Title :
Circuit-level techniques to control gate leakage for sub-100 nm CMOS
Author :
Hamzaoglu, Fatih ; Stan, Mircea R.
Author_Institution :
Dept. of Electr. & Comput. Eng., Virginia Univ., Charlottesville, VA, USA
Abstract :
Although still negligible for state-of-the-art CMOS, gate leakage will become significant in the future for sub-100 nm technologies, due to the scaling of oxide thickness. We propose several circuit techniques to control gate leakage based on the fact that PMOS transistors with SiO2 gate oxide have an order of magnitude smaller gate leakage than NMOS transistors in the same technology. First, we compare n-type domino with p-type domino circuits in terms of performance, leakage and switching power, and explore the different trade-offs between performance and power. Second, we compare n-type with p-type gating for MTCMOS to control the leakage during sleep. The proposed circuits are simulated for a predictive 70 nm CMOS technology with 10 Å gate oxide thickness and 1.2 V supply voltage.
Keywords :
CMOS integrated circuits; MOSFET; circuit simulation; dielectric thin films; integrated circuit design; leakage currents; nanoelectronics; 1.2 V; 10 angstrom; 100 nm; 70 nm; CMOS technologies; MTCMOS; NMOS transistors; PMOS transistors; SiO2 gate oxide; SiO2-Si; circuit simulation; circuit-level techniques; gate leakage control; gate oxide thickness; multi-threshold CMOS; n-type domino circuits; n-type gating; oxide thickness scaling; p-type domino circuits; p-type gating; performance-power trade-offs; predictive CMOS technology; sleep leakage control; supply voltage; switching power; CMOS technology; Gate leakage; Integrated circuit technology; Leakage current; MOS devices; MOSFETs; Switches; Switching circuits; Tunneling; Voltage;
Conference_Titel :
Low Power Electronics and Design, 2002. ISLPED '02. Proceedings of the 2002 International Symposium on
Print_ISBN :
1-5811-3475-4
DOI :
10.1109/LPE.2002.146710
