| Date | Topic | Handout |
|---|---|---|
| 01-04-2026 | Qiskit Basics, Classic Vs Quantum Bits | Click here |
| 08-04-2026 | Single-Qubit Gates & Bloch Sphere Visualisation | Click here |
| 13-04-2026 | Multi-Qubit Gates & Entanglement | Click here |
| 17-04-2026 | Bell State Preparation & Verification | Clickhere |
Classical computers are built from semiconductor chips containing billions of transistors. For decades, the number of transistors on a chip has roughly doubled every two years, a trend known as Moore’s Law. However, as transistors approach atomic scales, continuing this trend is becoming increasingly difficult, motivating the exploration of new computing paradigms such as quantum computing.
| Date | Topic | Slides | Lecture Notes |
|---|---|---|---|
| 09-03-26 | Introduction, Why Quantum
Computing? Milestones in quantum theory (Planck, Einstein, Bohr) |
Slides | Notes |
| 30-03-26 | Linear Algebra, Hilbert Spaces and Quantum Mechanics Foundations |
Slides | Notes |
| Read | Role of Biology in Quantum Computing | Slides | Notes |
| 15-04-26 | Classical vs. Quantum Logical Operations | Slides | Notes |
| 22-04-26 | Classical Computing Limitations | Slides | Notes |
