One of the major roadblocks in the continued scaling of standard CMOS technology is its alarmingly high leakage power consumption. Although circuit and system level methods can be employed to reduce power, the fundamental limit in the overall energy efficiency of a system is still rooted in the MOSFET operating principle: an injection of thermally distributed carriers, which does not allow subthreshold swing (SS) lower than 60mV/dec at room temperature. Recently, a new class of steep-slope devices like Tunnel FETs (TFETs) and Negative-Capacitance FETs (NCFETs) have garnered intense interest due to their ability to surpass the 60mV/dec limit on SS at room temperature. The focus of this research is on the simulation and design of TFETs and NC...
In this work, we propose and investigate the high performance and low power design space of non-hyst...
The negative-capacitance field-effect transistor(NC-FET) has attracted tremendous research efforts. ...
In this paper, a novel low power consumption device based on a dopingless gate-all-around nanowire t...
One of the major roadblocks in the continued scaling of standard CMOS technology is its alarmingly h...
Conventional device scaling has been the main guiding principle of the MOS device engineering over t...
In this paper, we propose and analyse the performance of negative capacitance tunnel field-effect-tr...
In the last couple decades, the phenomenal growth of mobile electronics is fueling thedemand for mul...
The progress of state-of-art electronics requires CMOS technology to be more powerful and power effi...
Nanowire tunnel field-effect transistors (TFETs) have been proposed as the most advanced one-dimensi...
Over the last 50 years, conventional scaling (Moore’s law) has provided continuous improvement in se...
This letter reports for the first time a full experimental study of performance boosting of tunnel F...
Silicon based CMOS technology has been the driven force for semiconductor industry for decades. With...
We report the universal boosting impact of a true negative capacitance (NC) effect on digital and an...
Compact model plays an important role in designing integrated circuits and serves as a bridge to sha...
Continuous downscaling of CMOS technology at the nanometer scale with conventional MOSFETs leads to ...
In this work, we propose and investigate the high performance and low power design space of non-hyst...
The negative-capacitance field-effect transistor(NC-FET) has attracted tremendous research efforts. ...
In this paper, a novel low power consumption device based on a dopingless gate-all-around nanowire t...
One of the major roadblocks in the continued scaling of standard CMOS technology is its alarmingly h...
Conventional device scaling has been the main guiding principle of the MOS device engineering over t...
In this paper, we propose and analyse the performance of negative capacitance tunnel field-effect-tr...
In the last couple decades, the phenomenal growth of mobile electronics is fueling thedemand for mul...
The progress of state-of-art electronics requires CMOS technology to be more powerful and power effi...
Nanowire tunnel field-effect transistors (TFETs) have been proposed as the most advanced one-dimensi...
Over the last 50 years, conventional scaling (Moore’s law) has provided continuous improvement in se...
This letter reports for the first time a full experimental study of performance boosting of tunnel F...
Silicon based CMOS technology has been the driven force for semiconductor industry for decades. With...
We report the universal boosting impact of a true negative capacitance (NC) effect on digital and an...
Compact model plays an important role in designing integrated circuits and serves as a bridge to sha...
Continuous downscaling of CMOS technology at the nanometer scale with conventional MOSFETs leads to ...
In this work, we propose and investigate the high performance and low power design space of non-hyst...
The negative-capacitance field-effect transistor(NC-FET) has attracted tremendous research efforts. ...
In this paper, a novel low power consumption device based on a dopingless gate-all-around nanowire t...