CrypQ: A Database Benchmark Based on Dynamic, Ever-Evolving Ethereum Data
Abstract
Modern database systems are expected to handle dynamic data whose characteristics may evolve over time. Many popular database benchmarks are limited in their ability to evaluate this dynamic aspect of the database systems. Those that use synthetic data generators often fail to capture the complexity and unpredictable nature of real data, while most real-world datasets are static and difficult to create high-volume, realistic updates for. This paper introduces CrypQ, a database benchmark leveraging dynamic, public Ethereum blockchain data. CrypQ offers a high-volume, ever-evolving dataset reflecting the unpredictable nature of a real and active cryptocurrency market. We detail CrypQ's schema, procedures for creating data snapshots and update sequences, and a suite of relevant SQL queries. As an example, we demonstrate CrypQ's utility in evaluating cost-based query optimizers on complex, evolving data distributions with real-world skewness and dependencies.
Keywords
Cite
@article{arxiv.2411.17913,
title = {CrypQ: A Database Benchmark Based on Dynamic, Ever-Evolving Ethereum Data},
author = {Vincent Capol and Yuxi Liu and Haibo Xiu and Jun Yang},
journal= {arXiv preprint arXiv:2411.17913},
year = {2024}
}
Comments
Accepted by Proceedings of the 2024 TPC Technology Conference on Performance Evaluation and Benchmarking @ VLDB 2024, Guangzhou