14nm FinFET技术SRAM电池裕度评估及局部布局效应分析

2017 IEEE SOI-3D-Subthreshold Microelectronics Technology Unified Conference (S3S) Pub Date : 2017-10-01 DOI:10.1109/S3S.2017.8309248

S. Mun, D. Burnett, K. Lim, S. Parihar, Y. Shi, H. Lo, W. Hong, K. Lee, O. Hu, J. Versaggi, C. Jerome, J. G. Lee, S. Samavedam, D. K. Sohn

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引用次数: 2

摘要

14nm节点SRAM使用带有先进替代金属栅极(RMG)模块的finfet，显示出敏感的存取干扰余量(ADM)对局部布局效应(LLE)的响应，这在使用RMG[1]的平面CMOS技术中可以看到。此外，14nm FinFET技术由于布局的多样性或更严格的最小设计规则，比以往任何时候都有更多的lle。具有很高反应能的氟从WL CONT扩散到Pass Gate (PG)，降低了PG Vtsat的降解ß-比率和ADM，并且来自带状细胞的STI应力降低了阵列边缘降解ADM的细胞的SRAM NFET Vtsat, Gate-cut到PG的自然变化也降解了Vth失配导致ADM降解。本文对这三种LLE及其对ADM的影响进行了详细的讨论和分析，并探讨了LLE产生的机制。

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14nm FinFET technology SRAM cell margin evaluation and analysis by local layout effect

14nm node SRAM using FinFETs with advanced Replacement Metal Gate (RMG) module shows sensitive Access Distuib Margin (ADM) response to Local Layout Effect (LLE) as seen in planar CMOS technology using RMG [1]. Additionally, 14nm FinFET technology has more LLEs than ever due to the layout variety or tighter minimum design rule applied [2]. Fluorine with very high reaction energy diffuses from WL CONT to Pass Gate (PG) is found to lower PG Vtsat degrading ß-ratio and ADM. And, the STI stress from strap cell reduces the SRAM NFET Vtsat of the cell at the array edge degrading ADM. The natural variation of Gate-cut to PG degrades the Vth mismatch resulting in ADM degradation also. These three kinds of LLE and their impacts on ADM are discussed and analyzed in detail in this paper along with mechanisms that can cause the LLEs.

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2017 IEEE SOI-3D-Subthreshold Microelectronics Technology Unified Conference (S3S)

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