Inhaltsbereich
Numerical Quantum Physics – Materials
- Overview
- Exam
- Materials
- Problem Sheets
Lecture Notes
In the following, you can download lecture notes. In order to access the files, you need to log in with your campus ID and the corresponding passphrase.
- Introduction/Large-Scale-Numerics
- C++ Basics
- Finite-precision arithmetics and matrix-matrix multiplication
- Matrix factorization
- Quantum many-body systems
- Exact diagonalization
- Tensor-network states
- Quantum Monte-Carlo
- Machine learning
The following list provides you links to the papers discussed in the last lecture (Thursday 13th, 2023), in case you'd like to have a more closer look into them. Note that you can download non-open access papers directly if you are in the MWN or use a proper VPN (e.g., eduVPN)
- Quantum supremacy using a programmable superconducting processor
- What Limits the Simulation of Quantum Computers?
- Solving the Sampling Problem of the Sycamore Quantum Circuits
- Grover's Algorithm Offers No Quantum Advantage
- Evidence for the utility of quantum computing before fault tolerance
- Efficient tensor network simulation of IBM's kicked Ising experiment
Exercise classes
| Time | Room | Tutors |
| Wednesday, 4PM-6PM | B101 | Simon Linsel Anxiang Ge |
| Thursday, 2PM-4PM | A450 | Zhaoxuan Xie Benedikt Schneider |
Verantwortlich für den Inhalt: Sebastian Paeckel