Silicon nanowire reconfigurable field effect transistors (SiNW RFETs) abolish the physical separation of n-type and p-type transistors by taking up both roles in a configurable way within a doping-free technology. However, the potential of transistor-level reconfigurability has not been demonstrated in larger circuits, so far. In this paper, we present first steps to a new compact and efficient design of combinational circuits by employing transistor-level reconfiguration. We contribute new basic gates realized with silicon nanowires, such as 2/3-XOR and MUX gates. Exemplifying our approach with 4-bit, 8-bit and 16-bit conditional carry adders, we were able to reduce the number of transistors to almost one half. With our current case study ...
This paper discusses the newly introduced vertically-stacked silicon nanowire gate-all-around fielde...
Abstract — A fine-grained reconfigurable array based on com-plementary, dual-gate, fully depleted, s...
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...
Silicon Nanowire (SiNW) based reconfigurable fieldeffect transistors (RFETs) provide an additional g...
An early evaluation in terms of circuit design is essential in order to assess the feasibility and p...
Reconfigurable transistors merge unipolar p- and n-type characteristics of field-effect transistors ...
Silicon nanowires have received considerable attention as transistor components because they represe...
As we advance into the era of nanotechnology, semiconductor devices are scaled down to their physica...
A fine-grained reconfigurable array based on complementary, dual-gate, fully depleted, silicon on in...
This book describes the n and p-channel Silicon Nanowire Transistor (SNT) designs with single and du...
on dynamic logic implementation, are area-saving and high-speed compared to standard static flip-flo...
We extend ambipolar silicon nanowire transistors by using three independent gates and show an effici...
Ambipolar transistors with on-line configurability to n-type and p-type polarity are desirable for f...
Silicon NanoWire (SiNW) based Field Effect Tran- sistors (FETs) are promising candidates to extend M...
This paper discusses the newly introduced vertically-stacked silicon nanowire gate-all-around fielde...
Abstract — A fine-grained reconfigurable array based on com-plementary, dual-gate, fully depleted, s...
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...
Silicon Nanowire (SiNW) based reconfigurable fieldeffect transistors (RFETs) provide an additional g...
An early evaluation in terms of circuit design is essential in order to assess the feasibility and p...
Reconfigurable transistors merge unipolar p- and n-type characteristics of field-effect transistors ...
Silicon nanowires have received considerable attention as transistor components because they represe...
As we advance into the era of nanotechnology, semiconductor devices are scaled down to their physica...
A fine-grained reconfigurable array based on complementary, dual-gate, fully depleted, silicon on in...
This book describes the n and p-channel Silicon Nanowire Transistor (SNT) designs with single and du...
on dynamic logic implementation, are area-saving and high-speed compared to standard static flip-flo...
We extend ambipolar silicon nanowire transistors by using three independent gates and show an effici...
Ambipolar transistors with on-line configurability to n-type and p-type polarity are desirable for f...
Silicon NanoWire (SiNW) based Field Effect Tran- sistors (FETs) are promising candidates to extend M...
This paper discusses the newly introduced vertically-stacked silicon nanowire gate-all-around fielde...
Abstract — A fine-grained reconfigurable array based on com-plementary, dual-gate, fully depleted, s...
Complementary symmetry (CS) Boolean logic utilizes both p- and n-type field-effect transistors (FETs...