Energy Equilibria in Proof-of-Work Mining

Proceedings of the 2019 ACM Conference on Economics and Computation Pub Date : 2019-06-17 DOI:10.1145/3328526.3329630

A. Fiat, A. Karlin, E. Koutsoupias, C. Papadimitriou

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引用次数: 31

Abstract

The Bitcoin protocol induces miners, through monetary rewards, to expend energy in order to add blocks to the chain. We show that, when energy costs are substantial and taken into account, counterintuitive and unintended strategic behavior results: In a simple bounded-horizon setting with two identical miners there is a unique pure symmetric equilibrium in which both miners first "slow down" in order to decrease the crypto complexity and then take advantage of this decrease. If miners have different energy efficiencies and are restricted to choose the same hash rate for many epochs, there is a unique pure equilibrium in which miners either participate at low levels that depend in intricate ways on all the other miners' efficiencies, or choose to abstain from mining if their efficiency is too low. In the general setting in which miners can adapt their hash rates over time, we show that, unless the number of miners is very small, the only possible pure equilibria are rather chaotic, with miners quitting and starting again periodically --- or there is no pure equilibrium at all. We discuss the implications of these results for the stability of proof-of-work protocols.

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工作量证明挖矿中的能量平衡

比特币协议通过货币奖励诱导矿工消耗能量，以便将区块添加到链中。我们表明，当能源成本很高并被考虑在内时，反直觉和意想不到的战略行为会产生:在两个相同矿工的简单边界设置中，存在一个独特的纯对称均衡，其中两个矿工首先“减速”以降低加密复杂性，然后利用这种减少。如果矿工的能源效率不同，并且被限制在许多时期选择相同的哈希率，那么就会出现一种独特的纯平衡，在这种平衡中，矿工要么以复杂的方式依赖于所有其他矿工的效率的低水平参与，要么在效率太低的情况下选择放弃挖矿。在矿工可以随时间调整其哈希率的一般设置中，我们表明，除非矿工数量非常少，否则唯一可能的纯均衡是相当混乱的，矿工会周期性地退出并重新开始——或者根本不存在纯均衡。我们讨论了这些结果对工作量证明协议稳定性的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 2019 ACM Conference on Economics and Computation

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