针对布局后验证中设置冲突的倾斜感知功能时序分析

2018 IEEE International Test Conference in Asia (ITC-Asia) Pub Date : 2018-08-01 DOI:10.1109/ITC-ASIA.2018.00022

Pin-Ru Jhao, D. Wu, Charles H.-P. Wen

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引用次数: 0

摘要

在深亚微米时代之后，时钟偏差成为布局后时序中不可缺少的因素，并在信号在路径中的传播过程中造成显著延迟。虽然功能时序分析(FTA)可以通过识别功能错误路径提供准确的时序，但时钟偏差尚未被考虑在内。因此，我们有动机提出一个倾斜感知功能时间分析引擎(命名为Sk-FTA)，以便更好地对设计进行布局后验证。特别是，Sk-FTA可以节省检查设置时间违规的成本，并可以过滤虚假警报。我们的实验结果表明，给定三种不同的时钟网络，与偏差感知静态时序分析(Sk-STA)相比，Sk-FTA通过去除功能性假路径(例如，时钟树3下的s13207减少60%)来诱导更准确的延迟。此外，在基准电路上，Sk-FTA比Sk-STA产生更少的设置时间违规。特别是对于vga lcd, Sk-STA报告的512个设置时间违规都被证明是冗余的，因此被删除，体现了Sk-FTA的力量。

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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Skew-Aware Functional Timing Analysis Against Setup Violation for Post-Layout Validation

Beyond the deep sub-micron era, clock skew is becoming an indispensable factor in post-layout timing and contributes significant delay during signal propagation in paths. Although Functional Timing Analysis (FTA) can provide accurate timing by identifying functionally false paths, clock skew is not yet considered. Therefore, we are motivated to propose a skew-aware functional-timing-analysis engine (named Sk-FTA) for better post-layout validation of designs. In particular, Sk-FTA can save more cost in checking setup-time violations and filters false alarms. Our experimental results show that given three different clock networks, Sk-FTA induces more accurate delay from removing functionally false paths (e.g. 60% less for s13207 under clock tree 3) when comparing with the skew-aware static timing analysis (Sk-STA). Moreover, Sk-FTA eminently yields fewer setup-time violations than Sk-STA does on benchmark circuits. In particular, for vga lcd, all 512 setup-time violations reported by Sk-STA are proved redundant and thus removed, manifesting the power of Sk-FTA.

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2018 IEEE International Test Conference in Asia (ITC-Asia)

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