Title :
Characterizing fault propagation in safety-critical processor designs
Author :
Espinosa, Jaime ; Hernandez, Carles ; Abella, Jaume
Author_Institution :
Univ. Politec. de Valencia, València, Spain
Abstract :
Achieving reduced time-to-market in modern electronic designs targeting safety critical applications is becoming very challenging, as these designs need to go through a certification step that introduces a non-negligible overhead in the verification and validation process. To cope with this challenge, safety-critical systems industry is demanding new tools and methodologies allowing quick and cost-effective means for robustness verification. Microarchitectural simulators have been widely used to test reliability properties in different domains but their use in the process of robustness verification remains yet to be validated against other accepted methods such as RTL or gate-level simulation. In this paper we perform fault injections in an RTL model of a processor to characterize fault propagation. The results and conclusions of this characterization will serve to devise to what extent fault injection methodologies for robustness verification using microarchitectural simulators can be employed.
Keywords :
digital simulation; formal verification; safety-critical software; software fault tolerance; RTL processor model; electronic designs; fault injections; fault propagation characterization; gate-level simulation; microarchitectural simulators; robustness verification; safety critical applications; safety-critical processor design; verification-and-validation process; Benchmark testing; Circuit faults; Logic gates; Microarchitecture; Registers; Robustness; Timing;
Conference_Titel :
On-Line Testing Symposium (IOLTS), 2015 IEEE 21st International
Conference_Location :
Halkidiki
DOI :
10.1109/IOLTS.2015.7229848
