Efficient Fiber-Inspection Method for Optical-Circuit Datacenter Networks
Data center networks (DCNs) consisting of optical-circuit switches (OCSes) have been intensively studied due to optical transmission's high capacity and energy efficiency. Since current DCNs consist of packet switches, the condition and cabling of optical fibers can be inspected easily by probi...
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Published in | GLOBECOM 2023 - 2023 IEEE Global Communications Conference pp. 1119 - 1124 |
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Main Authors | , , , , , |
Format | Conference Proceeding |
Language | English |
Published |
IEEE
04.12.2023
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Abstract | Data center networks (DCNs) consisting of optical-circuit switches (OCSes) have been intensively studied due to optical transmission's high capacity and energy efficiency. Since current DCNs consist of packet switches, the condition and cabling of optical fibers can be inspected easily by probing neighboring switches. However, OCS networks cannot be inspected in the same manner because OCSes only pass through optical signals. We have had to attach and detach a tester device to every switch for probing all the fibers, which is very time-consuming. This paper proposes a method for automatically inspecting fibers in an entire DCN without repeating tester reattachment. Our method is based on (1) theories on quickly estimating the fiber condition on the basis of the intensity of received probe signals and involves (2) an algorithm that reduces the number of probes needed. Numerical evaluation showed that our method can be used to inspect a huge DCN with 32,000 fibers in at most 2 days, whereas a baseline method involving repeated tester reattachment would take 2 weeks. An experiment using actual OCSes was also conducted to confirm the feasibility of our method. |
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AbstractList | Data center networks (DCNs) consisting of optical-circuit switches (OCSes) have been intensively studied due to optical transmission's high capacity and energy efficiency. Since current DCNs consist of packet switches, the condition and cabling of optical fibers can be inspected easily by probing neighboring switches. However, OCS networks cannot be inspected in the same manner because OCSes only pass through optical signals. We have had to attach and detach a tester device to every switch for probing all the fibers, which is very time-consuming. This paper proposes a method for automatically inspecting fibers in an entire DCN without repeating tester reattachment. Our method is based on (1) theories on quickly estimating the fiber condition on the basis of the intensity of received probe signals and involves (2) an algorithm that reduces the number of probes needed. Numerical evaluation showed that our method can be used to inspect a huge DCN with 32,000 fibers in at most 2 days, whereas a baseline method involving repeated tester reattachment would take 2 weeks. An experiment using actual OCSes was also conducted to confirm the feasibility of our method. |
Author | Nishizawa, Hideki Ishida, Wataru Anazawa, Kazuya Obana, Kazuaki Mano, Toru Inoue, Takeru |
Author_xml | – sequence: 1 givenname: Kazuya surname: Anazawa fullname: Anazawa, Kazuya email: kazuya.anazawa@ntt.com organization: NTT Corporation,NTT Network Innovation Laboratories,Kanagawa,Japan – sequence: 2 givenname: Takeru surname: Inoue fullname: Inoue, Takeru organization: NTT Corporation,NTT Network Innovation Laboratories,Kanagawa,Japan – sequence: 3 givenname: Toru surname: Mano fullname: Mano, Toru organization: NTT Corporation,NTT Network Innovation Laboratories,Kanagawa,Japan – sequence: 4 givenname: Wataru surname: Ishida fullname: Ishida, Wataru organization: NTT Software Innovation Center,NTT Corporation,Tokyo,Japan – sequence: 5 givenname: Kazuaki surname: Obana fullname: Obana, Kazuaki organization: NTT Corporation,NTT Network Innovation Laboratories,Kanagawa,Japan – sequence: 6 givenname: Hideki surname: Nishizawa fullname: Nishizawa, Hideki organization: NTT Corporation,NTT Network Innovation Laboratories,Kanagawa,Japan |
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Snippet | Data center networks (DCNs) consisting of optical-circuit switches (OCSes) have been intensively studied due to optical transmission's high capacity and energy... |
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SubjectTerms | datacenter networks fiber inspection Optical circuit switches Optical fiber cables Optical fiber devices Optical fiber networks Optical fiber testing Optical fiber theory Optical packet switching Optical switches |
Title | Efficient Fiber-Inspection Method for Optical-Circuit Datacenter Networks |
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