统计分析与设计:从皮秒到概率

Proceedings. SBCCI 2004. 17th Symposium on Integrated Circuits and Systems Design (IEEE Cat. No.04TH8784) Pub Date : 2004-09-04 DOI:10.1145/1016568.1016576

C. Visweswariah

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引用次数: 7

摘要

关键维度的扩展速度超过了我们对它们的控制。除了制造变化外，芯片设计还必须处理磨损现象以及温度或电源电压的动态变化。因此，参数延迟可变性随着每一代新技术的发展而成比例地增加，泄漏功率可变性也是如此。此外，独立和重要的变率来源的数量正在迅速增加。这些影响提出了两个关键的挑战:时间验证和存在不确定性的稳健设计。本报告描述了统计时序在解决这些挑战中的作用，以及随之而来的芯片设计方法从确定性范式到概率范式的转变。强调了正确捕获相关性的重要性。讨论了不同的统计定时方法及其各自的优点。介绍了统计计时器所提供的诊断和在目标鲁棒设计中的应用。

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Statistical analysis and design: from picoseconds to probabilities

Critical dimensions are scaling faster than our control of them. In addition to manufacturing variations, chip design has to deal with wear-out phenomena and dynamic changes in temperature or power-supply voltage. As a result, parametric delay variability is proportionately increasing with each new generation of technology, as is leakage power variability. Further, the number of independent and significant sources of variability is rapidly increasing. These effects present two key challenges: timing verification and robust design in the presence of uncertainties. This presentation describes the role of statistical timing in addressing these challenges and the concomitant shift in chip design methodology from a deterministic to a probabilistic paradigm. The importance of correctly capturing correlations is stressed. Different methods of statistical timing and their relative merits are discussed. The diagnostics provided by statistical timers and the use of such diagnostics in targeting robust design are presented.

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Proceedings. SBCCI 2004. 17th Symposium on Integrated Circuits and Systems Design (IEEE Cat. No.04TH8784)

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