Optimization Of Process Parameter Variation In Double-Gate FinFET Model On Electrical Characteristics Using Statistical Method For Reduced Variability And Enhanced Performance

Optimization Of Process Parameter Variation In Double-Gate FinFET Model On Electrical Characteristics Using Statistical Method For Reduced Variability And Enhanced Performance

The conventional transistor device has been effective to provide for continual improvements in integrated circuit performance and cost per function with every technology node. However, transistor scaling has become increasingly difficult in the sub-45 nm regime. The main challenges for continued sc...

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Main Authors: Salehuddin, Fauziyah, Mohd Zain, Anis Suhaila, Haroon, Hazura, Abdul Razak, Hanim, Idris@Othman, Siti Khadijah, Ahmadi, Ibrahim
Format: Technical Report
Language:English
Published: UTeM 2020
Online Access:http://eprints.utem.edu.my/id/eprint/25464/1/Optimization%20Of%20Process%20Parameter%20Variation%20In%20Double-Gate%20Finfet%20Model%20On%20Electrical%20Characteristics%20Using%20Statistical%20Method%20For%20Reduced%20Variability%20And%20Enhanced%20Performance.pdf
http://eprints.utem.edu.my/id/eprint/25464/
https://plh.utem.edu.my/cgi-bin/koha/opac-detail.pl?biblionumber=118114
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Institution: Universiti Teknikal Malaysia Melaka
Language: English
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spelling my.utem.eprints.254642022-01-03T15:05:39Z http://eprints.utem.edu.my/id/eprint/25464/ Optimization Of Process Parameter Variation In Double-Gate FinFET Model On Electrical Characteristics Using Statistical Method For Reduced Variability And Enhanced Performance Salehuddin, Fauziyah Mohd Zain, Anis Suhaila Haroon, Hazura Abdul Razak, Hanim Idris@Othman, Siti Khadijah Ahmadi, Ibrahim The conventional transistor device has been effective to provide for continual improvements in integrated circuit performance and cost per function with every technology node. However, transistor scaling has become increasingly difficult in the sub-45 nm regime. The main challenges for continued scaling of bulk-Si CMOS technology are the increment leakage current and variability in transistor performance. Since Moore’s law driven scaling of planar MOSFET faces formidable challenges in the nanometer regime, the multi-gate MOSFET devices have emerged as their successors. Owing to the presence of multiple-gate such as Double Gate FinFETs (DG-FinFETs) are able to tackle short-channel effects better than conventional planar MOSFETs at deeply scaled technology nodes and thus enable continued transistor scaling. In here, the traditional polysilicon/SiO2 material was replaced by the metal gate/high-k dielectrics in order to increase the drive current for meeting the requirement of high performance multigate technology. In this research, the ATHENA and ATLAS module of SILVACO software were used to simulate the virtual fabrication and the electrical performance of the device. There are several process parameters that will be investigated. The data from the simulation was used to determine the dominance of the process parameter effects on the device’s characteristics. The optimization of the process parameter variations towards the multiple device’s characteristics of DG-FinFETs were done by utilizing appropriate statistical modelling to meet the requirement of low power multi-gate technology for the year 2020 as predicted by International Technology Roadmap Semiconductor (ITRS) 2013. Statistical modelling such as Taguchi method and RSM were assist designers to optimize the process parameters of the device. UTeM 2020 Technical Report NonPeerReviewed text en http://eprints.utem.edu.my/id/eprint/25464/1/Optimization%20Of%20Process%20Parameter%20Variation%20In%20Double-Gate%20Finfet%20Model%20On%20Electrical%20Characteristics%20Using%20Statistical%20Method%20For%20Reduced%20Variability%20And%20Enhanced%20Performance.pdf Salehuddin, Fauziyah and Mohd Zain, Anis Suhaila and Haroon, Hazura and Abdul Razak, Hanim and Idris@Othman, Siti Khadijah and Ahmadi, Ibrahim (2020) Optimization Of Process Parameter Variation In Double-Gate FinFET Model On Electrical Characteristics Using Statistical Method For Reduced Variability And Enhanced Performance. [Technical Report] (Submitted) https://plh.utem.edu.my/cgi-bin/koha/opac-detail.pl?biblionumber=118114 CDR 21103
