MSc Advanced Microelectronic Systems Engineering
Bristol and the surrounding area host a thriving and world-renowned semiconductor design industry. The different groups involved in microelectronics research at the University of Bristol have 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 digital and analogue application-specific integrated circuit (ASIC) design, digital signal processor (DSP) and field-programmable gate array (FPGA)-based computing, integrated sensors and actuators, radio-frequency and mixed-signal design. Changes are made periodically to reflect important emerging disciplines, such as electronics for the Internet of things, biomedical applications and quantum photonics applications.
The programme offers you the opportunity to learn from experts in microelectronics, nanoelectronics and computer science. You could move on to start working straight after your degree or continue your studies via a PhD. Special emphasis is put on providing you with a range of contemporary design skills to supplement theoretical knowledge. Lectures are accompanied by lab exercises in state-of-the-art industrial electronic design automation (EDA) software to give you valuable experience in a professional environment.
Visit the Department of Electrical and Electronic Engineering website to learn more about the MSc in Advanced Microelectronic Systems Engineering.
Bristol and the surrounding area host a thriving and world-renowned semiconductor design industry. The different groups involved in microelectronics research at the University of Bristol have 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 digital and analogue application-specific integrated circuit (ASIC) design, digital signal processor (DSP) and field-programmable gate array (FPGA)-based computing, integrated sensors and actuators, radio-frequency and mixed-signal design. Changes are made periodically to reflect important emerging disciplines, such as electronics for the Internet of things, biomedical applications and quantum photonics applications.
The programme offers you the opportunity to learn from experts in microelectronics, nanoelectronics and computer science. You could move on to start working straight after your degree or continue your studies via a PhD. Special emphasis is put on providing you with a range of contemporary design skills to supplement theoretical knowledge. Lectures are accompanied by lab exercises in state-of-the-art industrial electronic design automation (EDA) software to give you valuable experience in a professional environment.
Visit the Department of Electrical and Electronic Engineering website to learn more about the MSc in Advanced Microelectronic Systems Engineering.
