No fault found (NFF) is a major threat in extremely dependable high-end process node integrated systems, in e.g., avionics. One category of NFFs is the intermittent resistive fault (IRF), often originating from bad (e.g., via- or TSV-based) interconnections. This paper will show the impact of these faults on the behavior of a digital CMOS circuit via simulation. As the occurrence rate of this kind of defects can take e.g., one month, while the duration of the defect can be as short as 50ns, thus to evoke and detect these faults is a huge scientific challenge. Two methods to detect short pulses induced by IRFs are proposed. To improve the task of maintenance of avionics and reduce the current high debugging costs, an on-chip data logging sys...
Transient faults became an increasing issue in the past few years as smaller geometries of newer, hi...
none2This paper addresses the problems related to resistive opens and bridging faults which cannot ...
[[abstract]]The authors present a novel approach to designing TSC (totally self-checking) CMOS circu...
No fault found (NFF) is a major threat in extremely dependable high-end process node integrated syst...
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...
In avionics, like glide computers, the problem of No Faults Found (NFF) is a very serious and extrem...
Interconnection reliability threats dependability of highly critical electronic systems. One of most...
Interconnection reliability issues threat the dependability of highly dependable systems. One of the...
The most difficult fault category in electronic systems is the “No Fault Found‿ (NFF). It is conside...
There are various occurrences and root causes that result in no-fault-found (NFF) events but an inte...
Abstract: Intermittent faults are completely missed out by traditional monitoring and detection tech...
Literature survey and correspondence with industrial sector shows that No-Fault-Found (NFF) is a maj...
As we move deep into nanometer regime of CMOS VLSI (45nm node and below), the device noise margin ge...
With the advent of VLSI technology, the systems fabricated in deep sub micron technology are more pr...
Transient faults became an increasing issue in the past few years as smaller geometries of newer, hi...
none2This paper addresses the problems related to resistive opens and bridging faults which cannot ...
[[abstract]]The authors present a novel approach to designing TSC (totally self-checking) CMOS circu...
No fault found (NFF) is a major threat in extremely dependable high-end process node integrated syst...
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...
In avionics, like glide computers, the problem of No Faults Found (NFF) is a very serious and extrem...
Interconnection reliability threats dependability of highly critical electronic systems. One of most...
Interconnection reliability issues threat the dependability of highly dependable systems. One of the...
The most difficult fault category in electronic systems is the “No Fault Found‿ (NFF). It is conside...
There are various occurrences and root causes that result in no-fault-found (NFF) events but an inte...
Abstract: Intermittent faults are completely missed out by traditional monitoring and detection tech...
Literature survey and correspondence with industrial sector shows that No-Fault-Found (NFF) is a maj...
As we move deep into nanometer regime of CMOS VLSI (45nm node and below), the device noise margin ge...
With the advent of VLSI technology, the systems fabricated in deep sub micron technology are more pr...
Transient faults became an increasing issue in the past few years as smaller geometries of newer, hi...
none2This paper addresses the problems related to resistive opens and bridging faults which cannot ...
[[abstract]]The authors present a novel approach to designing TSC (totally self-checking) CMOS circu...