Add to ORKGThe application of Dynamic Voltage Scaling (DVS) to reduce energy consumption may have a detrimental impact on the quality of manufacturing tests employed to detect permanent faults. This paper analyses the influence of different voltage/frequency settings on fault detection within a DVS application. In particular, the effect of supply voltage on different types of delay faults is considered. This paper presents a study of these problems with simulation results. We have demonstrated that the test application time increases as we reduce the test voltage. We have also shown that for newer technologies we do not have to go to very low voltage levels for delay fault testing. We conclude that it is necessary to test at more than one operating vo...
To meet the market demand, next generation of technology appears with increasing speed and performan...
The sensitivity of very deep submicron designs to supply volt-age noise is increasing due to higher ...
Abstract—In this paper, we present a dynamic voltage scaling (DVS) technique called Razor which inco...
The application of Dynamic Voltage Scaling (DVS) to reduce energy consumption may have a detrimental...
With the continued down-scaling of IC technology and increase in manufacturing process variations, i...
Delay-fault monitoring sensors are widely used for Dynamic Voltage and Frequency Scaling (DVFS) to c...
Abstract—Dynamic voltage scaling (DVS) has been widely adopted in multicore SoCs for reducing dynami...
Due to shrinking technology, increasing functional frequency and density, and reduced noise margins ...
Multi Voltage Design (MVD) has been successfully applied in contemporary processors as a technique t...
Scan-based delay testing increases power consumption, particularly peak power, due to excessive simu...
Resistive open faults (ROFs) represent common manufacturing defects in IC interconnects and result i...
The increasing clock frequencies have led to new fault effects of production defects. These so calle...
AbstractRecently, the tradeoff between low energy consumption and high fault-tolerance has attracted...
Abstract—In this paper, we present a dynamic voltage scaling (DVS) technique called Razor which inco...
The wide spread utilization of multiple supply voltages in contemporary VLSI designs and emerging te...
To meet the market demand, next generation of technology appears with increasing speed and performan...
The sensitivity of very deep submicron designs to supply volt-age noise is increasing due to higher ...
Abstract—In this paper, we present a dynamic voltage scaling (DVS) technique called Razor which inco...
The application of Dynamic Voltage Scaling (DVS) to reduce energy consumption may have a detrimental...
With the continued down-scaling of IC technology and increase in manufacturing process variations, i...
Delay-fault monitoring sensors are widely used for Dynamic Voltage and Frequency Scaling (DVFS) to c...
Abstract—Dynamic voltage scaling (DVS) has been widely adopted in multicore SoCs for reducing dynami...
Due to shrinking technology, increasing functional frequency and density, and reduced noise margins ...
Multi Voltage Design (MVD) has been successfully applied in contemporary processors as a technique t...
Scan-based delay testing increases power consumption, particularly peak power, due to excessive simu...
Resistive open faults (ROFs) represent common manufacturing defects in IC interconnects and result i...
The increasing clock frequencies have led to new fault effects of production defects. These so calle...
AbstractRecently, the tradeoff between low energy consumption and high fault-tolerance has attracted...
Abstract—In this paper, we present a dynamic voltage scaling (DVS) technique called Razor which inco...
The wide spread utilization of multiple supply voltages in contemporary VLSI designs and emerging te...
To meet the market demand, next generation of technology appears with increasing speed and performan...
The sensitivity of very deep submicron designs to supply volt-age noise is increasing due to higher ...
Abstract—In this paper, we present a dynamic voltage scaling (DVS) technique called Razor which inco...