Title :
Design Methodology of Body-Biasing Scheme for Low Power System LSI With Multi- Vth Transistors
Author :
Yasuda, Yuri ; Akiyama, Yutaka ; Yamagata, Yasushi ; Goto, Yoshiro ; Imai, Kiyotaka
Author_Institution :
NEC Electron. Corp., Sagamihara
Abstract :
We proposed a multi-Vth transistor design for a body-biasing scheme to control threshold voltage Vth variation and power consumption for the 65-nm node and beyond. One of the biggest barriers in applying the body biasing to multi-Vth transistors that have a different body-biasing sensitivity was solved by using a Hf-based gate dielectric work-function modulation combined with a careful channel design. The body-biasing sensitivities for multi-Vth transistors were successfully equalized, and the sensitivity is independent of the original Vth. By using the body biasing with the optimal transistor design, die-to-die Vth variation has been efficiently suppressed even for dies with multi-Vth transistors. As a result, both 50% total Vth variation reduction and 1/50 static random access memory standby current have been achieved. This design scheme can guarantee excellent performance for future low power applications because of its simplicity and its bulk-design compatibility.
Keywords :
integrated circuit design; large scale integration; low-power electronics; transistor circuits; Hf-based gate dielectric work-function lation; body-biasing scheme; control threshold voltage; die-to-die Vth variation; low power system LSI; multi-Vth transistors; optimal transistor design; static random access memory; Control systems; Design methodology; Energy consumption; Gate leakage; Large scale integration; Power system control; Power systems; SRAM chips; Threshold voltage; Voltage control; Body biasing; HfSiON; body factor; buried channel; gate leakage; gate-induced drain leakage (GIDL); high- $k$; low power; multi- $V_{rm th}$; retrograde channel; standby leakage; variation;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2007.906964
