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Quantum Computing with Silq Programming

You're reading from   Quantum Computing with Silq Programming Get up and running with quantum computing with the simplicity of this new high-level programming language

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Product type Paperback
Published in Apr 2021
Publisher Packt
ISBN-13 9781800569669
Length 310 pages
Edition 1st Edition
Languages
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Authors (2):
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Thomas Cambier Thomas Cambier
Author Profile Icon Thomas Cambier
Thomas Cambier
Srinjoy Ganguly Srinjoy Ganguly
Author Profile Icon Srinjoy Ganguly
Srinjoy Ganguly
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Toc

Table of Contents (19) Chapters Close

Preface 1. Section 1: Essential Background and Introduction to Quantum Computing
2. Chapter 1: Essential Mathematics and Algorithmic Thinking FREE CHAPTER 3. Chapter 2: Quantum Bits, Quantum Measurements, and Quantum Logic Gates 4. Chapter 3: Multiple Quantum Bits, Entanglement, and Quantum Circuits 5. Chapter 4: Physical Realization of a Quantum Computer 6. Section 2: Challenges in Quantum Programming and Silq Programming
7. Chapter 5: Challenges in Quantum Computer Programming 8. Chapter 6: Silq Programming Basics and Features 9. Chapter 7: Programming Multiple-Qubit Quantum Circuits with Silq 10. Section 3: Quantum Algorithms Using Silq Programming
11. Chapter 8: Quantum Algorithms I – Deutsch-Jozsa and Bernstein-Vazirani 12. Chapter 9: Quantum Algorithms II – Grover's Search Algorithm and Simon's Algorithm 13. Chapter 10: Quantum Algorithms III – Quantum Fourier Transform and Phase Estimation 14. Section 4: Applications of Quantum Computing
15. Chapter 11: Quantum Error Correction 16. Chapter 12: Quantum Cryptography – Quantum Key Distribution 17. Chapter 13: Quantum Machine Learning 18. Other Books You May Enjoy

What this book covers

Chapter 1, Essential Mathematics and Algorithmic Thinking, provides you with a basic foundational knowledge of mathematics and algorithms.

Chapter 2, Quantum Bits, Quantum Measurements, and Quantum Logic Gates, introduces the basics of quantum bits, measurements, and single-qubit quantum logic gates.

In Chapter 3, Multiple Quantum Bits, Entanglement, and Quantum Circuits, you will explore multiple qubits and their various quantum circuits using single- and multi-qubit quantum gates.

Chapter 4, Physical Realization of a Quantum Computer, takes you through various technologies that will enable you to build a real physical quantum computer.

Chapter 5, Challenges in Quantum Computer Programming, will introduce you to the various challenges faced in quantum programming.

In Chapter 6, Silq Programming Basics and Features, we will introduce Silq and help you to start programming with this high-level quantum programming language.

In Chapter 7, Programming Multiple Qubit Quantum Circuits with Silq, you will learn to tackle multiple qubits in Silq and construct various interesting quantum circuits using Silq.

In Chapter 8, Quantum Algorithms I – Deutsch-Jozsa and Bernstein-Vazirani, you will start coding your very first quantum algorithms using Silq – Deutsch-Jozsa, which identifies whether a function is constant or balanced, and Bernstein-Vazirani, which finds a secret string encoded in a function.

In Chapter 9, Quantum Algorithms II – Grover's Search Algorithm and Simon's Algorithm, you will see how to use Grover's search algorithm for unstructured database search, and Simon's algorithm for finding a hidden string.

In Chapter 10, Quantum Algorithms III – Quantum Fourier Transform and Phase Estimation, you will learn two of the most important algorithms – first, the Quantum Fourier Transform (QFT), which is a technique for linear transformations on qubits. Then you will use the QFT to learn about the quantum phase estimation algorithm.

Chapter 11, Quantum Error Correction, offers an introduction to classical error-correction techniques, and you will learn to implement different quantum error-correcting codes to prevent a potential bit-flip or phase-flip from occurring on a qubit.

In Chapter 12, Quantum Cryptography – Quantum Key Distribution, you will see an overview of classical cryptographical methods and learn to implement in Silq a quantum protocol useful to safely exchange keys: quantum key distribution.

In Chapter 13, Quantum Machine Learning, you will explore some important concepts regarding quantum machine learning and recent developments happening in the field of quantum computing.

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