3G及以上多标准Turbo解码器的VLSI设计

2007 Asia and South Pacific Design Automation Conference Pub Date : 2007-01-23 DOI:10.1109/ASPDAC.2007.358050

Imran Ahmed, T. Arslan

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引用次数: 12

摘要

Turbo解码架构比任何其他已知代码具有更大的纠错能力。由于其优异的性能，turbo码已被应用于多种传输系统，如CDMA2000、WCDMA (UMTS)、ADSL、IEEE 802.16城域网等。该算法的计算内核非常相似，我们利用这种通用性设计了适合使用基于平台的片上系统方法部署的涡轮解码器VLSI。统一阵列的Turbo和Viterbi组件也可以根据不同的标准单独重新配置。这支持4G概念，即用户可以同时连接到几种接入技术(例如Wi-Fi, 3G, GSM等)，并可以在它们之间无缝移动。针对可重构映射，提出了一种新的turbo解码归一化方案。我们还展示了在turbo和Viterbi解码器之间进行上下文切换的动态重新配置方法，该方法不会浪费任何时钟周期。可重新配置的涡轮解码器结构是在180纳米UMC工艺技术上重用Viterbi解码器的组件实现的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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VLSI Design of Multi Standard Turbo Decoder for 3G and Beyond

Turbo decoding architectures have greater error correcting capability than any other known code. Due to their excellent performance turbo codes have been employed in several transmission systems such as CDMA2000, WCDMA (UMTS), ADSL, IEEE 802.16 metropolitan networks etc. The computation kernel of the algorithm is very similar and we have exploited this commonality for a turbo decoder VLSI design suitable for deployment using platform based system on chip methodologies. Turbo and Viterbi components of the unified array are also individually reconfigurable for different standards. This supports the 4G concept that user can be simultaneously connected to several access technologies (for example Wi-Fi, 3G, GSM etc.) and can seamlessly move between them. A new normalization scheme for turbo decoding is presented to suit reconfigurable mappings. We have also shown dynamic reconfiguration methodology for a context switch between turbo and Viterbi decoders which does not waste any clock cycles. The reconfigurable turbo decoder fabric is implemented reusing components of Viterbi decoder on a 180 nm UMC process technology.

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2007 Asia and South Pacific Design Automation Conference

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