This paper presents a thorough statistical investigation of random telegraph noise (RTN) and bias temperature instabilities (BTIs) in nanoscale MOSFETs. By means of 3D TCAD 'atomistic' simulations, we evaluate the statistical distribution in capture/emission time constants and in threshold voltage shift (DVT) amplitudes due to single trapped charge, comparing its impact on RTN and BTI. Our analysis shows that the individual BTI DVT steps are distributed identically as the RTN DVT steps. However, the individual traps in a device cannot be considered as uncorrelated sources of noise because their mutual interaction is fundamental in determining the dispersion of capture/emission time constants in BTI simulation. Further, we show that devices ...
Abstract—Random telegraph noise (RTN) and negative bias temperature (NBT) stress-induced threshold v...
In this paper, a new pattern of anomalous random telegraph noise (RTN), named "reversal RTN&quo...
International audienceLow frequency noise (LFN) and random telegraph noise (RTN) are investigated st...
Random telegraph noise (RTN) has been long debated in many theoretical and experimental studies. Its...
In this work we present a 3D dynamic simulation analysis for the reliability evaluation of a decanan...
This paper investigates the limitations to the accuracy and the main issues of the spectroscopic ana...
The power consumption of digital circuits is proportional to the square of operation voltage and the...
This letter presents a numerical investigation of the statistical distribution of the random telegra...
This letter presents a numerical investigation of the statistical distribution of the random telegra...
We have found a systematic way to identify the bias conditions to observe the Random-Telegraph-Noise...
Since devices actually operate under AC signals in digital circuits, it is more informative to study...
In this paper, the amplitude (Delta I-d/I-d) distribution of random telegraph noise (RTN) induced by...
International audienceIn this work, we present our latest modeling approaches regarding low-frequenc...
We report a thorough 3-D simulation study of the correlation between multiple, trapped charges in th...
As devices scaling down into nanometer region, the random telegraph noise (RTN) has become a signifi...
Abstract—Random telegraph noise (RTN) and negative bias temperature (NBT) stress-induced threshold v...
In this paper, a new pattern of anomalous random telegraph noise (RTN), named "reversal RTN&quo...
International audienceLow frequency noise (LFN) and random telegraph noise (RTN) are investigated st...
Random telegraph noise (RTN) has been long debated in many theoretical and experimental studies. Its...
In this work we present a 3D dynamic simulation analysis for the reliability evaluation of a decanan...
This paper investigates the limitations to the accuracy and the main issues of the spectroscopic ana...
The power consumption of digital circuits is proportional to the square of operation voltage and the...
This letter presents a numerical investigation of the statistical distribution of the random telegra...
This letter presents a numerical investigation of the statistical distribution of the random telegra...
We have found a systematic way to identify the bias conditions to observe the Random-Telegraph-Noise...
Since devices actually operate under AC signals in digital circuits, it is more informative to study...
In this paper, the amplitude (Delta I-d/I-d) distribution of random telegraph noise (RTN) induced by...
International audienceIn this work, we present our latest modeling approaches regarding low-frequenc...
We report a thorough 3-D simulation study of the correlation between multiple, trapped charges in th...
As devices scaling down into nanometer region, the random telegraph noise (RTN) has become a signifi...
Abstract—Random telegraph noise (RTN) and negative bias temperature (NBT) stress-induced threshold v...
In this paper, a new pattern of anomalous random telegraph noise (RTN), named "reversal RTN&quo...
International audienceLow frequency noise (LFN) and random telegraph noise (RTN) are investigated st...