使用PARIS实现可扩展数据中心的主动路由

Proceedings. Data Compression Conference Pub Date : 2014-08-18 DOI:10.1145/2627566.2627571

D. Arora, Theophilus A. Benson, J. Rexford

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引用次数: 9

摘要

现代数据中心必须扩展到大量服务器，同时提供虚拟机的灵活放置和迁移。通过三层核心连接第二层pod的传统方法限制了VM的放置。最近的“扁平化”设计更加灵活，但由于泛洪/广播或查询VM位置目录而具有可伸缩性限制。而不是被动地学习VM位置，我们的PARIS架构有一个控制器，在交换机中预先放置IP转发项。pod中的交换机拥有其下面的vm的完整信息，而每个核心交换机维护部分地址空间的完整转发状态。PARIS为网络设计人员提供了选择满足其延迟和带宽要求的拓扑的灵活性。我们评估了使用符合openflow的开关和NOX控制器构建的PARIS原型。使用PARIS，我们可以构建一个支持多达100K服务器的数据中心网络。

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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ProActive routing in scalable data centers with PARIS

Modern data centers must scale to a large number of servers, while offering flexible placement and migration of virtual machines. The traditional approach of connecting layer-two pods through a layer-three core constrains VM placement. More recent 'flat' designs are more flexible but have scalability limitations due to flooding/broadcasting or querying directories of VM locations. Rather than reactively learn VM locations, our PARIS architecture has a controller that pre-positions IP forwarding entries in the switches. Switches within a pod have complete information about the VMs beneath them, while each core switch maintains complete forwarding state for part of the address space. PARIS offers network designers the flexibility to choose a topology that meets their latency and bandwidth requirements. We evaluate our PARIS prototype built using OpenFlow-compliant switches and NOX controller. Using PARIS we can build a data center network that supports up to 100K servers.

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Proceedings. Data Compression Conference

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