Statistical process modelling for 32nm high-K/metal gate PMOS device

Statistical process modelling for 32nm high-K/metal gate PMOS device

The evolution of MOSFET technology has been governed solely by device scaling, delivered an ever-increasing transistor density through Moore's Law. In this paper, the design, fabrication and characterization of 32nm HfO2/TiSi2 PMOS device is presented; replacing the conventional SiO2 dielectric...

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Main Authors: Maheran A.H.A., Noor Faizah Z.A., Menon P.S., Ahmad I., Apte P.R., Kalaivani T., Salehuddin F.
Other Authors: 36570222300
Format: Conference Paper
Published: Institute of Electrical and Electronics Engineers Inc. 2023
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Institution: Universiti Tenaga Nasional
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spelling my.uniten.dspace-218502023-05-16T10:45:42Z Statistical process modelling for 32nm high-K/metal gate PMOS device Maheran A.H.A. Noor Faizah Z.A. Menon P.S. Ahmad I. Apte P.R. Kalaivani T. Salehuddin F. 36570222300 56395444600 57201289731 12792216600 55725529100 56989358500 36239165300 The evolution of MOSFET technology has been governed solely by device scaling, delivered an ever-increasing transistor density through Moore's Law. In this paper, the design, fabrication and characterization of 32nm HfO2/TiSi2 PMOS device is presented; replacing the conventional SiO2 dielectric and Poly-Silicon. The fabrication and simulation of PMOS transistor is performed via Virtual Wafer Fabrication (VWF) Silvaco TCAD Tools namely ATHENA and ATLAS. Taguchi L9 Orthogonal method is then applied to this experiment for optimization of threshold voltage (VTH) and leakage current (IOFF). The simulation result shows that the optimal value of VTH and IOFF which are 0.1030075V and 3.4264075×10-12A/um respectively are well within ITRS prediction. © 2014 IEEE. Final 2023-05-16T02:45:42Z 2023-05-16T02:45:42Z 2014 Conference Paper 10.1109/SMELEC.2014.6920839 2-s2.0-84908224922 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84908224922&doi=10.1109%2fSMELEC.2014.6920839&partnerID=40&md5=5e89c397000155d2e22b534ec7397726 https://irepository.uniten.edu.my/handle/123456789/21850 6920839 232 235 Institute of Electrical and Electronics Engineers Inc. Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
description The evolution of MOSFET technology has been governed solely by device scaling, delivered an ever-increasing transistor density through Moore's Law. In this paper, the design, fabrication and characterization of 32nm HfO2/TiSi2 PMOS device is presented; replacing the conventional SiO2 dielectric and Poly-Silicon. The fabrication and simulation of PMOS transistor is performed via Virtual Wafer Fabrication (VWF) Silvaco TCAD Tools namely ATHENA and ATLAS. Taguchi L9 Orthogonal method is then applied to this experiment for optimization of threshold voltage (VTH) and leakage current (IOFF). The simulation result shows that the optimal value of VTH and IOFF which are 0.1030075V and 3.4264075×10-12A/um respectively are well within ITRS prediction. © 2014 IEEE.
author2 36570222300
author_facet 36570222300
Maheran A.H.A.
Noor Faizah Z.A.
Menon P.S.
Ahmad I.
Apte P.R.
Kalaivani T.
Salehuddin F.
format Conference Paper
author Maheran A.H.A.
Noor Faizah Z.A.
Menon P.S.
Ahmad I.
Apte P.R.
Kalaivani T.
Salehuddin F.
spellingShingle Maheran A.H.A.
Noor Faizah Z.A.
Menon P.S.
Ahmad I.
Apte P.R.
Kalaivani T.
Salehuddin F.
Statistical process modelling for 32nm high-K/metal gate PMOS device
author_sort Maheran A.H.A.
title Statistical process modelling for 32nm high-K/metal gate PMOS device
title_short Statistical process modelling for 32nm high-K/metal gate PMOS device
title_full Statistical process modelling for 32nm high-K/metal gate PMOS device
title_fullStr Statistical process modelling for 32nm high-K/metal gate PMOS device
title_full_unstemmed Statistical process modelling for 32nm high-K/metal gate PMOS device
title_sort statistical process modelling for 32nm high-k/metal gate pmos device
publisher Institute of Electrical and Electronics Engineers Inc.
publishDate 2023
_version_ 1806424031583272960

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