Title :
Study of statistical variability in nanoscale transistors introduced by LER, RDF and MGG
Author :
Indalecio, G. ; Garcia-Loureiro, Antonio ; Aldegunde, Manuel ; Kalna, Karol
Author_Institution :
Dept. de Electron. y Comput., Univ. de Santiago de Compostela, Santiago de Compostela, Spain
Abstract :
A 3D drift-diffusion device simulator with implemented density-gradient quantum corrections is developed to run hundreds of simulations to gather variability characteristics in non-planar transistors. We have included the line edge roughness (LER), random dopants (RD), and metal gate granularity (MGG) induced variabilities, which are considered to be the most important sources of variability in device characteristics. The simulator is then applied to study a threshold voltage variability in a 25 nm gate length Si SOI FinFET due to LER and MGG. We found that the LER induced threshold variability has a mean value of 344.5 mV and σ of 4.7 mV while the MGG induced has a mean value of 349.9 mV and σ of 13.3 mV an order of magnitude greater than the LER variability.
Keywords :
MOSFET; nanotechnology; silicon-on-insulator; statistical analysis; 3D drift-diffusion device simulator; LER variability; MGG induced variability; RDF; SOI FinFET; density-gradient quantum corrections; device characteristics; gate length; line edge roughness; metal gate granularity; nanoscale transistors; nonplanar transistors; random dopants; statistical variability; threshold variability; threshold voltage variability; variability characteristics; FinFETs; Logic gates; Metals; Nanoscale devices; Semiconductor process modeling; Shape; Threshold voltage;
Conference_Titel :
Electron Devices (CDE), 2013 Spanish Conference on
Conference_Location :
Valladolid
Print_ISBN :
978-1-4673-4666-5
Electronic_ISBN :
978-1-4673-4667-2
DOI :
10.1109/CDE.2013.6481351
