74
ELECTRICAL AND ELECTRONIC ENGINEERING FACULTY OF ENGINEERING
Electrical and Electronic Engineering Programme Advanced Microelectronic Systems Engineering Biomedical Engineering Communication Networks and Signal Processing
Image and Video Communications and Signal Processing
Optical Communications and Signal Processing Wireless Communications and Signal Processing
Awards MSc
MSc MSc MSc MSc MSc Duration
1yr FT; 2yrs PT
1yr FT 1yr FT 1yr FT 1yr FT 1yr FT Fees (per year)*
UK/EU £11,000 FT UK/EU £5,500 PT Overseas £21,700 FT
UK/EU £11,000 FT Overseas £21,700 FT
UK/EU £11,000 FT Overseas £23,000 FT
UK/EU £11,000 FT Overseas £23,000 FT
UK/EU £11,000 FT Overseas £23,000 FT
UK/EU £11,000 FT Overseas £23,000 FT
Contact
choosebristol-pg@bristol.ac.uk choosebristol-pg@bristol.ac.uk choosebristol-pg@bristol.ac.uk choosebristol-pg@bristol.ac.uk choosebristol-pg@bristol.ac.uk choosebristol-pg@bristol.ac.uk
For further details, including entry requirements, programme structure, unit content and how to apply, see
bristol.ac.uk/pg-study. Research programmes are listed on the Faculty of Engineering pages (pp48-49). *See p43 for more information about tuition fees.
MSc Advanced Microelectronic Systems Engineering Bristol and the surrounding area host a thriving and world-renowned semiconductor design industry. The microelectronics group at the University of Bristol has many collaborative links with multinational companies in the microelectronics industry. These organisations have identified a shortfall in graduates with the necessary qualifications and professional skills to work in the sector, so this programme has been designed to meet this need.
A range of taught subjects cover core topics, such as advanced architectures and system design using FPGA and DSP platforms, before progressing to more specialised areas, such as digital and analogue ASIC design, integrated sensors and actuators, and mixed-signal design. Changes are made periodically to reflect important emerging disciplines, such as electronics for the Internet of things, biomedical applications and neuromorphic computing.
The programme offers you the opportunity to learn from experts in microelectronics, nanoelectronics and computer science. Lectures are accompanied by lab exercises
bristol.ac.uk/pg-study
in state-of-the-art industrial EDA software to give you valuable experience of a professional environment.
Entry requirements: An upper second-class honours degree (or international equivalent) in electrical and electronic engineering, computer systems engineering, or a related discipline in engineering or the physical sciences, with foundational knowledge in digital logic, computer architecture, digital and analogue transistor-level circuits, programming, and signals and systems.
MSc Biomedical Engineering Biomedical engineering is an emerging field in the UK that involves applying physical, chemical, mathematical, computer science and engineering principles to the analysis of biological, medical, behavioural and health-related problems. Biomedical engineers develop innovative devices and procedures to help prevent, diagnose and treat diseases. It relies on an in-depth understanding of science and engineering fundamentals, combined with a broad knowledge of physiological and anatomical systems.
This programme will enable you to gain expertise in this exciting field and covers both theory and
practical applications. You will acquire analytical tools and a broad physical knowledge of modern engineering and science. This is combined with a fundamental understanding of anatomical and physiological systems, and familiarity with recent technological breakthroughs.
Biomedical engineers can be employed by companies working in the design, development and manufacture of medical devices; within the NHS (for example, in hospitals to collaborate with clinicians in offering non-clinical services); in research institutes or academia; in governmental regulatory agencies; or as technical consultants within marketing departments.
Entry requirements: An upper second-class honours degree (or international equivalent) in electrical and electronic engineering, computer systems engineering, or a related discipline in engineering or the physical sciences, with foundational knowledge in digital logic, computer architecture, digital and analogue transistor-level circuits, programming, and signals and systems.
MSc Communication Networks and Signal Processing
This is a challenging one-year taught master’s
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