Title Multiple-Valued Computing in Quantum Molecular Biology Arithmetic and Combinational Circuits

Published Milton : Taylor & Francis Group, 2023

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Description 1 online resource (531 p.)

Contents Cover -- Half Title -- Title Page -- Copyright Page -- Dedication -- Contents -- Author -- Preface -- Acknowledgments -- Acronyms -- Introduction -- I. Multiple-Valued Quantum and DNA Computing -- Overview -- 1. Multiple-Valued Quantum Computing -- 1.1. Introduction -- 1.2. Quantum Physics and Quantum Computing -- 1.2.1. Applications of Quantum Physics -- 1.3. What is Quantum Computing? -- 1.3.1. Quantum Computing Properties -- 1.3.2. How Does Quantum Computer Work? -- 1.4. Multiple-Valued Logic -- 1.4.1. History of Multiple-Valued Logic

1.4.2. Advantages of Multiple-Valued Quantum Computing over Binary Logic -- 1.5. Ternary Logic in Quantum Computing -- 1.5.1. Quantum Ternary Fundamental Logic Operations -- 1.6. Applications of Multiple-Valued Quantum Computing -- 1.7. Demerits of Multiple-Valued Quantum Computing -- 1.7.1. Challenges in Multiple-Valued Quantum Computing -- 1.8. Summary -- Bibliography -- 2. Multiple-Valued DNA Computing -- 2.1. Introduction -- 2.2. What is DNA Computing? -- 2.2.1. History of DNA Computing -- 2.3. Some Related Terminologies -- 2.3.1. Molecular Biology -- 2.3.2. DNase Enzyme

2.3.3. Fluorescence Detection -- 2.4. How Does a DNA Computing Work? -- 2.4.1. DNA Computing for Binary Logic System -- 2.5. Multiple-Valued DNA Computing -- 2.5.1. How Can Multiple-Valued Operations Be Performed in DNA Computing? -- 2.6. Advantages of Multiple-Valued DNA Computing -- 2.7. Limitations of Multiple-Valued DNA Computing -- 2.8. Applications of Multiple-Valued DNA Computing -- 2.9. Challenges in Multiple-Valued DNA Computing -- 2.10. Motivations toward Multiple-Valued DNA Computing -- 2.11. Summary -- Bibliography -- 3. Multiple-Valued Quantum-DNA Computing -- 3.1. Introduction

3.2. Quantum Mechanics and Quantum Molecular Biology -- 3.2.1. Why Quantum Molecular Biology Is an Important Field? -- 3.3. Relationship between Multi-Valued and Two-Valued Quantum and DNA Computing -- 3.3.1. Multiple-Valued Quantum-DNA Computing: A New Computing Approach -- 3.3.2. Data Conversion Circuits to Convert Qutrits to DNA Base Sequences -- 3.3.3. Intermediatory System to Control Quantum-DNA Data Flow -- 3.3.4. Heat Transfer Circuit -- 3.4. Advantages of Multiple-Valued Quantum-DNA Computing -- 3.5. Disadvantages of Multiple-Valued Quantum-DNA Computing -- 3.6. Summary -- Bibliography

4. Multiple-Valued DNA-Quantum Computing -- 4.1. Introduction -- 4.2. Relationship between Multi-Valued DNA Computing and Multi-Valued Quantum Computing with Two-Valued DNA Computing and Quantum Computing -- 4.3. Multiple-Valued DNA-Quantum Computing -- 4.3.1. General Organization of Multiple-Valued DNA-Quantum Computing -- 4.4. Difference between Multiple-Valued Quantum-DNA and DNA-Quantum Computing -- 4.5. Advantages of Multiple-Valued DNA-Quantum Computing -- 4.6. Summary -- Bibliography

Notes Description based upon print version of record

II. Heat Measurement, Heat Transfer, Speed Calculation, Data Conversion, and Data Management in Multiple-Valued Quantum and DNA Computing

Form Electronic book

ISBN 9781000900989

1000900983

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