After successful completion of the course, students are able to solve a concrete and complex problem in the area of computational electronics by researching the respective topic, implementing a software project including documentation, and presenting the work in an oral presentation.
In this course an extensive programming task will be handled. The topics and the programming tools are diverse.
Discussion of case studies, continuous supervision, embedding in available development teams
Development of a software project and presentation of the work.
by email to the lecturer.
Familiarity with one or more areas within computational electronics, such as scientific computing, advanced programming techniques in relevant programming languages (C/C++, Python, Julia etc.), high performance computing, modeling and simulation of electronic devices and processes.
This course is primarily suited for Master's students.