基于静态时序分析的时序产率估计

Proceedings of the IEEE 2001. 2nd International Symposium on Quality Electronic Design Pub Date : 2001-03-26 DOI:10.1109/ISQED.2001.915268

A. Gattiker, S. Nassif, R. Dinakar, C. Long

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引用次数: 122

摘要

本文提出了一种估算参数定时良率的方法，并在制造和操作环境变化的情况下指导稳健的质量设计。双重重点是计算效率和提供有意义的鲁棒设计指导。通过将所提出的方法建立在应用于作为静态时序分析副产物的报告的后处理步骤的基础上，实现了计算效率。对于小的处理/环境变化，线性模型足以捕获由此产生的延迟变化，通过利用这一事实，还可以确保效率。有意义的设计指导是通过分析逐路径变化的时间相关影响来实现的，允许设计师在关键路径上执行以质量为导向的设计。提供了一个连贯的策略来处理模对模和模内模的变化。来自PowerPC微处理器的示例说明了该方法及其功能。

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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Timing yield estimation from static timing analysis

This paper presents a means for estimating parametric timing yield and guiding robust design for-quality in the presence of manufacturing and operating environment variations. Dual emphasis is on computational efficiency and providing meaningful robust-design guidance. Computational efficiency is achieved by basing the proposed methodology on a post-processing step applied to the report generated as a by-product of static timing analysis. Efficiency is also ensured by exploiting the fact that for small processing/environment variations, a linear model is adequate for capturing the resulting delay change. Meaningful design guidance is achieved by analyzing the timing-related influence of variations on a path-by-path basis, allowing designers perform a quality-oriented design pass focused on key paths. A coherent strategy is provided to handle both die-to-die and within-die variations. Examples from a PowerPC microprocessor illustrate the methodology and its capabilities.

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Proceedings of the IEEE 2001. 2nd International Symposium on Quality Electronic Design

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