评估和比较块级设计的仿真验证与形式验证方法

Q3 Arts and Humanities
Eyal Segev, Sharon Goldshlager, H. Miller, Oren Shua, Olga Sher, S. Greenberg
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引用次数: 8

摘要

逻辑设计在逻辑功能方面变得非常复杂。片上系统(SOC)设计是多个模块和核心的集成。在许多情况下,SOC集成是将几个芯片集成在一起的结果。在芯片级验证之前,每个部件(模块或核心)必须单独验证(独立)。设计的独立逻辑验证是整个设计工作中最重要的步骤之一。随着每个模块功能的增加,逻辑验证工作已经成为一项非常消耗资源的任务。在验证SOC时,通常使用两种逻辑验证方法:基于仿真的验证和基于形式化的验证。从设置和运行环境所需的时间、调试报告的故障的难易程度、功率、覆盖范围和置信度等方面对这两种方法进行了探讨和比较。我们的主要目标是建立基于仿真的验证和基于形式的验证的最佳使用标准,并在PCMCIA接口卡的块上实现这两种方法。我们已经得出了重要的结论,关于这些方法的匹配,以验证类似类型的块。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluating and comparing simulation verification vs. formal verification approach on block level design
Logic design has become very complex in term of logic functionality. System-on-chip (SOC) designs are an integration of multiple modules and cores. In many cases, SOC integration is a result of integrating a few chips together. Each piece (module or core) must be verified separately (stand alone) prior to chip level verification. Standalone logic verification of the design is one of the most important steps in the overall design effort. Following the increase of the amount of functionality at each module, the logic verification effort has become a very resource-consuming task. Two logic verification methods are commonly used when verifying a SOC, simulation based verification and formal based verification. The two methods are explored and compared with respect to the time required for setup and running the environment, ease of debugging the reported failures, power, coverage and confidence level. Our main goal is to establish criteria for optimal use of simulation based verification and formal based verification and implement both methods on a block for a PCMCIA interface card. We have derived important conclusions concerning the matching of these methods for the verification of blocks of a similar type.
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来源期刊
Giornale di Storia Costituzionale
Giornale di Storia Costituzionale Arts and Humanities-History
CiteScore
0.20
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