Quantum Computing
Room 4204
Campus Burjassot
Introduction to Quantum Computing (2024)
given by (alphabetical order):
Carmen G. Almudéver (UPV), Armando Pérez (UV), Bryan Zaldívar (CSIC)
OUTLINE
Lecture #1. (15th april. 11:00-13:00) Classical Computation: Turing machine; circuit model; gates. Computational complexity, Landauer Principle, reversible computation. (B. Zaldívar)
Lecture # 2. (16th april. 11:00-13:00)The qubit, Bloch sphere, circuit model, gates, Bell basis. Universal Quantum Computation. (B. Zaldívar). Note change of room: 4105
Lecture # 3. (17th april. 11:00-13:00) Quantum programming (python notebook): Qiskit language, Simple circuits. (B. Zaldívar)
Lecture # 4. (18th april, 10:00-12:00) No Cloning Theorem, quantum cloning, teleportation. (A. Pérez)
Lecture # 5. (19th april. 11:00-13:00) Quantum algorithms: Quantum parallelism. Deutsch, Grover. (A. Pérez)
Lecture # 6 (22nd april. 11:00-13:00) Quantum Fourier, Quantum phase estimation, Shor. (B. Zaldívar)
Lecture # 7. (23rd april. 15:00-17:00) Quantum information theory: Density matrix, Entanglement measures: Shannon, noiseless coding theorem, Mutual information.Von Neumann entropy, Schumacher theorem. (B. Zaldívar). Note change of room: 4207
Lecture # 8. (24th april. 11:00-13:00) Quantum noise: Decoherence, quantum channels. (A. Pérez)
Lecture # 9. (25th april. 11:00-13:00) Quantum circuit applications. Quantum simulations. Trotter decomposition. Variational circuits. (A. Pérez)
Lecture # 10. (25th April, 15:00-17:00) Quantum computer technologies. Quantum error correction. (C.G. Almudéver). Note change of room: 4207
