Title :
A 32-bit CPU with zero standby power and 1.5-clock sleep/2.5-clock wake-up achieved by utilizing a 180-nm C-axis aligned crystalline In-Ga-Zn oxide transistor
Author :
Isobe, Atsuo ; Tamura, H. ; Kato, Kazuhiko ; Ohmaru, T. ; Uesugi, Wataru ; Ishizu, Takahiko ; Onuki, Tatsuya ; Ohshima, K. ; Matsuzaki, Takaomi ; Hirose, Akira ; Suzuki, Yuya ; Tsutsui, Naoya ; Atsumi, T. ; Shionoiri, Y. ; Goto, Gensuke ; Koyama, Jun ; Fu
Author_Institution :
Semicond. Energy Lab. Co., Ltd., Atsugi, Japan
Abstract :
A flip-flop achieving high-speed backup utilizing a Si transistor and long-term retention with zero standby power by means of a transistor of c-axis aligned crystalline (CAAC) In-Ga-Zn oxide, a kind of CAAC oxide semiconductor, featuring extremely low off-state current is proposed. Using the flip-flop, a 32-bit processor has been fabricated with 350-nm Si/180-nm CAAC oxide semiconductor technology, and demonstrated data backup and power shutdown in 1.5 clock cycles at a low power of 1.77 nJ, data recovery in 2.5 clock cycles, and data retention with zero standby power for at least a day. According to simulation results, fast backup and long-term retention can also be achieved with 45-nm Si/180-nm CAAC oxide semiconductor technology.
Keywords :
flip-flops; gallium; indium; transistors; zinc; C-axis aligned crystalline oxide transistor; CAAC oxide semiconductor technology; CPU; In-Ga-Zn; clock sleep; clock wake-up; data backup; data recovery; data retention; flip-flop; high-speed backup; long-term retention; off-state current; silicon transistor; size 180 nm; size 45 nm; word length 32 bit; zero-standby power; Central Processing Unit; Clocks; Field effect transistors; Flip-flops; Phasor measurement units; Silicon;
Conference_Titel :
VLSI Circuits Digest of Technical Papers, 2014 Symposium on
Conference_Location :
Honolulu, HI
Print_ISBN :
978-1-4799-3327-3
DOI :
10.1109/VLSIC.2014.6858379
