Interconnection reliability threats dependability of highly critical electronic systems. One of most challenging interconnection-induced reliability threats are intermittent resistive faults (IRFs). The occurrence rate of this kind of defects can take e.g. one month, and the duration of defects can be as short as a few nanoseconds. As a result, evoking and detecting these faults is a big challenge. IRFs can cause timing deviations in data paths in digital systems during its operating time. This paper proposes an online digital slack monitor which is able to detect small timing deviations caused by IRFs in digital systems. The simulation results show that the proposed monitor is effective in detecting IRFs
International audienceTo compensate the variability effects in advanced technologies, Process, Volta...
Slack-time reduction is a way to improve the performance of synchronous sequential circuits. In the ...
Conference of 20th IEEE International On-Line Testing Symposium, IOLTS 2014 ; Conference Date: 7 Jul...
Interconnection reliability threats dependability of highly critical electronic systems. One of most...
No fault found (NFF) is a major threat in extremely dependable high-end process node integrated syst...
Interconnection reliability issues threat the dependability of highly dependable systems. One of the...
A major threat in extremely dependable high-end process node integrated systems in e.g. Avionics are...
The required dependability of integrated CMOS systems has to be continuously increased because nowad...
International audiencePVT information is mandatory to control specific knobs to compen-sate the vari...
In avionics, like glide computers, the problem of No Faults Found (NFF) is a very serious and extrem...
There are various occurrences and root causes that result in no-fault-found (NFF) events but an inte...
International audienceTo deal with variations, statistical methodologies can be completed by monitor...
Abstract—In situ monitoring is an accurate way to monitor circuit delay or timing slack, but usually...
Abstract—In situ monitoring is an accurate way to monitor circuit delay or timing slack, but usually...
International audienceAging induced degradation mechanisms occurring in digital circuits are of a gr...
International audienceTo compensate the variability effects in advanced technologies, Process, Volta...
Slack-time reduction is a way to improve the performance of synchronous sequential circuits. In the ...
Conference of 20th IEEE International On-Line Testing Symposium, IOLTS 2014 ; Conference Date: 7 Jul...
Interconnection reliability threats dependability of highly critical electronic systems. One of most...
No fault found (NFF) is a major threat in extremely dependable high-end process node integrated syst...
Interconnection reliability issues threat the dependability of highly dependable systems. One of the...
A major threat in extremely dependable high-end process node integrated systems in e.g. Avionics are...
The required dependability of integrated CMOS systems has to be continuously increased because nowad...
International audiencePVT information is mandatory to control specific knobs to compen-sate the vari...
In avionics, like glide computers, the problem of No Faults Found (NFF) is a very serious and extrem...
There are various occurrences and root causes that result in no-fault-found (NFF) events but an inte...
International audienceTo deal with variations, statistical methodologies can be completed by monitor...
Abstract—In situ monitoring is an accurate way to monitor circuit delay or timing slack, but usually...
Abstract—In situ monitoring is an accurate way to monitor circuit delay or timing slack, but usually...
International audienceAging induced degradation mechanisms occurring in digital circuits are of a gr...
International audienceTo compensate the variability effects in advanced technologies, Process, Volta...
Slack-time reduction is a way to improve the performance of synchronous sequential circuits. In the ...
Conference of 20th IEEE International On-Line Testing Symposium, IOLTS 2014 ; Conference Date: 7 Jul...