支持大对抗延迟变化的数字延迟模型

Daniel Öhlinger, Ulrich Schmid
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摘要

动态数字时序分析是一种很有前途的替代模拟仿真,用于验证电路的特定时序关键部分。必要的先决条件是数字延迟模型,该模型允许准确预测门的输入信号中给定跃迁的输入到输出延迟。然而,由于所有现有的用于动态数字时序分析的数字延迟模型都是确定性的,它们不能涵盖由PVT变化、老化和模拟信号噪声引起的延迟波动。我们所知道的唯一例外是F\ ugger等人在2018年引入的$\eta$-IDM,它允许在确定性对合延迟模型中添加(非常)小的对抗性选择延迟变化,而不会危及其可靠性。在本文中,我们证明了扩展允许的延迟变化范围是可能的,以至于实际的PVT变化和老化被由此扩展的$\eta$-IDM所覆盖。
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A Digital Delay Model Supporting Large Adversarial Delay Variations
Dynamic digital timing analysis is a promising alternative to analog simulations for verifying particularly timing-critical parts of a circuit. A necessary prerequisite is a digital delay model, which allows to accurately predict the input-to-output delay of a given transition in the input signal(s) of a gate. Since all existing digital delay models for dynamic digital timing analysis are deterministic, however, they cannot cover delay fluctuations caused by PVT variations, aging and analog signal noise. The only exception known to us is the $\eta$-IDM introduced by F\"ugger et al. at DATE'18, which allows to add (very) small adversarially chosen delay variations to the deterministic involution delay model, without endangering its faithfulness. In this paper, we show that it is possible to extend the range of allowed delay variations so significantly that realistic PVT variations and aging are covered by the resulting extended $\eta$-IDM.
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