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Strategic Bidding Wars in On-chain Auctions
Strategic Bidding Wars in On-chain Auctions
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Strategic Bidding Wars in On-chain Auctions

Authors
Fei Wu, , Stefanos Leonardos, Carmine Ventre
Date
2023
Tags
MEV
Game Theory
Data
Simulations
Link
https://arxiv.org/abs/2312.14510
Publication venue
IEEE ICBC 2024
The Ethereum block-building process has changed significantly since the emergence of Proposer-Builder Separation. Validators access blocks through a marketplace, where block builders bid for the right to construct the block and earn MEV (Maximal Extractable Value) rewards in an on-chain competition, known as the MEV-boost auction. While more than 90% of blocks are currently built via MEV-Boost, trade-offs between builders' strategic behaviors and auction design remain poorly understood. In this paper we address this gap. We introduce a game-theoretic model for MEV-Boost auctions and use simulations to study different builders' bidding strategies observed in practice. We study various strategic interactions and auction setups and evaluate how the interplay between critical elements such as access to MEV opportunities and improved connectivity to relays impact bidding performance. Our results demonstrate the importance of latency on the effectiveness of builders' strategies and the overall auction outcome from the proposer's perspective.
🌐
Robust Incentives Group (RIG) — Homepage
/
📜
Strategic Bidding Wars in On-chain Auctions
Strategic Bidding Wars in On-chain Auctions
📜

Strategic Bidding Wars in On-chain Auctions

Authors
Fei Wu, , Stefanos Leonardos, Carmine Ventre
Date
2023
Tags
MEV
Game Theory
Data
Simulations
Link
https://arxiv.org/abs/2312.14510
Publication venue
IEEE ICBC 2024
The Ethereum block-building process has changed significantly since the emergence of Proposer-Builder Separation. Validators access blocks through a marketplace, where block builders bid for the right to construct the block and earn MEV (Maximal Extractable Value) rewards in an on-chain competition, known as the MEV-boost auction. While more than 90% of blocks are currently built via MEV-Boost, trade-offs between builders' strategic behaviors and auction design remain poorly understood. In this paper we address this gap. We introduce a game-theoretic model for MEV-Boost auctions and use simulations to study different builders' bidding strategies observed in practice. We study various strategic interactions and auction setups and evaluate how the interplay between critical elements such as access to MEV opportunities and improved connectivity to relays impact bidding performance. Our results demonstrate the importance of latency on the effectiveness of builders' strategies and the overall auction outcome from the proposer's perspective.