from zero to Shor's algorithm
Start your Quantum Computing journey with an introduction to the quantum bit, or qubit. In this section we learn the difference between classical and quantum computers, what a qubit is, and how we perform operations on qubits.
| Lessons |
|---|
1.01 The Qubit and Superposition |
1.02 Introduction to the Bloch Sphere and single qubit gates |
1.03 Introduction to phase |
1.04 The Hadamard, S and T gates |
Combine multiple qubits to discover some odd and powerful properties of the quantum world, including quantum entanglement and phase kickback
| Lessons |
|---|
2.01 Mathematical Representation of Multiple Qubits |
2.02 Quantum Circuits and Multi-qubit gates |
2.03 Measuring Singular Qubits |
2.04 Quantum Entanglement |
2.05 Phase Kickback |
Discover the power of Quantum Computers through studying quantum algorithms. Go from superdense coding to understanding the most popular quantum algorithms, including Shor's algorithm
| Lessons |
|---|
3.01 Superdense Coding |
3.02 Classical Operations Prerequisites |
3.03 Functions on Quantum Computers |
3.04 Deutsch's Algorithm |
3.05 Common Identities |
3.06 Deutsch-Jozsa Algorithm |
3.07 Bernstein-Vazarai Algorithm |
3.08 Quantum Fourier Transform (QFT) |
3.09 Quantum Phase Estimation |
3.10 Shor's Algorithm |
Ready to start your Quantum Computing journey?