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. Establish robust, high-resolution electron microscopy protocols to identify and quantify interfacial structural phenomena. Correlate interfacial structure with adsorption performance, contributing to a
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and components with high surface quality requirements. Despite the trends towards increasing automation and higher productivity, the polishing of complex geometries is still normally performed manually
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for SSM-SNN cores Integrate RISC-V processors using SoC flows Perform full-chip simulation, verification, and prototyping Publish and present research in high-impact venues Qualifications Applicants should
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environments with high international impact. We perform world-class research, which contributes with solutions to solve essential societal challenges within the green transition: food production and veterinary
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energy-efficient CMOS blocks implementing SSM-based LLMs. Prototype hardware blocks on FPGA and prepare for ASIC tape-out. Benchmark performance and comparison with transformer accelerators. Work with
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fostering a creative and successful academic environment. DTU Electro has 350 employees and span activities in physics, photonics, and electrical engineering. Research is performed within nanophotonics
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industry. We expect you to be able to handle and have an interest in experimental laboratory and formulation work. Experience with coatings may be an advantage. You are high performing, visionary and thrive
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, who’s focus is high-resolution profiling of respiratory mucosal immunity in vaccine responses using transcriptional and spatial platforms (VAXXAIR). The VAXXAIR initiative (funded by Novo Nordisk
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your main supervisor, including writing a project proposal and connected qualifying activities. Development, teaching, and operation (40%) contribute to our extensive portfolio of tasks linked
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. Your work will focus on developing physics-informed AI methods to enhance decision-making in design and operation of next generation thermal energy storage systems, such as latent heat TES and