Sleepy Stack Leakage Reduction

Leakage power consumption of current CMOS technology is already a great challenge. International Technology Roadmap for Semiconductors projects that leakage power consumption may come to dominate total chip power consumption as the technology feature size shrinks. Leakage is a serious problem particularly for CMOS circuits in nanoscale technology. We propose a novel ultra-low leakage CMOS circuit structure which we call "sleepy stack". Unlike many other previous approaches, sleepy stack can retain logic state during sleep mode while achieving ultra-low leakage power consumption. We apply the sleepy stack to generic logic circuits. Although the sleepy stack incurs some delay and area overhead, the sleepy stack technique achieves the lowest leakage power consumption among known state-saving leakage reduction techniques, thus, providing circuit designers with new choices to handle the leakage power problem

[1]  John P. Uyemura,et al.  CMOS Logic Circuit Design , 1992 .

[2]  Jun-Cheol Park,et al.  Sleepy Stack Reduction of Leakage Power , 2004, PATMOS.

[3]  Yu Cao,et al.  New paradigm of predictive MOSFET and interconnect modeling for early circuit simulation , 2000, Proceedings of the IEEE 2000 Custom Integrated Circuits Conference (Cat. No.00CH37044).

[4]  Neil Weste,et al.  Principles of CMOS VLSI Design , 1985 .

[5]  Giovanni De Micheli,et al.  Synthesis and Optimization of Digital Circuits , 1994 .

[6]  Mark C. Johnson,et al.  Leakage control with efficient use of transistor stacks in single threshold CMOS , 2002, IEEE Trans. Very Large Scale Integr. Syst..

[7]  Shin'ichiro Mutoh,et al.  1-V power supply high-speed digital circuit technology with multithreshold-voltage CMOS , 1995, IEEE J. Solid State Circuits.

[8]  Anantha Chandrakasan,et al.  Scaling of stack effect and its application for leakage reduction , 2001, ISLPED'01: Proceedings of the 2001 International Symposium on Low Power Electronics and Design (IEEE Cat. No.01TH8581).

[9]  Andreas Moshovos,et al.  Low-leakage asymmetric-cell SRAM , 2002, ISLPED '02.

[10]  Anantha P. Chandrakasan,et al.  Low-power CMOS digital design , 1992 .

[11]  Jun Cheol Park Sleepy Stack: a New Approach to Low Power VLSI and Memory , 2005 .

[12]  H. Kawaguchi,et al.  Zigzag super cut-off CMOS (ZSCCMOS) block activation with self-adaptive voltage level controller: an alternative to clock-gating scheme in leakage dominant era , 2003, 2003 IEEE International Solid-State Circuits Conference, 2003. Digest of Technical Papers. ISSCC..

[13]  Mahmut T. Kandemir,et al.  Leakage Current: Moore's Law Meets Static Power , 2003, Computer.

[14]  N. Ranganathan,et al.  A new technique for leakage reduction in CMOS circuits using self-controlled stacked transistors , 2004, 17th International Conference on VLSI Design. Proceedings..