Control energy with a flip of a switch. Design next-generation microchips or flight control systems. Electrical engineers build electrical and electronic devices and systems that we depend on every day — whether they are very small (like the microchips in our cell phones) or very large (like the power grids or charging stations for electric cars).
Our state-of-the-art labs for digital electronics, electric power systems, microfabrication, circuits and digital communications will give you experience with the tools you’ll use in the field.
Master of Electrical & Computer Engineering (MEng)
This course-based program is designed to provide practising engineers the opportunity to strengthen and extend knowledge they acquired at the undergraduate level, to further develop their analytical skills, and to enhance their ability to comprehend advanced technology concepts and solve complex problems.
Master of Electrical & Computer Engineering (MASc)
This thesis-based program is for those who want to bring their undergraduate knowledge to a deeper level, and engage in research aimed at advancing the design of technological systems. Conduct your research in established research centres and laboratories for telecommunications, signal processing, systems controls and robotics, power systems and renewable energy.
The MSc/MASc in Nanoscience and Nanotechnology introduces students to a broad range of theories and hands-on skills needed to thrive in this cutting-edge, highly interdisciplinary field. Working in interdisciplinary teams, students will develop a strong track record in research and walk away with marketable skills in the emerging advanced materials sector.
Doctor of Philosophy (PhD in Electrical & Computer Engineering)
This thesis-oriented program will give you theoretical knowledge and substantial research experience for innovative system design and problem solving. Faculty member expertise includes: hardware formal verification, electric transportation, artificial intelligence and nanotechnology.