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Quantum Computing Algorithms

You're reading from   Quantum Computing Algorithms Discover how a little math goes a long way

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Product type Paperback
Published in Sep 2023
Publisher Packt
ISBN-13 9781804617373
Length 342 pages
Edition 1st Edition
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Author (1):
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Barry Burd Barry Burd
Author Profile Icon Barry Burd
Barry Burd
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Table of Contents (19) Chapters Close

Preface 1. Introduction to Quantum Computing 2. Part 1 Nuts and Bolts FREE CHAPTER
3. Chapter 1: New Ways to Think about Bits 4. Chapter 2: What Is a Qubit? 5. Chapter 3: Math for Qubits and Quantum Gates 6. Chapter 4: Qubit Conspiracy Theories 7. Part 2 Making Qubits Work for You
8. Chapter 5: A Fanciful Tale about Cryptography 9. Chapter 6: Quantum Networking and Teleportation 10. Part 3 Quantum Computing Algorithms
11. Chapter 7: Deutsch’s Algorithm 12. Chapter 8: Grover’s Algorithm 13. Chapter 9: Shor’s Algorithm 14. Part 4 Beyond Gate-Based Quantum Computing
15. Chapter 10: Some Other Directions for Quantum Computing 16. Assessments 17. Index 18. Other Books You May Enjoy

Getting more information about a circuit

In the previous section, we used the QuantumCircuit class’s count_ops function to find out whether Alice applies an X gate and whether the circuit has an even or odd number of Hadamard gates. Sometimes, you need to discover more details about an existing circuit. For cases of this kind, you can use the QuantumCircuit class’s data attribute. A circuit’s data attribute contains enough information to recreate the circuit in its entirety. Take, for example, the circuit shown in Figure 5.21:

Figure 5.21 – The smallest circuit returned by any call to make_new_circuit

Figure 5.21 – The smallest circuit returned by any call to make_new_circuit

If you print this circuit’s data attribute, and you add your own line breaks, you will see the following information:

[  CircuitInstruction(
    operation=Instruction(
      name='swap', num_qubits=2, num_clbits=0, params=[]
    ...
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