Low-latency Packet Parsing in Software Defined Networks

2018 IEEE Nordic Circuits and Systems Conference (NORCAS): NORCHIP and International Symposium of System-on-Chip (SoC) Pub Date : 2018-10-01 DOI:10.1109/NORCHIP.2018.8573461

H. Zolfaghari, D. Rossi, J. Nurmi

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引用次数: 6

Abstract

Packet parsing is the first step in processing of packets in devices such as switches and routers. In this paper, we present a totally new program control unit as well as further enhancements for a recently designed packet parser architecture which can parse headers of most commonly used protocols such as Ethernet, IPv4, IPv6 and TCP in a time window shorter than 10 nanoseconds. However, when it comes to parsing variable-length headers and multiple stacked headers, it deviates from its maximum throughput due to inefficiencies in its program control logic. We have designed and employed a more advanced program control logic that improves parsing time of variable length headers such as IPv4 header by up to 48 percent and parsing time of typical header stacks used on the Internet by 16 to 21.42 percent. Our solution can sustain aggregate throughput of 640 Gbps while requiring only 30 percent of the number of gates used in the parser used in the Reconfigurable Match Tables architecture.

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软件定义网络中的低延迟数据包解析

在交换机和路由器等设备中，报文解析是处理报文的第一步。在本文中，我们提出了一个全新的程序控制单元以及对最近设计的数据包解析器体系结构的进一步增强，该体系结构可以在短于10纳秒的时间窗口内解析最常用的协议(如以太网，IPv4, IPv6和TCP)的标头。然而，当涉及到解析变长报头和多个堆叠报头时，由于其程序控制逻辑的效率低下，它偏离了其最大吞吐量。我们设计并采用了一种更先进的程序控制逻辑，可以将可变长度报头(如IPv4报头)的解析时间提高48%，并将Internet上使用的典型报头堆栈的解析时间提高16%至21.42%。我们的解决方案可以维持640gbps的总吞吐量，而在可重构匹配表架构中使用的解析器中只需要30%的门。

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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来源期刊

2018 IEEE Nordic Circuits and Systems Conference (NORCAS): NORCHIP and International Symposium of System-on-Chip (SoC)

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