Acceleration of DAB chipset development by deployment of a real-time rapid prototyping approach based on behavioral synthesis

Proceedings of the IEEE 2001. 2nd International Symposium on Quality Electronic Design Pub Date : 2001-03-26 DOI:10.1109/ISQED.2001.915262

M. Speitel, M. Schlicht, Martin Leyh

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引用次数: 1

Abstract

The development of a new digital communication system has the twofold goal to achieve all traditional requirements from the end user prospective and to offer a huge potential of additional services compared with existing analog systems. The extremely demanding time frame for the introduction of such a system requires a development approach reducing the design risk to a minimum especially for the end user receivers. As an integral part of the terminal the digital baseband processor is one of the most challenging receiver components in terms of development and validation effort. The complexity of the ASIC design with initially estimated 500,000 to 1,000,000 gate equivalents has driven the deployment of a real-time prototyping system. To assure real-time and identical functionality on both FPGA prototype and ASIC behavioral synthesis was used for timing-critical and computationally intensive building blocks. The design and validation methodology was successfully implemented. The ASIC will be introduced in the first generation of mobile radio receivers for digital audio broadcasting in the United States.

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通过部署基于行为综合的实时快速原型方法加速DAB芯片组的开发

开发一种新的数字通信系统有两个目标，即从最终用户的角度满足所有传统要求，并提供与现有模拟系统相比具有巨大潜力的附加服务。引入这样一个系统的时间框架非常苛刻，需要一种将设计风险降至最低的开发方法，特别是对于最终用户接收器。作为终端不可分割的一部分，数字基带处理器在开发和验证方面是最具挑战性的接收器组件之一。ASIC设计的复杂性最初估计为500,000到1,000,000栅极当量，这推动了实时原型系统的部署。为了确保FPGA原型和ASIC的实时性和相同的功能，在时间关键和计算密集型的构建块中使用了行为合成。设计和验证方法已成功实施。ASIC将用于美国第一代数字音频广播移动无线电接收机。

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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Proceedings of the IEEE 2001. 2nd International Symposium on Quality Electronic Design

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