The scaling of bulk MOSFETs transistors is facing various difficulties at the nanometer era. The variability of the electrical characteristics becomes a major challenge which increases as the device dimensions are scaled down. Fully-Depleted Silicon On Insulator (FDSOI) technology, developed as an alternative to bulk transistors, exhibits a better electrostatic immunity which enables higher performances. Moreover, the reduction of the Random Dopant Fluctuation allows excellent variability immunity for the FDSOI technology due to its undoped channel. It leads to a yield enhancement and a reduction of the minimum supply voltage of SRAM circuits. The variability has been analyzed deeply during this thesis in this technology, both on the thresh...
L’industrie microélectronique arrive aujourd’hui à concevoir des transistors atteignant quelquesdiza...
The CMOS scaling increases the impact of intrinsic parameter fluctuation on the yield and functional...
We investigate the statistical variability of the threshold voltage and its sensitivity to critical ...
The scaling of bulk MOSFETs transistors is facing various difficulties at the nanometer era. The var...
La miniaturisation des transistors MOSFETs sur silicium massif présente de nombreux enjeux en raison...
As transistor dimensions are scaled down in accordance with Moore's Law to provide for improved perf...
In this article, the impact of random fluctuation sources, such as metal gate granularity (MGG), lin...
La course à la miniaturisation requiert l'introduction d'architectures de transistors innovantes enr...
.Thin film technologies appear as reliable solutions for Nano electronics to go beyond bulk silicon ...
Simulations of up to 10000 fully depleted thin-body silicon-on-insulator MOSFETs show that the stand...
Driven by the strong growth of smartphone and tablet devices, an exponential growth for the mobile S...
The Ultra-Thin Body and Buried oxide Fully Depleted Silicon On Insulator (UTBB FDSOI) CMOS technolog...
As CMOS device dimensions are being aggressively scaled, the device characteristic must be assessed ...
Fully Depleted Silicon on Insulator (FDSOI) and Fin Field Effect Transistor (FinFET) are new innovat...
Statistical variability in ultra-scaled CMOS devices is a major challenge faced by the semiconductor...
L’industrie microélectronique arrive aujourd’hui à concevoir des transistors atteignant quelquesdiza...
The CMOS scaling increases the impact of intrinsic parameter fluctuation on the yield and functional...
We investigate the statistical variability of the threshold voltage and its sensitivity to critical ...
The scaling of bulk MOSFETs transistors is facing various difficulties at the nanometer era. The var...
La miniaturisation des transistors MOSFETs sur silicium massif présente de nombreux enjeux en raison...
As transistor dimensions are scaled down in accordance with Moore's Law to provide for improved perf...
In this article, the impact of random fluctuation sources, such as metal gate granularity (MGG), lin...
La course à la miniaturisation requiert l'introduction d'architectures de transistors innovantes enr...
.Thin film technologies appear as reliable solutions for Nano electronics to go beyond bulk silicon ...
Simulations of up to 10000 fully depleted thin-body silicon-on-insulator MOSFETs show that the stand...
Driven by the strong growth of smartphone and tablet devices, an exponential growth for the mobile S...
The Ultra-Thin Body and Buried oxide Fully Depleted Silicon On Insulator (UTBB FDSOI) CMOS technolog...
As CMOS device dimensions are being aggressively scaled, the device characteristic must be assessed ...
Fully Depleted Silicon on Insulator (FDSOI) and Fin Field Effect Transistor (FinFET) are new innovat...
Statistical variability in ultra-scaled CMOS devices is a major challenge faced by the semiconductor...
L’industrie microélectronique arrive aujourd’hui à concevoir des transistors atteignant quelquesdiza...
The CMOS scaling increases the impact of intrinsic parameter fluctuation on the yield and functional...
We investigate the statistical variability of the threshold voltage and its sensitivity to critical ...