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research on topics including, but not limited to: Continual learning, with a focus on novel optimization techniques and memory architectures. Advancing the reasoning capabilities of large language models
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(DSO) to resolve local congestion issues. The design of such an edge decision-making platform requires an understanding of distribution systems operation as well as machine learning and optimization
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benchmarks, established through mathematical modeling, which describe adaptive stress responses as a function of environment structure and prior experience. What are you going to do? The primary tasks
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molecules. Position Overview: We seek a postdoctoral researcher to develop and optimize surface functionalization strategies for optical chips, focusing on molecular recognition systems capable of operating
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. This requires developing formal benchmarks, established through mathematical modeling, which describe adaptive stress responses as a function of environment structure and prior experience. What are you going
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systems capable of operating in extreme space environments. Main Tasks: Surface Chemistry Development: Design and optimize chip surface chemistry for target biomolecules including amino acids, nucleobases
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solar light harvesting. Evaluate photocatalytic performance for hydrogen production and wastewater remediation. Characterize materials using different techniques, and link properties to performance
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learning, with a focus on novel optimization techniques and memory architectures. Advancing the reasoning capabilities of large language models (LLMs). Developing methods to improve the safety and robustness
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the environment, such as nuclear spins as well as 4f-shell electron spins. Our research group operates two state-of-the-art cryogenic STM systems, each optimized for ESR-STM experiments. As a postdoc, you will be
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of Translational Genomics (TGX), Research Institute Mental Health and Neurosciences (MHeNS) within the Faculty of Health, Medicine and Life Sciences (FHML) and will work closely with multidisciplinary teams from