Our Bachelor and Master program                                          new.pngRedesigned Master TI, Bachelor with Honors


Technische Informatik (Computer Engineering)


offer a profound academic education in all aspects of dependable embedded/cyber-physical systems. We are hence dealing with computing systems that directly interact with real-world systems, including critical ones such as spacecraft and cars.



Designing computing systems for such applications is both scientifically and technologically challenging: Control computers for aircraft cannot just stop operating in case of failures, "trial-and-error-style programming" is not an option in many applications, asserting system correctness by means of testing may be insufficient for the required reliability level, etc.

Key characteristics of our field are (i) an integrative view of a multitude of system aspects like hardware/software interface, continuous/discrete systems, communications, dependability, real-time processing, energy/resource efficiency, etc., and (ii) interdisciplinarity: Core computer science knowledge and skills like programming, modeling, design and analysis, and formal verification of both software and hardware must be complemented by a sound background in other disciplines, in particular, both discrete and continuous mathematics, electrical engineering and even physics.

Our Bachelor and Master curricula have been specifically designed to meet these challenges: Grounded on solid foundations in both discrete and continuous mathematics, our Bachelor Technische Informatik consists of a fully-fledged computer science core, with a specific focus on establishing the scientific foundations for rigorous systems engineering, which is complemented by solid engineering basics, both foundational (electrical and control engineering) and more practical (digital design and computer architecture, microcontroller programming). Our Master Technische Informatik allows to advance the knowledge and skills in modeling, analysis and validation of dependable, hybrid and autonomous cyber-physical systems, and to individually specialize in certain fields. Together, they form an ideal basis for entering one of the doctoral programs at TU Wien.

We are not aware of many universities world-wide that offer comparable programs.



Bachelor Technische Informatik (Studienplan BTIÜbergangsbestimmungen)

Qualifies for:

  • Advanced development of embedded/cyber-physical systems (VLSI design and computer architecture, microcontroller software development, dependable real-time systems design)
  • Applications engineering
  • Research support

BTI is enrolled by something like 50-70 beginners per year, with typically 40-50 active students entering the 3rd semester, and produces 30-40 graduated Bachelors per year. Note that it is in German only.


Some Highlights

  • Except for the first and second semester BTI courses shared with other Bachelor programs, all courses in the BTI can offer student-to-staff ratios which are comparable to first-rate international universities.
  • The BTI is probably the most challenging among the Bachelor programs of the Faculty of Informatics, as it requires mastering both core computer science and additional fields like electrical engineering and systems & control theory. However, owing to this:
    • We can offer excellent job perspectives for our graduates, both internationally and nationally. In fact, Austria has a surprisingly rich industry (TTTech, RUAG Space, Frequentis, to name just a few) who are usually desperately looking for excellent graduates.
    • Working in a field as rich as Technische Informatik is not only intellectually challenging - it is also fun and very satisfactory. Live-long interest [and employment ...] is usually guaranteed!
 Additional remarks
  • The BTI is definitely not "reserved" for students coming from a HTL, despite persistent rumors saying the opposite: Experience tells that, over the years, the obvious headstart of good HTL graduates in engineering-related courses is often outweight by superior abstraction and language skills of good AHS graduates.
  • Except for the course Grundlagen Digitaler Systeme, all other courses in the first semester of the BTI (and also three courses of the second semester) are also present in the other Bachelor programs of the Faculty of Informatics. It is hence possible to switch from the BTI to another Bachelor program with minor loss of efforts.

new.pngBachelor with Honors program

Top BTI students can apply for entering the new Honors program (effectively starting 2018), which adequately challenges highly gifted students, provides early exposure to research topics and early integration into research groups, and explicitly acknowledges excellence in the studies. It consists of an individual program of 45-60 ECTS of additional courses from any suitable Bachelor and/or Master curriculum, which is chosen in accordance with a professor of the faculty who acts as a mentor throughout the entire BHons studies. BHons graduation requires passing both the regular BTI and the individual honors program with distinction, within 9 semesters (for full-time students), hence effectively "simulates" a 4-years Bachelor education (without an official legal status, however, which would not be compatible with the Austrian law). Note that courses taken in the honors program may also be re-used in a subsequent regular Master program.

Details will be officially announced in fall 2017.

Master "Technische Informatik" (Studienplan MTI, new.png Übergangsbestimmungen)                         

Qualifies for:

  • Modeling, design and analysis of dependable, hybrid and autonomous cyber-physical systems
  • Scientific and industrial research
  • Entering PhD program

MTI is enrolled by something like 15-20 beginners per year and typically produces 10-15 graduated Masters per year. Although it is in German per default, most courses are offered English on demand.


   timeforachange.jpg  Re-launch MTI 2017:

The rapidly changing world of cyber-physical systems, the hiring of new professors, the need for maintaining compatibility with other programs (doctoral programs, BHons), and finally the need to clearly distinguish the MTI from the Master Embedded Systems of the Faculty ETIT suggested a major re-design of the MTI. The cornerstones of the new program, which starts October 2017, are:

  1. ECTS reduction for mandatory basic courses (from 43.5 to 22.5 overall), now comprising Discrete Mathematics (9 ECTS), Formal Methods (9), Advanced Multiprocessor Programming (4.5) only
  2.  Adding two new key areas for optional courses, now comprising
    • Automation
    • Computer-Aided Verification
    • Cyber-Physical Systems
    • Digital Signal Processing and Communication
    • Digital Circuits and Systems
    • Dependable Distributed Systems
  3.  Setting the requirement to choose 3 out of these 6 key areas, by taking the associated gatekeeper modules and individually selected optional courses


Please consult the TU website (Austrians, Foreigners) for general information, admission procedure etc.


Practicals & Theses myTI TI Presentation (English) Präsentation Beginner's Day (in German) TI Research Presentations MS_thesis_guidelines