Go to DBLP homepageFrom Competition to Centralization: The Oligopoly in Ethereum Block Building Auctions
Abstract: The Ethereum block production process has evolved with the introduction of an auction-based mechanism known as Proposer-Builder Separation (PBS), allowing validators to outsource block production to builders and reap Maximal Extractable Value (MEV) revenue from builder bids in a decentralized market. In this market, builders compete in MEV-Boost auctions to have their blocks selected and earn potential MEV rewards. This paper employs empirical game-theoretic analysis to explore builders' strategic bidding incentives in MEV-Boost auctions, focusing on how advantages in network latency and access to MEV opportunities affect builders' bidding behaviors and auction outcomes. Our findings confirm an oligopolistic dynamic, where a few dominant builders, leveraging their advantages in latency and MEV access, benefit from an economy of scale that reinforces their market power, leading to increased centralization and reduced auction efficiency. Our analysis highlights the importance of fair MEV distribution among builders and the ongoing challenge of enhancing decentralization in the Ethereum block building market.
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