Title :
Parameter space exploration for robust and high-performance n-channel and p-channel symmetric double-gate FinFETs
Author :
Tawfik, Sherif A. ; Kursun, Volkan
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Wisconsin-Madison, Madison, WI, USA
Abstract :
The influence of different device parameters on the electrical characteristics of n-channel and p-channel symmetric double-gate FinFETs is studied in this paper. Guidelines for enhancing the performance and suppressing the leakage currents are provided. A sub-threshold slope lower than 100 mV is achieved at the room temperature with fins thinner than half the gate length in a 32 nm FinFET technology. The maximum on-current to leakage current ratio of n-channel FinFETs at room temperature is achieved when the fin thickness and the gate-oxide thickness are 8 nm and 1.6 nm, respectively. Alternatively, the on-current to leakage currents ratio of p-channel FinFETs is maximized when the fin thickness and the gate-oxide thickness are 8 nm and 1.2 nm, respectively.
Keywords :
MOSFET; leakage currents; semiconductor device models; space research; fin thickness; gate-oxide thickness; leakage currents; maximum-on-current-to-leakage current ratio; n-channel symmetric double-gate FinFETs; p-channel symmetric double-gate FinFETs; size 1.6 nm; size 32 nm; size 8 nm; space exploration; temperature 293 K to 298 K; Design optimization; Doping; FinFETs; Guidelines; Leakage current; MOSFETs; Particle scattering; Robustness; Space exploration; Temperature;
Conference_Titel :
Quality Electronic Design, 2009. ASQED 2009. 1st Asia Symposium on
Conference_Location :
Kuala Lumpur
Print_ISBN :
978-1-4244-4952-1
Electronic_ISBN :
978-1-4244-4952-1
DOI :
10.1109/ASQED.2009.5206260
