Contents
- Introduction
- Why Quantum Computing?
- Skill Sets for Quantum Computing Engineer
- What is Quantum Computing?
- Classical Vs 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 Circuit Model
- Quantum Processing Unit
- Quantum Measurements and Measuring devices
- The Schrödinger Equation in Quantum Computing
- Architecture of Quantum Computing
- Quantum Computing Cooling systems
- 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
- Quantum Gates and Quantum Circuits
- Hadamard Gate
- Phase Shift Gates
- Pauli Gates
- Swap Gates
- Fredkin Gates
- Toffolli Gates
- Controlled Gates
- Single-Qubit Gates (X, Y, Z, Hadamard)
- Multi-Qubit Gates (CNOT, Toffoli, Swap)
- Building and Simulating Quantum Circuits
- Quantum Algorithms
- Quantum Fourier Transform
- Grover’s Algorithm
- Shor’s Algorithm
- State of Art Quantum Applications
- Research Trends
- Question Bank
Book Preview
References
BUY EBOOK (PDF)
