Random telegraph noise (RTN) adversely impacts circuit performance and this impact increases for smaller devices and lower operation voltage. To optimize the circuit design, many efforts have been made to model RTN. RTN is highly stochastic, with significant device-to-device variations (DDVs). Early works often characterize individual traps first and then group them together to extract their statistical distributions. This bottom-up approach suffers from limitations in the number of traps it is possible to measure, especially for the capture and emission time constants, calling the reliability of extracted distributions into question. Several compact models have been proposed, but their ability to predict long-term RTN is not verified. Many...
In this paper, we discuss some of the measurement and analysis techniques for Random Telegraph Noise...
This paper presents a new technique to analyze the characteristics of multi-level random telegraph n...
Abstract: In this paper, we delve into one of the most relevant defects-related phenomena causing f...
Random Telegraph Noise (RTN) adversely impacts circuit performance and this impact increases for sma...
Random telegraph noise (RTN) adversely induces time dependent device-to-device variations and requir...
As transistor sizes are downscaled, a single trapped charge has a larger impact on smaller devices a...
Abstract—Random telegraph noise (RTN) has become an important reliability issue at the sub-65nm tech...
The power consumption of digital circuits is proportional to the square of operation voltage and the...
Random telegraph noise (RTN) is one of the important dynamic variation sources in ultrascaled MOSFET...
In this paper, we propose new guidelines for the analysis of random telegraph noise (RTN) in electro...
Random telegraph noise (RTN) has been long debated in many theoretical and experimental studies. Its...
In this work, we report a detailed discussion on the techniques and the requirements needed to enabl...
Since devices actually operate under AC signals in digital circuits, it is more informative to study...
It is difficult to measure the random telegraph noises (RTN) of MOSFET subthreshold currents at the ...
Random telegraph signal (RTS) noise has shown an increased impact on circuit performance at advanced...
In this paper, we discuss some of the measurement and analysis techniques for Random Telegraph Noise...
This paper presents a new technique to analyze the characteristics of multi-level random telegraph n...
Abstract: In this paper, we delve into one of the most relevant defects-related phenomena causing f...
Random Telegraph Noise (RTN) adversely impacts circuit performance and this impact increases for sma...
Random telegraph noise (RTN) adversely induces time dependent device-to-device variations and requir...
As transistor sizes are downscaled, a single trapped charge has a larger impact on smaller devices a...
Abstract—Random telegraph noise (RTN) has become an important reliability issue at the sub-65nm tech...
The power consumption of digital circuits is proportional to the square of operation voltage and the...
Random telegraph noise (RTN) is one of the important dynamic variation sources in ultrascaled MOSFET...
In this paper, we propose new guidelines for the analysis of random telegraph noise (RTN) in electro...
Random telegraph noise (RTN) has been long debated in many theoretical and experimental studies. Its...
In this work, we report a detailed discussion on the techniques and the requirements needed to enabl...
Since devices actually operate under AC signals in digital circuits, it is more informative to study...
It is difficult to measure the random telegraph noises (RTN) of MOSFET subthreshold currents at the ...
Random telegraph signal (RTS) noise has shown an increased impact on circuit performance at advanced...
In this paper, we discuss some of the measurement and analysis techniques for Random Telegraph Noise...
This paper presents a new technique to analyze the characteristics of multi-level random telegraph n...
Abstract: In this paper, we delve into one of the most relevant defects-related phenomena causing f...