Ultra-low power FinFET-based domino circuits

Abstract

ABSTRACTAggressive scaling of single-gate CMOS device face greater challenge in nanometre technology as sub-threshold and gate-oxide leakage currents increase exponentially with reduction of channel length. This paper discusses a double-gate FinFET (DGFET) technology which mitigates leakage current and higher ON state current when scaling is done beyond 32 nm. Here 8 and 16 input OR gate domino logic circuits are simulated on 32 nm FinFET Predictive technology model (PTM) on HSPICE. Simulation results of different 8 input OR gate domino logic circuits like Current-mirror footed domino (CMFD), High-speed clock-delayed (HSCD), Modified-HSCD (M-HSCD), Conditional evaluation domino logic (CEDL) and Conditional stacked keeper domino logic (CSK-DL), all operated in Short Gate (SG) and Low Power (LP) mode, shows tremendous reduction in average power consumption and delay. In this paper, domino logic-based circuit Ultra-Low Power Stack Dual-Phase Clock (ULPS-DPC) is proposed for both CMOS and FinFET (SG and LP modes). Proposed circuit shows maximum reduction in average power consumption of 84.04% when compared with CSK-DL circuit and maximum reduction in delay of 75.4% when compared with M-HSCD circuit at 10 MHz frequency when these circuits are simulated in SG mode.