DST: Leveraging Delay-Insensitive Workload in Cloud Storage for Smart Home Network

2015 24th International Conference on Computer Communication and Networks (ICCCN) Pub Date : 2015-08-01 DOI:10.1109/ICCCN.2015.7288401

Suiming Guo, Liang Chen, D. Chiu

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引用次数: 1

Abstract

We study the problem of how to manage the high intra-datacenter traffic in a chunk-based public cloud storage service serving primarily smart home devices. The large volume of traffic is introduced by delivering very large content during busy hours in the cloud. Measurement of a commercial cloud service shows that the peak traffic volume (at its edge servers) overwhelms the network interface cards (NICs), resulting in serious congestion and packet losses. Since it can be expected the large content downloading requests in smart home environment could be delay-insensitive, we propose DST to keep the peak load under a specified upper bound, by delaying users' requests when necessary. By modelling DST as a queueing system, we derive the relation between the mean delay and the traffic upper bound. With trace-driven simulations, we evaluate the system performance and validate the analysis results. For the commercial cloud service we study, we show that it is possible to keep the traffic upper bound to about 80% of peak traffic rate by introducing a mean delay of around 48 minutes.

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DST:在智能家庭网络的云存储中利用延迟不敏感的工作负载

我们研究了如何管理主要服务于智能家居设备的基于块的公共云存储服务中数据中心内的高流量问题。大量的流量是通过在云中繁忙时段交付非常大的内容而引入的。对商业云服务的测量表明，峰值流量(在其边缘服务器上)超过了网络接口卡(nic)，导致严重的拥塞和数据包丢失。由于可以预见智能家居环境中大量的内容下载请求可能是延迟不敏感的，我们提出DST将峰值负载保持在指定的上限以内，在必要时延迟用户的请求。通过将DST建模为排队系统，导出了平均延迟与流量上界的关系。通过跟踪驱动仿真，我们评估了系统性能并验证了分析结果。对于我们研究的商业云服务，我们表明，通过引入大约48分钟的平均延迟，可以将流量上限保持在峰值流量率的80%左右。

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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2015 24th International Conference on Computer Communication and Networks (ICCCN)

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