Title :
Replacement metal gate resistance in FinFET architecture modelling, validation and extendibility
Author :
Ruqiang Bao;Brian Greene;Unoh Kwon;Sungjae Lee;John Bruley;Weike Wang;Kai Zhao;Patrick W. DeHaven;Zhengwen Li;Keith Wong;Stephan Grunow;Rama Divakaruni;Chung-Hsun Lin;Siddarth A Krishnan;Vijay Narayanan
Author_Institution :
IBM Research, Albany NanoTech, Albany, NY 12203
Abstract :
In this paper, we develop a multiplicative model to simulate the tungsten (W) film resistivity and gate resistance for replacement metal gate (RMG) with W electrode. Our multiplicative model predicts that TiN fill offers the lower gate resistance than TiN/W fill for highly scaled gate lengths. By absorbing the results from our model into the real RMG FinFET devices, we observe that TiN fill provides ~6.4 % performance improvement compared to TiN/W fill. Meanwhile, the employment of gate conductance for gate stack film thickness monitoring is also described in our work.
Keywords :
"Logic gates","Resistance","Tin","Conductivity","Films","Scattering","Mathematical model"
Conference_Titel :
Electron Devices Meeting (IEDM), 2015 IEEE International
Electronic_ISBN :
2156-017X
DOI :
10.1109/IEDM.2015.7409826
