DecLog: Decentralized Logging in Non-Volatile Memory for Time Series Database Systems-Reference-Cited by-同舟云学术

DecLog: Decentralized Logging in Non-Volatile Memory for Time Series Database Systems

Published:2023-09 Issue:1 Volume:17 Page:1-14
ISSN:2150-8097
Container-title:Proceedings of the VLDB Endowment
language:en
Short-container-title:Proc. VLDB Endow.

Author:

Zheng Bolong¹,Gao Yongyong¹,Wan Jingyi¹,Yan Lingsen¹,Hu Long¹,Liu Bo²,Gao Yunjun³,Zhou Xiaofang⁴,Jensen Christian S.⁵

Affiliation:

1. Huazhong University of Science and Technology

2. Tongji Hospital, Huazhong University of Science and Technology

3. Zhejiang University

4. HKUST

5. Aalborg University

Abstract

Growing demands for the efficient processing of extreme-scale time series workloads call for more capable time series database management systems (TSDBMS). Specifically, to maintain consistency and durability of transaction processing, systems employ write-ahead logging (WAL) whereby transactions are committed only after the related log entries are flushed to disk. However, when faced with massive I/O, this becomes a throughput bottleneck. Recent advances in byte-addressable Non-Volatile Memory (NVM) provide opportunities to improve logging performance by persisting logs to NVM instead. Existing studies typically track complex transaction dependencies and use barrier instructions of NVM to ensure log ordering. In contrast, few studies consider the heavy-tailed characteristics of time series workloads, where most transactions are independent of each other. We propose DecLog, a decentralized NVM-based logging system that enables concurrent logging of TSDBMS transactions. Specifically, we propose data-driven log sequence numbering and relaxed ordering strategies to track transaction dependencies and resolve serialization issues. We also propose a parallel logging method to persist logs to NVM after being compressed and aligned. An experimental study on the YCSB-TS benchmark offers insight into the performance properties of DecLog, showing that it improves throughput by up to 4.6× while offering lower recovery time in comparison to the open source TSDBMS Beringei.

Publisher

Association for Computing Machinery (ACM)

Subject

General Earth and Planetary Sciences,Water Science and Technology,Geography, Planning and Development

Link

https://dl.acm.org/doi/pdf/10.14778/3617838.3617839

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