Optimal design of cost-effective OXC and ROADM nodes to maximize the throughput of mesh-based u-DWDM metro-access networks

Metro-access networks will play a primary role in future network fabrics, enabling connectivity among different actors such as 5G-based radio stations, edge datacenters, businesses, and home users. To provide such heterogeneous connectivity, changes to the current metro-access networks to provide th...

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Published in	Photonic network communications Vol. 46; no. 1; pp. 16 - 33
Main Authors	Sarmiento, Samael, Pagès, Albert, Spadaro, Salvatore, Lazaro, Jose A.
Format	Journal Article
Language	English
Published	New York Springer US 01.08.2023 Springer Nature B.V
Subjects	Characterization and Evaluation of Materials Computer Communication Networks Computer networks Computer Science Connectivity Data centers Dense Wavelength Division Multiplexing Design optimization Electrical Engineering Energy efficiency Modular design Modular structures Multiplexers Network design Network latency Nodes Optical communication Optical switching Optimization Radio stations Switches Switching theory OXC DWDM ROADM Metro-access optical networks
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ISSN	1387-974X 1572-8188
DOI	10.1007/s11107-023-01000-5

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Abstract	Metro-access networks will play a primary role in future network fabrics, enabling connectivity among different actors such as 5G-based radio stations, edge datacenters, businesses, and home users. To provide such heterogeneous connectivity, changes to the current metro-access networks to provide them with greater scalability, higher levels of dynamic connectivity and flexibility, reduced end-to-end latency, and increased energy efficiency are required. In this context, mesh-based ultra-dense wavelength division multiplexing (u-DWDM) metro-access networks using reconfigurable optical switching nodes constitute a promising solution. However, the designs of traditional optical switching nodes are based on wavelength selective switches (WSSs), which provide high network reconfigurability only at a high cost, making them prohibitive for metro-access networks. Moving away from this design approach, a novel cost-effective and energy-efficient reconfigurable optical add-drop multiplexer (ROADM) node design built using a modular DWDM structure was recently proposed for ring-based u-DWDM metro-access networks, showing promising performance. This paper presents an optical node design for optical cross-connects (OXCs) utilizing a modular DWDM structure, with the objective of providing performance close to that of WSS-based OXCs but at a lower cost. With this target in mind, the optimal design of mesh-based u-DWDM metro-access networks was also studied using DWDM OXCs and ROADMs, with the aim of maximizing the network throughput while minimizing the hardware required to implement the switching nodes. To this end, both exact and heuristic mechanisms are presented to address the optimal network design. The results show a maximum network performance reduction of just 10% in the DWDM case compared to the WSS-based case with a switching node cost reduction in one order magnitude.
AbstractList	Metro-access networks will play a primary role in future network fabrics, enabling connectivity among different actors such as 5G-based radio stations, edge datacenters, businesses, and home users. To provide such heterogeneous connectivity, changes to the current metro-access networks to provide them with greater scalability, higher levels of dynamic connectivity and flexibility, reduced end-to-end latency, and increased energy efficiency are required. In this context, mesh-based ultra-dense wavelength division multiplexing (u-DWDM) metro-access networks using reconfigurable optical switching nodes constitute a promising solution. However, the designs of traditional optical switching nodes are based on wavelength selective switches (WSSs), which provide high network reconfigurability only at a high cost, making them prohibitive for metro-access networks. Moving away from this design approach, a novel cost-effective and energy-efficient reconfigurable optical add-drop multiplexer (ROADM) node design built using a modular DWDM structure was recently proposed for ring-based u-DWDM metro-access networks, showing promising performance. This paper presents an optical node design for optical cross-connects (OXCs) utilizing a modular DWDM structure, with the objective of providing performance close to that of WSS-based OXCs but at a lower cost. With this target in mind, the optimal design of mesh-based u-DWDM metro-access networks was also studied using DWDM OXCs and ROADMs, with the aim of maximizing the network throughput while minimizing the hardware required to implement the switching nodes. To this end, both exact and heuristic mechanisms are presented to address the optimal network design. The results show a maximum network performance reduction of just 10% in the DWDM case compared to the WSS-based case with a switching node cost reduction in one order magnitude.
Author	Lazaro, Jose A. Pagès, Albert Sarmiento, Samael Spadaro, Salvatore
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Cites_doi	10.3390/photonics4010001 10.1364/JOCN.7.00B131 10.1109/LPT.2015.2478972 10.1109/JLT.2015.2499381 10.1109/MCOM.2015.7045406 10.1364/OE.25.017982 10.1016/j.osn.2018.06.002 10.1364/OE.15.002120 10.1109/JLT.2016.2617896 10.1364/JOCN.9.001116 10.1109/JLT.2014.2316369 10.1364/JOCN.9.000524 10.1109/LPT.2016.2531789 10.1364/JOCN.9.000001 10.1109/JLT.2014.2305572 10.1364/OE.24.000555 10.1109/JLT.2018.2835376 10.1364/OL.42.000583 10.1109/MCOM.2013.6476867 10.1364/OFC.2015.W3J.1 10.1109/ICTON.2015.7193532 10.1109/ICCCN.2015.7288388 10.1109/ICTON.2016.7550659
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SubjectTerms	Characterization and Evaluation of Materials Computer Communication Networks Computer networks Computer Science Connectivity Data centers Dense Wavelength Division Multiplexing Design optimization Electrical Engineering Energy efficiency Modular design Modular structures Multiplexers Network design Network latency Nodes Optical communication Optical switching Optimization Radio stations Switches Switching theory
Title	Optimal design of cost-effective OXC and ROADM nodes to maximize the throughput of mesh-based u-DWDM metro-access networks
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