DNA Computing: Quantum Computing Methods
N.B. Singh
This audiobook is narrated by a digital voice.
"DNA Computing: Quantum Computing Methods" explores the convergence of quantum computing with DNA-based technologies, unveiling how quantum principles amplify the computational capabilities inherent in DNA. This comprehensive work navigates through the transformative potential across healthcare, finance, and beyond, addressing challenges, innovations, and ethical considerations. From advancements in hardware and algorithms to biotechnological integration, this book forecasts a future where quantum DNA computing drives unprecedented scientific and societal advancements."
Duration - 4h 13m.
Author - N.B. Singh.
Narrator - Digital Voice Mary G.
Published Date - Monday, 20 January 2025.
Copyright - © 2024 N.B. Singh ©.
Location:
United States
Description:
This audiobook is narrated by a digital voice. "DNA Computing: Quantum Computing Methods" explores the convergence of quantum computing with DNA-based technologies, unveiling how quantum principles amplify the computational capabilities inherent in DNA. This comprehensive work navigates through the transformative potential across healthcare, finance, and beyond, addressing challenges, innovations, and ethical considerations. From advancements in hardware and algorithms to biotechnological integration, this book forecasts a future where quantum DNA computing drives unprecedented scientific and societal advancements." Duration - 4h 13m. Author - N.B. Singh. Narrator - Digital Voice Mary G. Published Date - Monday, 20 January 2025. Copyright - © 2024 N.B. Singh ©.
Language:
English
Preface
Duration:00:00:34
Introduction to DNA Computing
Duration:00:01:07
Historical Overview
Duration:00:06:10
Basic Principles of DNA Computing
Duration:00:06:04
Advantages and Challenges
Duration:00:06:32
Current State of Research
Duration:00:06:46
Comparative Analysis with Classical Computing
Duration:00:03:31
Future Prospects
Duration:00:04:00
Quantum Computing Fundamentals
Duration:00:01:09
Quantum Mechanics Primer
Duration:00:01:04
Quantum Gates and Circuits
Duration:00:01:16
Quantum Algorithms Overview
Duration:00:09:05
Quantum Computing Models
Duration:00:09:05
Quantum Entanglement and Superposition
Duration:00:06:42
Quantum Error Correction
Duration:00:07:04
Integration of Quantum Mechanics in DNA Computing
Duration:00:01:23
Quantum-inspired DNA Computing Models
Duration:00:07:22
DNA-based Quantum Gates
Duration:00:07:26
Quantum-DNA Hybrid Systems
Duration:00:08:12
Simulation Techniques
Duration:00:07:31
Experimental Implementations
Duration:00:06:45
Computational Complexity Analysis
Duration:00:06:29
Quantum Algorithms for DNA Computing
Duration:00:01:25
Grover’s Algorithm and DNA Computing
Duration:00:04:05
Shor’s Algorithm and Its Variants
Duration:00:03:58
Quantum Walks on DNA Graphs
Duration:00:03:46
Quantum Fourier Transform in DNA Context
Duration:00:03:30
Quantum Simulation Techniques
Duration:00:07:33
Benchmarking Quantum DNA Algorithms
Duration:00:03:58
Applications of Quantum DNA Computing
Duration:00:01:28
Bioinformatics and Genome Analysis
Duration:00:04:21
Drug Design and Molecular Modeling
Duration:00:04:14
Optimization Problems
Duration:00:04:40
Cryptography and Secure Communication
Duration:00:05:23
Data Storage and Retrieval
Duration:00:06:36
Environmental and Biological Applications
Duration:00:08:11
Challenges and Limitations
Duration:00:01:22
Scalability Issues
Duration:00:08:22
Error Rates and Fault Tolerance
Duration:00:07:02
Cost and Infrastructure Requirements
Duration:00:07:14
Biological Constraints
Duration:00:06:51
Ethical and Regulatory Considerations
Duration:00:06:15
Interdisciplinary Collaboration Challenges
Duration:00:05:47
Future Directions and Innovations
Duration:00:01:25
Advances in Quantum Hardware
Duration:00:05:34
Hybrid Computing Approaches
Duration:00:04:45
Novel Quantum Algorithms for DNA Applications
Duration:00:05:17
Biotechnological Innovations
Duration:00:05:02
Integration with Emerging Technologies
Duration:00:05:19
Predictions for Future Quantum DNA Computing
Duration:00:04:58