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Design of Arithmetic Circuits in Quantum Dot Cellular Automata Nanotechnology electronic resource by K. Sridharan, Vikramkumar Pudi.

By: Sridharan, K [author.]Contributor(s): Pudi, Vikramkumar [author.] | SpringerLink (Online service)Material type: TextTextSeries: Studies in Computational IntelligencePublication details: Cham : Springer International Publishing : Imprint: Springer, 2015Description: XV, 116 p. 100 illus., 66 illus. in color. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9783319166889Subject(s): engineering | Quantum computers | Atoms | physics | Computational Intelligence | Electronic circuits | Engineering | Computational Intelligence | Quantum computing | Atomic, Molecular, Optical and Plasma Physics | Circuits and SystemsDDC classification: 006.3 LOC classification: Q342Online resources: Click here to access online
Contents:
Introduction -- QCA Terminology -- Design of Basic Digital Circuits in QCA -- Design of Ripple Carry and Prefix Adders in QCA -- Design of A Hybrid Adder in QCA -- Design of a Multiplier in QCA -- Discrete Hadamard Transform Computation in QCA -- Study of Thermal Robustness of QCA Designs -- The Road Ahead -- A Tutorial on Qcadesigner.
In: Springer eBooksSummary: This research monograph focuses on the design of arithmetic circuits in Quantum Dot Cellular Automata (QCA). Using the fact that the 3-input majority gate is a primitive in QCA, the book sets out to discover hitherto unknown properties of majority logic in the context of arithmetic circuit designs. The pursuit for efficient adders in QCA takes two forms. One involves application of the new results in majority logic to existing adders. The second involves development of a custom adder for QCA technology. A QCA adder named as hybrid adder is proposed and it is shown that it outperforms existing multi-bit adders with respect to area and delay. The work is extended to the design of a low-complexity multiplier for signed numbers in QCA. Furthermore the book explores two aspects unique to QCA technology, namely thermal robustness and the role of interconnects. In addition, the book introduces the reader to QCA layout design and simulation using QCADesigner. Features & Benefits: This research-based book: ·         Introduces the reader to Quantum Dot Cellular Automata, an emerging nanotechnology. ·         Explores properties of majority logic. ·         Demonstrates application of the properties to design efficient arithmetic circuits. ·         Guides the reader towards layout design and simulation in QCADesigner.
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Introduction -- QCA Terminology -- Design of Basic Digital Circuits in QCA -- Design of Ripple Carry and Prefix Adders in QCA -- Design of A Hybrid Adder in QCA -- Design of a Multiplier in QCA -- Discrete Hadamard Transform Computation in QCA -- Study of Thermal Robustness of QCA Designs -- The Road Ahead -- A Tutorial on Qcadesigner.

This research monograph focuses on the design of arithmetic circuits in Quantum Dot Cellular Automata (QCA). Using the fact that the 3-input majority gate is a primitive in QCA, the book sets out to discover hitherto unknown properties of majority logic in the context of arithmetic circuit designs. The pursuit for efficient adders in QCA takes two forms. One involves application of the new results in majority logic to existing adders. The second involves development of a custom adder for QCA technology. A QCA adder named as hybrid adder is proposed and it is shown that it outperforms existing multi-bit adders with respect to area and delay. The work is extended to the design of a low-complexity multiplier for signed numbers in QCA. Furthermore the book explores two aspects unique to QCA technology, namely thermal robustness and the role of interconnects. In addition, the book introduces the reader to QCA layout design and simulation using QCADesigner. Features & Benefits: This research-based book: ·         Introduces the reader to Quantum Dot Cellular Automata, an emerging nanotechnology. ·         Explores properties of majority logic. ·         Demonstrates application of the properties to design efficient arithmetic circuits. ·         Guides the reader towards layout design and simulation in QCADesigner.

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