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引用次数: 6
摘要
提出了一种改进的电源完整性分析框架,用于电芯逻辑时序分析。由于核心数字模块的功耗不断增加,由电源噪声引起的抖动会导致显著的时序误差,而片上逻辑时序分析需要精确建模电源噪声引起的抖动。抖动信息为精确定义PDN (power distribution network)要求提供了附加信息。本文首先提出了预测核噪声引起的抖动的公式,然后给出了建模流程,该流程可以方便地纳入现有的静态时序分析(STA)分析。该方法考虑了数据和时钟路径之间潜在的抖动跟踪或反跟踪以及任何交流噪声行为。它涵盖了一般的拓扑结构,包括不平衡时钟树、多周期数据路径和多功率域。
An improved framework of power integrity analysis for core logic timing analysis is presented in this paper. Due to ever increasing power consumption of core digital blocks, jitter due to supply noise contributes a significant timing error, and on-chip logic timing analysis requires accurate modeling of supply noise induced jitter. Jitter information provides additional information to define precise power distribution network (PDN) requirements. The formulation to predict the jitter due to core noise is first presented in this paper followed by the modeling flow that can conveniently be incorporated into existing static timing analysis (STA) analysis. The presented method accounts for potential jitter tracking or anti-tracking between data and clock paths and any AC noise behavior. It covers a general topology including unbalanced clock trees, multi-cycle data paths, and multiple-power domains.
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