Past lectures

"Applied Quantum Information Science: Quantum algorithms and error correction" (SoSe 2023)

This lecture introduces students to quantum computing algorithms with a focus on those that can be implemented on current quantum hardware. The lecture also covers quantum error mitigation and quantum error correction. Students acquire a practical knowledge of quantum computer programming using Qiskit.

Brief Syllabus

• Introduction to quantum information with focus on description of noisy quantum hardware
  • Density operator, quantum entanglement, Schmidt decomposition, purification, distance measures
  • Quantum channels, gate fidelity
• Quantum noise tomography: state tomography and gate tomography
• Algorithms for optimization and Hamiltonian simulation (Trotterization)
• NISQ quantum algorithms: hybrid quantum-classical algorithms, variational quantum algorithms
• Quantum error mitigation
• Quantum error correction: general conditions for QEC, Shor code, CSS codes, stabilizer formalism, fault-tolerancy
• Practical implementation of quantum computing algorithms, tomography, error mitigation and correction using open source software packages and toolkits

Lecture Notes

• Lecture 1
• Lecture 2
• Lecture 3
• Lecture 4
• Lecture 5
• Lecture 6 and 7
• Lecture 8
• Lecture 9
• Lecture 10
• Lecture 11
• Lecture 12
• Lecture 13
• Lecture 14
• Lecture 15

Script (in progress) prepared by N. Jung

Problem Sets

• Problem set 1 (due Mo, 12 June), Solutions PS 1, MMA solutions PS 1
• Problem set 2 (due Wed, 28 June), Solutions PS 2
• Problem set 3 (due Wed, July 12), Solutions PS 3
• Problem set 4 (due Wed, July 19)