Deep Reinforcement Learning Based Dynamic Flowlet Switching for DCN

IF 5.3 2区 计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS IEEE Transactions on Cloud Computing Pub Date : 2024-03-27 DOI:10.1109/TCC.2024.3382132
Xinglong Diao;Huaxi Gu;Wenting Wei;Guoyong Jiang;Baochun Li
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Abstract

Flowlet switching has been proven to be an effective technology for fine-grained load balancing in data center networks. However, flowlet detection based on static flowlet timeout values, lacks accuracy and effectiveness in complex network environments. In this article, we propose a new deep reinforcement learning approach, called DRLet, to dynamically detect flowlets. DRLet offers two advantages: first, it provides dynamic flowlet timeout values to detect bursts into fine-grained flowlets; second, flowlet timeout values are automatically configured by the deep reinforcement learning agent, which only requires simple and measurable network states, instead of any prior knowledge, to achieve the pre-defined goal. With our approach, the flowlet timeout value dynamically matches the network load scenario, ensuring the accuracy and effectiveness of flowlet detection while suppressing packet reordering. Our results show that DRLet achieves superior performance compared to existing schemes based on static flowlet timeout values in both baseline and asymmetric topologies.
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基于深度强化学习的 DCN 动态小流量切换
在数据中心网络中,小流量交换已被证明是一种有效的细粒度负载平衡技术。然而,在复杂的网络环境中,基于静态小流量超时值的小流量检测缺乏准确性和有效性。在本文中,我们提出了一种新的深度强化学习方法,称为 DRLet,用于动态检测小流量。DRLet 有两个优点:首先,它提供动态小流量超时值,以检测细粒度小流量的突发;其次,小流量超时值由深度强化学习代理自动配置,它只需要简单和可测量的网络状态,而不需要任何先验知识,就能实现预定目标。通过我们的方法,小流量超时值可动态匹配网络负载情况,确保小流量检测的准确性和有效性,同时抑制数据包重排序。我们的研究结果表明,在基线拓扑和非对称拓扑中,与基于静态小流量超时值的现有方案相比,DRLet 实现了更优越的性能。
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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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