Zero-cost upgrade to a multi-fiber network with partial lane-change capabilities

IF 4 2区 计算机科学 Q1 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
Oleg Karandin;Francesco Musumeci;Gabriel Charlet;Yvan Pointurier;Massimo Tornatore
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Abstract

Growing capacity requirements are leading to the deployment of multiple fibers in each optical network link. Even though deploying state-of-the-art multi-fiber network architectures with stacked and independent fiber layers simplifies network design and control, spectrum can be used more efficiently if the optical-network nodes allow fiber layers to be interconnected, i.e., if the so-called lane change is enabled. Unfortunately, lane change in high-degree optical nodes requires wavelength selective switches (WSSs) with a high number of ports, which is prohibitively costly or even unfeasible with current WSS technology. Instead, lane change in low-degree optical nodes can be enabled at no extra cost, using WSS ports that are otherwise left empty. In this study, we describe our proposal for a multi-fiber network with partial lane-change capabilities and perform a simulative study to identify the advantages of this architecture, as well as discuss the emerging resource allocation challenges associated with it. We demonstrate that, by enabling lane change in degree-2 nodes, we can increase network throughput by 3% and restore 5%–8% more traffic in the case of single- and double-link failures at no additional equipment cost.
零成本升级为具有部分变道功能的多光纤网络
日益增长的容量需求促使在每个光网络链路中部署多根光纤。尽管部署具有堆叠和独立光纤层的先进多光纤网络架构简化了网络设计和控制,但如果光网络节点允许光纤层相互连接,即启用所谓的换道功能,就能更有效地利用频谱。遗憾的是,在高阶光节点中进行换道需要大量端口的波长选择开关(WSS),而目前的 WSS 技术成本过高,甚至无法实现。相反,低度光节点的换道可以利用 WSS 的空端口,而无需额外成本。在本研究中,我们介绍了具有部分换道功能的多光纤网络方案,并进行了模拟研究,以确定这种架构的优势,并讨论与之相关的新出现的资源分配挑战。我们证明,通过在degree-2节点中启用变道功能,我们可以将网络吞吐量提高3%,并在不增加设备成本的情况下,在单链路和双链路故障时多恢复5%-8%的流量。
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来源期刊
CiteScore
9.40
自引率
16.00%
发文量
104
审稿时长
4 months
期刊介绍: The scope of the Journal includes advances in the state-of-the-art of optical networking science, technology, and engineering. Both theoretical contributions (including new techniques, concepts, analyses, and economic studies) and practical contributions (including optical networking experiments, prototypes, and new applications) are encouraged. Subareas of interest include the architecture and design of optical networks, optical network survivability and security, software-defined optical networking, elastic optical networks, data and control plane advances, network management related innovation, and optical access networks. Enabling technologies and their applications are suitable topics only if the results are shown to directly impact optical networking beyond simple point-to-point networks.
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