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17 Mar 2026 Job Information Organisation/Company Eindhoven University of Technology (TU/e) Research Field Computer science » Programming Computer science » Systems design Engineering » Electrical
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-efficient digital AI/ML accelerator for real-time transmitter error correction in high-speed RF systems. Co-design and validate on real silicon. Job description Wireless networks are becoming increasingly
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architectures for next-generation wireless communication. Design ultra-low-jitter, low-spur PLLs and validate them on real silicon. Job description Why this position is important Future wireless communication
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receiver and ADC architectures for next-generation wireless communication. Design time-domain receivers and ADCs and validate them on real silicon. Job description Why this position is important Future
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EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Design and shape the future of work in the built environment with AI. Join the NWO-funded
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PhD candidate on Interprofessional Learning and Team Resilience through the Electronic Health Record
School of Health Professions Education (SHE). Together with colleagues from FHML, MUMC+, and the MUMC+ Quality, Innovation and Research expertise unit, you will work in an interdisciplinary network
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bridges: half-joint (dapped-end) connections. Job description Half-joint (dapped-end) connections are a common design feature in concrete bridges worldwide. However, they are inherently vulnerable
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will: Perform physicochemical characterisation and optimisation of biomaterials, including surface modification and mRNA binding strategies Design and evaluate mRNA loading strategies and release
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work on the following: Design of an efficient multi-level data acquisition, transport and synchronization digital infrastructure focusing particularly on overall phase coherent operation of the overall
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extracellular matrices, you will help reveal how spatial and temporal environmental signals guide tissue organization. Your work will involve designing and applying advanced biomaterial systems including dynamic