On Renting Edge Resources for Service Hosting

IF 0.7 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS ACM Transactions on Modeling and Performance Evaluation of Computing Systems Pub Date : 2019-12-24 DOI:10.1145/3478433
V. Ch, L. Narayana, Sharayu Moharir, N. Karamchandani
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引用次数: 5

Abstract

The rapid proliferation of shared edge computing platforms has enabled application service providers to deploy a wide variety of services with stringent latency and high bandwidth requirements. A key advantage of these platforms is that they provide pay-as-you-go flexibility by charging clients in proportion to their resource usage through short-term contracts. This affords the client significant cost-saving opportunities by dynamically deciding when to host its service on the platform, depending on the changing intensity of requests. A natural policy for our setting is the Time-To-Live (TTL) policy. We show that TTL performs poorly both in the adversarial arrival setting, i.e., in terms of the competitive ratio, and for i.i.d. stochastic arrivals with low arrival rates, irrespective of the value of the TTL timer. We propose an online policy called RetroRenting (RR) and characterize its performance in terms of the competitive ratio. Our results show that RR overcomes the limitations of TTL. In addition, we provide performance guarantees for RR for i.i.d. stochastic arrival processes coupled with negatively associated rent cost sequences and prove that it compares well with the optimal online policy. Further, we conduct simulations using both synthetic and real-world traces to compare the performance of RR with the optimal offline and online policies. The simulations show that the performance of RR is near optimal for all settings considered. Our results illustrate the universality of RR.
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论租用边缘资源进行服务托管
共享边缘计算平台的快速普及使应用程序服务提供商能够部署各种具有严格延迟和高带宽要求的服务。这些平台的一个关键优势是,它们通过短期合同按照客户的资源使用比例向客户收费,从而提供了现收现付的灵活性。这通过根据不断变化的请求强度动态决定何时在平台上托管其服务,为客户端提供了显著的成本节约机会。我们设置的一个自然策略是生存时间(TTL)策略。我们表明,无论TTL定时器的值如何,TTL在对抗性到达设置(即竞争比)和低到达率的i.i.d.随机到达中都表现不佳。我们提出了一种称为RetroRenting(RR)的在线策略,并根据竞争比率来描述其性能。我们的结果表明RR克服了TTL的局限性。此外,我们为具有负相关租金成本序列的i.i.d.随机到达过程的RR提供了性能保证,并证明了它与最优在线策略相比效果良好。此外,我们使用合成轨迹和真实世界轨迹进行模拟,以比较RR与最优离线和在线策略的性能。仿真结果表明,对于所有考虑的设置,RR的性能接近最优。我们的结果说明了RR的普遍性。
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CiteScore
2.10
自引率
0.00%
发文量
9
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