Quantum Computing and its Applications

Contents

1. Introduction
   • Why Quantum Computing?
   • Skill Sets for Quantum Computing Engineer
   • What is Quantum Computing?
   • Fundamental Principles of Quantum Computing
   • What is Qubit?
   • Different Approaches used to create Qubits
   • Quantum Computing H/W : Challenges and Considerations
   • Quantum Register
   • Quantum Gates
   • Quantum Circuits
   • Quantum Processing Unit
   • Measuring devices
   • Architecture of Quantum Computing
   • Quantum Computing Cooling systems
2. Mathematical Model for Quantum Computing
   • Representation of Qubits
   • Dirac Notation
   • Qubit States
   • Inner and Outer Product
   • Magnitude and Normalization
   • Angle between two Qubit Vector
   • Linear Combination of two Qubit Vectors
   • Superposition of Qubits
   • Entanglement of Qubits
   • Hilbert Space
   • Tensor Product
   • Block Sphere
   • Q-Sphere
3. Quantum Gates
   • Hadamard Gate
   • Phase Shift Gates
   • Pauli Gates
   • Swap Gates
   • Fredkin Gates
   • Toffolli Gates
   • Controlled Gates
4. Quantum Circuits
5. Quantum Computing Applications
6. Lab Manual
7. Multiple Choice Questions with Answers
8. Model Question Bank

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References

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