Title :
Novel Soft Error Robust Flip-Flops in 65nm CMOS
Author :
Rennie, David J. ; Sachdev, Manoj
Author_Institution :
Univ. of Waterloo, Waterloo, ON, Canada
Abstract :
Cosmic neutron-induced single event upsets have become a dominant failure mechanism in sub-100 nm CMOS memory and logic circuits. In this paper two SEU-robust flip-flops are described which are based on a hardened storage cell, known as the Quatro cell. One flip-flop utilizes C2MOS gates while the other utilizes a pulsed-latch architecture. The proposed flip-flops exhibit as much as a 50% improvement in power-delay product when compared with recently reported hardened flip-flops. A test chip containing the proposed flip-flops arranged in a shift register configuration was fabricated in a 65 nm CMOS process. Accelerated neutron radiation testing results show that the proposed flip-flops have excellent soft-error robustness.
Keywords :
CMOS logic circuits; failure analysis; flip-flops; logic testing; shift registers; C2MOS gates; CMOS logic circuits; CMOS memory; CMOS process; Quatro cell; SEU-robust flip-flops; accelerated neutron radiation testing; cosmic neutron-induced single-event upsets; dominant failure mechanism; hardened flip-flops; hardened storage cell; power-delay product; pulsed-latch architecture; shift register configuration; size 100 nm; size 65 nm; soft error robust flip-flops; test chip; Clocks; Delay; Latches; Logic gates; Neutrons; Robustness; Sea measurements; CMOS; flip-flop; latch; neutron; soft error;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2011.2162745
