Multi-Tool Constraint Verification

2007 14th International Conference on Mixed Design of Integrated Circuits and Systems Pub Date : 2007-06-21 DOI:10.1109/MIXDES.2007.4286203

A. Schafer, J. Freuer, K. Hahn, W. Nebel, R. Bruck

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Abstract

The entire verification of simple and complex constraints is crucial to the development of highly reliable microelectronic systems as they are demanded by the zero defect policy in the automobile industry. The increasing requirements on electronic components and the rapid technological progress necessitate the compliance with all specified functional and non-functional properties. This paper describes a constraint verification method based on a unified representation of constraints enabling multi-tool verification tasks. With the constraint engineering system (CES) we present a new verification method, which provides flexible, extensible, and multi-tool definitions of complex constraints. The CES does not replace existing verification and simulation tools. It rather offers a method to combine these tools. The CES is based on the approaches of constraint logic programming and is capable of processing verification tasks on a much higher level of abstraction than usually found in existing verification tools. First tests of practical applications prove the power, flexibility, practicability, and potential of our approach.

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多工具约束验证

随着汽车工业零缺陷政策的要求，对简单和复杂约束的全面验证对于开发高可靠性微电子系统至关重要。对电子元件的要求越来越高，技术进步也越来越快，这就要求电子元件必须符合所有规定的功能和非功能特性。本文描述了一种基于约束统一表示的约束验证方法，该方法支持多工具验证任务。在约束工程系统(CES)中，我们提出了一种新的验证方法，该方法为复杂约束提供了灵活、可扩展和多工具的定义。CES不能取代现有的验证和仿真工具。相反，它提供了一种结合这些工具的方法。CES基于约束逻辑编程的方法，能够在比现有验证工具更高的抽象层次上处理验证任务。实际应用的第一次测试证明了我们的方法的强大、灵活性、实用性和潜力。

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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2007 14th International Conference on Mixed Design of Integrated Circuits and Systems

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