Model-driven Cluster Resource Management for AI Workloads in Edge Clouds

IF 2.2 4区 计算机科学 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Qianlin Liang, Walid A. Hanafy, A. Ali-Eldin, P. Shenoy
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引用次数: 7

Abstract

Since emerging edge applications such as Internet of Things (IoT) analytics and augmented reality have tight latency constraints, hardware AI accelerators have been recently proposed to speed up deep neural network (DNN) inference run by these applications. Resource-constrained edge servers and accelerators tend to be multiplexed across multiple IoT applications, introducing the potential for performance interference between latency-sensitive workloads. In this article, we design analytic models to capture the performance of DNN inference workloads on shared edge accelerators, such as GPU and edgeTPU, under different multiplexing and concurrency behaviors. After validating our models using extensive experiments, we use them to design various cluster resource management algorithms to intelligently manage multiple applications on edge accelerators while respecting their latency constraints. We implement a prototype of our system in Kubernetes and show that our system can host 2.3× more DNN applications in heterogeneous multi-tenant edge clusters with no latency violations when compared to traditional knapsack hosting algorithms.
边缘云中AI工作负载的模型驱动集群资源管理
由于物联网(IoT)分析和增强现实等新兴边缘应用具有严格的延迟限制,因此最近提出了硬件AI加速器来加速这些应用运行的深度神经网络(DNN)推理。资源受限的边缘服务器和加速器倾向于跨多个物联网应用进行多路复用,从而在对延迟敏感的工作负载之间引入了性能干扰的可能性。在本文中,我们设计了分析模型来捕获共享边缘加速器(如GPU和edgeTPU)上DNN推理工作负载在不同复用和并发行为下的性能。在使用大量实验验证我们的模型之后,我们使用它们来设计各种集群资源管理算法,以智能地管理边缘加速器上的多个应用程序,同时尊重其延迟限制。我们在Kubernetes中实现了我们系统的原型,并表明我们的系统可以在异构多租户边缘集群中托管2.3倍的DNN应用程序,与传统的背包托管算法相比,没有延迟违反。
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来源期刊
ACM Transactions on Autonomous and Adaptive Systems
ACM Transactions on Autonomous and Adaptive Systems 工程技术-计算机:理论方法
CiteScore
4.80
自引率
7.40%
发文量
9
审稿时长
>12 weeks
期刊介绍: TAAS addresses research on autonomous and adaptive systems being undertaken by an increasingly interdisciplinary research community -- and provides a common platform under which this work can be published and disseminated. TAAS encourages contributions aimed at supporting the understanding, development, and control of such systems and of their behaviors. TAAS addresses research on autonomous and adaptive systems being undertaken by an increasingly interdisciplinary research community - and provides a common platform under which this work can be published and disseminated. TAAS encourages contributions aimed at supporting the understanding, development, and control of such systems and of their behaviors. Contributions are expected to be based on sound and innovative theoretical models, algorithms, engineering and programming techniques, infrastructures and systems, or technological and application experiences.
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