Title :
Scan-controlled pulse flip-flops for mobile application processors
Author :
Min-Su Kim ; HyoungWook Lee ; Jin-Soo Park ; Chung-Hee Kim ; Juhyun Kang ; Ken Shin ; Kagramanyan, Emil ; Jung, Gwang-Pil ; Cho, Ukrae ; Youngmin Shin ; Jae Cheol Son
Author_Institution :
Samsung Electron., Yongin, South Korea
Abstract :
Novel high-speed low-power pulse-based flip-flops having a pulse generator controlled by scan input and scan enable signals are presented. The proposed scheme enables the reduction of data-to-output delay by elimination of the MUX-scan logic from the setup time path of flip-flop, at the cost of a small power overhead. The comparison results using the 45 nm CMOS process indicate that the worst-case DQ delay of the proposed flip-flop is reduced by up to 59% while the energy-delay product is improved by up to 80% compared to the conventional master-slave flip-flop. The silicon results show that the new flip-flops function properly down to 0.62 V.
Keywords :
CMOS logic circuits; flip-flops; low-power electronics; CMOS process; MUX-scan logic; data-to-output delay; energy-delay product; high-speed low-power pulse-based flip-flops; master-slave flip-flop; mobile application processors; pulse generator; scan enable signals; scan input signals; scan-controlled pulse flip-flops; size 45 nm; worst-case DQ delay; Clocks; Delays; Flip-flops; Latches; Master-slave; Program processors; Pulse generation;
Conference_Titel :
Circuits and Systems (ISCAS), 2013 IEEE International Symposium on
Conference_Location :
Beijing
Print_ISBN :
978-1-4673-5760-9
DOI :
10.1109/ISCAS.2013.6571960
