Junchen Liu - IEEE Xplore Author Profile

Showing 1-4 of 4 results

Filter Results

Show

Results

Emerging devices open the way to build nanoscale logic cells, dedicated to high-density reconfigurable computation. Nevertheless, in an architectural context, fine-grain logic cells integration is limited by traditional interconnection scheme and associated overload. This paper describes an interconnection scheme, based on static and incomplete interconnection topologies. We also propose a method ...Show More
This paper describes an interconnection scheme and its associated mapping method, used to program complex functions onto reconfigurable architectures, based on nanoscale logic cells. To interconnect such fine-grain logic cells, classical techniques are not suitable because of a large overhead. Therefore, we propose the use of static and incomplete interconnection topologies. We also propose a meth...Show More
This paper examines aspects of design technology required to explore advanced logic-circuit design using carbon nanotube field-effect transistor (CNTFET) devices. An overview of current types of CNTFETs is given and highlights the salient characteristics of each. Compact modeling issues are addressed and new models are proposed implementing: 1) a physics-based calculation of energy conduction sub-...Show More
This paper gives an overview of some potential uses of carbon nanotube field effect transistors (CNTFETs) in logic circuit design. The realization of existing logic functions with resistive-load and complementary logic is described, with some examples of how a logic function can be coded by selective doping of a single nanotube molecule. The exploitation of properties specific to CNTFETs to build ...Show More