EIP-4844 的延迟分析

arXiv - CS - Distributed, Parallel, and Cluster Computing Pub Date : 2024-09-17 DOI:arxiv-2409.11043

Pourya Soltani, Farid Ashtiani

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引用次数: 0

摘要

以太坊第 4844 号改进提案（EIP-4844）中提出的 "原数据库分片"（Proto-Danksharding）旨在通过引入一种称为 "blob-carryingtransactions "的新型交易，逐步提高以太坊区块链的可扩展性。这些交易包含二进制大型数据对象（blob），这些数据对象存储在链外，但在链上被引用和验证，以确保数据的可用性。通过将数据可用性与交易执行解耦，Proto-Danksharding 缓解了网络拥塞，降低了气体费用，为未来更先进的分片解决方案奠定了基础。这封信提供了一个分析模型，用于推导这些新事务的延迟。我们将系统建模为一个 $\mathrm{M/D}^B/1$ 队列，然后通过嵌入马尔可夫链和使用补充变量法找到其稳态分布。我们的研究表明，相对于较低的 Blob 值和较高的频率，Blob 值较高但频率较低的事务会给系统带来更高的延迟。

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Delay Analysis of EIP-4844

Proto-Danksharding, proposed in Ethereum Improvement Proposal 4844 (EIP-4844), aims to incrementally improve the scalability of the Ethereum blockchain by introducing a new type of transaction known as blob-carrying transactions. These transactions incorporate binary large objects (blobs) of data that are stored off-chain but referenced and verified on-chain to ensure data availability. By decoupling data availability from transaction execution, Proto-Danksharding alleviates network congestion and reduces gas fees, laying the groundwork for future, more advanced sharding solutions. This letter provides an analytical model to derive the delay for these new transactions. We model the system as an $\mathrm{M/D}^B/1$ queue which we then find its steady state distribution through embedding a Markov chain and use of supplementary variable method. We show that transactions with more blobs but less frequent impose higher delays on the system compared to lower blobs but more frequent.

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arXiv - CS - Distributed, Parallel, and Cluster Computing

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