NTAM: Neighborhood-temporal attention model for disk failure prediction in cloud platforms

Luo, Chuan; Zhao, Pu; Zhang, Dongmei; Qiao, Bo; Wu, Youjiang; Zhang, Hongyu; Wu, Wei; Lu, Weihai; Dang, Yingnong; Rajmohan, Saravanakumar; Lin, Qingwei

Title: NTAM: Neighborhood-temporal attention model for disk failure prediction in cloud platforms
Creator: Luo, Chuan; Zhao, Pu; Zhang, Dongmei; Qiao, Bo; Wu, Youjiang; Zhang, Hongyu; Wu, Wei; Lu, Weihai; Dang, Yingnong; Rajmohan, Saravanakumar; Lin, Qingwei
Relation: 2021 World Wide Web Conference, WWW 2021. Proceedings of the 2021 World Wide Web Conference, WWW 2021 (Ljubljana, Slovenia 19-23 April, 2021) p. 1181-1191
Publisher Link: http://dx.doi.org/10.1145/3442381.3449867
Publisher: ACM
Resource Type: conference paper
Date: 2021
Description: With the rapid deployment of cloud platforms, high service reliability is of critical importance. An industrial cloud platform contains a huge number of disks, and disk failure is a common cause of service unreliability. In recent years, many machine learning based disk failure prediction approaches have been proposed, and they can predict disk failures based on disk status data before the failures actually happen. In this way, proactive actions can be taken in advance to improve service reliability. However, existing approaches treat each disk individually and do not explore the influence of the neighboring disks. In this paper, we propose Neighborhood-Temporal Attention Model (NTAM), a novel deep learning based approach to disk failure prediction. When predicting whether or not a disk will fail in near future, NTAM is a novel approach that not only utilizes a disk's own status data, but also considers its neighbors' status data. Moreover, NTAM includes a novel attention-based temporal component to capture the temporal nature of the disk status data. Besides, we propose a data enhancement method, called Temporal Progressive Sampling (TPS), to handle the extreme data imbalance issue. We evaluate NTAM on a public dataset as well as two industrial datasets collected from millions of disks in Microsoft Azure. Our experimental results show that NTAM significantly outperforms state-of-the-art competitors. Also, our empirical evaluations indicate the effectiveness of the neighborhood-ware component and the temporal component underlying NTAM as well as the effectiveness of TPS. More encouragingly, we have successfully applied NTAM and TPS to Microsoft cloud platforms (including Microsoft Azure and Microsoft 365) and obtained benefits in industrial practice.
Subject: disk failure prediction; cloud platforms; high service reliability; neighborhood-temporal attention model; data imbalance
Identifier: http://hdl.handle.net/1959.13/1450106
Identifier: uon:43830
Identifier: ISBN:9781450383127
Language: eng
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