Combining Fault Analysis Technologies for ISO26262 Functional Safety Verification

Combining Fault Analysis Technologies for ISO26262 Functional Safety Verification

Augusto da Silva, F. (TU Delft Computer Engineering; Cadence Design Systems)
Bagbaba, Ahmet Cagri (Cadence Design Systems)
Hamdioui, S. (TU Delft Quantum & Computer Engineering)
Sauer, Christian (Cadence Design Systems)

Bilof, R.S. (editor)

Quantum & Computer Engineering

2020

The development of Integrated Circuits for the Automotive sector imposes on complex challenges. ISO26262 Functional Safety requirements entail extensive Fault Injection campaigns and complex analysis for the evaluation of deployed Software Tools. This paper proposes a methodology to improve Fault Analysis Tools Confidence Level (TCL) by detecting errors in the classification of faults. By combining the strengths of Automatic Test Pattern Generators (ATPG), Formal Methods and Fault Injection Simulators we are able to automatically generate a Test Environment that enables the validation of the tools and provides supplementary information about the design behavior. Our results showed fault detection rates above 99% including information to improve ISO26262 metrics calculation

ISO26262
Fault Injection
Formal Methods
Simulation
Tool Confidence Level
Functional Safety
Verification
ATPG
ISO26262 Fault Injection

http://resolver.tudelft.nl/uuid:6795d233-b8e1-4ec0-98cc-636e973cad03

https://doi.org/10.1109/ATS47505.2019.00024

IEEE, Piscataway

978-1-7281-2696-8

Proceedings - 2019 IEEE 28th Asian Test Symposium, ATS 2019, 2019-December

2019 IEEE 28th Asian Test Symposium (ATS), 2019-12-10 → 2019-12-13, Kolkata, India

2019 IEEE 28TH ASIAN TEST SYMPOSIUM (ATS), 1081-7735

Accepted author manuscript

Institutional Repository

conference paper

© 2020 F. Augusto da Silva, Ahmet Cagri Bagbaba, S. Hamdioui, Christian Sauer