NROM memory cells are proposed as one of the most promising non-volatile memories. Issues on scaling and endurance have risen due to the presence of both electrons and holes, for the control of their relative position and spread in the charge trapping material. Therefore, a deeper analysis of the injected-charge distribution region is very important for program/erase bias optimization, reliability prediction and future scaling. In this paper, we will introduce and discuss two tools, based on subthreshold slope and temperature effects, able to correctly estimate program charge distribution features from simple ID – VGS measurements
We present a detailed analytical modeling for the constant-current Fowler–Nordheim program operation...
This paper presents a detailed simulation investigation of the impact of statistical variability and...
This paper investigates the ultimate accuracy of the NAND Flash program algorithm that is determined...
NROM memory cells are proposed as one of the most promising non-volatile memories. Issues on scaling...
NROM memory cells are proposed as one of the most promising non-volatile memories. Issues on scaling...
NROM memory cells are proposed as one of the most promising non-volatile memories. Issues on scaling...
NROM memory cells are proposed as promising nonvolatile memories. Even though these devices should ...
The aim of this paper is to achieve a correct description of programming charge distribution in NROM...
The NROM cell concept has been introduced as a promising technology to replace Flash non-volatile me...
In this work, we presented a new technique to profile hole distribution in NROM devices. The evoluti...
The NROM-cell concept has been introduced as a promising technology to replace Flash nonvolatile mem...
The NROM-cell concept has been introduced as a promising technology to replace Flash nonvolatile mem...
Charge loss mechanisms of nanoscale charge trap non-volatile memory devices are carefully examined a...
An alternative solution to standard Flash memories is represented by nitride-trap memories as silico...
Non-Volatile Memory (NVM) devices store data in floating gates in binary form with electrical charge...
We present a detailed analytical modeling for the constant-current Fowler–Nordheim program operation...
This paper presents a detailed simulation investigation of the impact of statistical variability and...
This paper investigates the ultimate accuracy of the NAND Flash program algorithm that is determined...
NROM memory cells are proposed as one of the most promising non-volatile memories. Issues on scaling...
NROM memory cells are proposed as one of the most promising non-volatile memories. Issues on scaling...
NROM memory cells are proposed as one of the most promising non-volatile memories. Issues on scaling...
NROM memory cells are proposed as promising nonvolatile memories. Even though these devices should ...
The aim of this paper is to achieve a correct description of programming charge distribution in NROM...
The NROM cell concept has been introduced as a promising technology to replace Flash non-volatile me...
In this work, we presented a new technique to profile hole distribution in NROM devices. The evoluti...
The NROM-cell concept has been introduced as a promising technology to replace Flash nonvolatile mem...
The NROM-cell concept has been introduced as a promising technology to replace Flash nonvolatile mem...
Charge loss mechanisms of nanoscale charge trap non-volatile memory devices are carefully examined a...
An alternative solution to standard Flash memories is represented by nitride-trap memories as silico...
Non-Volatile Memory (NVM) devices store data in floating gates in binary form with electrical charge...
We present a detailed analytical modeling for the constant-current Fowler–Nordheim program operation...
This paper presents a detailed simulation investigation of the impact of statistical variability and...
This paper investigates the ultimate accuracy of the NAND Flash program algorithm that is determined...