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Master of Neuromorphic Engineering

Approved Abbreviation: MNeuroEng

Western Sydney University Course Code: 8123.1

AQF Level: 9

CRICOS Code: 106435C

This version applies to students whose commencement year for this program is 2022 or later. Please use the link to the new Handbook for details.

https://hbook.westernsydney.edu.au/programs/master-neuromorphic-engineering/

Neuromorphic Engineering is an exciting inter-disciplinary field combining aspects from electrical engineering, computer science, neuroscience, signal processing and mathematics. The Master of Neuromorphic Engineering offers students an opportunity to partner with high-profile industry partners in an applied project or a research project, mentored by leading researchers from the International Centre for Neuromorphic Systems at the MARCS Institute. This course seeks to address the rapidly growing demand for alternative inter-disciplinary technologies, such as bio-inspired agile sensory systems, smart edge devices, and brain-inspired high performance computational platforms. The students will be introduced to state-of-the-art neuromorphic hardware, sensors and algorithms in a highly structured way that increases their acumen for approaching new situations with creativity and initiative.

All students will enrol in the 8124 Master of Applied Neuromorphic Engineering and have the option to transition to 8123 Master of Neuromorphic Engineering at the end of their first year. A student completing the two-year degree may apply to pursue a PhD. Two exit options (Graduate Certificate in Neuromorphic Engineering and Graduate Diploma in Neuromorphic Engineering) are also available.

The majority of the coursework units will be undertaken at Parramatta City - Hassall St campus, while the applied project and research project will be located at Penrith campus.

Study Mode
Two years full-time or four years part-time. Students may be required to travel between campuses to complete their units.

Course Structure

Qualification for this award requires the successful completion of 160 credit points as per the recommended structure below.

Recommended Sequence

Full-time

Year 1

Autumn session

800229Neuromorphic Electronics Design
301440Mathematics of Signal Processing
401471Introduction to Neuroscience
301493Programming for Data Science

Spring session

800231Neuromorphic Accelerators
800232Neuromorphic Algorithms and Computation
800233Neuromorphic Sensing
301119Advanced Machine Learning

Year 2

800234Master Dissertation in Neuromorphic Engineering


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