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at the intersection of wireless systems, organic electronics, and neurotechnology. Project Goal Develop a wireless, battery-free, implantable analog interface using organic electrochemical transistors (OECTs) to sense
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: Master in Electrical/Electronic Engineering with proven knowledge of analog/mixed-signal integrated circuits. Additional research/development experience in any of the following topics is a plus: hands-on
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temperatures at CEA-LETI. Circuits functions that are targeted for design and fabrication using the available design environments include RF LNA amplifiers, passive filters and analog signal generators working
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analogous to puberty, which represent windows of increased sensitivity to environmental pollutants. Your work will focus on advancing physiologically based kinetic models by integrating tissue-specific data
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responsibilities will include: Design and develop analog circuits for implementing ONNs for computing. Modeling, simulate and benchmark different computing tasks such as sensor data processing. Explore ONN
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analogous to puberty, which represent windows of increased sensitivity to environmental pollutants. Your work will focus on advancing physiologically based kinetic models by integrating tissue-specific data
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recovery mechanisms will also be evaluated and integrated, addressing the susceptibility of analog and in-memory computing to noise, process variation, and soft errors. The primary objective is to design a
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patterning and key process steps High-speed analog/RF Neuromorphic computing Next-generation logic devices Novel memory concepts Quantum computing Data science and data security GaN power electronics Image
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related discipline. Strong background in analog and mixed-signal integrated circuit design. Experience with Cadence tools for schematic design, layout, and circuit simulation. Interest or prior experience
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platform as a doctoral student? At Fraunhofer IPMS , in collaboration with renowned German and European partners from science and industry, we are developing analog accelerators using novel non-volatile