Quantum Data Structures Fundamentals
N.B. Singh
This audiobook is narrated by a digital voice.
"Quantum Data Structures Fundamentals" is a beginner-friendly exploration of the essential concepts underpinning quantum computing. Written for readers with non-mathematical backgrounds and absolute beginners, this book delves into the fundamental principles of quantum data structures, offering clear explanations and intuitive insights. From understanding the basics of qubits and quantum gates to exploring advanced topics such as quantum cryptography and quantum simulation, each chapter provides a comprehensive overview of key concepts in a reader-friendly manner. Through accessible language and practical examples, this book serves as an introductory guide to the fascinating world of quantum computing, empowering readers to grasp foundational concepts and lay the groundwork for further exploration in this rapidly evolving field.
Duration - 12h 48m.
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 Data Structures Fundamentals" is a beginner-friendly exploration of the essential concepts underpinning quantum computing. Written for readers with non-mathematical backgrounds and absolute beginners, this book delves into the fundamental principles of quantum data structures, offering clear explanations and intuitive insights. From understanding the basics of qubits and quantum gates to exploring advanced topics such as quantum cryptography and quantum simulation, each chapter provides a comprehensive overview of key concepts in a reader-friendly manner. Through accessible language and practical examples, this book serves as an introductory guide to the fascinating world of quantum computing, empowering readers to grasp foundational concepts and lay the groundwork for further exploration in this rapidly evolving field. Duration - 12h 48m. Author - N.B. Singh. Narrator - Digital Voice Mary G. Published Date - Monday, 20 January 2025. Copyright - © 2024 N.B. Singh ©.
Language:
English
Preface
Duration:00:02:01
Introduction to Quantum Data Structures
Duration:00:00:04
Overview of Quantum Computing
Duration:00:01:21
Key Concepts
Duration:00:01:08
Potential Applications
Duration:00:01:32
Current Challenges
Duration:00:00:03
Despite the potential of quantum computing, there are several challenges that need to be addressed:
Duration:00:00:55
Importance of Quantum Data Structures
Duration:00:01:52
Efficient Quantum Algorithms
Duration:00:06:33
Quantum State Representation
Duration:00:00:35
Quantum Information Compression
Duration:00:00:37
Quantum Error Correction
Duration:00:00:37
Quantum Data Storage and Retrieval
Duration:00:00:37
Quantum Algorithm Design
Duration:00:01:25
Brief History of Quantum Data Structures
Duration:00:02:45
Examples:
Duration:00:01:16
Fundamentals of Quantum Mechanics
Duration:00:00:04
Principles of Quantum Mechanics
Duration:00:16:30
Quantum States and Superposition
Duration:00:01:41
Quantum Measurement and Observables
Duration:00:01:19
Entanglement and Quantum Correlations
Duration:00:02:09
Overview of Classical Data Structures
Duration:00:00:56
Limitations of Classical Data Structures in Quantum Computing
Duration:00:02:10
Advantages of Quantum Data Structures
Duration:00:02:56
Qubits and Quantum Gates
Duration:00:00:03
Qubits: The Building Blocks of Quantum Information
Duration:00:04:02
Quantum Gates: Basic Operations on Qubits
Duration:00:03:29
Single-Qubit Gates
Duration:00:01:03
Two-Qubit Gates
Duration:00:03:17
Multi-Qubit Gates and Quantum Circuitry
Duration:00:01:46
Quantum Registers and Quantum Memory
Duration:00:00:04
Quantum Registers: Storing and Manipulating Quantum Information
Duration:00:01:10
Quantum Memory: Preserving Quantum States
Duration:00:02:06
Quantum Registers and Operations
Duration:00:02:07
Quantum Data Encoding
Duration:00:00:03
Classical Data Encoding
Duration:00:02:33
Quantum State Encoding Techniques
Duration:00:02:53
Quantum Superposition Encoding
Duration:00:02:25
Quantum Error Correction Codes
Duration:00:09:23
C = a set of quantum states encoding a valid quantum code
Duration:00:41:57
Quantum Data Structures for Searching and Sorting
Duration:00:00:04
Quantum Searching Algorithms
Duration:00:12:28
The central idea in Grover’s algorithm is:
Duration:00:07:47
Quantum Sorting Algorithms
Duration:00:15:33
Comparison with Classical Searching and Sorting Algorithms
Duration:00:09:09
Quantum Data Structures for Graphs and Networks
Duration:00:00:04
Quantum Graph Representation
Duration:00:46:07
Quantum Graph Algorithms
Duration:00:05:45
The dynamics of the quantum walk can be described by the recursive formula:
Duration:00:02:51
Grover’s algorithm comprises two key components:
Duration:00:03:19
QAOA involves several key components:
Duration:00:47:09
Quantum Networking and Communication
Duration:00:40:45
Quantum Data Structures for Machine Learning
Duration:00:00:04
Overview of Quantum Machine Learning
Duration:00:33:51
The algorithm’s core components are:
Duration:00:02:29
Quantum Data Representation for Machine Learning
Duration:00:44:34
Quantum Machine Learning Algorithms
Duration:00:00:29
Quantum data representation involves encoding and manipulating classical information in the quantum
Duration:01:40:50
Advanced Topics in Quantum Data Structures
Duration:00:00:04
Quantum Data Compression
Duration:00:15:37
Quantum information theory studies how info works in quantum systems:
Duration:00:01:55
Quantum data compression shrinks quantum data while keeping most info intact:
Duration:00:01:58
Quantum lossless compression makes quantum data smaller without losing info:
Duration:00:37:00
Quantum Database Management Systems
Duration:00:35:06
Quantum data analytics analyzes and extracts insights from quantum data:
Duration:00:01:59
Quantum data visualization represents and interprets quantum data visually:
Duration:00:45:24
Quantum Hashing and Cryptography
Duration:00:00:24
Quantum hashing ensures data integrity in quantum computing:
Duration:00:12:38
Quantum cryptanalysis breaks classical cryptographic schemes:
Duration:00:00:56
Quantum Random Number Generators (QRNGs) use quantum phenomena to generate truly random numbers:
Duration:00:02:29
Quantum Tensor Networks
Duration:00:01:28
Challenges and Future Directions
Duration:00:00:04
Current Challenges in Quantum Data Structures
Duration:00:01:27
Scalability Challenges
Duration:00:02:31
Strategies for Scalability
Duration:00:28:13
Emerging Trends and Future Directions
Duration:00:23:01
Ethical Considerations and Quantum Data Security
Duration:00:04:52
Conclusion and Final Remarks
Duration:00:00:26
Chapter 1 introduced us to the concept of quantum computing and highlighted the importance of quantu
Duration:00:00:19
Chapter 2 provided a comprehensive overview of the principles of quantum mechanics. We explored the
Duration:00:00:56
Chapter 4 focused on qubits and quantum gates, which are the building blocks of quantum information
Duration:00:01:33
Chapter 7 took us on a journey through quantum searching and sorting algorithms. We examined how qua
Duration:00:00:59
Chapter 9 ventured into the realm of quantum data structures for machine learning. We provided an ov
Duration:00:00:32
Chapter 10 delved into advanced topics in quantum data structures. We explored quantum data compress
Duration:00:02:36
Glossary of Key Terms
Duration:00:15:22
Quantum Circuit Diagram Notation
Duration:00:01:54
Quantum Computing Resources and References
Duration:00:22:42
N.B Singh
Duration:00:00:03