Novel radiation hardened latch design considering process, voltage and temperature variations for nanoscale CMOS technology

Abstract

As CMOS technology is scaled down, the supply voltage and gate capacitance are reduced, which results in the reduction of charge storing capacity at each node and increase of the susceptibility to external noise in radiation environments. The traditional error tolerant circuit design methods provide very limited protection against the environment noise for storage cells such as latches and memories. In this paper, a novel hardened latch design is proposed and compared with the previous hardened latch designs using 32 nm technology node. Extensive simulation results using HSPICE are reported to show that the proposed hardened latch design achieves 15× improvement of critical charge (Qcrit) with comparable cost in terms of speed and power compared to the most up to date hardened latch design. Moreover, PVT variations have great impact on the reliability of hardened circuit. The proposed latch circuit is also evaluated with the presence of PVT variations and demonstrates higher robustness than other considered robust latch under severe PVT variation condition.