In this paper, we explore the potentialities of TFET-based circuits operating in the ultra-low voltage regime. We show that the problem of unidirectional transport in 6T SRAMs can be solved by employing outward-facing access-transistors and suitable voltage levels during the read. We propose the level shifter as a key application domain of the hybrid TFET-MOSFET deployment strategy. By using the full adder as a benchmark vehicle, we observe that III-V TFETs will allow for a much better energy efficiency than future 10 nm node CMOS FinFETs at low VDD
In this paper, a III-V nanowire TFET technology platform is compared against the predictive technolo...
We use mixed device-circuit simulations to predict the performance of 6T static RAM (SRAM) cells imp...
In this paper, the advantages and the challenges posed by Tunnel FETs (TFETs) are studied in the con...
In this paper, we explore the potentialities of TFET-based circuits operating in the ultra-low volta...
Tunnel-FET is one of the most promising candidates to replace CMOS in low-power (LP) applications [1...
In this paper, we identify the level shifter (LS) for voltage up-conversion from the ultralow-voltag...
In this paper, five projected tunnel FET (TFET) technologies are evaluated and compared with MOSFET ...
his paper and the companion work present the results of a comparative study between the tunnel-FETs ...
Abstract — Steep sub-threshold transistors are promising candi-dates to replace the traditional MOSF...
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...
The scaling of the supply voltage VDD is an effective way to reduce power dissipation in digital ci...
We use mixed device-circuit simulations to predict the performance of 6T static RAM (SRAM) cells imp...
In this paper, the potential of Tunnel FETs (TFETs) for ultra-low power operation is investigated in...
In Part II of this paper, the potential of tunnel FETs (TFETs) for ultra-low voltage (ULV)/ultra-low...
In this paper, a III-V nanowire TFET technology platform is compared against the predictive technolo...
We use mixed device-circuit simulations to predict the performance of 6T static RAM (SRAM) cells imp...
In this paper, the advantages and the challenges posed by Tunnel FETs (TFETs) are studied in the con...
In this paper, we explore the potentialities of TFET-based circuits operating in the ultra-low volta...
Tunnel-FET is one of the most promising candidates to replace CMOS in low-power (LP) applications [1...
In this paper, we identify the level shifter (LS) for voltage up-conversion from the ultralow-voltag...
In this paper, five projected tunnel FET (TFET) technologies are evaluated and compared with MOSFET ...
his paper and the companion work present the results of a comparative study between the tunnel-FETs ...
Abstract — Steep sub-threshold transistors are promising candi-dates to replace the traditional MOSF...
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...
The scaling of the supply voltage VDD is an effective way to reduce power dissipation in digital ci...
We use mixed device-circuit simulations to predict the performance of 6T static RAM (SRAM) cells imp...
In this paper, the potential of Tunnel FETs (TFETs) for ultra-low power operation is investigated in...
In Part II of this paper, the potential of tunnel FETs (TFETs) for ultra-low voltage (ULV)/ultra-low...
In this paper, a III-V nanowire TFET technology platform is compared against the predictive technolo...
We use mixed device-circuit simulations to predict the performance of 6T static RAM (SRAM) cells imp...
In this paper, the advantages and the challenges posed by Tunnel FETs (TFETs) are studied in the con...