A platform for benchmarking tunnel field-effect transistors (TFETs) for analog applications is presented and used to compare selected TFETs to FinFET technology at the 14-nm node. This benchmarking is enabled by the development of a universal TFET SPICE model and a parameter extraction procedure based on data from physics-based device simulators. Analog figures of merit are computed versus current density to compare TFETs with CMOS for low-power analog applications to reveal promising directions for the system development. To illustrate the design space enabled by TFETs featuring sub-60-mV/decade subthreshold swing, two example circuits including a picopower common-source amplifier and an ultralow-voltage ring oscillator are demonstrated
More and more novel devices are being proposed these days. They have advantages in the some device p...
N-and P-type transistors from a 14 nm finFET technology have been tested from the standpoint of stat...
Using calibrated simulations, we report the In0.35Ga0.65As based tunnel field-effect transistor (TFE...
In this work, we investigate by means of simulations the performance of basic digital, analog, and m...
In this work different generations of field effect tunneling transistor (TFET) are evaluated through...
In this paper, the analog/mixed-signal performance is evaluated at device and circuit levels for a I...
In this paper, the analog/mixed-signal performance is evaluated at device and circuit levels for a I...
Continuing scaling of transistors as density approaches the terascale regime (1012 devices/cm2) requ...
In this paper, five projected tunnel FET (TFET) technologies are evaluated and compared with MOSFET ...
In the past decade the Tunnel Field Effect Transistor (TFET) relying on band-To-band tunneling (BTBT...
In this paper, the potential of Tunnel FETs (TFETs) for ultra-low power operation is investigated in...
As the conventional metal oxide semiconductor field-effect transistor (MOSFET) keep scaling down to ...
his paper and the companion work present the results of a comparative study between the tunnel-FETs ...
Miniaturization and portable devices have reshaped the electronic device landscape, emphasizing the ...
This paper presents a comparative study between Tunnel-FETs (TFETs) and SOI MOSFETs for ultra-low po...
More and more novel devices are being proposed these days. They have advantages in the some device p...
N-and P-type transistors from a 14 nm finFET technology have been tested from the standpoint of stat...
Using calibrated simulations, we report the In0.35Ga0.65As based tunnel field-effect transistor (TFE...
In this work, we investigate by means of simulations the performance of basic digital, analog, and m...
In this work different generations of field effect tunneling transistor (TFET) are evaluated through...
In this paper, the analog/mixed-signal performance is evaluated at device and circuit levels for a I...
In this paper, the analog/mixed-signal performance is evaluated at device and circuit levels for a I...
Continuing scaling of transistors as density approaches the terascale regime (1012 devices/cm2) requ...
In this paper, five projected tunnel FET (TFET) technologies are evaluated and compared with MOSFET ...
In the past decade the Tunnel Field Effect Transistor (TFET) relying on band-To-band tunneling (BTBT...
In this paper, the potential of Tunnel FETs (TFETs) for ultra-low power operation is investigated in...
As the conventional metal oxide semiconductor field-effect transistor (MOSFET) keep scaling down to ...
his paper and the companion work present the results of a comparative study between the tunnel-FETs ...
Miniaturization and portable devices have reshaped the electronic device landscape, emphasizing the ...
This paper presents a comparative study between Tunnel-FETs (TFETs) and SOI MOSFETs for ultra-low po...
More and more novel devices are being proposed these days. They have advantages in the some device p...
N-and P-type transistors from a 14 nm finFET technology have been tested from the standpoint of stat...
Using calibrated simulations, we report the In0.35Ga0.65As based tunnel field-effect transistor (TFE...