Dynamic DAG-Application Scheduling for Multi-Tier Edge Computing in Heterogeneous Networks

arXiv - CS - Networking and Internet Architecture Pub Date : 2024-09-17 DOI:arxiv-2409.10839

Xiang Li, Mustafa Abdallah, Yuan-Yao Lou, Mung Chiang, Kwang Taik Kim, Saurabh Bagchi

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Abstract

Edge computing is deemed a promising technique to execute latency-sensitive applications by offloading computation-intensive tasks to edge servers. Extensive research has been conducted in the field of end-device to edge server task offloading for several goals, including latency minimization, energy optimization, and resource optimization. However, few of them consider our mobile computing devices (smartphones, tablets, and laptops) to be edge devices. In this paper, we propose a novel multi-tier edge computing framework, which we refer to as M-TEC, that aims to optimize latency, reduce the probability of failure, and optimize cost while accounting for the sporadic failure of personally owned devices and the changing network conditions. We conduct experiments with a real testbed and a real commercial CBRS 4G network, and the results indicate that M-TEC is capable of reducing the end-to-end latency of applications by at least 8\% compared to the best baseline under a variety of network conditions, while providing reliable performance at an affordable cost.

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异构网络中多层边缘计算的动态 DAG 应用调度

通过将计算密集型任务卸载到边缘服务器，边缘计算被认为是一种执行延迟敏感型应用的前景广阔的技术。然而，很少有研究将我们的移动计算设备（智能手机、平板电脑和笔记本电脑）视为边缘设备。在本文中，我们提出了一种新颖的多层边缘计算框架（我们称之为 M-TEC），旨在优化延迟、降低故障概率和优化成本，同时考虑到个人拥有设备的零星故障和不断变化的网络条件。我们用一个真实的测试平台和一个真实的商用CBRS 4G网络进行了实验，结果表明M-TEC能够在各种网络条件下将应用的端到端延迟比最佳基线降低至少8%，同时以可承受的成本提供可靠的性能。

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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arXiv - CS - Networking and Internet Architecture

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