具有用数学逻辑扩展VLSI设计的经验

Shiu-Kai Chin
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引用次数: 0

摘要

对诸如正确性、安全性和安全性等特性的保证需求的增长导致了使用数学逻辑的设计方法的发展。这些方法在硬件、软件和系统设计中有着广泛的应用。基于数学逻辑的设计提供了将结构描述与行为描述和属性联系起来的能力。挑战在于将这些方法引入主流工程。这就要求在工程课程中教授直接适用于工程设计的数理逻辑。本文描述了形式逻辑如何被纳入雪城大学的计算机工程课程,我们向工程师教授形式逻辑的经验,以及学生如何使用正式开发过程制造VLSI电路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experience extending VLSI design with mathematical logic
The growing demands for assurance of properties like correctness, safety, and security have led to the development of design methods using mathematical logic. These methods have broad application to hardware, software, and system design. Design based on mathematical logic offers the capability to relate structural descriptions with behavioral descriptions and properties. The challenge is to move these methods into mainstream engineering. This requires teaching mathematical logic in engineering courses which are directly applicable to engineering design. This paper describes how formal logic is included in the computer engineering curriculum at Syracuse University, our experience teaching formal logic to engineers, and how VLSI circuits have been fabricated by students using a formal development process.
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