用于网络功能虚拟化的可重构计算:一个协议独立的交换机

Qianqiao Chen, Vaibhawa Mishra, G. Zervas
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引用次数: 10

摘要

网络功能虚拟化(NFV)旨在将软件网络应用与硬件分离,以降低新服务的开发和部署成本。为了实现多样化的网络业务部署,一个可重构的高性能硬件平台可以为NFV带来可观的效益。本文提出了一个基于fpga的平台,作为协议可重构的NFV交换机。虚拟网络功能的逻辑电路可以在该平台上运行时重新配置。还提出了一种重新配置过程,以实现虚拟网络功能之间的无丢包切换,从而提供不中断的服务。该平台可在第1层电路交换机和第2层以太网分组交换机之间重新配置。一旦作为数据包交换机运行,该平台可以从第二层以太网交换机切换到第三层IP解析器,甚至第四层UDP解析器。所实现的2×2交换机每端口10Gbps的性能提供了300纳秒的最小延迟(电路交换机)和1微秒的最大延迟。还演示了IP和UDP解析器之间的重新配置而不会丢失数据。
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Reconfigurable computing for network function virtualization: A protocol independent switch
Network function virtualization (NFV) aims to decouple software network applications from their hardware in order to reduce development and deployment costs for new services. To enable the deployment of diverse network services, a reconfigurable and high performance hardware platform can bring considerable benefits to NFV. In this paper, an FPGA-based platform is proposed to perform as a protocol reconfigurable NFV switch. Logic circuit of virtual network functions can be reconfigured at run time on the proposed platform. A reconfiguration process is also proposed to enable packet loss free switch-over between virtual network functions that delivers undisrupted service. The platform can be reconfigured between Layer 1 circuit switch and Layer 2 Ethernet packet switch. Once running as a packet switch, the platform can switch over from Layer 2 Ethernet switch to Layer 3 IP parser and even Layer 4 UDP parser. Performance of the implemented 2×2 switch at 10Gbps per port delivers a minimum latency of 300 nanoseconds (circuit switch) and maximum latency of 1 microsecond. Reconfiguration between IP and UDP parser without loss of data is also demonstrated.
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