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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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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

Summary

Over the course of this chapter, we have seen the rudiments of classical error correction, where introducing redundant information is key to recovering from errors, provided they occur with a low-enough probability. We introduced simple bit-repetition models that corrected bit-flip errors, thanks to syndrome computation and measurement and their generalization – linear codes.

Then, we dived into quantum error computation and saw that even though the no-cloning theorem prevents us from directly duplicating a state, it is still possible to encode a qubit by entangling it with other qubits, thus introducing redundancy without breaking any quantum law. Moreover, using ancillary qubits, it is possible to compute a syndrome and measure it without interfering with the quantum information that we wish to transmit.

After introducing two simple error correction codes for correcting either a bit-flip or a phase-flip error, we looked at Shor code, which can, by combining the...

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