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What will I learn?

Programme aim

Your smartphone is probably the most well-known example of an advanced embedded system; a handheld low-power device that carries out signal processing at the same time as it is able to entertain its user with computer games, internet sessions, and streaming audio/video. What makes a system embedded is that system functionality must be implemented in hardware and software within very challenging constraints, such as performance, power consumption, real-time demands, reliability, and size.​

​The aim of this programme is to educate engineers that can design, implement and verify advanced embedded electronic systems based on hardware and software. The programme graduates will gain knowledge and skills in a variety of areas, such as integrated circuit technology, computer design, industrial design methodologies and industrial design software suites. Programme graduates will be qualified to work as productive engineers in industrial teams designing state-of-the-art embedded products or intellectual property, or to undertake graduate studies leading to a doctorate in the field of electronic system design.

Why apply

This programme is designed to address the entire design challenge of embedded systems. During the first fall semester three compulsory courses will give you a solid design platform in preparation for the spring design project, when all students will participate in a programme-wide embedded system design project; here, the knowledge and skills acquired during the fall are put to use in the design of a prototype embedded system. Since local industry is involved in the specification of the project, we are able to target exciting applications, such as satellite signal processors, music synthesisers, and medical electronics.

An overarching idea of the programme is to facilitate progression of key knowledge and skills throughout the courses that lead up to the big spring project. The programme makes use of progressive educational methods such as small projects, hands-on design exercises, flipped classroom teaching and scientific writing. Also, examination is adapted to the learning outcomes which means that the traditional written exam is complemented by, for example, report and log book writing, project demonstrations and oral examinations.

Career opportunities

The opportunities for students graduating from this programme are excellent given the trend of embedded system permeating all aspects of life. Our graduates find jobs in Swedish companies like Volvo, Ericsson, Saab Electronic Defense Systems, Cobham Gaisler, or in international companies such as RUAG, Atmel, ARM, Nordic Semiconductors, Texas Instruments, NXP, or they work as consultants.

Around one fifth of our graduates continue in research schools, earning their PhDs in the general area of embedded electronic system design. Several of our students take part in research projects, both at Chalmers and in companies. Different grants allow our students to travel to conferences: Since the start of the programme, we have had around 20 scientific papers published by students from the program.​

Which department am I in?

Department of Computer Science and Engineering

Study options

Full Time (2 Years)

Tuition fees
SEK140,000.00 (10,92,811) per year
EU/EEA Citizens are not required to pay fees.
Start date

Expected August 2022

Venue

Chalmers University of Technology

Johanneberg Campus,

Chalmersplatsen 4,

GOTHENBURG,

SE-412 96, Sweden

Entry requirements

For students from United States

To fulfill the general entry requirement for the second cycle (master’s level), the prospective student must either hold a degree of Bachelor or Degree of Bachelor of Science in Engineering (minimum 3 years/ 180 hp) in Science, Engineering, Technology or Architecture from an internationally recognized university, according to the official guidelines by the Swedish Council for Higher Education published at universityadmissions.se. Programme-specific requirements include a bachelor’s degree (or the equivalent) with a major in (one or several alternatives will be listed) and prerequisites (one or several courses selected as necessary for the specific programme) and for three particular programmes a portfolio is required. English language requirement: IELTS (academic training): 6.5 (with no part of the test below 5.5); TOEFL (Internet based): 90 (with a minimum of 22 on the written part); TOEFL (paper based): 575 (with a minimum of 4.5 on the written part); Pearson PTE Academic - Score of 62 (writing 61).

For international students

Bachelor's degree with a Digital Design profile and a major in: Electrical Engineering, Computer Engineering, Telecommunication Engineering, Automation and Mechatronics Engineering, Engineering Physics or the equivalent.

Preferable course experience: Electrical Measurements, Semiconductor Devices and Machine-Oriented Programming with C.

Accepted tests and minimum results required: IELTS Academic: an overall mark of 6.5 and no section below 5.5; TOEFL Paper-based: Score of 4.5 (scale 1-6) in written test, total score of 575, TOEFL Internet-based: Score of 20 (scale 0-30) in written test, total score of 90; Pearson PTE Academic: Score of 62 (writing 61); C1 Advanced (CAE), Cambridge English: Advanced (Certificate in Advanced English), or Cambridge ESOL Level 2 Certificate in ESOL International, Level C1.

*There may be different IELTS requirements depending on your chosen course.

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