Complex Embedded Systems - Interactive curriculae of TU Ilmenau
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Please refer to the respective study and examination rules and regulations for the legally binding curricula (Annex Curriculum).
You can find all details on planned lectures and classes in the course catalogue.
Please note that this page is no longer updated. All modules and study plans from PO version 2021 onwards (Bachelor and Master study programs) are now available on the Campus Portal.
| module properties Complex Embedded Systems in degree program Master Micro- and Nanotechnologies 2021 | |
|---|---|
| module number | 200016 |
| examination number | 220431 |
| department | Department of Computer Science and Automation |
| ID of group | 2231 (Computer Architecture and Embedded Systems) |
| module leader | Prof. Daniel Ziener |
| term | summer term only |
| language | Englisch |
| credit points | 5 |
| on-campus program (h) | 34 |
| self-study (h) | 116 |
| obligation | elective module |
| exam | examination performance with multiple performances |
| details of the certificate | Das Modul Complex Embedded Systems mit der Prüfungsnummer 220431 schließt mit folgenden Leistungen ab:
Lab project on embedded systems in small groups
written exam |
| link to Moodle course | https://moodle.tu-ilmenau.de/course/view.php?id=2701 |
| teacher | Prof. Dr. Zimmermann, Armin |
| signup details for alternative examinations | Dieses Modul enthält mindestens eine alternative semesterbegleitende Abschlussleistung. Bitte beachten Sie, dass diese in der Regel schon zu Beginn des Semesters, in dem diese angeboten wird, angemeldet werden muss. This module contains at least one alternative exam part. Please note that this must usually be registered at the beginning of the semester in which it is offered. |
| maximum number of participants | |
| previous knowledge and experience | Finished 1st semester courses of RCSE, especially software & systems engineering; general knowledge of Bachelor-level computer science |
| learning outcome | Students understand structure and functions of complex embedded systems. They understand requirements and design aspects with respect to real time, communication, and software architecture issues. Participants are able to take into account safety, reliability, timing, and performance requirements and know kow to design embedded systems with guarantees. Methods: students are able to apply methods of model-based systems and software design and hardware/software codesign to given design problems. They master different modeling and design methods and can decide which one fits a given problem setting. Practical skills: students have learned and trained to design and implement a small embedded system. Soft skills: Students can discuss design options and successfully work as a team to develop an embedded system |
| content |
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| media of instruction and technical requirements for education and examination in case of online participation | Slides available on the Moodle page |
| literature / references | Wolf: Computers as Components Burns and Wellings: Real-time systems and programming languages Liu: Real-Time Systems Cooling: Software engineering for real-time systemsadditional literature, especially for individual student talks, is given in the lecture |
| evaluation of teaching | |