计算连续环境中实时工作流的安全性、可靠性、成本和能源感知调度

IF 5.3 2区 计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS
Ahmad Taghinezhad-Niar;Javid Taheri
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引用次数: 0

摘要

雾计算、边缘计算和雾计算等新兴计算模式解决了大量物联网(IoT)应用的实时处理难题。同时,云计算为执行服务提供了合适的平台。它们共同组成了一个多层计算环境,称为计算连续性,可有效加强数据管理和实时任务的执行。计算连续性的主要考虑因素包括资源配置和网络架构的变化、租赁成本模式、应用安全需求、能源消耗、传输延迟和系统可靠性。为解决这些问题,我们为实时多工作流调度框架提出了两种调度算法(RCSECH 和 RSECH)。在调度实时工作流时,这两种算法都对租用成本、能耗和任务可靠性进行了优化,同时将截止日期和安全要求作为约束条件。RCSECH 在考虑这些约束条件的同时,还考虑了可靠性因素。所研究的环境由计算连续架构组成,包括雾层、边缘层、雾层和云层,每个层都可能由异构资源组成。通过模拟实验对该框架进行了评估,结果令人欣喜。具体来说,该框架能够将可靠性提高 7%,将能耗降低 8%,将可靠性约束提高 25%以上,并节省至少 15%的成本。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Security, Reliability, Cost, and Energy-Aware Scheduling of Real-Time Workflows in Compute-Continuum Environments
Emerging computing paradigms like mist, edge, and fog computing address challenges in the real-time processing of vast Internet of Things (IoT) applications. Alongside, cloud computing offers a suitable platform for executing services. Together, they form a multi-tier computing environment known as compute-continuum to efficiently enhance data management and task execution of real-time tasks. The primary considerations for compute-continuum include variations in resource configuration and network architecture, rental cost model, application security needs, energy consumption, transmission latency, and system reliability. To address these problems, we propose two scheduling algorithms (RCSECH and RSECH) for real-time multi-workflow scheduling frameworks. Both algorithms optimize for rental cost, energy consumption, and task reliability when scheduling real-time workflows while considering deadlines and security requirements as constraints. RCSECH also factors in reliability alongside these constraints. The environment under investigation consists of a compute-continuum architecture consisting of mist, edge, fog, and cloud layers, each potentially composed of heterogeneous resources. The framework undergoes evaluation via simulation experiments, revealing promising results. Specifically, the framework exhibits the capability to enhance reliability by up to 7%, reduce energy consumption by 8%, surpass reliability constraints by more than 25%, and generate cost savings by at least 15%.
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来源期刊
IEEE Transactions on Cloud Computing
IEEE Transactions on Cloud Computing Computer Science-Software
CiteScore
9.40
自引率
6.20%
发文量
167
期刊介绍: The IEEE Transactions on Cloud Computing (TCC) is dedicated to the multidisciplinary field of cloud computing. It is committed to the publication of articles that present innovative research ideas, application results, and case studies in cloud computing, focusing on key technical issues related to theory, algorithms, systems, applications, and performance.
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