使用时间感知整形的上层物理层功能分裂的以太网前传传输

IF 1.9 4区 计算机科学 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS
Mohamad Kenan Al-Hares, Philippos Assimakopoulos, Nathan J. Gomes
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引用次数: 0

摘要

对以太网前传网络的上层物理层功能分离(UPS)进行了建模,并研究了帧延迟和帧延迟变化(FDV)限制。结果表明,以太网交换机端口的争用会导致延迟和FDV的增加,超出了UPS和其他时间敏感的流量类型(如I/ q型流量)的建议规格。时间感知整形(TAS)可以显著减少甚至消除UPS流量和I/ q型流量的FDV,但研究表明,TAS设计方面必须仔细考虑以太网前传网络交换机中竞争流量的传输模式。考虑到UPS业务的传输模式,在TAS窗口段内提出了不同的时间分配,并结合接收端和发送端缓冲。此外,事实证明,使用具有更高链路速率的TAS(例如,10 Gbps或更高的链路速率)可以在其规格范围内通过前传光纤跨度、长度超过10公里和/或更多跳数传输UPS和时间敏感流量,因为TAS可以潜在地消除UPS流量的FDV的任何增加。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ethernet fronthaul transport of an upper-physical layer functional split using time-aware shaping

An Upper Physical layer functional Split (UPS) for an Ethernet fronthaul network is modelled, and the frame delay and Frame Delay Variation (FDV) limitations are investigated. The results show that contention in Ethernet switch ports can cause an increase in the delay and FDV beyond proposed specifications for the UPS and other time-sensitive traffic types such as I/Q-type traffic. Time Aware Shaping (TAS) can significantly reduce or even remove FDV for UPS traffic and I/Q-type traffic, but it is shown that TAS design aspects have to carefully consider the transmission pattern of the contending traffic in the Ethernet fronthaul network switches. Taking into account the transmission pattern of the UPS traffic, different time allocations within TAS window sections are proposed in conjunction with both receiver and transmitterside buffering. Further, it is proven that using TAS with higher link rates for example, 10 Gbps link rates or beyond makes it possible to transport the UPS and time sensitive traffic within its specification over fronthaul fiber spans, more than 10 km length, and/or more hops as TAS can potentially eliminate any increase in the FDV of the UPS traffic.

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来源期刊
Optical Switching and Networking
Optical Switching and Networking COMPUTER SCIENCE, INFORMATION SYSTEMS-OPTICS
CiteScore
5.20
自引率
18.20%
发文量
29
审稿时长
77 days
期刊介绍: Optical Switching and Networking (OSN) is an archival journal aiming to provide complete coverage of all topics of interest to those involved in the optical and high-speed opto-electronic networking areas. The editorial board is committed to providing detailed, constructive feedback to submitted papers, as well as a fast turn-around time. Optical Switching and Networking considers high-quality, original, and unpublished contributions addressing all aspects of optical and opto-electronic networks. Specific areas of interest include, but are not limited to: • Optical and Opto-Electronic Backbone, Metropolitan and Local Area Networks • Optical Data Center Networks • Elastic optical networks • Green Optical Networks • Software Defined Optical Networks • Novel Multi-layer Architectures and Protocols (Ethernet, Internet, Physical Layer) • Optical Networks for Interet of Things (IOT) • Home Networks, In-Vehicle Networks, and Other Short-Reach Networks • Optical Access Networks • Optical Data Center Interconnection Systems • Optical OFDM and coherent optical network systems • Free Space Optics (FSO) networks • Hybrid Fiber - Wireless Networks • Optical Satellite Networks • Visible Light Communication Networks • Optical Storage Networks • Optical Network Security • Optical Network Resiliance and Reliability • Control Plane Issues and Signaling Protocols • Optical Quality of Service (OQoS) and Impairment Monitoring • Optical Layer Anycast, Broadcast and Multicast • Optical Network Applications, Testbeds and Experimental Networks • Optical Network for Science and High Performance Computing Networks
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