Title :
Soft Error Rate Analysis for Combinational Logic Using an Accurate Electrical Masking Model
Author :
Wang, Feng ; Xie, Yuan
Author_Institution :
Qualcomm Inc., San Diego, CA, USA
Abstract :
Accurate electrical masking modeling represents a significant challenge in soft error rate analysis for combinational logic circuits. In this paper, we use table lookup MOSFET models to accurately capture the nonlinear properties of submicron MOS transistors. Based on these models, we propose and validate the transient pulse generation model and propagation model for soft error rate analysis. The pulse generated by our pulse generation model matches well with that of HSPICE simulation, and the pulse propagation model provides nearly one order of magnitude improvement in accuracy over the previous models. Using these two models, we propose an accurate and efficient block-based soft error rate analysis method for combinational logic circuits.
Keywords :
MOSFET; SPICE; combinational circuits; error analysis; table lookup; HSPICE simulation; MOSFET model; accurate electrical masking model; block based soft error rate analysis; combinational logic; nonlinear property; pulse propagation model; submicron MOS transistor; transient pulse generation; Circuit simulation; Combinational circuits; Error analysis; Error correction codes; Estimation error; Latches; Logic; Pulse generation; Transient analysis; Voltage; Reliability; combinational logic.; fault injection; simulation;
Journal_Title :
Dependable and Secure Computing, IEEE Transactions on
DOI :
10.1109/TDSC.2009.29
