Previous teaching

• WS: winter-, SS: summer-semester

• 1 SWS (Semesterwochenstunde) corresponds to 45 minutes of contact time.

24SS

• Informatics 2 (Master Life Science Informatics, 4 SWS)

  • Fundamentals and contemporary usage of the Python programming language, based on the materials of Stanfordpython

  • Slides, exercises, exams

• FPGA Programming (Master Computer Science, 4 SWS), (Master Electrical Engineering, 4 SWS)

  • Modern usage of SystemVerilog, design of a RISC-V-based processor, high-level synthesis

  • Course, exams

23WS

• Informatics 1 (Master Life Science Informatics, 4 SWS)

  • Computing using the Unix ecosystem, based on the book The Unix workbench

  • Introduction to programming with Python, based on the online course An Introduction to interactive programming in Python Part 1 and Part 2

  • My content — Unix workbench, my content — Interactive programming in Python, exams

• Internship accompanying course (Bachelor Artificial Intelligence, 2 SWS)

  • Maze solving challenges using the robot operating system ROS and Turtlebot3

  • Challenges

22SS, 23SS

• Informatics 2, see above

• FPGA Programming (Master Computer Science, 4 SWS), (Master Electrical Engineering, 4 SWS)

  • Circuit synthesis on FPGAs, based on the online course Digital Logic

  • My content, exams

21WS, 22WS

• Informatics 1, see above

• Internship accompanying course, see above

21SS

• Informatics 2, see above

• Selected Topics of Embedded Software Eng. (Master Computer Science, 2 SWS)

  • Accelerated computing using high-level synthesis using PYNQ framework

20WS

• (Introduction to) Informatics (Master Life Science Informatics, 2 SWS)

  • Applied computer science fundamentals, based on the lecture notes of Till Tantau (Einführung in die Informatik)

  • My content

• Autonomous Robotics (Bachelor Artificial Intelligence, 4 SWS)

  • Computational principles of autonomous robots, based on the book Introduction to Autonomous Robots

  • Practical robot programming exercises based on the framework ROS

  • My content

• Informatics 1 (Master Life Science Informatics, 4 SWS)

  • Using Unix shell for biomedical text processing, based on the book Data and Text Processing for Health and Life Sciences

  • Introduction to programming with Python, based on the online course on edX Computing in Python

• Master Seminar (Master Life Science Informatics, 4 SWS)

  • Review of bioinformatics-related papers

  • Discussion and demonstration of software tools relevant for the thesis

20SS

• Informatics 2 (Master Life Science Informatics, 4 SWS)

  • Introduction to programming with Python, based on the online course on edX Computing in Python

• Bioinformatics Algorithms (Master Life Science Informatics, 4 SWS)

  • Discussion and implementation of well-known bioinformatics algorithms, based on the book Bioinformatics Algorithms

• Selected Topics of Embedded Software Eng., see above

  • Building a computer from scratch, based on From NAND to Tetris

19WS

• (Introduction to) Informatics, see above

• Informatics 1 (Master Life Science Informatics, 4 SWS)

  • Introduction to the Unix shell

  • Using Unix shell for biomedical text processing, based on the book Data and Text Processing for Health and Life Sciences

• Case studies Cooperative and Autonomous Systems & Cyberphysical System Simulation (Master Mechatronics and Cyberphysical Systems, 8 SWS)

  • Practical projects about autonomous robotics and embedded systems