18 atomic-physics positions at Eindhoven University of Technology (TU/e) in Netherlands
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latency computation monolithically on chip. This research will enable a whole new class of reconfigurable neural network layouts, which could lead to highly efficient optical processing engines. Several
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for design trajectories of electronic systems, ranging from digital circuits to cyber-physical systems. The trajectories are constructive and lead to high-quality, cost-effective systems with
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are used in high-tech motion systems, for example to allow nanometer-accurate positioning in lithography machines. However, increasing requirements on actuator acceleration and precision lead to higher
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. The opportunities for fundamental research that will lead to applications are ample! Requirements Specific Requirements The candidate should Have a master's degree in Computer Science, Mathematics, or a related field
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conferences (IEEE VIS, IEEE InfoVis, IEEE VAST, EuroVis); several successful start-up companies (MagnaView, Process Gold and SynerScope); and a number of techniques that are used on a large scale world-wide
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agenda and ensuring policy alignment. The consortium currently consists of a mix of 60 large and small telecom, semiconductor and ICT companies, universities and public bodies: PL1: TU/e (lead), Aircision
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. Our ambition is to provide a scientific basis for design trajectories of electronic systems, ranging from digital circuits to cyber-physical systems. The trajectories are constructive and lead to high
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Job related to staff position within a Research Infrastructure? No Offer Description Research on quantum technologies is set to revolutionize several aspects of our life, including how we process
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them in the modeling and estimation process through suitable statistical models. Copulas serve as powerful mathematical tools to construct flexible statistical models to represent complex dependence
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split and rays may follow different paths. This is important for applications as it may lead to more compact designs. OPTIC3 Surface scattering with 3D Monge-Ampère For ideal sources and ideal optical