Title :
An Efficient Approach for Soft Error Rate Estimation of Combinational Circuits
Author :
Raji, Mohsen ; Saeedi, Fereshte ; Ghavami, Behnam ; Pedram, Hossein
Author_Institution :
Amirkabir Univ. of Technol., Tehran, Iran
Abstract :
Soft error rate (SER) estimation is becoming more and more important since nanometer digital integrated circuits are getting increasingly vulnerable to soft errors. In this paper, a novel approach is proposed for soft error rate analysis of digital combinational circuit considering all masking factors. We introduce a concept called Probabilistic Vulnerability Window (PVW) which is an inference of the necessary conditions for a Single Event Transient (SET) to cause observable errors in the circuit. A computation model is proposed to calculate PVW´s for all circuit gate outputs. Using the computation model, the proposed method estimates the soft error rate of the circuit by computing the probabilistic vulnerability windows in a backward approach. Experimental results show that the proposed method increases the SER computation speed by 1000X, with less than 10% accuracy loss when compared to the Monte-Carlo based fault injection methods. The results also show than the proposed approach keeps its efficiency when it is applied for estimating the soft error rate considering various SET´s with different initial widths while the runtime of traditional SER estimation methods increases rapidly in such cases.
Keywords :
Monte Carlo methods; combinational circuits; digital integrated circuits; estimation theory; masks; probability; radiation hardening (electronics); Monte-Carlo based fault injection methods; PVW; SER estimation methods; SET; digital combinational circuit; masking factors; nanometer digital integrated circuits; probabilistic vulnerability window; single event transient; soft error rate estimation; Combinational circuits; Computational modeling; Error analysis; Estimation; Logic gates; Probability; Timing; Soft error; Soft error rate; combinational logic; probabilistic vulnerability window; transient fault;
Conference_Titel :
Digital System Design (DSD), 2014 17th Euromicro Conference on
Conference_Location :
Verona
DOI :
10.1109/DSD.2014.67
