Using SSDE for USB2.0 conformance co-verification

First ACM and IEEE International Conference on Formal Methods and Models for Co-Design, 2003. MEMOCODE '03. Proceedings. Pub Date : 2003-06-24 DOI:10.1109/MEMCOD.2003.1210096

T. Omnés, Gerard Postuma, Jos Verhaegh, M. Boonen, Nick Gatherer

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Abstract

Keeping up with the increase in system design complexity requires the deployment of extensive engineering re-use technologies, so-called platform-based design techniques (Chang et al., 1999). When creating derivatives of such a complex systems-on-chip (SOC) platform, verification represents 70% of the overall cost. In this process, functional verification has become a huge obstacle. Engineers are assumed to know how to ensure conformance to an ambiguous specification by developing a million test vectors, which may represent only 50 milliseconds of real-time operation underlines Bob Payne, CTO Philips Semiconductors US (Scott et al., 2001). Moreover, software is playing an increasing if not dominant role especially in this platform derivative game, resulting in a burning need for a software and hardware functional co-verification solution at the integrated SOC level but also in the early intellectual property (IP) development cycles. In this paper we illustrate the use of SSDE for USB2.0 conformance co-verification.

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使用SSDE进行USB2.0一致性协同验证

为了跟上系统设计复杂性的增加，需要部署广泛的工程重用技术，即所谓的基于平台的设计技术(Chang et al.， 1999)。当创建这种复杂的片上系统(SOC)平台的衍生产品时，验证占总成本的70%。在此过程中，功能验证成为一个巨大的障碍。工程师被认为知道如何通过开发一百万个测试向量来确保符合模糊的规范，这可能只代表50毫秒的实时操作，飞利浦半导体美国首席技术官Bob Payne强调(Scott等人，2001年)。此外，特别是在这个平台衍生游戏中，软件正在发挥越来越重要的作用，导致在集成SOC级别以及早期知识产权(IP)开发周期中对软件和硬件功能协同验证解决方案的迫切需求。在本文中，我们演示了使用SSDE进行USB2.0一致性协同验证。

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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First ACM and IEEE International Conference on Formal Methods and Models for Co-Design, 2003. MEMOCODE '03. Proceedings.

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