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Optical wireless data center networks: potentials, limitations, and prospects

Optical wireless data center networks: potentials, limitations, and prospects
Optical wireless data center networks: potentials, limitations, and prospects

Data centers (DCs) are intrinsic to emerging technologies which require to store and process massive amounts of versatile data through large-scale networks of computing and storage units. Conventional wired DC networks (DCNs) with static links and finite network interfaces suffer from cabling cost and complexity as scalability increases, lack the flexibility to handle the dynamic and large volume of traffic outbursts (i.e., hotspots), and have limited bisection bandwidths mainly due to the switching speeds. Therefore, optical wireless DCNs have recently attracted attention by their capability to augment the inherent restrictions of wired DCNs. In addition to the reduced cost of wiring, wireless communication can provide a flexible topology to overcome oversubscriptions and hotspots. Moreover, it is possible to adapt the link capacities in accordance with the quality of service demands of different services and flow classes. Furthermore, wireless communication can also make it possible to eliminate switches by establishing direct links among the servers. In this paper, we first present potential state- of-art optical wireless technologies. Second, practical challenges of design and provisioning of optical wireless communications in real-life DCNs are outlined along with a survey of recent advances and implementations. Finally, we motivate researchers with the exciting prospects of optical wireless DCNs including physical and virtual topology design, interference management, multiple access techniques, traffic management and grooming, and flow classification.

0277-786X
SPIE
Celik, Abdulkadir
f8e72266-763c-4849-b38e-2ea2f50a69d0
Shihada, Basem
3aad5038-5b7e-4a97-9f22-7e310ea68a27
Alouini, Mohamed Slim
3ccd5915-318e-4f4b-b47a-48257ab4c0eb
Tsukamoto, Katsutoshi
Dingel, Benjamin B.
Mikroulis, Spiros
Celik, Abdulkadir
f8e72266-763c-4849-b38e-2ea2f50a69d0
Shihada, Basem
3aad5038-5b7e-4a97-9f22-7e310ea68a27
Alouini, Mohamed Slim
3ccd5915-318e-4f4b-b47a-48257ab4c0eb
Tsukamoto, Katsutoshi
Dingel, Benjamin B.
Mikroulis, Spiros

Celik, Abdulkadir, Shihada, Basem and Alouini, Mohamed Slim (2019) Optical wireless data center networks: potentials, limitations, and prospects. Tsukamoto, Katsutoshi, Dingel, Benjamin B. and Mikroulis, Spiros (eds.) In Broadband Access Communication Technologies XIII. vol. 10945, SPIE.. (doi:10.1117/12.2507643).

Record type: Conference or Workshop Item (Paper)

Abstract

Data centers (DCs) are intrinsic to emerging technologies which require to store and process massive amounts of versatile data through large-scale networks of computing and storage units. Conventional wired DC networks (DCNs) with static links and finite network interfaces suffer from cabling cost and complexity as scalability increases, lack the flexibility to handle the dynamic and large volume of traffic outbursts (i.e., hotspots), and have limited bisection bandwidths mainly due to the switching speeds. Therefore, optical wireless DCNs have recently attracted attention by their capability to augment the inherent restrictions of wired DCNs. In addition to the reduced cost of wiring, wireless communication can provide a flexible topology to overcome oversubscriptions and hotspots. Moreover, it is possible to adapt the link capacities in accordance with the quality of service demands of different services and flow classes. Furthermore, wireless communication can also make it possible to eliminate switches by establishing direct links among the servers. In this paper, we first present potential state- of-art optical wireless technologies. Second, practical challenges of design and provisioning of optical wireless communications in real-life DCNs are outlined along with a survey of recent advances and implementations. Finally, we motivate researchers with the exciting prospects of optical wireless DCNs including physical and virtual topology design, interference management, multiple access techniques, traffic management and grooming, and flow classification.

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More information

Published date: 2019
Additional Information: Publisher Copyright: © 2019 SPIE.
Venue - Dates: Broadband Access Communication Technologies XIII 2019, , San Francisco, United States, 2019-02-04 - 2019-02-05
Learn more about Next Generation Wireless research

Identifiers

Local EPrints ID: 504471
URI: http://eprints.soton.ac.uk/id/eprint/504471
DOI: doi:10.1117/12.2507643
ISSN: 0277-786X
PURE UUID: da6c1038-7a9c-42c6-89f5-7aaacc412718
ORCID for Abdulkadir Celik: ORCID iD orcid.org/0000-0001-9007-9979

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Date deposited: 09 Sep 2025 20:06
Last modified: 10 Sep 2025 13:50

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Contributors

Author: Abdulkadir Celik ORCID iD
Author: Basem Shihada
Author: Mohamed Slim Alouini
Editor: Katsutoshi Tsukamoto
Editor: Benjamin B. Dingel
Editor: Spiros Mikroulis

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