An Optical Transceiver Reliability Study based on SFP Monitoring and OS-level Metric Data

2023 IEEE/ACM 23rd International Symposium on Cluster, Cloud and Internet Computing (CCGrid) Pub Date : 2023-05-01 DOI:10.1109/CCGrid57682.2023.00011

Paolo Notaro, Qiao Yu, Soroush Haeri, Jorge Cardoso, M. Gerndt

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引用次数: 1

Abstract

The increasing demand for cloud computing drives the expansion in scale of datacenters and their internal optical network, in a strive for increasing bandwidth, high reliability, and lower latency. Optical transceivers are essential elements of optical networks, whose reliability has not been well-studied compared to other hardware components. In this paper, we leverage high quantities of monitoring data from optical transceivers and OS-level metrics to provide statistical insights about the occurrence of optical transceiver failures. We estimate transceiver failure rates and normal operating ranges for monitored attributes, correlate early-observable patterns to known failure symptoms, and finally develop failure prediction models based on our analyses. Our results enable network administrators to deploy early-warning systems and enact predictive maintenance strategies, such as replacement or traffic re-routing, reducing the number of incidents and their associated costs.

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基于SFP光模块监测和os级度量数据的光模块可靠性研究

随着云计算需求的不断增长，数据中心及其内部光网络的规模不断扩大，需要不断提高带宽、提高可靠性和降低时延。光收发器是光网络的重要组成部分，与其他硬件部件相比，对其可靠性的研究还不够深入。在本文中，我们利用来自光收发器和操作系统级指标的大量监控数据来提供有关光收发器故障发生的统计见解。我们估计收发器故障率和监测属性的正常工作范围，将早期可观察到的模式与已知的故障症状相关联，最后根据我们的分析建立故障预测模型。我们的研究结果使网络管理员能够部署早期预警系统并制定预测性维护策略，例如更换或流量重新路由，从而减少事件数量及其相关成本。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2023 IEEE/ACM 23rd International Symposium on Cluster, Cloud and Internet Computing (CCGrid)

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