You're reading from Quantum Computing Experimentation with Amazon Braket Explore Amazon Braket quantum computing to solve combinatorial optimization problems

Product type Paperback

Published in Jul 2022

Publisher Packt

ISBN-13 9781800565265

Length 420 pages

Edition 1st Edition

Tools

Amazon Braket

Concepts

Quantum Computing

Author (1):

Alex Khan

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Table of Contents (19) Chapters

Preface

1. Introduction

2. Section 1: Getting Started with Amazon Braket FREE CHAPTER

3. Chapter 1: Setting Up Amazon Braket

4. Chapter 2: Braket Devices Explained

5. Chapter 3: User Setup, Tasks, and Understanding Device Costs

6. Chapter 4: Writing Your First Amazon Braket Code Sample

7. Section 2: Building Blocks for Real-World Use Cases

8. Chapter 5: Using a Quantum Annealer – Developing a QUBO Function and Applying Constraints

9. Chapter 6: Using Gate-Based Quantum Computers – Qubits and Quantum Circuits

10. Chapter 7: Using Gate Quantum Computers – Basic Quantum Algorithms

11. Chapter 8: Using Hybrid Algorithms – Optimization Using Gate-Based Quantum Computers

12. Chapter 9: Running QAOA on Simulators and Amazon Braket Devices

13. Section 3: Real-World Use Cases

14. Chapter 10: Amazon Braket Hybrid Jobs, PennyLane, and other Braket Features

15. Chapter 11: Single-Objective Optimization Use Case

16. Chapter 12: Multi-Objective Optimization Use Case

17. Other Books You May Enjoy

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Appendix: Knapsack BQM Derivation

Summary

In this chapter, we solved the knapsack problem, which represents a very simple real-world problem, on various Amazon Braket devices and suggested a process for developing and solving similar problems. Many real-world problems can be mapped to one of many types of knapsack problem formulations and the more elaborate bin packing problems formulations. The 0/1 knapsack formulation, with its binary item variable, single objective, and single integer weight constraint, is a good foundational problem to evaluate how to build a QUBO formulation. This in itself is a mathematically intensive process and requires various device and hardware-specific parameter fine-tuning to ensure the formulation will give the desired results. We tested our formulation classically and then ensured our QUBO formulation gave the best result. Next, we evaluated the QUBO formulation development on various Amazon Braket devices. We also reviewed a suggested step-by-step framework for solving such problems...

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You're reading from Quantum Computing Experimentation with Amazon Braket Explore Amazon Braket quantum computing to solve combinatorial optimization problems

Table of Contents (19) Chapters

Summary

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Table of Contents (19) Chapters

Summary

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