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power modules for advanced HPC platforms. This position will focus on innovative power architectures, advanced circuit topologies, magnetic component optimization, and integrated packaging solutions
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-low-power, non-volatile, and scalable computing platforms. The research aims to develop CMOS interface circuits and system architectures that tightly integrate with spintronic devices for applications
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on developing TFLN and TFLT photonic integrated circuit (PIC) platforms for classical and quantum information processing. Our approach involves cavity-based components with electrically controllable cavity
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and expanding section at the Institute of Mechanical and Electrical Engineering (IME). The section conducts internationally recognized research in integrated circuits, spintronics, photonics, and
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on efficiency, power density, and circuit dynamic response. The research will concentrate on creating novel circuit topologies, optimizing electronic components and revolutionizing their integration and packaging
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algorithms and circuits to enhance imaging quality and speed Creating efficient data acquisition and processing workflows for large datasets of skin nanotexture images Optimizing hardware-software integration
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at the Institute of Mechanical and Electrical Engineering (IME). The section conducts internationally recognized research in integrated circuits, spintronics, photonics, and neuromorphic computing, and plays a
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. S. Sørensen. The Quantum Optoelectronic Devices Group investigates quantum mechanical effects of light in photonic integrated circuits. Our team develops innovative devices for generating and