Title :
Identifying NBTI-Critical Paths in Nanoscale Logic
Author :
Ubar, Raimund ; Vargas, F. ; Jenihhin, M. ; Raik, Jaan ; Kostin, S. ; Bolzani Poehls, Leticia
Author_Institution :
Tallinn Univ. of Technol., Tallinn, Estonia
Abstract :
One of the main reliability concerns in the nanoscale logic is the time-dependent variation caused by Negative Bias Temperature Instability (NBTI). It may increase the switching threshold voltage of pMOS transistors and as a result slow down signal propagation along the paths between flip-flops thus causing functional failures in the circuit. In this paper we propose an approach to identify NBTI-critical paths in nanoscale logic that is based on analyzing combination in different degrees of the three parameters: delay-critical paths, gate input signal probability and the gate fan-out degree along the paths. Further the identified NBTI-critical path can be used e.g. for introduction of aging sensors circuitry, rejuvenation stimuli generation, etc. The proposed approach is demonstrated on an industrial ALU circuit design.
Keywords :
MOSFET; flip-flops; integrated circuit reliability; logic circuits; logic design; negative bias temperature instability; probability; sensors; NBTI-critical path identification; aging sensors; delay-critical paths; flip-flops; gate fan-out degree; gate input signal probability; industrial ALU circuit design; nanoscale logic; negative bias temperature instability; pMOS transistors; switching threshold voltage; time-dependent variation; Aging; Degradation; Delays; Logic gates; MOSFET; Stress; Threshold voltage; NBTI-critical path; aging; logic circuit; path identification;
Conference_Titel :
Digital System Design (DSD), 2013 Euromicro Conference on
Conference_Location :
Los Alamitos, CA
DOI :
10.1109/DSD.2013.23
