Impact of dynamic power supply noise induced by clock networks on clock jitter and timing margin

2016 IEEE International Symposium on Electromagnetic Compatibility (EMC) Pub Date : 2016-09-22 DOI:10.1109/ISEMC.2016.7571608

Yujeong Shim, D. Oh

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引用次数: 1

Abstract

Timing closure on on-chip critical paths becomes more challenging as both data and clock jitter increase due to a large power supply noise. There have been intensive studies to model timing impact of power supply noise on the logic timing. Unlike the flip flops and combinational logics placed and routed randomly, the global networks including the clock buffers are usually custom design based so that they are placed regularly and densely. In the FPGAs, the multiple global networks up to 32 are routed in parallel as the chip size grows and number of transistors increase enormously. Since the clock buffers are placed very closely, a voltage drop of the power supply by the adjacent clock buffers switching makes the clock edge slow, when the clock edges of the victim and aggressors are aligned. This slowed down clock eats away setup the timing margin loss. The behavior of this noise impact is similar with signal to signal cross talk. In this paper, the supply noise impact due to the switching noise by the adjacent clock buffers is demonstrated by simulation and measurement. And it is described how to implement timing impact into STA (Static Timing Analysis) flow.

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时钟网络引起的动态电源噪声对时钟抖动和时间裕度的影响

由于大的电源噪声导致数据和时钟抖动增加，片上关键路径的时序关闭变得更具挑战性。电源噪声对逻辑时序的影响已经得到了广泛的研究。与随机放置和路由的触发器和组合逻辑不同，包括时钟缓冲器在内的全球网络通常是基于定制设计的，因此它们的放置是有规律和密集的。在fpga中，随着芯片尺寸的增大和晶体管数量的急剧增加，多达32个全局网络并行路由。由于时钟缓冲器放置得非常近，当受害者和侵略者的时钟边缘对齐时，由相邻时钟缓冲器开关引起的电源电压降使时钟边缘变慢。这种减慢的时钟消耗了设置的时间裕度损失。这种噪声影响的行为与信号间的串扰相似。本文通过仿真和测量证明了相邻时钟缓冲器的开关噪声对电源噪声的影响。描述了如何在静态时序分析(STA)流程中实现时序影响。

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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2016 IEEE International Symposium on Electromagnetic Compatibility (EMC)

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