INT-SDN: Evaluation of various P4 parameters using optical telemetry having reconfigurable data plane on 40 Gbps line rate

2019 IEEE Pacific Rim Conference on Communications, Computers and Signal Processing (PACRIM) Pub Date : 2019-08-01 DOI:10.1109/PACRIM47961.2019.8985117

Harminder Singh, Changcheng Huang, Mathieu Sicard-Gagne, Gauravdeep Shami, M. Lyonnais, D. Fedorov, Rodney G. Wilson

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引用次数: 3

Abstract

Ethernet packet communication is the old established protocol of data transfer in networks. Ethernet devices transmit the data from a source to a receiver while the receiver has no statistics regarding the transmission channel. In this era of global transmission where the upcoming communication technology will be equipped with self optimized transmission under which there will be minimum errors. The need to gather information related to the transmission path arises. The primary objective of this research paper is to evaluate the different P4 parameters on optical media. P4 enabled NIC’s, corresponding FPGA Images and traditional Ethernet switches were used for the results. INT- SDN P4 packets were transmitted and the comprehensive test traces were captured and examined. DPDK was used which provides the foundation for P4 packet forwarding. Data, as well as the control plane were fully configurable in the hardware setup which resulted in speedier data transmission and also enhanced the packet efficiency at higher data rates. Metrics such as latency, throughput, data rates and efficiency were accumulated, compared and analyzed on P4 based optical network having a 40 Gbps data transmission rate. Moreover, the inside story of the optical channel was gathered which will provide further insights related to the P4 transmission medium.

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INT-SDN:使用光学遥测技术评估各种P4参数，具有40 Gbps线速率下可重构的数据平面

以太网分组通信是网络中常用的数据传输协议。以太网设备将数据从源传输到接收器，而接收器没有关于传输通道的统计信息。在这个全球传输的时代，即将到来的通信技术将配备自优化传输，使误差最小化。需要收集与传输路径相关的信息。本研究的主要目的是评估不同P4参数在光学介质上的作用。结果使用了支持P4的网卡、相应的FPGA图像和传统的以太网交换机。传输INT- SDN P4数据包，并捕获和检查综合测试痕迹。采用DPDK为P4报文转发提供了基础。数据以及控制平面在硬件设置中是完全可配置的，这导致了更快的数据传输，并在更高的数据速率下提高了分组效率。在数据传输速率为40gbps的P4光网络上，对时延、吞吐量、数据速率和效率等指标进行了积累、比较和分析。此外，还收集了光通道的内部故事，这将提供与P4传输介质相关的进一步见解。

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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2019 IEEE Pacific Rim Conference on Communications, Computers and Signal Processing (PACRIM)

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