2D numerical TCAD simulations are used to infer the behavior of III-V capacitor-less dynamic RAM (DRAM) cells. In particular, indium gallium arsenide on insulator technology is selected to verify the viability of III-V meta-stable-dip RAM cells. The cell performance dependence on several parameters (such as the back-gate voltage, semiconductor thickness, indium/gallium mole fraction or interface traps) and simulation models (like ballisticity or spatial quantum confinement) is analyzed and commented. Functional cells are presented and compared with analogous silicon 1T-DRAM memories to highlight the advantages and drawbacks.This work was supported by H2020 REMINDER European under Grant 687931, and in part by the Spanish National Proj...
Scaling considerations of conventional DRAMs lead to recent developments of capacitor-less, single-t...
Thin-oxide Z2-FET cells operating as capacitor-less DRAM devices are experimentally demonstrated. Bo...
A capacitorless one-transistor dynamic random-access memory device (1T-DRAM) is proposed to resolve ...
2D numerical TCAD simulations are used to infer the behavior of III-V capacitor-less dynamic RAM (D...
Dynamic random access memory (DRAM) cells are commonly used in electronic devices and are formed fro...
2-D numerical simulations are used to demonstrate the Z²-FET as a competitive embedded capacitor-les...
2-D numerical simulations are used to demonstrate the Z2-FET as a competitive embedded capacitorless...
3-D numerical technology computer-aided design simulations, based on experimental results, are perfo...
With the upcoming Internet of Things (IoT), low-power devices are becoming mainstream these days. T...
This article has been accepted for publication by IEEE "Navarro Moral, C.; et al. Extended analysis ...
TCAD simulations have been performed using SILVACO ATLAS 2D device simulator for a Zero-Capacitor Ra...
The introduction of digital GaAs into modern high-speed computing systems has led to an increasing d...
Capacitorless dynamic random access memory (DRAM) is a promising solution to cell-area scalability a...
The Z²-FET operation as capacitorless DRAM is analyzed using advanced 2-D TCAD simulations for IoT ...
As the technology in electronic circuits is improving, the complexity in these circuits also increas...
Scaling considerations of conventional DRAMs lead to recent developments of capacitor-less, single-t...
Thin-oxide Z2-FET cells operating as capacitor-less DRAM devices are experimentally demonstrated. Bo...
A capacitorless one-transistor dynamic random-access memory device (1T-DRAM) is proposed to resolve ...
2D numerical TCAD simulations are used to infer the behavior of III-V capacitor-less dynamic RAM (D...
Dynamic random access memory (DRAM) cells are commonly used in electronic devices and are formed fro...
2-D numerical simulations are used to demonstrate the Z²-FET as a competitive embedded capacitor-les...
2-D numerical simulations are used to demonstrate the Z2-FET as a competitive embedded capacitorless...
3-D numerical technology computer-aided design simulations, based on experimental results, are perfo...
With the upcoming Internet of Things (IoT), low-power devices are becoming mainstream these days. T...
This article has been accepted for publication by IEEE "Navarro Moral, C.; et al. Extended analysis ...
TCAD simulations have been performed using SILVACO ATLAS 2D device simulator for a Zero-Capacitor Ra...
The introduction of digital GaAs into modern high-speed computing systems has led to an increasing d...
Capacitorless dynamic random access memory (DRAM) is a promising solution to cell-area scalability a...
The Z²-FET operation as capacitorless DRAM is analyzed using advanced 2-D TCAD simulations for IoT ...
As the technology in electronic circuits is improving, the complexity in these circuits also increas...
Scaling considerations of conventional DRAMs lead to recent developments of capacitor-less, single-t...
Thin-oxide Z2-FET cells operating as capacitor-less DRAM devices are experimentally demonstrated. Bo...
A capacitorless one-transistor dynamic random-access memory device (1T-DRAM) is proposed to resolve ...