Abstract
Modern public blockchains like Ethereum rely on p2p networks to run distributed and censorship-resistant applications. With its wide adoption, it operates as a highly critical public ledger. On its transition to become more scalable and sustainable, shifting to PoS without sacrificing the security and resilience of PoW,Ethereum offers a range of consensus clients to participate in the network. In this paper, we present a methodology to measure the performance of the consensus clients based on the latency to receive messages from the p2p network. The paper includes a study that identifies the incentives and limitations that the network experiences, presenting insights about the latency impact derived from running the software in different locations.
Citation
@inproceedings{10338892, title = {Unveiling Ethereum's Hidden Centralization Incentives: Does Connectivity Impact Performance?}, author = {Cortes-Goicoechea, Mikel and Mohandas-Daryanani, Tarun and Muñoz-Tapia, Jose Luis and Bautista-Gomez, Leonardo}, year = 2023, booktitle = {2023 Fifth International Conference on Blockchain Computing and Applications (BCCA)}, pages = {89--96}, doi = {10.1109/BCCA58897.2023.10338892}, keywords = {Atmospheric measurements;Particle measurements;Software;Blockchains;Security;Resilience;Ethereum;Ethereum2;Ethereum Consensus Layer;Ethereum Rewards;The Merge}}