1 November 1996 Performance of the COD statistical packet multiplexor using optical loss compensation
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Abstract
Optically transparent time-division multiplexors and switches can be used to create terabit packet-switched networks. Cascaded optical delay (COD) multiplexors are modular, buffered 2:1 statistical packet multiplexors build from 'smart' crossbars and fiber delay lines. We have implemented the fundamental unit of COD multiplexors, a memoryless 2:1 packet multiplexor. It accepts fixed-length packets. It is designed to handle slotted and unslotted traffic, so it does not require network synchronization. This multiplexor has been built using off-the-shelf components. We demonstrate its switching characteristics for 340 ns packets, as well as present its measured packet loss rate. It can be used to make larger, buffered multiplexors with improved packet loss rates. We present the statistical insertion los distribution associated with buffered COD multiplexors. Furthermore, we outline a method of optical loss compensation which eliminates the insertion loss distribution.
© (1996) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Hemonth G. Rao, Hemonth G. Rao, Albert L. Kellner, Albert L. Kellner, Jung-Tsung Tsai, Jung-Tsung Tsai, Rene L. Cruz, Rene L. Cruz, Paul K. L. Yu, Paul K. L. Yu, } "Performance of the COD statistical packet multiplexor using optical loss compensation", Proc. SPIE 2919, All-Optical Communication Systems: Architecture, Control, and Network Issues II, (1 November 1996); doi: 10.1117/12.256341; https://doi.org/10.1117/12.256341
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