Delay-fault monitoring sensors are widely used for Dynamic Voltage and Frequency Scaling (DVFS) to compensate for intrinsic Process, Voltage, Temperature and Ageing (PVTA) variations. Such techniques are generally based on monitoring the circuit’s critical paths. This paper presents a new delay-fault monitoring circuit, which is able to monitoring multiple paths simultaneously. The proposed circuitry has been designed and verified in a 32 bit MIPS processor using a 65nm technology. Our results indicate that the use of the proposed sensor for delay monitoring can lead to a significant saving in area and power overheads of two-thirds and one-third, respectively, compared to a canary flip-flop
With the continued down-scaling of IC technology and increase in manufacturing process variations, i...
The monitoring of critical-paths in Systems-on-Chip to ensure dependable operation during the lifeti...
Abstract—In situ monitoring is an accurate way to monitor circuit delay or timing slack, but usually...
Aggressive technology shrinking has increased the sensitivity of integrated circuits in terms of dev...
Aggressive technology scaling has accelerated the susceptibility of CMOS devices to aging effects. C...
Aggressive technology scaling has accelerated the ageing of CMOS devices. Ageing refers to a slow pr...
Aggressive technology scaling has accelerated the ageing of CMOS devices. Ageing refers to a slow pr...
International audienceTo compensate the variability effects in advanced technologies, Process, Volta...
The application of Dynamic Voltage Scaling (DVS) to reduce energy consumption may have a detrimental...
Abstract—A novel integrated approach for delay-fault testing in external (automatic-test-equipment-b...
This paper presents an improved measure for the dynamic functionality of a logic circuit, called del...
With the scaling of CMOS technology, critical paths in digital circuits have become largely sensitiv...
In the current context of strict low-power requirements, complex dynamic frequency and voltage scale...
Aggressive technology scaling has been the mainstay of digital CMOS circuit design for the past 30 y...
An all-digital on-chip delay sensor (OCDS) circuit with high delay-measurement resolution and low su...
With the continued down-scaling of IC technology and increase in manufacturing process variations, i...
The monitoring of critical-paths in Systems-on-Chip to ensure dependable operation during the lifeti...
Abstract—In situ monitoring is an accurate way to monitor circuit delay or timing slack, but usually...
Aggressive technology shrinking has increased the sensitivity of integrated circuits in terms of dev...
Aggressive technology scaling has accelerated the susceptibility of CMOS devices to aging effects. C...
Aggressive technology scaling has accelerated the ageing of CMOS devices. Ageing refers to a slow pr...
Aggressive technology scaling has accelerated the ageing of CMOS devices. Ageing refers to a slow pr...
International audienceTo compensate the variability effects in advanced technologies, Process, Volta...
The application of Dynamic Voltage Scaling (DVS) to reduce energy consumption may have a detrimental...
Abstract—A novel integrated approach for delay-fault testing in external (automatic-test-equipment-b...
This paper presents an improved measure for the dynamic functionality of a logic circuit, called del...
With the scaling of CMOS technology, critical paths in digital circuits have become largely sensitiv...
In the current context of strict low-power requirements, complex dynamic frequency and voltage scale...
Aggressive technology scaling has been the mainstay of digital CMOS circuit design for the past 30 y...
An all-digital on-chip delay sensor (OCDS) circuit with high delay-measurement resolution and low su...
With the continued down-scaling of IC technology and increase in manufacturing process variations, i...
The monitoring of critical-paths in Systems-on-Chip to ensure dependable operation during the lifeti...
Abstract—In situ monitoring is an accurate way to monitor circuit delay or timing slack, but usually...