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Main Authors: Peng, Zhiliang, Wang, Yicheng, Yuan, Zhengwu, Wang, Xingsheng
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2404.07827
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author Peng, Zhiliang
Wang, Yicheng
Yuan, Zhengwu
Wang, Xingsheng
author_facet Peng, Zhiliang
Wang, Yicheng
Yuan, Zhengwu
Wang, Xingsheng
contents This paper introduces an innovative parameter extraction method for BSIM-CMG compact models, seamlessly integrating curve feature extraction and machine learning techniques. This method offers a promising solution for bridging the division between TCAD and compact model, significantly contributing to the Design Technology Co-Optimization (DTCO) process. The key innovation lies in the development of an automated IV and CV curve feature extractor, which not only streamlines the analysis of device IV and CV curves but also enhances the consistency and efficiency of data processing. Validation on 5-nm nanosheet devices underscores the extractor's remarkable precision, with impressively low fitting errors of 0.42% for CV curves and 1.28% for IV curves. Furthermore, its adaptability to parameter variations, including those in Equivalent Oxide Thickness and Gate Length, solidifies its potential to revolutionize the TCAD-to-compact model transition. This universal BSIM-CMG model parameter extractor promises to improve the DTCO process, offering efficient process optimization and accurate simulations for semiconductor device performance prediction.
format Preprint
id arxiv_https___arxiv_org_abs_2404_07827
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle iPREFER: An Intelligent Parameter Extractor based on Features for BSIM-CMG Models
Peng, Zhiliang
Wang, Yicheng
Yuan, Zhengwu
Wang, Xingsheng
Systems and Control
This paper introduces an innovative parameter extraction method for BSIM-CMG compact models, seamlessly integrating curve feature extraction and machine learning techniques. This method offers a promising solution for bridging the division between TCAD and compact model, significantly contributing to the Design Technology Co-Optimization (DTCO) process. The key innovation lies in the development of an automated IV and CV curve feature extractor, which not only streamlines the analysis of device IV and CV curves but also enhances the consistency and efficiency of data processing. Validation on 5-nm nanosheet devices underscores the extractor's remarkable precision, with impressively low fitting errors of 0.42% for CV curves and 1.28% for IV curves. Furthermore, its adaptability to parameter variations, including those in Equivalent Oxide Thickness and Gate Length, solidifies its potential to revolutionize the TCAD-to-compact model transition. This universal BSIM-CMG model parameter extractor promises to improve the DTCO process, offering efficient process optimization and accurate simulations for semiconductor device performance prediction.
title iPREFER: An Intelligent Parameter Extractor based on Features for BSIM-CMG Models
topic Systems and Control
url https://arxiv.org/abs/2404.07827