对机架边界说不:走向可重构的以pod为中心的DCN架构

Proceedings of the 2019 ACM Symposium on SDN Research Pub Date : 2019-04-03 DOI:10.1145/3314148.3314350

Ding-Xue Wu, Weitao Wang, Ang Chen, T. Ng

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引用次数: 6

摘要

数据中心网络设计用于连接大型服务器集群。然而，它们的静态、基于机架的体系结构带来了许多限制。例如，由于过度订阅，带宽往往高度不平衡——同一机架中的服务器通过机架顶(ToR)交换机享受完整的对分带宽，而跨机架的服务器则有更多的带宽限制。这转化为现代云应用程序的一系列性能问题。在本文中，我们提出了一种无机架数据中心(RDC)架构，消除了这种固定的“机架边界”。我们通过在边缘层插入电路交换机来实现这一点，并动态地重新配置电路，以允许来自不同机架的服务器形成“局部组”。RDC根据不断变化的工作负载优化服务器和边缘交换机之间的拓扑结构，实现更短的流完成时间，改善实际工作负载的负载平衡。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Say No to Rack Boundaries: Towards A Reconfigurable Pod-Centric DCN Architecture

Data center networks are designed to interconnect large clusters of servers. However, their static, rack-based architecture poses many constraints. For instance, due to over-subscription, bandwidth tends to be highly unbalanced---while servers in the same rack enjoy full bisection bandwidth through a top-of-rack (ToR) switch, servers across racks have much more constrained bandwidth. This translates to a series of performance issues for modern cloud applications. In this paper, we propose a rackless data center (RDC) architecture that removes this fixed "rack boundary". We achieve this by inserting circuit switches at the edge layer, and dynamically reconfiguring the circuits to allow servers from different racks to form "locality groups". RDC optimizes the topology between servers and edge switches based on the changing workloads, and achieves lower flow completion times and improved load balance for realistic workloads.

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Proceedings of the 2019 ACM Symposium on SDN Research

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