You're reading from A Practical Guide to Quantum Machine Learning and Quantum Optimization Hands-on Approach to Modern Quantum Algorithms

Product type Paperback

Published in Mar 2023

Publisher Packt

ISBN-13 9781804613832

Length 680 pages

Edition 1st Edition

Tools

Pennylane

Concepts

Machine Learning

Authors (2):

Elías F. Combarro Fernández-Combarro Álvarez

Samuel González Castillo

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Table of Contents (27) Chapters

Preface

1. Part I: I, for One, Welcome our New Quantum Overlords

2. Chapter 1: Foundations of Quantum Computing FREE CHAPTER

3. Chapter 2: The Tools of the Trade in Quantum Computing

4. Part II: When Time is Gold: Tools for Quantum Optimization

5. Chapter 3: Working with Quadratic Unconstrained Binary Optimization Problems

6. Chapter 4: Adiabatic Quantum Computing and Quantum Annealing

7. Chapter 5: QAOA: Quantum Approximate Optimization Algorithm

8. Chapter 6: GAS: Grover Adaptive Search

9. Chapter 7: VQE: Variational Quantum Eigensolver

10. Part III: A Match Made in Heaven: Quantum Machine Learning

11. Chapter 8: What Is Quantum Machine Learning?

12. Chapter 9: Quantum Support Vector Machines

13. Chapter 10: Quantum Neural Networks

14. Chapter 11: The Best of Both Worlds: Hybrid Architectures

15. Chapter 12: Quantum Generative Adversarial Networks

16. Part IV: Afterword and Appendices

17. Chapter 13: Afterword: The Future of Quantum Computing

18. Assessments

19. Bibliography

20. Index

21. Other Books You May Enjoy

Appendix A: Complex Numbers

1. Appendix B: Basic Linear Algebra

2. Appendix C: Computational Complexity

3. Appendix D: Installing the Tools

4. Appendix E: Production Notes

8.3 Quantum-classical models

In general terms, quantum machine learning refers to the application of machine learning techniques — only that quantum computing is involved at same stage of the process. Maybe you use a quantum computer in some part a model that you wish to train. Maybe you wish to use data generated by some quantum process. Maybe you use a quantum computer to process quantum-generated data. As you can imagine, the subject of quantum machine learning, as a whole, is broad enough to accommodate for a wide range of ideas and applications.

In an attempt to categorize it all a little bit, we can follow the useful classification shown in Schuld’s and Petruccione’s book [106] and divide quantum machine learning into four different flavors, which are depicted in Figure 8.6, according to the classical or quantum nature of the data and processing devices that are used:

We could consider part of quantum machine learning all the quantum-inspired classical machine...

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Table of Contents (27) Chapters

8.3 Quantum-classical models

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