Embedded tutorial: hardware/software codesign

Proceedings of the ASP-DAC '99 Asia and South Pacific Design Automation Conference 1999 (Cat. No.99EX198) Pub Date : 1999-01-18 DOI:10.1109/ASPDAC.1999.760042

M. Imai

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引用次数: 2

Abstract

Due to the advance of VLSI technology, it is now possible to fabricate very complicated systems on a chip, which includes CPUs, peripheral circuits, and on-chip memories. These kinds of chips are very effective to implement various electronic systems such as for multimedia processing, communication, and real-time control. However there is a serious problem, called "design productivity crisis", to be overcome in the near future. Hardware/Software Codesign ("codesign" in short) is a most promising design methodology to achieve much higher design productivity compared to conventional methods. This embedded tutorial introduces current status and future trends of the codesign methodology. In the presentation, trends of VLSI technology and the background behind the design productivity crisis are analyzed. Then, an "ideal codesign environment" is proposed, and the fundamental technologies to realize such an ideal codesign environment are categorized. Next, some of the codesign systems developed so far are introduced along with the case studies. Finally, future issues to realize the ideal codesign system are discussed.

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嵌入式教程:硬件/软件协同设计

由于VLSI技术的进步，现在可以在芯片上制造非常复杂的系统，包括cpu，外围电路和片上存储器。这类芯片非常有效地实现了各种电子系统，如多媒体处理、通信和实时控制。然而，在不久的将来，有一个严重的问题需要克服，称为“设计生产力危机”。硬件/软件协同设计(简称“协同设计”)是一种最有前途的设计方法，与传统方法相比，它可以实现更高的设计效率。本嵌入式教程介绍协同设计方法的现状和未来趋势。在报告中，分析了超大规模集成电路技术的发展趋势和设计生产力危机背后的背景。然后，提出了“理想协同设计环境”，并对实现理想协同设计环境的基本技术进行了分类。接下来，介绍到目前为止开发的一些协同设计系统以及案例研究。最后，讨论了实现理想协同设计系统需要解决的问题。

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Proceedings of the ASP-DAC '99 Asia and South Pacific Design Automation Conference 1999 (Cat. No.99EX198)

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