Add to ORKGon dynamic logic implementation, are area-saving and high-speed compared to standard static flip-flops. Furthermore, logic gates can be embedded into TSPC flip-flops which significantly improves performance. As a promising approach to keep the pace of Moore’s Law, functionality-enhanced devices with multiple in-dependent gates have drown many recent interests. In particular, Three-Independent-Gate Silicon Nanowire FETs (TIG SiNWFETs) can realize the functionality of two serial transistors in a single device. Therefore, they open new opportunities to compact designs in both arithmetic and control circuits. In this paper, we propose TSPC flip-flop implementation with asynchronous set and reset using the compactness of TIG SiNWFET. Electrical ...
Silicon NanoWire (SiNW) based Field Effect Tran- sistors (FETs) are promising candidates to extend M...
Silicon nanowires have numerous potential applications, including transistors, memories, photovoltai...
Complementary symmetry (CS) Boolean logic utilizes both p- and n-type field-effect transistors (FETs...
Silicon nanowire reconfigurable field effect transistors (SiNW RFETs) abolish the physical separatio...
Scaling of the standard single-gate bulk MOSFETs faces great challenges in the nanometer regime due ...
An early evaluation in terms of circuit design is essential in order to assess the feasibility and p...
We extend ambipolar silicon nanowire transistors by using three independent gates and show an effici...
Abstract—Scaling of the standard single-gate bulk MOSFETs faces great challenges in the nanometer re...
Abstract—Silicon nanowire transistors with Schottky-barrier contacts exhibit both-type and-type char...
Silicon Nanowire (SiNW) based reconfigurable fieldeffect transistors (RFETs) provide an additional g...
Silicon nanowires have received considerable attention as transistor components because they represe...
Ambipolar transistors with on-line configurability to n-type and p-type polarity are desirable for f...
As we advance into the era of nanotechnology, semiconductor devices are scaled down to their physica...
We propose a quad-edge-triggered flip-flop which captures and propagates a ternary data signal at fo...
Silicon nanowires have numerous potential applications, including transistors, memories, photovoltai...
Silicon NanoWire (SiNW) based Field Effect Tran- sistors (FETs) are promising candidates to extend M...
Silicon nanowires have numerous potential applications, including transistors, memories, photovoltai...
Complementary symmetry (CS) Boolean logic utilizes both p- and n-type field-effect transistors (FETs...
Silicon nanowire reconfigurable field effect transistors (SiNW RFETs) abolish the physical separatio...
Scaling of the standard single-gate bulk MOSFETs faces great challenges in the nanometer regime due ...
An early evaluation in terms of circuit design is essential in order to assess the feasibility and p...
We extend ambipolar silicon nanowire transistors by using three independent gates and show an effici...
Abstract—Scaling of the standard single-gate bulk MOSFETs faces great challenges in the nanometer re...
Abstract—Silicon nanowire transistors with Schottky-barrier contacts exhibit both-type and-type char...
Silicon Nanowire (SiNW) based reconfigurable fieldeffect transistors (RFETs) provide an additional g...
Silicon nanowires have received considerable attention as transistor components because they represe...
Ambipolar transistors with on-line configurability to n-type and p-type polarity are desirable for f...
As we advance into the era of nanotechnology, semiconductor devices are scaled down to their physica...
We propose a quad-edge-triggered flip-flop which captures and propagates a ternary data signal at fo...
Silicon nanowires have numerous potential applications, including transistors, memories, photovoltai...
Silicon NanoWire (SiNW) based Field Effect Tran- sistors (FETs) are promising candidates to extend M...
Silicon nanowires have numerous potential applications, including transistors, memories, photovoltai...
Complementary symmetry (CS) Boolean logic utilizes both p- and n-type field-effect transistors (FETs...