institution Universiti Teknikal Malaysia Melaka
building UTEM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknikal Malaysia Melaka
content_source UTEM Institutional Repository
url_provider http://eprints.utem.edu.my/
language English
description The conventional transistor device has been effective to provide for continual improvements in integrated circuit performance and cost per function with every technology node. However, transistor scaling has become increasingly difficult in the sub-45 nm regime. The main challenges for continued scaling of bulk-Si CMOS technology are the increment leakage current and variability in transistor performance. Since Moore’s law driven scaling of planar MOSFET faces formidable challenges in the nanometer regime, the multi-gate MOSFET devices have emerged as their successors. Owing to the presence of multiple-gate such as Double Gate FinFETs (DG-FinFETs) are able to tackle short-channel effects better than conventional planar MOSFETs at deeply scaled technology nodes and thus enable continued transistor scaling. In here, the traditional polysilicon/SiO2 material was replaced by the metal gate/high-k dielectrics in order to increase the drive current for meeting the requirement of high performance multigate technology. In this research, the ATHENA and ATLAS module of SILVACO software were used to simulate the virtual fabrication and the electrical performance of the device. There are several process parameters that will be investigated. The data from the simulation was used to determine the dominance of the process parameter effects on the device’s characteristics. The optimization of the process parameter variations towards the multiple device’s characteristics of DG-FinFETs were done by utilizing appropriate statistical modelling to meet the requirement of low power multi-gate technology for the year 2020 as predicted by International Technology Roadmap Semiconductor (ITRS) 2013. Statistical modelling such as Taguchi method and RSM were assist designers to optimize the process parameters of the device.
format Technical Report
author Salehuddin, Fauziyah
Mohd Zain, Anis Suhaila
Haroon, Hazura
Abdul Razak, Hanim
Idris@Othman, Siti Khadijah
Ahmadi, Ibrahim
spellingShingle Salehuddin, Fauziyah
Mohd Zain, Anis Suhaila
Haroon, Hazura
Abdul Razak, Hanim
Idris@Othman, Siti Khadijah
Ahmadi, Ibrahim
Optimization Of Process Parameter Variation In Double-Gate FinFET Model On Electrical Characteristics Using Statistical Method For Reduced Variability And Enhanced Performance
author_facet Salehuddin, Fauziyah
Mohd Zain, Anis Suhaila
Haroon, Hazura
Abdul Razak, Hanim
Idris@Othman, Siti Khadijah
Ahmadi, Ibrahim
author_sort Salehuddin, Fauziyah
title Optimization Of Process Parameter Variation In Double-Gate FinFET Model On Electrical Characteristics Using Statistical Method For Reduced Variability And Enhanced Performance
title_short Optimization Of Process Parameter Variation In Double-Gate FinFET Model On Electrical Characteristics Using Statistical Method For Reduced Variability And Enhanced Performance
title_full Optimization Of Process Parameter Variation In Double-Gate FinFET Model On Electrical Characteristics Using Statistical Method For Reduced Variability And Enhanced Performance
title_fullStr Optimization Of Process Parameter Variation In Double-Gate FinFET Model On Electrical Characteristics Using Statistical Method For Reduced Variability And Enhanced Performance
title_full_unstemmed Optimization Of Process Parameter Variation In Double-Gate FinFET Model On Electrical Characteristics Using Statistical Method For Reduced Variability And Enhanced Performance
title_sort optimization of process parameter variation in double-gate finfet model on electrical characteristics using statistical method for reduced variability and enhanced performance
publisher UTeM
publishDate 2020
url http://eprints.utem.edu.my/id/eprint/25464/1/Optimization%20Of%20Process%20Parameter%20Variation%20In%20Double-Gate%20Finfet%20Model%20On%20Electrical%20Characteristics%20Using%20Statistical%20Method%20For%20Reduced%20Variability%20And%20Enhanced%20Performance.pdf
http://eprints.utem.edu.my/id/eprint/25464/
https://plh.utem.edu.my/cgi-bin/koha/opac-detail.pl?biblionumber=118114
_version_ 1720983739330199552

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