Python Programming Handbook For Quantum Computing by TECH GREENY
English | October 10, 2024 | ISBN: N/A | ASIN: B0DJWMTWX2 | 115 pages | EPUB | 0.73 Mb
English | October 10, 2024 | ISBN: N/A | ASIN: B0DJWMTWX2 | 115 pages | EPUB | 0.73 Mb
Unlock the power of quantum computing with this comprehensive handbook. "Python Programming Handbook for Quantum Computing" provides a thorough introduction to quantum computing and quantum programming using Python. Written for programmers, researchers, and students, this book covers the fundamentals of quantum computing, quantum algorithms, and practical applications.
Key Features:
• Comprehensive introduction to quantum computing and quantum information theory
• In-depth coverage of Python libraries for quantum computing, including Qiskit, Cirq, and Q#.
• Practical examples and projects to illustrate quantum algorithms and applications
• Detailed explanations of quantum machine learning, quantum simulation, and quantum cryptography
• Advanced topics: quantum error correction, quantum entanglement, and quantum teleportation
• Real-world applications: optimization, chemistry, materials science, and machine learning
What You'll Learn:
• Understand the principles of quantum computing and quantum information theory
• Implement quantum algorithms using Python and popular libraries
• Apply quantum computing to real-world problems in machine learning, optimization, and materials science
• Develop skills in quantum programming, debugging, and optimization
• Stay up-to-date with the latest advancements in quantum computing research
Target Audience:
• Programmers and software developers interested in quantum computing
• Researchers and scientists in physics, chemistry, and materials science
• Students of computer science, physics, and engineering
• Quantum computing enthusiasts and professionals
Table of Contents:
1. Introduction to Quantum Computing
2. Quantum Information Theory
3. Python for Quantum Computing
4. Quantum Algorithms and Applications
5. Quantum Machine Learning
6. Quantum Simulation and Chemistry
7. Quantum Cryptography and Security
8. Advanced Topics in Quantum Computing
9. Real-World Applications and Case Studies
10. Future Directions in Quantum Computing