Course Overview

Module-wise Course Content

Module 1: Foundations of Quantum Computing

• Evolution of Computing
• Classical vs Quantum Computing
• Introduction to Quantum Mechanics
• Quantum Information Concepts
• Quantum Computing Applications

Module 2: Quantum Bits (Qubits)

• Understanding Qubits
• Superposition
• Quantum Measurement
• Quantum States
• Bloch Sphere Representation

Module 3: Quantum Gates & Circuits

• Quantum Logic Gates
• Pauli Gates
• Hadamard Gate
• CNOT Gate
• Quantum Circuit Design

Module 4: Quantum Entanglement

• Entanglement Concepts
• Bell States
• Quantum Correlations
• Quantum Teleportation
• Quantum Communication

Module 5: Quantum Algorithms

• Deutsch-Jozsa Algorithm
• Grover’s Search Algorithm
• Shor’s Algorithm Overview
• Quantum Advantage
• Computational Complexity

Module 6: Quantum Programming

• Introduction to Qiskit
• Quantum Simulators
• Building Quantum Circuits
• Running Quantum Experiments
• Result Interpretation

Module 7: Quantum Computing Applications

• Quantum Cryptography
• Drug Discovery
• Financial Modeling
• Optimization Problems
• Artificial Intelligence Applications

Module 8: Mini Project & Future Trends

• Quantum Circuit Design Project
• Research Case Studies
• Industry Applications
• Emerging Career Opportunities

Tools Covered

• IBM Quantum Experience
• Qiskit
• Quantum Simulators
• Python Basics

Offered by: Azraas Institute of Information Technology
Mode: Online | Live Instructor-Led Sessions | Industry-Oriented Projects | Certification Included.