Simulation and optimization of Tri-Gates in a 22 nm hybrid Tri-Gate/planar process

机译：在22 nm混合Tri-Gate /平面工艺中模拟和优化Tri-Gate

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A Tri-Gate structure built into a planar 22 nm bulk process was investigated by 3-D device simulations (Sentaurus D-2010). The planar process flow sequence was extended with extra Tri-Gate patterning, but otherwise all implants were shared, as could be done in simultaneous processing of planar and Tri-Gate CMOS. A comparison of planar and Tri-Gate transistors with the same planar dopant profiles shows a substantial improvement of subthreshold slope, DIBL, and VT-rolloff for Tri-Gates. The electrical behavior of the Tri-Gate transistor has been studied for various Tri-Gate heights and widths. A large space of Tri-Gate dimensions outperformed planar in terms of electrostatics and ION-IOFF characteristics.

机译：通过3-D器件仿真（Sentaurus D-2010）研究了内置于22 nm平面体工艺中的Tri-Gate结构。平面工艺流程序列通过额外的Tri-Gate图案扩展，但是所有其他植入物都是共享的，这可以在平面和Tri-Gate CMOS的同时处理中实现。具有相同平面掺杂物分布的平面晶体管和Tri-Gate晶体管的比较显示，Tri-Gates的亚阈值斜率，DIBL和V T 衰减得到了显着改善。已经针对各种Tri-Gate高度和宽度研究了Tri-Gate晶体管的电性能。就静电和I ON -I OFF 特性而言，Tri-Gate大尺寸空间的性能优于平面。

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《2011 12th International Conference on Ultimate Integration on Silicon》|2011年|p.1-4|共4页
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Baldauf T.; Wei A.; Illgen R.; Flachowsky S.; Herrmann T.; Feudel T.; Hontschel J.; Horstmann M.; Klix W.; Stenzel R.;
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Simulation and optimization of Tri-Gates in a 22 nm hybrid Tri-Gate/planar process

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