On-Line Testing and Robust System Design
Hotel Eden Roc, Sant Feliu de Guixols,
Catalunya, Spain, July 4-6, 2016
Federative Event on Design for Robustness (FEDfRo):
IOLTS this year is held as part of the 1st Federative Event
on Design for Robustness
(FEDfRo).
For all details about the event see:
http://tima.univ-grenoble-alpes.fr/conferences/fedfro/fedfro16/.
Issues related to On-line testing techniques, and more generally to design for robustness, are increasingly important in modern electronic systems. In particular, the huge complexity of electronic systems has led to growth in reliability needs in several application domains as well as pressure for low cost products. There is a corresponding increasing demand for cost-effective design for robustness techniques. These needs have increased dramatically with the introduction of nanometer technologies, which impact adversely noise margins; process, voltage and temperature variations; aging and wear-out; soft error and EMI sensitivity; power density and heating; and make mandatory the use of design for robustness techniques for extending, yield, reliability, and lifetime of modern SoCs. Design for reliability becomes also mandatory for reducing power dissipation, as voltage reduction, often used to reduce power, strongly affects reliability by reducing noise margins and thus the sensitivity to soft-errors and EMI, and by increasing circuit delays and thus the severity of timing faults. There is also a strong relation between Design for Reliability and Design for Security, as security attacks are often fault-based.
The International Symposium on On-Line Testing and Robust System Design (IOLTS), is an established forum for presenting novel ideas and experimental data on these areas. The Symposium is sponsored by the IEEE Council on Electronic Design Automation (CEDA) and the 2016 edition is organized by the IEEE Computer Society Test Technology Technical Council, the University of Athens, and the TIMA Laboratory.
The topics of interest include (but are not limited to) the following ones:
- Quality, yield, reliability and lifespan issues in nanometer technologies
- Variability, aging, EMI, and radiation effects in nanometer technologies
- Self-test and self-repair
- Design-for-Reliability
- On-line testing techniques for digital, analog and mixed-signal circuits
- Self-checking circuits and coding theory
- On-line monitoring of current, temperature, process variations, and aging
- Self-healing design
- Self-regulating design
- Self-adapting design
- Cross-layer reliability approaches
- Reliability issues of Low-Power Design
- Design for Reliability approaches for Low-Power
- Power density and overheating issues in nanometer technologies
- Fault-tolerant and fail-safe systems
- Dependable system design
- Field diagnosis, maintainability, and reconfiguration
- Design for security
- Fault-based attacks and counter measures
- Design for Robustness for automotive, railway, avionics, space, large industrial applications, IT infrastructure, cloud computing, and wired, cellular and satellite communications
- Robustness evaluation
- CAD for robust circuits design