Edge/Cloud Infinite-Time Horizon Resource Allocation for Distributed Machine Learning and General Tasks

IF 4.7 2区 计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS IEEE Transactions on Network and Service Management Pub Date : 2023-09-06 DOI:10.1109/TNSM.2023.3312593
Ippokratis Sartzetakis;Polyzois Soumplis;Panagiotis Pantazopoulos;Konstantinos V. Katsaros;Vasilis Sourlas;Emmanouel Varvarigos
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Abstract

Edge computing has emerged as a computing paradigm where the application and data processing takes place close to the end devices. It decreases the distances over which data transfers are made, offering reduced delay and fast speed of action for general data processing and store/retrieve jobs. The benefits of edge computing can also be reaped for distributed computation algorithms, where the cloud also plays an assistive role. In this context, an important challenge is to allocate the required resources at both edge and cloud to carry out the processing of data that are generated over a continuous (“infinite”) time horizon. This is a complex problem due to the variety of requirements (resource needs, accuracy, delay, etc.) that may be posed by each computation algorithm, as well as the heterogeneous resources’ features (e.g., processing, bandwidth). In this work, we develop a solution for serving weakly coupled general distributed algorithms, with emphasis on machine learning algorithms, at the edge and/or the cloud. We present a dual-objective Integer Linear Programming formulation that optimizes monetary cost and computation accuracy. We also introduce efficient heuristics to perform the resource allocation. We examine various distributed ML allocation scenarios using realistic parameters from actual vendors. We quantify trade-offs related to accuracy, performance and cost of edge/cloud bandwidth and processing resources. Our results indicate that among the many parameters of interest, the processing costs seem to play the most important role for the allocation decisions. Finally, we explore interesting interactions between target accuracy, monetary cost and delay.
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面向分布式机器学习和一般任务的边缘/云无限时间地平线资源分配
边缘计算是一种计算模式,在这种模式下,应用和数据处理都在终端设备附近进行。它缩短了数据传输的距离,为一般数据处理和存储/检索工作提供了更少的延迟和更快的运行速度。在分布式计算算法中,云计算也能发挥辅助作用,从而获得边缘计算的优势。在这种情况下,一个重要的挑战是如何在边缘和云端分配所需的资源,以处理在连续("无限")时间范围内生成的数据。这是一个复杂的问题,因为每种计算算法都可能提出不同的要求(资源需求、准确性、延迟等),而且资源的特性(如处理能力、带宽)也不尽相同。在这项工作中,我们开发了一种在边缘和/或云上为弱耦合通用分布式算法(重点是机器学习算法)提供服务的解决方案。我们提出了一种优化货币成本和计算精度的双目标整数线性规划公式。我们还介绍了执行资源分配的高效启发式方法。我们使用实际供应商提供的现实参数对各种分布式 ML 分配方案进行了检验。我们量化了与边缘/云带宽和处理资源的准确性、性能和成本相关的权衡。我们的结果表明,在众多相关参数中,处理成本似乎对分配决策起着最重要的作用。最后,我们探讨了目标精度、货币成本和延迟之间有趣的相互作用。
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来源期刊
IEEE Transactions on Network and Service Management
IEEE Transactions on Network and Service Management Computer Science-Computer Networks and Communications
CiteScore
9.30
自引率
15.10%
发文量
325
期刊介绍: IEEE Transactions on Network and Service Management will publish (online only) peerreviewed archival quality papers that advance the state-of-the-art and practical applications of network and service management. Theoretical research contributions (presenting new concepts and techniques) and applied contributions (reporting on experiences and experiments with actual systems) will be encouraged. These transactions will focus on the key technical issues related to: Management Models, Architectures and Frameworks; Service Provisioning, Reliability and Quality Assurance; Management Functions; Enabling Technologies; Information and Communication Models; Policies; Applications and Case Studies; Emerging Technologies and Standards.
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