用于千兆赫应用的高速可重构门阵列

IEEE Computer Society Annual Symposium on VLSI: New Frontiers in VLSI Design (ISVLSI'05) Pub Date : 2005-05-11 DOI:10.1109/ISVLSI.2005.8

Jong-Ru Guo, C. You, M. Chu, Okan Erdogan, R. Kraft, J. McDonald

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引用次数: 3

摘要

本文描述了在最新的IBM 8HP SiGe进程(fT = 210GHz)中实现下一代可扩展SiGe FPGA，该FPGA在高速可重构数据采集系统中充当交错和反交错块。本文介绍并测量了不同代的SiGe可配置块(基本单元)。与第一代设计相比，最新一代的功耗降低了94%(从71mW降至4.2mW)，传输延迟降低了83%(从238ps降至42ps)。为了演示SiGe FPGA处理GHz信号的能力，SiGe FPGA被配置为多路复用器(MUX)、解复用器(DEMUX)和伪serdes。对于IBM 8HP进程，MUX、DEMUX和伪serdes可以实现28Gbps的传输速率。对于以前的IBM 7HP机箱，4:1多路复用器以8Gbps的传输速率运行。通过这些设计结果，SiGe FPGA能够处理S和K等GHz频段的微波信号。

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A high speed reconfigurable gate array for gigahertz applications

This paper describes the implementation of the next generation of a scalable SiGe FPGA in the latest IBM 8HP SiGe process (fT = 210GHz) that serves as an interleaving and de-interleaving block in a high speed reconfigurable data acquisition system. In this paper, different generations of SiGe configurable blocks (basic cells) are presented and measured. The latest generation has a 94% reduction in power consumption (from 71mW to 4.2mW) and an 83% reduction of the propagation delay (from 238ps to 42ps) compared to the first generation design. To demonstrate the SiGe FPGA's capabilities of handling GHz signals, the SiGe FPGAs are configured as a multiplexer (MUX), de-multiplexer (DEMUX) and pseudo-SERDES. For the IBM 8HP process, the MUX, DEMUX and pseudo-SERDES can achieve a transmission rate of 28Gbps. For the previous IBM 7HP case, the 4:1 multiplexer runs at a transmission rate of 8Gbps. With these design results, the SiGe FPGA is able to process GHz signals such as S and K microwave bands.

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IEEE Computer Society Annual Symposium on VLSI: New Frontiers in VLSI Design (ISVLSI'05)

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