MSc Microelectronics Systems Design
Our MSc Microelectronics System Design degree is a cutting-edge course, allowing you to choose from a wide range of modules based on digital integrated circuit design and analogue integrated circuit design.
Our Microelectronics System Design degree examines aspects of system integration and discrete device properties. It is also an excellent platform for further research in the Nano or Electronic and Software Systems groups.
We’ve led many of the most important advances in electronics and microelectronics over the past 30 years. This course will give you the highly sought-after skills for research or work in the industry.
You’ll gain key skills relating to digital and analogue integrated circuit design and electronic systems engineering. There will also be opportunities to engage in specialised activities around the production of system on chip design on both integrated circuit and advanced FPGA (field-programmable gate array) platforms.
Through this course you’ll learn how to:
Employability is a strong focus throughout this course:
Your course leader for this Microelectronics MSc is Professor Koushik Maharatna. Their recent research interests have a focus in biomedical and health informatics, biomedical circuits and systems, and engineering in medicine and biology.
Our MSc Microelectronics System Design degree is a cutting-edge course, allowing you to choose from a wide range of modules based on digital integrated circuit design and analogue integrated circuit design.
Our Microelectronics System Design degree examines aspects of system integration and discrete device properties. It is also an excellent platform for further research in the Nano or Electronic and Software Systems groups.
We’ve led many of the most important advances in electronics and microelectronics over the past 30 years. This course will give you the highly sought-after skills for research or work in the industry.
You’ll gain key skills relating to digital and analogue integrated circuit design and electronic systems engineering. There will also be opportunities to engage in specialised activities around the production of system on chip design on both integrated circuit and advanced FPGA (field-programmable gate array) platforms.
Through this course you’ll learn how to:
Employability is a strong focus throughout this course:
Your course leader for this Microelectronics MSc is Professor Koushik Maharatna. Their recent research interests have a focus in biomedical and health informatics, biomedical circuits and systems, and engineering in medicine and biology.
