Tunnel transistors are one of the most attractive steep subthreshold slope devices which are being investigating to overcome power density and energy inefficiency exhibited by CMOS technology. These transistors exhibit asymmetric conduction which can cause sustained noise voltage pulses (bootstrapping) within digital TFETs circuits leading to delay degradation. In this paper, we propose a minor modification of the complementary gate topology to avoid the bootstrapping problem and show its impact on speed at the circuit level. Speed improvements up to 33% have been obtained for 8-bit Ripple Carry Adders when implemented with our solution.Ministerio de Ecoomía y Competitividad TEC2013-40670-
As the conventional metal oxide semiconductor field-effect transistor (MOSFET) keep scaling down to ...
Devices combining transistors and phase transition materials are being investigated to obtain steep ...
Continuing scaling of transistors as density approaches the terascale regime (1012 devices/cm2) requ...
Tunnel transistors are one of the most attractive steep subthreshold slope devices which are being ...
Improving the on-current has been the focus of enhancing the performance of tunnel field-effect tran...
Tunnel transistors are one of the most attractive steep subthreshold slope devices currently being i...
In this paper, five projected tunnel FET (TFET) technologies are evaluated and compared with MOSFET ...
Tunnel transistors are steep subthreshold slope devices suitable for low voltage operation so being...
Tunnel field-effect transistors (TFETs) are one of the most attractive steep subthreshold slope devi...
Reducing supply voltage is an effective way to reduce power consumption, however, it greatly reduces...
With voltage scaling to reduce power consumption in scaled transistors the subthreshold swing is bec...
A tunneling field effect transistor (TFET) attracts attention, because TFET circuits can achieve bet...
Tunnel transistors are one of the most attractive steep sub threshold slope devices currently being ...
Tunnel transistors are one of the most attractive steep subthreshold slope devices currently being ...
In this paper, we explore the potentialities of TFET-based circuits operating in the ultra-low volta...
As the conventional metal oxide semiconductor field-effect transistor (MOSFET) keep scaling down to ...
Devices combining transistors and phase transition materials are being investigated to obtain steep ...
Continuing scaling of transistors as density approaches the terascale regime (1012 devices/cm2) requ...
Tunnel transistors are one of the most attractive steep subthreshold slope devices which are being ...
Improving the on-current has been the focus of enhancing the performance of tunnel field-effect tran...
Tunnel transistors are one of the most attractive steep subthreshold slope devices currently being i...
In this paper, five projected tunnel FET (TFET) technologies are evaluated and compared with MOSFET ...
Tunnel transistors are steep subthreshold slope devices suitable for low voltage operation so being...
Tunnel field-effect transistors (TFETs) are one of the most attractive steep subthreshold slope devi...
Reducing supply voltage is an effective way to reduce power consumption, however, it greatly reduces...
With voltage scaling to reduce power consumption in scaled transistors the subthreshold swing is bec...
A tunneling field effect transistor (TFET) attracts attention, because TFET circuits can achieve bet...
Tunnel transistors are one of the most attractive steep sub threshold slope devices currently being ...
Tunnel transistors are one of the most attractive steep subthreshold slope devices currently being ...
In this paper, we explore the potentialities of TFET-based circuits operating in the ultra-low volta...
As the conventional metal oxide semiconductor field-effect transistor (MOSFET) keep scaling down to ...
Devices combining transistors and phase transition materials are being investigated to obtain steep ...
Continuing scaling of transistors as density approaches the terascale regime (1012 devices/cm2) requ...