Quantum Information Processing
(NS3621)Lectures
QIP History
QIP History.pdf
This file will give you a brief history about quantum information processing.
The DiVincenzo criteria
The DiVincenzo criteria.pdf
This lecture is about the five criteria that any candidate quantum computer implementation must satisfy, the so-called DiVincenzo criteria.
Lecture 1
Lecture 1.pdf
Written lecture notes about Hilbert space, entanglement and quantum gates.
Lecture 2
Lecture 2.pdf
Written lecture notes about Pauli matrices, qubit notations and universal gates.
Lecture 3
lecture 3.pdf
Written lecture notes about quantum circuits, elements of university and teleportation.
Lecture 4
lecture 4.pdf
Written lecture notes about density matrices and non-unitary processes.
Lecture 5
lecture 5.pdf
Written lecture notes about decoherence and quantum measurement.
Lecture 6
lecture 6.pdf
Written lecture notes about factoring, quantum parallelism and algorithm period finding.
Lecture 7
lecture 7.pdf
Written lecture notes about Grover's algorithm.
Lecture 8
lecture 8.pdf
Written lecture notes about quantum simulation.
Lecture 9
lecture 9.pdf
Written lecture notes about quantum error correction.
Lecture 10
lecture 10.pdf
Written lecture notes about quantum cryptography.
