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An optimized junctionless GAA MOSFET design based on multi-objective computation for high-performance ultra-low power devices 被引量:1

An optimized junctionless GAA MOSFET design based on multi-objective computation for high-performance ultra-low power devices
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摘要 An analytical investigation has been proposed to study the subthreshold behavior ofjunctionless gates all around (JLGAA) MOSFET for nanoscale CMOS analog applications. Based on 2-D analytical analysis, a new subthreshold swing model for short-channel JLGAA MOSFETs is developed. The analysis has been used to calculate the subthreshold swing and to compare the performance of the investigated design and conventional GAA MOSFET, where the comparison of device architectures shows that the JLGAA MOSFET exhibits a superior performance with respect to the conventional inversion-mode GAA MOSFET in terms of the fabrication process and electrical behavior in the subthreshold domain. The analytical models have been validated by 2-D numerical simulations. The proposed analytical models are used to formulate the objectives functions. The overall objective function is formulated by means of a weighted sum approach to search the optimal electrical and dimensional device parameters in order to obtain the better scaling capability and the electrical performance of the device for ultra-low power applications. An analytical investigation has been proposed to study the subthreshold behavior ofjunctionless gates all around (JLGAA) MOSFET for nanoscale CMOS analog applications. Based on 2-D analytical analysis, a new subthreshold swing model for short-channel JLGAA MOSFETs is developed. The analysis has been used to calculate the subthreshold swing and to compare the performance of the investigated design and conventional GAA MOSFET, where the comparison of device architectures shows that the JLGAA MOSFET exhibits a superior performance with respect to the conventional inversion-mode GAA MOSFET in terms of the fabrication process and electrical behavior in the subthreshold domain. The analytical models have been validated by 2-D numerical simulations. The proposed analytical models are used to formulate the objectives functions. The overall objective function is formulated by means of a weighted sum approach to search the optimal electrical and dimensional device parameters in order to obtain the better scaling capability and the electrical performance of the device for ultra-low power applications.
作者 T.Bendib F.Djeffal M.Meguellati
机构地区 LEA
出处 《Journal of Semiconductors》 EI CAS CSCD 2014年第7期42-47,共6页 半导体学报(英文版)
关键词 junctionless optimization SUBTHRESHOLD NANOSCALE MULTIOBJECTIVE junctionless optimization subthreshold nanoscale multiobjective
分类号 TN386 [电子电信—物理电子学]
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参考文献28

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Journal of Semiconductors
2014年 第7期

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