Introduction to Quantum Information Processing Slides: [pdf]
QIC 710, CS 768, CO 681, PHYS 767, AMATH 871, PMATH 871 (Fall 2020)
Lectures
(clicking on a lecture expands it to a YouTube thumbnail)
Part 1: A primer for beginners
Lecture 1: What is a qubit?
Lecture 1: What is a qubit? (same as above, just testing html code)
•• Lecture 3: Superdense coding and measurements involving multiple qubits
•• Lecture 4: Teleportation and the question of copying quantum states
Part 2: Quantum algorithms
•• Lecture 5: Quantum circuits and classical circuits as algorithms
•• Lecture 6: Simple quantum algorithms in the black box model
•• Lecture 7: Simon's problem
•• Lecture 8: The discrete log problem
•• Lecture 9: The quantum Fourier transform
•• Lecture 10: The phase estimation problem
•• Lecture 11: Algorithms for order-finding and factoring
•• Lecture 12: Grover's search algorithm
Part 3: Quantum information theory (titles to be inserted)
Part 4: Quantum cryptography (titles to be inserted)