IQIS Lecture 8.3 — Three-qubit repetition code for bit-flip errors
IQIS Lecture 8.5 — Nine-qubit code
IQIS Lecture 8.8 — Correctable errors
IQIS Lecture 7.5 — Kraus representations
IQIS Lecture 1.2 — Probability amplitudes (continued)
IQIS Lecture 8.4 — Three-qubit repetition code for phase-flip errors
IQIS Lecture 8.1 — Overview of quantum error correction
IQIS Lecture 8.6 — Inverting quantum channels
IQIS Lecture 8.11 — Stabilizers
IQIS Lecture 7.12 — Summary: Stinespring and Kraus representations
IQIS Lecture 8.14 — Seven-qubit code and transversal constructions
IQIS Lecture 8.2 — Classical repetition codes
IQIS Lecture 5.7 — Quantum key distribution
IQIS Lecture 5.10 — Device-independent tests and Bell inequalities (continued)
IQIS Lecture 8.15 — Fault-tolerant computation and threshold theorems
IQIS Lecture 2.10 — Universal sets of gates (for a single qubit)
IQIS — Conclusion (but more to come soon)
10 - Introduction to Quantum Error Correction
Qalgo 5.2: Grover's algorithm with a unique marked element
Parallel computing in quantum circuits
20.Error correction
Time evolution of the quantum coherent state in the harmonic potential
Introduction to Quantum Noise - Part 1 | Qiskit Global Summer School 2023
19: Calderbank-Shor-Steane codes
Single Qubit Gates with Pauli Matrices, Bit Flip (Classical NOT gate), Phase Shifts (Z, S & T gates)
