Title :
Electrostatics and performance benchmarking using all types of III–V multi-gate FinFETs for sub 7nm technology node logic application
Author :
Baek, R.-H. ; Kim, Do-Hyeon ; Kim, Tae-Woo ; Shin, Changhwan ; Park, Woo-Chan ; Michalak, T. ; Borst, Christopher ; Song, Seung Chul ; Yeap, Geoffrey ; Hill, Richard ; Hobbs, Chris ; Maszara, W. ; Kirsch, P.
Author_Institution :
SEMATECH, Albany, NY, USA
Abstract :
In this paper, we conducted the sub 7nm technology benchmarking for logic application using performance comparison between III-V multi-gate(double, tri, gate-all-around) nMOSFET and Si nFinFET. The benchmarking was executed based on the physical parameters extracted from Virtual-Source(VS) modeling and well-calibrated TCAD simulation. Especially by quantitatively investigating fin width(Wfin) and interface trap(Dit) effects on electrostatic of III-V multi-gate(MG) nMOSFET which is critical to device scaling, we proposed a device design strategy for sub 7nm technology node.
Keywords :
III-V semiconductors; MOSFET; electrostatics; elemental semiconductors; logic gates; silicon; III-V multi-gate FinFETs; III-V multi-gate nMOSFET; Si; TCAD simulation; VS modeling; electrostatics; interface trap effects; physical parameter extraction; silicon nFinFET; sub 7nm technology node logic application; virtual-source modeling; Benchmark testing; Electrostatics; FinFETs; MOSFET circuits; Quantum capacitance; Silicon;
Conference_Titel :
VLSI Technology (VLSI-Technology): Digest of Technical Papers, 2014 Symposium on
Conference_Location :
Honolulu, HI
Print_ISBN :
978-1-4799-3331-0
DOI :
10.1109/VLSIT.2014.6894420
