Title :
Modeling and Circuit Synthesis for Independently Controlled Double Gate FinFET Devices
Author :
Datta, Animesh ; Goel, Ashish ; Cakici, Riza Tamer ; Mahmoodi, Hamid ; Lekshmanan, Dheepa ; Roy, Kaushik
Author_Institution :
Qualcomm Inc., San Diego
Abstract :
Independent control of front and back gate in double gate (DG) devices can be used to merge parallel transistors in noncritical paths. This reduces the effective switching capacitance and, hence, the dynamic power dissipation of a circuit. However, efficient design of large-scale circuits with DG devices is not well explored due to lack of proper modeling and large-scale design simulation tools. In this paper, we propose several low-power circuit options using independent gate FinFETs. We developed semianalytical models for different FinFET logic gates to predict their performance. An efficient circuit synthesis methodology comprised of proposed low-power logic options in FinFET design library has been developed. Results show about 8.5% area savings and 18% power savings over conventional FinFET technology for ISCAS85 benchmark circuits in 45-nm technology with no performance penalty.
Keywords :
CMOS integrated circuits; MOSFET; circuit CAD; logic gates; network synthesis; FinFET logic gates; circuit synthesis; double gate FinFET devices; dynamic power dissipation; large-scale design simulation tools; low-power logic options; parallel transistors; Capacitance; Circuit simulation; Circuit synthesis; FinFETs; Large-scale systems; Logic devices; Logic gates; Power dissipation; Predictive models; Switching circuits; Analytical modeling; CMOS; FinFET; circuit synthesis; independent gate; low power;
Journal_Title :
Computer-Aided Design of Integrated Circuits and Systems, IEEE Transactions on
DOI :
10.1109/TCAD.2007.896320
