Staff

Dr.- Ing. Rolf Meyer

Photo of Rolf Meyer

Research Group Leader


Ratzeburger Allee 160
23562 Lübeck
Building 64, Room 114 (2nd Floor)

Email:r.meyer(at)uni-luebeck.de
Phone:+49 451 3101 6336
Fax:+49 451 3101 6304

Publications

[MHM25] Mahmoudi, A.; Horn, C.; Mulhem, S.; Buchty, R.; Berekovic, M.; Meyer, R.: TinyML Unleashed: Accelerating TensorFlow Lite Micro Kernels with RISC-V Vector Extension. 33rd Telecommunications Forum (TELFOR), IEEE, 2025 [Paper]
[MNT25] Mahmoudi, A.; Neskovic, A.; Thermann, C.; Sehm, R.; Hübner, C.; Plattenteich, T.; Meyer, R.; Buchty, R.; Berekovic, M.; Mulhem, S.: A Systematic Mapping Study on SystemC/TLM Modeling Capabilities in New Research Domains. ACM Transactions on Design Automation of Electronic Systems, ACM, 2025 [Paper]
[NKE25] Neskovic, A.; Kabour, A.; Eltantawi, M.; Berekovic, M.; Meyer, R.; Mulhem, S.: SCA-WAL: An Open-Source Framework for Power Side Channel Assessment at RTL and Netlist Level. IEEE Embedded Systems Letters, 2025 [Paper]
[MFS17] Meyer, R.;Farkas, B.; S. A. A. Shah; Berekovic, M.:: Transparent SystemC Model Factory for Scripting Languages. Design and Verification Conference (DVCon) United States 2017, San Jose, CA USA 2017
[FSW16] B. Farkas, S. A. A. Shah, J. Wagner, R. Meyer, R. Buchty, and M. Berekovic: An Open and Flexible SystemC to VHDL Workflow for Rapid Prototyping. Design and Verification Conference (DVCon) Europe 2016, Munich, Germany, 2016
[WMB15] J. Wagner, R. Meyer, R. Buchty, and M. Berekovic: A scriptable, standards-compliant reporting and logging extension for SystemC. Embedded Computer Systems: Architectures, Modeling, and Simulation (SAMOS), 2015 International Conference on, 2015
[SMB14] T. Schuster, R. Meyer, R. Buchty, L. Fossati, and M. Berekovic: SoCRocket - A virtual platform for the European Space Agency`s SoC development. Reconfigurable and Communication-Centric Systems-on-Chip (ReCoSoC), 2014 9th International Symposium on, 2014

Teaching

Summer Semester

  • Real-Time Systems CS4160-KP06

    Lecture with exercise, 2 SWS, language: English

    The course covers the foundations and applications of real-time systems and is part of several Master's programmes at the University of Lübeck, including Computer Science, Medical Informatics, Media Informatics, IT Security, Medical Engineering, and Robotics and Autonomous Systems.

  • Energy Efficiency in Embedded Systems CS4720-KP06

    Lecture with exercise, 2 SWS, 6 ECTS, language: English

    The course provides a deeper understanding of the causes, processes, and mechanisms of power dissipation in embedded systems. Since direct influence on hardware efficiency in computer science is often limited and strongly dependent on hardware manufacturers, the focus is on using the available hardware efficiently at the system level. Topics include the origins of power dissipation, relevant mechanisms at the hardware level, direct and indirect approaches to improving energy efficiency, and the trade-off between flexibility and efficiency.

  • Embedded Systems CS2101-KP04, CS2101

    Lecture with exercise, 2 SWS, language: German

    The course covers the foundations and applications of embedded systems and is part of several Bachelor's programmes at the University of Lübeck, including Computer Science, Medical Informatics, Medical Engineering, Robotics and Autonomous Systems, IT Security, and Biophysics.

 

Winter Semester

  • Tools for Scientific Work CS2450-KP02

    Seminar, 2 SWS, language: German

    The course introduces practical tools and methods for scientific work in computer science. The focus is on Python for Machine Learning and Data Science as well as the use of LaTeX, Markdown, Jupyter Notebook, and git. In addition, the course covers fundamentals of scientific computing, data processing and visualization, Machine Learning, and Deep Learning.

  • Hardware/Software Co-Design CS5170-KP04, CS5170, CS5170 T

    Lecture, language: German

    The course covers methods and algorithms for the joint design of hardware and software components of a system. Topics include basic target architectures, system modeling, synthesis, scheduling, binding, HW/SW partitioning, and performance analysis. Another focus is SystemC as a language for describing system behavior at a high level of abstraction.