With technology scaling, innovative approaches in the device design are increasingly being explored. Improving device design is one of the focus areas for meeting the demand for low power high-speed circuit design. FinFET being the most promising device structure within the nanoscale regime, different structure variants of FinFET have been proposed and successfully implemented. In this paper, bulk FinFET device design is modified with a new design approach. Two different Si bulk trapezoidal FinFET devices, one with stacked gate and another with extended stacked gate are implemented using the 3D TCAD tool. The improvement in the performance metrics is denoted after comparing it with a simple trapezoidal Bulk FinFET device. Investigated perfo...
This paper reports the first ESD results on NMOS and gated diode devices processed in a bulk FinFET ...
Since Moore’s law driven scaling of planar MOSFETs faces formidable challenges in the nanometer regi...
DoctorBulk FinFETs have been successfully scaled down to 14-nm technology node by adapting rectangul...
Superior scalability and better gate-to-channel capacitive coupling can be achieved with adopting ga...
To continue the scaling of CMOS technology to 65 nm node and beyond, FinFET double-gate device struc...
This study aims to understand the potential of bulk FinFET technology from the perspective of sub-an...
This study aims to understand the potential of bulk FinFET technology from the perspective of sub- a...
In this study, we analyze the impacts of the trapezoidal fin shape of a double-gate FinFET on the el...
We present an insight into the parasitic capacitances of one of the most advanced silicon device ava...
Technology scaling below 22 nm has brought several detrimental effects such as increased short chann...
This paper describes the characteristics comparison of bulk FINFET and SOI FINFET. The scaling trend...
The Semiconductor industry has excelled the electronics market in providing high speed, power effici...
Abstract — A FinFET, a novel double-gate device structure is capable of scaling well into the nanoel...
Abstract—FinFET technology has been proposed as a promising alternative for deep sub-micron CMOS tec...
This paper reports the first ESD results on NMOS and gated diode devices processed in a bulk FinFET ...
This paper reports the first ESD results on NMOS and gated diode devices processed in a bulk FinFET ...
Since Moore’s law driven scaling of planar MOSFETs faces formidable challenges in the nanometer regi...
DoctorBulk FinFETs have been successfully scaled down to 14-nm technology node by adapting rectangul...
Superior scalability and better gate-to-channel capacitive coupling can be achieved with adopting ga...
To continue the scaling of CMOS technology to 65 nm node and beyond, FinFET double-gate device struc...
This study aims to understand the potential of bulk FinFET technology from the perspective of sub-an...
This study aims to understand the potential of bulk FinFET technology from the perspective of sub- a...
In this study, we analyze the impacts of the trapezoidal fin shape of a double-gate FinFET on the el...
We present an insight into the parasitic capacitances of one of the most advanced silicon device ava...
Technology scaling below 22 nm has brought several detrimental effects such as increased short chann...
This paper describes the characteristics comparison of bulk FINFET and SOI FINFET. The scaling trend...
The Semiconductor industry has excelled the electronics market in providing high speed, power effici...
Abstract — A FinFET, a novel double-gate device structure is capable of scaling well into the nanoel...
Abstract—FinFET technology has been proposed as a promising alternative for deep sub-micron CMOS tec...
This paper reports the first ESD results on NMOS and gated diode devices processed in a bulk FinFET ...
This paper reports the first ESD results on NMOS and gated diode devices processed in a bulk FinFET ...
Since Moore’s law driven scaling of planar MOSFETs faces formidable challenges in the nanometer regi...
DoctorBulk FinFETs have been successfully scaled down to 14-nm technology node by adapting rectangul...