bootstrapping costs for participants. Vault’s design is based on Algorand’s proof-of-stake consensus protocol and uses several techniques to achieve its goals. First, Vault decouples the storage of recent transactions from the storage of account balances, which enables Vault to delete old account state. Second, Vault allows sharding state across participants in a way that preserves strong security guarantees. Finally, Vault introduces the notion of stamping certificates, which allow a new client to catch up securely and efficiently in a proofof-stake system without having to verify every single block. Experiments with a prototype implementation of Vault’s data structures show that Vault’s design reduces the bandwidth cost of joining the network as a full client by 99.7% compared to Bitcoin and 90.5% compared to Ethereum when downloading a ledger containing 500 million transactions.
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