Using System-on-a-Chip as a vehicle for VLSI design education

Proceedings 2003 IEEE International Conference on Microelectronic Systems Education. MSE'03 Pub Date : 2003-06-01 DOI:10.1109/MSE.2003.1205293

A. Laffely, W. Burleson

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引用次数: 5

Abstract

The increase in complexity of modern microelectronic systems has made it more difficult to find projects for VLSI design courses, which are both manageable and meaningful. Ideally, projects should be more than the implementation of a particular finite state machine. Projects should force students to think about technology and integration issues, while exposing them to cutting-edge architectures. For several years, we have used the Adaptive System-on-a-Chip (aSoC) as a foundation for a combined graduate-undergraduate VLSI design course. This novel SoC architecture provides a unifying theme to the course, while allowing the development of distinct and manageable sub-projects. Students are assigned to small groups, and are responsible for specific subsystems of the larger SoC. As a result, the success of the groups are linked, forcing all students to think about global issues and system integration. This framework also fosters development of student leadership and initiative. It provides a realistic experience using a review-based evaluation system.

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利用片上系统作为VLSI设计教育的载体

现代微电子系统的复杂性的增加使得寻找VLSI设计课程的项目变得更加困难，这些项目既易于管理又有意义。理想情况下，项目应该不仅仅是特定有限状态机的实现。项目应该迫使学生思考技术和集成问题，同时让他们接触最前沿的体系结构。多年来，我们一直使用自适应单片系统(aSoC)作为研究生-本科生联合VLSI设计课程的基础。这个新颖的SoC架构为课程提供了一个统一的主题，同时允许开发不同的和可管理的子项目。学生被分配到小组，并负责较大SoC的特定子系统。因此，小组的成功是联系在一起的，迫使所有学生思考全球问题和系统整合。这个框架也促进了学生领导能力和主动性的发展。它提供了使用基于审查的评估系统的现实体验。

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 2003 IEEE International Conference on Microelectronic Systems Education. MSE'03

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