Modular zk-Rollup On-Demand
Abstract
The rapid expansion of the use of blockchain-based systems often leads to a choice between customizable private blockchains and more secure, scalable and decentralized but expensive public blockchains. This choice represents the trade-off between privacy and customization at a low cost and security, scalability, and a large user base but at a high cost. In order to improve the scalability of secure public blockchains while enabling privacy and cost reduction, zk-rollups, a layer 2 solution, appear to be a promising avenue. This paper explores the benefits of zk-rollups, including improved privacy, as well as their potential to support transactions designed for specific applications. We propose an innovative design that allows multiple zk-rollups to co-exist on the same smart contracts, simplifying their creation and customization. We then evaluate the first implementation of our system highlighting a low overhead on existing transaction types and on proof generation while strongly decreasing the cost of new transaction types and drastically reducing zk-rollup creation costs.
Cite
@article{arxiv.2306.02785,
title = {Modular zk-Rollup On-Demand},
author = {Thomas Lavaur and Jonathan Detchart and Jérôme Lacan and Caroline P. C. Chanel},
journal= {arXiv preprint arXiv:2306.02785},
year = {2023}
}
Comments
url : https://www.sciencedirect.com/science/article/pii/S1084804523000978