Title :
Overdrive Power-Gating Techniques for Total Power Minimization
Author :
Drazdziulis, M. ; Larsson-Edefors, Per ; Svensson, Lars
Author_Institution :
Dept. of Comput. Sci. & Eng., Chalmers Univ. of Technol., Goteborg
Abstract :
We investigate how to apply power-gating techniques to logic circuits for maximal total power reduction. We compare techniques that employ overdriven low-Vt power switches (SCCMOS) with those employing high-Vt power switches (MTCMOS). When sized under the same constraints for maximum voltage drop in active mode, MTCMOS has 10% shorter total wake-up time compared to SCCMOS. However, SCCMOS performs better in saving power than MTCMOS as logic circuit blocks increase in size and have increasing lengths of idle time. To obtain maximal power savings in idle mode, we introduce a process variation tolerant control circuit for overdrive voltage generators that offers a 2.7times power savings improvement for a 130-nm process.
Keywords :
logic circuits; logic design; low-power electronics; high-Vt power switches; logic circuits; maximal total power reduction; overdrive power-gating techniques; overdrive voltage generators; overdriven low-Vt power switches; process variation tolerant control circuit; total power minimization; Computer science; Delay; Logic circuits; Minimization; Power engineering and energy; Power generation; Power supplies; Switches; Very large scale integration; Voltage;
Conference_Titel :
VLSI, 2007. ISVLSI '07. IEEE Computer Society Annual Symposium on
Conference_Location :
Porto Alegre
Print_ISBN :
0-7695-2896-1
DOI :
10.1109/ISVLSI.2007.76
