FVCAG:一个用于正式验证驱动的功率建模和验证的框架

Proceedings of the 2016 International Symposium on Low Power Electronics and Design Pub Date : 2016-08-08 DOI:10.1145/2934583.2934633

Arun Joseph, Spandana Rachamalla, R. Rao, A. Haridass, P. K. Nalla

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引用次数: 1

摘要

生成精确的IP功率模型需要为IP的不同输入引脚确定正确的仿真条件。为设计中的单个IP块确定这样一组输入在成本和时间上都很昂贵，而且也很容易出错。此外，在不满足这些模拟条件的设计中，需要识别IP实例。这些都是现代微处理器设计背景下的相关问题，这些设计使用了大量的ip，要么是内部开发的，要么是从外部供应商那里采购的。在本文中，我们在工业背景下研究这些问题，并介绍FVCAG，这是一个实现高效和准确功率建模的框架。FVCAG可以实现比使用当前最先进技术更彻底的IP功率建模。在一个工业级高性能微处理器设计中使用标准单元库和宏对所提出的框架进行了实验评估，验证了所提出框架的准确性和效率。

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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FVCAG: A framework for formal verification driven power modeling and verification

Generation of accurate IP power models requires determination of correct simulation conditions for the different input pins of the IP. Determining such a set of inputs for individual IP blocks in a design is expensive in cost and time, and is also highly error prone. Additionally, it is desirable to identify IP instances in a design, where these simulation conditions are not met. These are relevant problems in the context of modern day microprocessor designs, which are designed using a very large number of IPs, either developed in-house or sourced from external vendors. In this paper, we examine these problems in an industrial context and introduce FVCAG, a framework for enabling efficient and accurate power modelling. FVCAG enables a more thorough IP power modelling than that can be accomplished using current state of the art techniques. Experimental evaluation of the proposed framework on the standard cell library and macros used in the design of an industry class high performance microprocessor design demonstrates the accuracy and efficiency of proposed framework.

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Proceedings of the 2016 International Symposium on Low Power Electronics and Design

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