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hardware. As part of our team, you will perform research to develop new scalable quantum simulation algorithms, based on multi-linear representation theory, and apply them to real world applications spanning
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of new components for SmallSat missions, facilitate the integration of complex hardware and test the complete mission in all development phases. You will have a key role in the validation and verification
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for activities in the Zero-G Lab and contributing to the Black-Hole Lab at Redwire Space Luxembourg for Hardware in the loop emulation of on-orbit scenarios. Responsabilities: Investigate existing verification and
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interface of hardware and software for world-leading observatories, and collaborate with international teams of scientists and engineers – then welcome to the team! Our ground-based astronomical
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at the interface of hardware and software for world-leading observatories, and collaborate with international teams of scientists and engineers - then welcome to the team! Our ground-based astronomical
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interface of hardware and software for world-leading observatories, and collaborate with international teams of scientists and engineers – then welcome to the team! Our ground-based astronomical
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of Hardware verification, we aim to develop a neuro-symbolic AI platform to convert informal digital design specifications into formally checkable verification artifacts, with logical rigor, traceability, and
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for greenhouses and vertical farming systems. The successful candidate will focus on robot hardware development, automation system design, machine vision, and intelligent control, supported by physics-based
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enable seamless human–machine interaction by interpreting brain activity (e.g., EEG signals) in real time using energy-efficient neuromorphic hardware. The successful candidate will work on the design and
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and scientific exploitation of state-of-the-art, ground-based gamma-ray telescopes. As a key member of the MAGIC and CTAO-LST collaborations, the group develops critical hardware, software, and data