Inhalte:
- From Stern-Gerlach to Spins and Qubits
- Fundamentals of Quantum Mechanics
- Basics of Quantum Computing Algorithms – The Quantum Computing Tool Box
- Shor’s and Grover’s Algorithm
- Quantum Parallelism, the Ideal Quantum Computer and its Emulation on Supercomputers
- Real Quantum Computer Architectures – Gate-Based Machines vs. Quantum Annealers
- QAOA on Gate-based Quantum Computers
- VQE on the Noisy-Intermediate Quantum Computer (NISQ)
- QUBO on the Quantum Annealer
- Hybrid HPC-quantum algorithms
- Quantum Programming Platforms
- Boosting Machine Learning
- Quantum Supremacy and Other Success Metrics
Lernergebnisse / Kompetenzziele:
The students will
- learn basics of experimental and theoretical quantum theory relevant to quantum computing;
- be able to apply the quantum computing toolbox (matrix repr., gates, circuit model);
- learn variants of quantum computing technologies (gate-based systems, quantum annealers);
- understand “killer” apps (Shor, Grover) and other quantum algorithms (optimization);
- understand the idea of quantum parallelism w.r.t. to idealized and real quantum computers;
- meet various quantum programming platforms;
- understand practical hybrid HPC quantum algorithms and apply them to real machines.
Weitere Informationen finden Sie im LSF: https://qis.server.uni-frankfurt.de/qisserver/rds?state=verpublish&status=init&vmfile=no&publishid=325247&moduleCall=webInfo&publishConfFile=webInfo&publishSubDir=veranstaltung
- Trainer/in: Thomas Lippert
- Trainer/in: Sarah M. Neuwirth