树莓派作为可重构光纤路由器及其性能分析

M. Nasir, Wan Siti Halimatul Munirah wan Ahmad, N. Radzi, F. Abdullah, Azlina Abdullah, A. Ismail, M. Z. Jamaludin
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引用次数: 1

摘要

无源光网络(PON)为了提供更快的速度和更好的可靠性而急剧发展,例如下一代PON1 (NG-PON1)和NG-PON2,它们分别能够提供超过40 Gbps和128 Gbps的带宽。由于PON技术的快速发展,研究人员进行了许多深入的实验,以便以试验台的形式增强现有的PON基础技术。然而,大多数研究表明,试验台在可配置性、紧凑性或成本效益方面存在局限性。因此,这促使我们在PON架构中提出一个实验室规模的路由器测试平台,利用树莓派的有前途的特性和尺寸。实验是在实验室规模的区域进行的,因为所提出的路由器测试平台是为了提供PON中可重构路由器的概念验证解决方案。实验结果是在吞吐量,端到端延迟和抖动对下游和上游传输。经过实验,我们得出结论,树莓派适合用作光纤网络架构中的实验室规模路由器,因为它们具有可重构性,开源内核,空间友好和成本效益。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Raspberry Pi as Reconfigurable Fiber-based Router and Its Performance Analysis
Passive Optical Network (PON) has evolved drastically in order to provide greater speed and better reliability such as Next Generation PON1 (NG-PON1) and NG-PON2 which able to provide more than 40 Gbps and 128 Gbps of bandwidth respectively. Due to rapid growth of PON technologies, researchers have conducted many thorough experiments in order to enhance current PON-base technologies in a form of testbeds. However, most of the studies show that the testbeds have limitations either on its configurability, compactness or cost-efficiency. Hence, this motivates us to propose a lab-scale router testbed in PON architecture by using Raspberry Pi for its promising features and size. The experiments were done in a lab-scale area because the proposed router testbed is to provide a proof-of-concept solution of a reconfigurability router in PON. The results of the experiments are in terms of throughput, end-to-end delay and jitter for both downstream and upstream transmissions. After conducting the experiments, we have come to a conclusion that Raspberry Pis are suitable to be used as lab-scale routers in fiber networking architectures due to their reconfigurability, open source kernel, space-friendly and cost-efficient.
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