The table below summarizes the list of lecture days and contents that we had time to cover during my FebMarch stay at IQOQI (Innsbruck). I am also providing some PDFs with my own "script" for what I am talking about and some supporting pictures or slides.
Recordings of some lectures can be found in our YouTube channel.
Day 
Topics 
Material 
Week 1 
Feb. 3 (Wed)
9:1511:00 
Introduction and organization
Microwave resonator

notes,
slides


Week 2 
Feb. 8 (Mon)
9:1511:00 
Microwave resonator quantization, electrical circuit conventions, vacuum fluctuations
Macroscopic quantum model for superconductors: phasecurrent relations, 1st. London equation, kinetic inductance, fluxoid quantization.

notes 


Feb. 10 (Wed)
9:1511:00 
Josephson junctions and nonlinear inductance.
Quantization rules and first examples: driven harmonic oscillators.

notes, slides 


Feb. 12 (Fri)
9:1511:00 
Quantization of a transmission line, eigenmodes and spectroscopy. 
notes, problems 

Week 3 
Feb. 15 (Mon)
10:1512:00 
The charge qubit: idea, quantum model, circuit, phasenumber representation and some "control" approaches. 
notes, problems 


Feb. 17 (Wed)
9:1511:00 
General considerations about qubits: control, dephasing, dissipation, master equations. And a first approach to qubits in cavities. 
notes 


Feb. 19 (Fri)
9:1511:00 
Circuit QED: JaynesCummings model, Rabi oscillations vs cavity and qubit losses, spectroscopy, QND qubit measurements. 
notes, problems 

Week 4 
Feb. 24(Wed)
9:1511:00 
Other qubits: transmons, flux qubits, phase qubits, Xmons. Tuneability via DCSQUID's. 
notes 


Feb. 26 (Fri)
9:1511:00 
Tuneable coupling between gmons and its use for building twoqubit quantum gates. Randomized benchmarking of gates. Introduction to flux qubits. 
notes 

Week 5 
Feb. 29 (Mon)
10:1512:00 
More on flux qubits. Tuneable coupling built from rfsquids and the DWave architecture. Adiabatic quantum computing and quantum annealing. 
notes,
problems



Mar. 4 (Fri)
9:1511:00 
Control, engineering and tomography of photon states in a resonatorqubit system. 
notes 

Week 6 
Mar. 7 (Mon)
10:1512:00 
Propagating photons in open transmission lines and interaction with qubits. 
notes 

Suggested references:
 M. Devoret, Quantum Fluctuations in Electrical Circuits, Les Houches, Session LXIII 1995, Elsevier 1997
 S. Girvin, Circuit QED: Superconducting Qubits Coupled to Microwave Photons
 T. Orlando, K. A. Delin, Foundations of Applied Superconductivity, Addison Wesley 1990
 A. Blais et al, Cavity quantum electrodynamics for superconducting electrical circuits: An architecture for quantum computation, Phys. Rev. A 69, 062320 (2004)
 My own lecture notes.
Remarks
 Not all lectures are available on video due to technical reasons or unforeseen problems (i.e. batteries running out without noticing :)
 The quality of the uploaded videos is not as good as I would like but I hope the scripts can compensate for that.
 All of the material above falls under my full responsibility. IQOQI hosted the lectures but is in no way reponsible for my statements, lecture content or copyright violations of the figures I use in my notes (although I have tried to give due credit everywhere and this is a noncommercial effort)

