朝着高带宽无线电池供电设备的方向发展

Proceedings IEEE Computer Society Workshop on VLSI 2001. Emerging Technologies for VLSI Systems Pub Date : 2001-04-19 DOI:10.1109/IWV.2001.923132

J. Glossner, D. Routenberg, E. Hokenek, M. Moudgill, M. Schulte, P. Balzola, S. Vassiliadis

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引用次数: 2

摘要

我们讨论了在构建2mbit / s无线电池供电通信设备时所面临的硬件和软件挑战。最重要的是功耗。为了实现激进的功率目标，在设计层次的各个层面都需要大量的新技术。并行化饱和算法的技术将变得非常重要，因为它们可以实现软件优化。高度可配置的可编程结构将实现多协议SOC解决方案。要编写复杂的soc，就需要新的编译器技术。硬件实现需要密切关注这些软件技术。特别是用C编写的信号处理代码和用Java编写的控制代码都将推动新的编译技术，以实现宽带3G无线系统。

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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Towards a very high bandwidth wireless battery powered device

We discuss the hardware and software challenges in building a 2 Mbit per second wireless battery powered communications device. Of primary importance is power dissipation. To achieve aggressive power targets, a host of new techniques are required at all levels of the design hierarchy. Techniques for parallelizing saturating arithmetic will become important because of the software optimizations they enable. Highly configurable programmable structures will enable multiprotocol SOC solutions. To program complex SOCs, new compiler techniques will be required. Hardware implementations will need to be intimately aware of these software techniques. In particular both signal processing code written in C and control code written in Java will drive new compilation techniques to enable broadband 3G wireless systems.

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Proceedings IEEE Computer Society Workshop on VLSI 2001. Emerging Technologies for VLSI Systems

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