The dependence of random telegraph noise (RTN) amplitude distribution on the number of traps and trap depth position is investigated using three-dimensional Monte Carlo device simulation including random dopant fluctuation (RDF) in a 30 nm NAND multi level flash memory. The Delta V-th tail distribution becomes broad at fixed double traps, indicating that the number of traps greatly affects the worst RTN characteristics. It is also found that for both fixed single and fixed double traps, the Delta V-th distribution in the lowest cell threshold voltage (V-th) state shows the broadest distribution among all cell V-th states. This is because the drain current flows at the channel surface in the lowest cell V-th state, while at a high cell V-th,...
The threshold voltage distribution after ideal programming in NAND flash memory cells is usually dis...
This paper presents a new physics-based statistical model for random telegraph noise in Flash memori...
Random telegraph noise (RTN) is an important intrinsic phenomenon of any logic or memory device that...
The dependence of random telegraph noise (RTN) amplitude distribution on the number of traps and tra...
The dependence of spatial and statistical distribution of random telegraph noise (RTN) in a 30 nm NA...
In this work we present a systematic investigation concerning the correlation of Random Telegraph No...
This paper presents a comprehensive investigation of random telegraph noise (RTN) in deca–nanometer...
We present a thorough investigation of the random telegraph noise scaling trend for both NAND and NO...
This work investigates the statistical distribution of random telegraph noise drain current instabil...
In this paper, we review the phenomenology of random telegraph noise (RTN) in 3D NAND Flash arrays. ...
The threshold voltage fluctuation of one cell in NOR flash memory is investigated for the first time...
The threshold voltage distribution after ideal programming in NAND flash memory cells is usually dis...
This paper presents a new physics-based statistical model for random telegraph noise in Flash memori...
Random telegraph noise (RTN) is an important intrinsic phenomenon of any logic or memory device that...
The dependence of random telegraph noise (RTN) amplitude distribution on the number of traps and tra...
The dependence of spatial and statistical distribution of random telegraph noise (RTN) in a 30 nm NA...
In this work we present a systematic investigation concerning the correlation of Random Telegraph No...
This paper presents a comprehensive investigation of random telegraph noise (RTN) in deca–nanometer...
We present a thorough investigation of the random telegraph noise scaling trend for both NAND and NO...
This work investigates the statistical distribution of random telegraph noise drain current instabil...
In this paper, we review the phenomenology of random telegraph noise (RTN) in 3D NAND Flash arrays. ...
The threshold voltage fluctuation of one cell in NOR flash memory is investigated for the first time...
The threshold voltage distribution after ideal programming in NAND flash memory cells is usually dis...
This paper presents a new physics-based statistical model for random telegraph noise in Flash memori...
Random telegraph noise (RTN) is an important intrinsic phenomenon of any logic or memory device that...