Statistical Fault Injection for Impact-Evaluation of Timing Errors on Application Performance

This paper proposes a novel approach to modeling of gate level timing errors during high-level instruction set simulation. In contrast to conventional, purely random fault injection, our physically motivated approach directly relates to the underlying circuit structure, hence allowing for a significantly more detailed characterization of application performance under scaled frequency / voltage (including supply noise). The model uses gate level timing statistics extracted by dynamic timing analysis from the post place & route netlist of a general-purpose processor to perform instruction-aware fault injections. We employ a 28 nm OpenRISC core as a case study, to demonstrate how statistical fault injection provides a more accurate and realistic analysis of power vs. error performance.

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Andreas Peter Burg, Anupam Chattopadhyay, Jeremy Hugues-Felix Constantin, Georgios Karakonstantis, Zheng Wang
ACM, 2016
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https://infoscience.epfl.ch/record/215788?ln=fr

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Instruction set simulator

An instruction set simulator (ISS) is a simulation model, usually coded in a high-level programming language, which mimics the behavior of a mainframe or microprocessor by "reading" instructions and

Fault injection

In computer science, fault injection is a testing technique for understanding how computing systems behave when stressed in unusual ways. This can be achieved using physical- or software-based means

Erreur

vignette|Exemple d'erreur en ingénierie : des poteaux au milieu d'une voie de chemin de fer. Une erreur (du latin errare, signifiant l'action d'errer, ou un détour) est un acte inadapté à une situatio

Statistical Fault Injection for Impact-Evaluation of Timing Errors on Application Performance

Andreas Peter Burg, Anupam Chattopadhyay, Jeremy Hugues-Felix Constantin, Georgios Karakonstantis, Zheng Wang

This paper proposes a novel approach to modeling of gate level timing errors during high-level instruction set simulation. hi contrast to conventional, purely random fault injection, our physically motivated approach directly relates to the underlying circuit structure, hence allowing for a significantly more detailed characterization of application performance under scaled frequency / voltage (including supply noise). The model uses gate level timing statistics extracted by dynamic timing analysis from the post place & route netlist of a general-purpose processor to perform instruction aware fault injections. We employ a 28 nm OpenRISC core as a case study, to demonstrate how statistical fault injection provides a more accurate and realistic analysis of power vs. error performance.

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