Title :
Power gating for FDSOI using dynamically body-biased power switch
Author :
Kumagai, Yuichi ; Kudo, Masaru ; Usami, Kimiyoshi
Author_Institution :
Grad. Sch. of Eng. & Sci., Shibaura Inst. of Technol., Tokyo, Japan
Abstract :
We propose a Dynamically Biased Multi Threshold CMOS (DBMT) technique for power gating in FDSOI. In DBMT, effective threshold voltage of a high-Vt power switch transistor is lowered by forward body biasing (FBB) to improve performance at the operation, while it is raised by reverse body biasing (RBB) to further reduce leakage in the sleep state. We applied this technique to a 32-bit multiplier circuit of an experimental CPU Geyser-1 in which the multiplier is power gated at run time in a fine-grained manner during the CPU operation [1]. Simulated results in 65nm FDSOI with thin BOX revealed that the area of the power switch (PS) in DBMT technique can be reduced by 55% as compared to the conventional MTCMOS when suppressing the delay increase due to PS insertion within 10%. DBMT reduces leakage energy of the multiplier considering the energy overhead by up to 55% as compared to the MTCMOS when running application programs.
Keywords :
CMOS integrated circuits; microprocessor chips; multiplying circuits; silicon-on-insulator; BOX; CPU; DBMT; FDSOI; Geyser-1; MTCMOS; dynamically biased multi threshold CMOS; dynamically body-biased power switch; forward body biasing; multiplier circuit; power gating; power switch transistor; reverse body biasing; size 65 nm; word length 32 bit; CMOS integrated circuits; CMOS technology; Delays; Energy consumption; Logic gates; Switching circuits; Threshold voltage; Body-Bias; Low Power Technique; Power Gating; Sillicon-on-Thin-BOX MOSFET;
Conference_Titel :
Ultimate Integration on Silicon (EUROSOI-ULIS), 2015 Joint International EUROSOI Workshop and International Conference on
Conference_Location :
Bologna
DOI :
10.1109/ULIS.2015.7063813
