Masters in Embedded Systems Australia

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Course content
ESY is a three- to four-semester Master’s programme. A total of 90 ECTS (European Credit Transfer and Accumulation System) must be acquired.

In general, developing embedded systems requires competences in several tightly knit areas:
System architectures: hardware and software
Design methodologies: system-level modelling, design techniques, testing, and verification
Embedded systems application areas: knowledge on application areas is needed for optimised embedded systems solutions

The curriculum consists of a core programme, an elective programme, and a Master’s thesis. The core programme covers the fundamentals of embedded computing systems and offers education in all three teaching areas. The elective programme allows you to sharpen your personal profile by selecting specific courses from TUK and its associated research institutes.

Core Programme (35-40 ECTS)
The core programme contains the mandatory courses that will teach you the fundamentals of embedded systems design.

In order to understand how an embedded system works, you will study processor architectures and practice their design in Architecture of Digital Systems I and the Embedded Processor Lab. These courses give you an introduction into modern RISC processors and other important processor architectures as they are widely used in today’s embedded systems. The courses Architecture of Digital Systems II and the Embedded Systems Laboratory enhance the focus from processors to systems that contain further components and communication structures.

Embedded system engineering is more than just hardware design. As we move from the components of the system to understanding the system as a whole, we are also confronted with various aspects of software design. In the courses Real-Time Systems I and Operating Systems, you will learn how the software distributes tasks and organises correct communication between all components in a system.

It is daily practice for SoC designers to work with Electronic Design Automation (EDA) tools. Therefore, it is important to understand how these tools work internally and how they map to microelectronic circuits and components. You will study those aspects in the courses Synthesis and Optimisation of Microelectronic Systems I and Microelectronic Circuit and System Design I. The course Verification of Digital Systems (with lab) introduces the fundamentals of Electronic Design Automation and their application to formal design verification.

Elective Programme (20-25 ECTS)
The elective programme allows you to build your own personal profile and to gain additional competences in those fields that are most interesting to you. You can select from a wide range of modules available at TUK. There are no mandatory teaching modules in the elective programme. An individual study plan is created and mutually agreed on between the student and the ESY programme adviser.

Master’s Thesis (30 ECTS)
The last part of the curriculum is the Master’s thesis. In general, the Master’s thesis is embedded into larger research projects conducted at TUK, at local research institutes, or in industry. The topic of your Master’s thesis is determined during your second or third semester of studies.

Application deadline
For international students applying from abroad:
Summer semester: 31 October
Winter semester: 30 April

Others:
15 January (summer semester)
15 July (winter semester)

Course objectives
In our digitalised world, no matter what technical product we buy, what device we utilise, and what service we use, embedded computing systems are in charge of controlling tasks, processing data, or interfacing systems. With upcoming trends such as the Internet-of-Things (IoT), Industrial Internet, Smart Grids / Power / Water / Cities, and autonomous mobility, we observe a tremendous increase in the demand for such systems. Clearly, if you want to shape the digitalised world of tomorrow, competence in embedded system design is key.

The field of Embedded Systems is a challenging discipline. Embedded systems typically
must be highly optimised for a specific application (or deployment area),
must achieve good trade-offs between flexibility and efficiency,
must consume little energy,
must fulfil real-time requirements,
must be safe and secure,
are designed under strict cost constraints,
are composed into heterogeneous system environments, and
can reach life times of several decades.

In general, developing embedded systems requires competences in several tightly knit areas:
System architectures
Design methodologies
Embedded systems application areas

A decision made at one design level may have a strong impact on other levels. Therefore, engineers need to have a deep understanding of the interdependencies and possible impact of design decisions on all system aspects. Although you will probably become an expert in one of the above domains, having a global view on the entire hardware/software design process is essential. It allows you to coordinate large design projects and lead the communication between different groups of engineers and computer scientists

Academic requirements
Bachelor’s degree in Electrical Engineering or an equivalent foreign degree in a related field
GRE is recommended
Where to apply
TU Kaiserslautern
Department of International Affairs: ISGS
Gottlieb-Daimler-Straße 47
67663 Kaiserslautern
Germany

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