横向硅纳米线为基础的标准电池设计,更高的性能

Om. Prakash, Mohit Sharma, B. Anand, A. Saxena, S. Manhas, S. Maheshwaram
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引用次数: 1

摘要

在深纳米级节点上,硅纳米线场效应晶体管(SiNW FET)具有最佳性能。然而,现有文献缺乏对基于SiNW场效应管的电路设计的分析。在这项研究中,我们设计了一个标准细胞库,用于超阈值状态下先进的10nm横向SiNW场效应管技术。为此,我们创建了Verilog-A紧凑型模型。我们紧凑的Verilog-A模型包括所有的短通道效应以及几何相关的寄生效应,这对短通道器件至关重要。该模型是很好的校准与TCAD和报告的虚构数据。开发的标准单元库包括逆变器、NAND和NOR栅极单元。最后,我们比较了标准电池与基于FinFET的标准电池的性能。我们发现,与基于FinFET的设计相比,基于Si NW CMOS的标准电池在功耗、能量延迟积和功率延迟积方面分别具有~ 3-4X、~ 2-3X和3X的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Lateral silicon nanowire based standard cell design for higher performance
At deep nano-scale nodes Silicon Nanowire field effect transistor (SiNW FET) imparts best performance. However, analysis of SiNW FET based circuit design is lacking in existing literature. In this study, we design a standard cell library for advanced 10nm lateral SiNW FET technology in super threshold regime. For this, we create a Verilog-A compact model. Our compact Verilog-A model includes all the short channel effect as well as the geometrical dependent parasitics, which are crucial for short channel devices. The model is well calibrated with TCAD and reported fabricated data. The standard cell library developed comprise INVERTER, NAND, and NOR gate cells. Finally, we compared the standard cell performance to FinFET based standard cell. We found that the Si NW CMOS based standard cells have ∼3–4X, ∼2–3X, and 3X performance in terms of power dissipation, energy-delay product and power delay product respectively compared to FinFET based designs.
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