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    Journals >Acta Optica Sinica >Volume 41 >Issue 14 >Page 1406002 > Article
    • Acta Optica Sinica
    • Vol. 41, Issue 14, 1406002 (2021)
    Novel Architecture for High Capacity Optical Interconnects
    Xiaoxue Yang1, Bing Hu1、2、*, Xiaoqiang Wei3, and Yingchun Shang3
    Author Affiliations
  • 1College of Information Science and Electronic Engineering, Zhejiang University, Hangzhou, Zhejiang 310027, China
  • 2Intelligent Network Research Center, Zhejiang Lab, Hangzhou, Zhejiang 310027, China
  • 3State Key Laboratory of Mobile Network and Mobile Multimedia Technology, ZTE Corporation, Hangzhou, Zhejiang 518055, China
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    DOI: 10.3788/AOS202141.1406002 Cite this Article Set citation alerts
    Xiaoxue Yang, Bing Hu, Xiaoqiang Wei, Yingchun Shang. Novel Architecture for High Capacity Optical Interconnects[J]. Acta Optica Sinica, 2021, 41(14): 1406002 Copy Citation Text show less
    Cyclic wavelength routing characteristic of AWGR
    Fig. 1. Cyclic wavelength routing characteristic of AWGR
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    AA architecture
    Fig. 2. AA architecture
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    Line card design for single-wavelength input
    Fig. 3. Line card design for single-wavelength input
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    Line card design for WDM input
    Fig. 4. Line card design for WDM input
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    TWC module
    Fig. 5. TWC module
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    Single-wavelength input implementation of optical network based on AWGR and TWC
    Fig. 6. Single-wavelength input implementation of optical network based on AWGR and TWC
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    WDM input implementation of optical network based on AWGR and TWC
    Fig. 7. WDM input implementation of optical network based on AWGR and TWC
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    Simplified buffer module
    Fig. 8. Simplified buffer module
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    Comparison of theoretical results and simulation results
    Fig. 9. Comparison of theoretical results and simulation results
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    Simulation results of single-wavelength input under different network sizes. (a) Throughput; (b) end-to-end latency
    Fig. 10. Simulation results of single-wavelength input under different network sizes. (a) Throughput; (b) end-to-end latency
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    Simulation results of single-wavelength input under different FDL distributions. (a) Throughput; (b) end-to-end latency
    Fig. 11. Simulation results of single-wavelength input under different FDL distributions. (a) Throughput; (b) end-to-end latency
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    Simulation results of single-wavelength input under different numbers of TWC. (a) Throughput; (b) end-to-end latency; (c) packet loss probability
    Fig. 12. Simulation results of single-wavelength input under different numbers of TWC. (a) Throughput; (b) end-to-end latency; (c) packet loss probability
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    Simulation results of single-wavelength input under different traffic patterns. (a) Throughput; (b) end-to-end latency
    Fig. 13. Simulation results of single-wavelength input under different traffic patterns. (a) Throughput; (b) end-to-end latency
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    Simulation results of WDM input under different network sizes. (a) Throughput; (b) end-to-end latency
    Fig. 14. Simulation results of WDM input under different network sizes. (a) Throughput; (b) end-to-end latency
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    Simulation results of WDM input under different FDL distributions. (a) Throughput; (b) end-to-end latency
    Fig. 15. Simulation results of WDM input under different FDL distributions. (a) Throughput; (b) end-to-end latency
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    Simulation results of WDM input under different FDL patterns. (a) Throughput; (b) end-to-end latency
    Fig. 16. Simulation results of WDM input under different FDL patterns. (a) Throughput; (b) end-to-end latency
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    Abstract
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    References (16)
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    Xiaoxue Yang, Bing Hu, Xiaoqiang Wei, Yingchun Shang. Novel Architecture for High Capacity Optical Interconnects[J]. Acta Optica Sinica, 2021, 41(14): 1406002
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    Paper Information
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