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An 8X8 20 Gbps Reconfigurable Load Balanced TDM Switch IC for High-Speed Networking

In this paper, we propose a reconfigurable load balanced symmetric TDM switch fabric. We fold this two-stage switch to reduce 50% hardware complexity, and then implement a 3.65 mmX3.57 mm prototype switch fabric IC, including a digital 8X8 switch core, eight 16B20B CODECs, eight SERDES ports, eight...

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Bibliographic Details
Published in:Journal of signal processing systems 2012-01, Vol.66 (1), p.57-73
Main Authors: Chiu, Ching-Te, Hsu, Yu-Hao, Wu, Jen-Ming, Hsu, Shuo-Hung, Kao, Min-Sheng, Tzeng, Hou-Cheng, Du, Ming-Chang, Yang, Ping-Ling, Lu, Ming-Hao, Chen, Fanta
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Language:English
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Summary:In this paper, we propose a reconfigurable load balanced symmetric TDM switch fabric. We fold this two-stage switch to reduce 50% hardware complexity, and then implement a 3.65 mmX3.57 mm prototype switch fabric IC, including a digital 8X8 switch core, eight 16B20B CODECs, eight SERDES ports, eight CML I/O interfaces and a PLL, in 0.18 Delta *mm CMOS technology. The digital 8X8 switch core has reconfigurable connection patterns for the ease of scaling up to an NXN switch (N is power of 4). We propose the 16B20B CODEC scheme to reduce the switch core clock rate by half. In the SERDES, we employ the half-rate scheme and then use static CMOS gates for the low power consumption. We develop a low power, area-efficient and wide-band CML I/O interface with our patented PMOS active load inductive-peaking scheme for high-speed data transmission. With the 16B20B CODEC, the half-rate, and the PMOS active load schemes, almost 50% of the power is saved as compared with the design of the 8B10B CODEC, the full-rate and on-chip inductors CML schemes. Our measurement shows that an 8X8 switch fabric IC can achieve 20 Gbps switching rate and consumes only about 690 mW power. A terabit switch fabric can then be constructed by cascading the designed switch ICs.
ISSN:1939-8018
DOI:10.1007/s11265-010-0518-1