session: Novel SOI StructuresInternational audienceA novel concept of multi-body 1T-DRAM cell fully compatible with both planar Silicon-On- Insulator substrates and 3D architectures is presented. Its scalability is ensured thanks to the dedicated body partitioning for hole storage and electron current sensing, suppressing the super-coupling effect and allowing the coexistence of electron and hole layers in very thin silicon films. Numerical simulations of the electrostatics and dynamic operation show attractive performance in terms of state discrimination and retention time. These theoretical results on planar devices have been experimentally validated on structures fabricated at CEA-LETI. Finally, we will demonstrate that this body-partiti...
none43D integration based on TSV (through silicon via) technology enables stacking of multiple memor...
Abstract: We fabricated fully depleted (FD) SOI-based 1T-DRAM cells with planar channel or recessed...
Convergence of communication, consumer applications and computing within mobile systems pushes memor...
session: Novel SOI StructuresInternational audienceA novel concept of multi-body 1T-DRAM cell fully ...
International audienceSeveral types of floating-body capacitorless 1T-DRAM memory cells with planar ...
This paper describes a three- dimensional DRAM in which the floating body capacitance (FBC) of a ful...
We present an overview of the single-transistor memory cells (lT-DRAMs), which are based on floating...
Selected Papers from the Workshop on Frontiers in Electronics 2011 (WOFE-11)San Juan, Puerto-Rico, 1...
Scaling considerations of conventional DRAMs lead to recent developments of capacitor-less, single-t...
none4siEnergy efficiency is the major optimization criterion for systems-on-chip (SoCs) for mobile d...
Energy efficiency is the key driver for the design optimization of System-on-Chips for mobile termi...
Capacitorless dynamic random access memory (DRAM) is a promising solution to cell-area scalability a...
As the DRAM cell shrinks, the down scaling becomes increasingly difficult in particular due to the c...
In this study, a capacitorless one-transistor dynamic random-access memory (1T-DRAM) based on a poly...
International audienceA2RAM prototype devices have been demonstrated in both SOI and bulk technologi...
none43D integration based on TSV (through silicon via) technology enables stacking of multiple memor...
Abstract: We fabricated fully depleted (FD) SOI-based 1T-DRAM cells with planar channel or recessed...
Convergence of communication, consumer applications and computing within mobile systems pushes memor...
session: Novel SOI StructuresInternational audienceA novel concept of multi-body 1T-DRAM cell fully ...
International audienceSeveral types of floating-body capacitorless 1T-DRAM memory cells with planar ...
This paper describes a three- dimensional DRAM in which the floating body capacitance (FBC) of a ful...
We present an overview of the single-transistor memory cells (lT-DRAMs), which are based on floating...
Selected Papers from the Workshop on Frontiers in Electronics 2011 (WOFE-11)San Juan, Puerto-Rico, 1...
Scaling considerations of conventional DRAMs lead to recent developments of capacitor-less, single-t...
none4siEnergy efficiency is the major optimization criterion for systems-on-chip (SoCs) for mobile d...
Energy efficiency is the key driver for the design optimization of System-on-Chips for mobile termi...
Capacitorless dynamic random access memory (DRAM) is a promising solution to cell-area scalability a...
As the DRAM cell shrinks, the down scaling becomes increasingly difficult in particular due to the c...
In this study, a capacitorless one-transistor dynamic random-access memory (1T-DRAM) based on a poly...
International audienceA2RAM prototype devices have been demonstrated in both SOI and bulk technologi...
none43D integration based on TSV (through silicon via) technology enables stacking of multiple memor...
Abstract: We fabricated fully depleted (FD) SOI-based 1T-DRAM cells with planar channel or recessed...
Convergence of communication, consumer applications and computing within mobile systems pushes memor...