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Low-Complexity Arithmetic Circuit Design in Carbon Nanotube Field Effect Transistor Technology
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Artikel-Nr:
9783030506995
Veröffentl:
2020
Einband:
eBook
Seiten:
122
Autor:
K. Sridharan
Serie:
Carbon Nanostructures
eBook Typ:
PDF
eBook Format:
Reflowable eBook
Kopierschutz:
Digital Watermark [Social-DRM]
Sprache:
Englisch
Beschreibung:
This book introduces readers to the emerging carbon nanotube field-effect transistor (CNTFET) technology, and examines the problem of designing efficient arithmetic circuits in CNTFET technology. Observing that CNTFETs make it possible to achieve two distinct threshold voltages merely by altering the diameter of the carbon nanotube used, the book begins by discussing the design of basic ternary logic elements. It then examines efficient CNTFET-based design of single and multiple ternary digit adders by judicious choice of unary operators in ternary logic, as well as the design of a ternary multiplier in CNTFET technology, and presents detailed simulation results in HSPICE. Lastly, the book outlines a procedure for automating the synthesis process and provides sample code in Python.
This book introduces readers to the emerging carbon nanotube field-effect transistor (CNTFET) technology, and examines the problem of designing efficient arithmetic circuits in CNTFET technology. Observing that CNTFETs make it possible to achieve two distinct threshold voltages merely by altering the diameter of the carbon nanotube used, the book begins by discussing the design of basic ternary logic elements. It then examines efficient CNTFET-based design of single and multiple ternary digit adders by judicious choice of unary operators in ternary logic, as well as the design of a ternary multiplier in CNTFET technology, and presents detailed simulation results in HSPICE. Lastly, the book outlines a procedure for automating the synthesis process and provides sample code in Python.
Introduction.- Basics of CNTFET and Ternary Logic.- CNTFET-Based Circuits for Basic Logic Elements.- CNTFET-Based Design of a Single Ternary Digit Adder.- CNTFET-Based Design of a Multi-Ternary Digit Adder.- CNTFET-Based Design of a Ternary Multiplier.- Simulation Studies.- Automating the Synthesis Process.- The Road Ahead.