三维时钟树合成的tsv感知拓扑生成

Wulong Liu, Haixiao Du, Yu Wang, Yuchun Ma, Yuan Xie, Jinguo Quan, Huazhong Yang
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引用次数: 14

摘要

时钟树合成(Clock Tree Synthesis, CTS)主要包括两个步骤:1)时钟树拓扑生成和2)缓冲与嵌入。由于缺乏有效的TSV模型,以往的3D集成电路CTS大多忽略了TSV规划在第一步的作用。本文研究了三维集成电路中tsv感知时钟树拓扑的生成,解决了以往工作忽略的两个主要问题:1)分配tsv的密度分布;2)构造时钟树拓扑时,tsv引起的寄生和耦合效应。实验结果表明,在拓扑生成步骤中考虑tsv对三维时钟网络的影响可以满足制造限制,使设计人员能够在功耗、总导线长度和tsv总数之间取得权衡。实验结果表明,与传统的基于ngg的方法相比,在总长度(TSV等效总长度与水平导线长度之和)变化不大的情况下,TSV数量和功耗分别减少89.6%和40.16%。此外,实验还验证了采用本文提出的三维CTS方法对三维时钟树中tsv - tsv耦合效应的抑制作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
TSV-aware topology generation for 3D Clock Tree Synthesis
Clock Tree Synthesis (CTS) mainly consists of two steps: 1) clock tree topology generation and 2) buffering and embedding. Due to the lack of the efficient model of TSVs, most previous CTS of 3D ICs ignore the effect of TSV planning in the first step. In this paper, we study the TSV-aware clock tree topology generation for 3D ICs by solving two major issues that the previous work has neglected: 1) the density distribution of allocated TSVs; 2) the parasitic and coupling effects induced by TSVs in constructing the topology of clock tree. The experimental results show that considering the impact of TSVs on 3D clock network in the topology generation step can meet the manufacture limitations and enable the designers to obtain the tradeoff among power consumption, the total wire length and the total number of TSVs. The experimental results show that TSVs number and power consumption can be reduced by up to 89.6%and 40.16% respectively with little variation of the total wirelength (the sum of total TSV equivalent wirelength and horizontal wire length) compared to the traditional NNG-based method. Besides, the mitigation of TSV-to-TSV coupling effect in 3D clock tree by implementing the proposed 3D CTS method is demonstrated in our experiment.
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