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innovation across semiconductor technologies, novel microchip designs and system architectures – leading to faster, cheaper, greener and overall, more power-efficient electronics. As one of nine UKRI funded AI
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other data collection methods Designing, developing and optimising computer aided design components Undertaking advanced FEA mechanical and thermal analysis combined with topological optimisation
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of employers across the UK. About the Role: The Anglia Ruskin Innovation Centre (ARIC) is a strategic partnership between ARU and The Welding Institute (TWI), with the aim of developing a comprehensive research
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will work alongside the Head of Evaluation and Observational Research and a team of Research Fellows and Research Assistants to design and implement primary research in collaboration with the Programmes
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Bristol to design and conduct in-depth ethnographic and oral-history research on the features and mechanisms of structural inequities in education. The project will use its empirical findings to facilitate
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per week (0.7 FTE) for the remaining 8 months. The project involves collaborating with primary school-communities in the city of Bristol to design and conduct in-depth ethnographic and oral-history
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relevant science and appropriate practical engineering experience will also be considered. A practical background is essential and you should have good skills in computer aided design and mechanical
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neuromorphic design approach drawing inspiration from how data is processed and represented in the brain and build an efficient hardware architecture based on spiking neural networks (SNNs). The project aims
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. As a key member of our research team, you'll play a vital role in co-designing and field-testing the intervention. Your responsibilities will span various research activities, including conducting
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construction design and cloning, bacterial strain construction and the analysis of bacterial gene expression and recombinant protein production. An ability to learn new techniques quickly is highly desirable and