Predictive caching at the wireless edge using near-zero caches

Proceedings of the Twenty-First International Symposium on Theory, Algorithmic Foundations, and Protocol Design for Mobile Networks and Mobile Computing Pub Date : 2020-10-11 DOI:10.1145/3397166.3409126

Sherif ElAzzouni, Fei Wu, N. Shroff, E. Ekici

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引用次数: 5

Abstract

In this paper, we study the effect of predictive caching on the delay of wireless networks. We explore the possibility of caching at wireless end-users where caches are typically very small, orders of magnitude smaller than the catalog size. We develop a predictive multicasting and caching scheme, where the Base Station (BS) in a wireless cell proactively multicasts popular content for end-users to cache, and access locally if requested. We analyze the impact of this joint multicasting and caching on the delay performance. Our analysis uses a novel application of Heavy-Traffic theory under the assumption of vanishing caches to show that predictive caching fundamentally alters the asymptotic throughput-delay scaling. This in turn translates to a several-fold delay improvement in simulations over the on-demand unicast baseline as the network operates close to the full load. We highlight a fundamental delay-memory trade-off in the system and identify the correct memory scaling to fully benefit from the network multicasting gains.

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在无线边缘使用接近零的缓存进行预测缓存

本文研究了预测缓存对无线网络延迟的影响。我们探讨了无线终端用户缓存的可能性，其中缓存通常非常小，比目录大小小几个数量级。我们开发了一种预测性多播和缓存方案，其中无线小区中的基站(BS)主动多播流行内容，供最终用户缓存，并在请求时本地访问。我们分析了这种联合多播和缓存对延迟性能的影响。我们的分析在假设缓存消失的情况下使用了一种新的大流量理论应用，表明预测性缓存从根本上改变了渐近吞吐量延迟缩放。当网络运行接近满负荷时，这反过来转化为在按需单播基线上模拟的几倍延迟改进。我们强调了系统中基本的延迟-内存权衡，并确定了正确的内存扩展以充分受益于网络多播增益。

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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Proceedings of the Twenty-First International Symposium on Theory, Algorithmic Foundations, and Protocol Design for Mobile Networks and Mobile Computing

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