FEOL填充中集成单元格的网格化放置

H. Landis, Gazi Huda, J. Sucharitaves
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引用次数: 1

摘要

由于放置算法简单,在FEOL填充中使用交换/单元格是一种广泛实践的方法。在过去的几年里,填充工程师设计了智能方法来找到多个最佳尺寸的交换单元,并将它们依次放置,以达到更高的填充密度。然而,在尖端的FinFET技术节点中,这种交换单元方法无法满足苛刻的工艺要求,例如要求高的密度,并且由于FEOL交换单元中的层间依赖性。为了克服这一挑战,GLOBALFOUNDRIES (GF)填充算法从交换单元中删除了虚拟Fin,将其放置在FEOL填充例程的最开始。随后的单元格与先前放置的“鳍状网格”对齐。这种适应性保证了RxFin能够满足周围FEOL填充层的工艺要求,同时以高效率获得更高的FEOL填充密度。沿着这条线,讨论了相关的实现选择和相应的权衡。
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Gridded Placement of Integrated Unit Cells for FEOL Fill
Using swap/unit cells in FEOL Fill is a widely practiced method because of the placement algorithm simplicity. Over the last several years, Fill engineers devised intelligent ways to find multiple optimum sized swap cells and have been placing them sequentially to achieve higher Fill density. In cutting edge FinFET technologies nodes, however, such swap cell approach cannot meet the aggressive process requirements, such as demanding density, and due to inter-layer dependencies in FEOL swap cell.To overcome this challenge, GLOBALFOUNDRIES (GF) Fill algorithm has removed dummy Fin from swap cells to place at the very beginning of FEOL Fill routine. The subsequent cells align with previously placed "Fin-grid". Such adaptation ensures meeting the process requirements of surrounding FEOL Fill layers by RxFin, while a higher FEOL Fill density is achieved with a high efficiency. Along this line, the associated implementation choices and the corresponding tradeoffs are discussed.
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