Experimental Assessments of SDN-Enabled Optical Polling Flow Control for Contention Resolution in Optical DCNs
Due to the lack of optical buffer, high packer loss caused by packet contention is one of the main challenges for the optical switching data centers (DCs). Flow control (FC) protocol employing electrical buffers at the top of racks (ToRs) and exploiting packet retransmission mechanism in case of con...
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| Veröffentlicht in: | Journal of lightwave technology 2021-05, Vol.39 (9), p.2652-2660 |
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| creator | Xue, Xuwei Wang, Fu Chen, Sai Yan, Fulong Pan, Bitao Prifti, Kristif Guo, Xiaotao Zhang, Shaojuan Xie, Chongjin Calabretta, Nicola |
| description | Due to the lack of optical buffer, high packer loss caused by packet contention is one of the main challenges for the optical switching data centers (DCs). Flow control (FC) protocol employing electrical buffers at the top of racks (ToRs) and exploiting packet retransmission mechanism in case of contention has been extensively investigated to decrease the packet loss in optical DCs. However, the packet retransmission and the head-of-line (HOL) blocking in electrical buffers at substantial load traffic introduce extra latency and buffer-overflow that still cause packet loss. To overcome these issues, a novel contention resolution technique based on a software-defined networking (SDN) enabled optical polling flow control is proposed and experimentally assessed in this article. Experimental assessments show that the proposed contention resolution scheme achieves zero packet loss and 7.4 μs latency performance at the load of 0.4. In addition, we numerically modelled and investigated the scalability of the proposed contention resolution technique in a large scale DCN based on the experimental parameters. Results prove the excellent scalability performance of OPFC scheme, in which the packet loss increases from 2.1E-3 to 9.02E-3 and the average latency increases 5.17 μs at the load of 0.5 as the OPFC based network scales from 4 to 40960 servers. |
| doi_str_mv | 10.1109/JLT.2020.3042820 |
| format | Article |
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Flow control (FC) protocol employing electrical buffers at the top of racks (ToRs) and exploiting packet retransmission mechanism in case of contention has been extensively investigated to decrease the packet loss in optical DCs. However, the packet retransmission and the head-of-line (HOL) blocking in electrical buffers at substantial load traffic introduce extra latency and buffer-overflow that still cause packet loss. To overcome these issues, a novel contention resolution technique based on a software-defined networking (SDN) enabled optical polling flow control is proposed and experimentally assessed in this article. Experimental assessments show that the proposed contention resolution scheme achieves zero packet loss and 7.4 μs latency performance at the load of 0.4. In addition, we numerically modelled and investigated the scalability of the proposed contention resolution technique in a large scale DCN based on the experimental parameters. Results prove the excellent scalability performance of OPFC scheme, in which the packet loss increases from 2.1E-3 to 9.02E-3 and the average latency increases 5.17 μs at the load of 0.5 as the OPFC based network scales from 4 to 40960 servers.</description><identifier>ISSN: 0733-8724</identifier><identifier>EISSN: 1558-2213</identifier><identifier>DOI: 10.1109/JLT.2020.3042820</identifier><identifier>CODEN: JLTEDG</identifier><language>eng</language><publisher>New York: IEEE</publisher><subject>Assessments ; Buffers ; Control systems ; Data centers ; Flow control ; Optical buffering ; optical data center ; Optical packet switching ; Optical switches ; Optical switching ; Optical wavelength conversion ; packet contention ; Racks ; Random access memory ; Software-defined networking ; Switching circuits</subject><ispartof>Journal of lightwave technology, 2021-05, Vol.39 (9), p.2652-2660</ispartof><rights>Copyright The Institute of Electrical and Electronics Engineers, Inc. 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Flow control (FC) protocol employing electrical buffers at the top of racks (ToRs) and exploiting packet retransmission mechanism in case of contention has been extensively investigated to decrease the packet loss in optical DCs. However, the packet retransmission and the head-of-line (HOL) blocking in electrical buffers at substantial load traffic introduce extra latency and buffer-overflow that still cause packet loss. To overcome these issues, a novel contention resolution technique based on a software-defined networking (SDN) enabled optical polling flow control is proposed and experimentally assessed in this article. Experimental assessments show that the proposed contention resolution scheme achieves zero packet loss and 7.4 μs latency performance at the load of 0.4. In addition, we numerically modelled and investigated the scalability of the proposed contention resolution technique in a large scale DCN based on the experimental parameters. 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| subjects | Assessments Buffers Control systems Data centers Flow control Optical buffering optical data center Optical packet switching Optical switches Optical switching Optical wavelength conversion packet contention Racks Random access memory Software-defined networking Switching circuits |
| title | Experimental Assessments of SDN-Enabled Optical Polling Flow Control for Contention Resolution in Optical DCNs |
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