Quantum Computing: Basic Concepts
N.B. Singh
This audiobook is narrated by a digital voice.
"Quantum Computing: Basic Concepts" is a beginner-friendly guide that introduces readers to the fascinating world of quantum computing. Written for absolute beginners, this book provides clear explanations of key concepts in quantum computing, such as qubits, superposition, and quantum gates, without assuming any prior knowledge of quantum mechanics or advanced mathematics. Through easy-to-understand language and practical examples, readers will gain a foundational understanding of quantum computing principles and explore the potential applications of this cutting-edge technology. Whether you're a curious novice or a seasoned enthusiast, this book offers an accessible entry point into the captivating realm of quantum computing.
Duration - 10h 43m.
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. "Quantum Computing: Basic Concepts" is a beginner-friendly guide that introduces readers to the fascinating world of quantum computing. Written for absolute beginners, this book provides clear explanations of key concepts in quantum computing, such as qubits, superposition, and quantum gates, without assuming any prior knowledge of quantum mechanics or advanced mathematics. Through easy-to-understand language and practical examples, readers will gain a foundational understanding of quantum computing principles and explore the potential applications of this cutting-edge technology. Whether you're a curious novice or a seasoned enthusiast, this book offers an accessible entry point into the captivating realm of quantum computing. Duration - 10h 43m. Author - N.B. Singh. Narrator - Digital Voice Mary G. Published Date - Monday, 20 January 2025. Copyright - © 2024 N.B. Singh ©.
Language:
English
Preface
Duration:00:01:36
Quantum Mechanics Basics
Duration:00:38:29
Quantum Gates
Duration:00:24:15
Measurement in Quantum Computing
Duration:00:28:50
Quantum Circuits
Duration:00:22:37
Miscellaneous
Duration:00:13:09
Quantum Algorithms
Duration:00:00:03
Grover’s Algorithm
Duration:00:11:04
Shor’s Algorithm
Duration:00:13:38
Variational Algorithms
Duration:00:15:13
Hybrid Classical-Quantum Algorithms
Duration:00:10:37
Quantum Hardware
Duration:00:00:03
Superconducting Qubits
Duration:00:05:56
Trapped Ions
Duration:00:10:10
Topological Qubits
Duration:00:15:25
Photonic Qubits
Duration:00:08:16
Other Quantum Technologies
Duration:00:34:37
Quantum Programming Languages (QPL)
Duration:00:00:04
Introduction
Duration:00:12:59
Imperative QPL
Duration:00:11:45
Functional QPL
Duration:00:09:10
Probabilistic QPL
Duration:00:13:04
Hybrid QPL
Duration:00:12:56
Domain Specific QPL
Duration:00:13:18
QPL Design
Duration:00:08:56
QPL Examples
Duration:00:57:25
Quantum Computing Libraries and Frameworks
Duration:00:08:36
Quantum Error Correction
Duration:00:00:03
Error Models in Quantum Computing
Duration:00:11:45
Quantum Error Correction Techniques
Duration:00:20:07
Quantum Fault Tolerance
Duration:00:10:01
Applications of Quantum Computing
Duration:00:00:04
Cryptography
Duration:00:13:17
Quantum Machine Learning
Duration:00:13:01
Quantum Chemistry
Duration:00:20:53
Optimization
Duration:00:18:07
Other Applications
Duration:00:37:59
Quantum Supremacy
Duration:00:00:03
Quantum Computing Industry
Duration:00:00:03
Leading Companies in Quantum Computing
Duration:00:16:49
Quantum Computing Startups
Duration:00:27:08
Future of Quantum Computing
Duration:00:00:03
Conclusion
Duration:00:00:03