Gate misalignment and process variations are important challenges in sub-20 nm gate length planar double-gate (DG) MOSFET devices. For the first time, we demonstrate a misalignment- and process variations-aware device optimization strategy for a DG-MOSFET. Using underlaps and high-kappa offset-spacers, we show that the robustness of the device to gate misalignment and process variations can be improved. A standard 6T-SRAM cell designed using the optimized devices shows better read and hold static noise margins, and lower variations in SNM and leakage power compared to a conventional DG-MOSFET
Double-Gate (DG) transistors have emerged as promising devices for nano-scale circuits due to their ...
Sub-10nm gate length transistors have severe short channel effects along with new leakage mechanisms...
Compact, physics-based models of subthreshold swing and threshold voltage are presented for double-g...
Gate misalignment and process variations are important challenges in sub-20 nm gate length planar do...
The double-gate (DG) MOSFETs have been identified in the International Technology Roadmap for Semico...
Ultrathin body MOSFETs are suitable in sub-50nm technologies due to their excellent immunity to shor...
The effects of bottom gate misalignment in symmetric double-gate MOSFET's are examined in this paper...
Abstract — Double-Gate (DG) MOSFET has emerged as one of the most promising devices for logic and me...
This work uses an extensive number of simulations to determine the usability of DG MOSFETs in SRAM c...
Multi-gate FETs are emerging as promising devices for scaled technologies due to their superior gate...
Double gate (DG) MOSFETs have recently attracted much attention for both logic and analog/RF applica...
In this paper, the characteristic variability in gate-all-around (GAA) silicon nanowire MOSFETs (SNW...
Impacts of parameter variations on the performance of double-gate (DG) tunneling FET (TFET) and conv...
This paper covers the fundamentals of SDGFETs and ADGFETs. Drain modern fashions for unmarried gate ...
The further improvement of nanoscale electron devices requires support by numerical simulations with...
Double-Gate (DG) transistors have emerged as promising devices for nano-scale circuits due to their ...
Sub-10nm gate length transistors have severe short channel effects along with new leakage mechanisms...
Compact, physics-based models of subthreshold swing and threshold voltage are presented for double-g...
Gate misalignment and process variations are important challenges in sub-20 nm gate length planar do...
The double-gate (DG) MOSFETs have been identified in the International Technology Roadmap for Semico...
Ultrathin body MOSFETs are suitable in sub-50nm technologies due to their excellent immunity to shor...
The effects of bottom gate misalignment in symmetric double-gate MOSFET's are examined in this paper...
Abstract — Double-Gate (DG) MOSFET has emerged as one of the most promising devices for logic and me...
This work uses an extensive number of simulations to determine the usability of DG MOSFETs in SRAM c...
Multi-gate FETs are emerging as promising devices for scaled technologies due to their superior gate...
Double gate (DG) MOSFETs have recently attracted much attention for both logic and analog/RF applica...
In this paper, the characteristic variability in gate-all-around (GAA) silicon nanowire MOSFETs (SNW...
Impacts of parameter variations on the performance of double-gate (DG) tunneling FET (TFET) and conv...
This paper covers the fundamentals of SDGFETs and ADGFETs. Drain modern fashions for unmarried gate ...
The further improvement of nanoscale electron devices requires support by numerical simulations with...
Double-Gate (DG) transistors have emerged as promising devices for nano-scale circuits due to their ...
Sub-10nm gate length transistors have severe short channel effects along with new leakage mechanisms...
Compact, physics-based models of subthreshold swing and threshold voltage are presented for double-g...