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. Research will focus on neural data integration, neural circuit modeling, biologically grounded representation learning, and foundation models for neurobiology. The Postdoctoral Fellow will work closely with
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for this position will be: Solid modeling and design of high-performance integrated photonic devices Process development of low-loss photonic integrated circuits on different material platforms Heterogeneous
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terms of waveform quality, compact filtering and three-dimensional integration at high specific power. Where to apply Website https://emploi.cnrs.fr/Candidat/Offre/UMR5213-DELDAL-033/Candidater.aspx
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Research Infrastructure? No Offer Description Mission: Perform microelectronic design, including modification of architectures, synthesis and implementation in FPGAs and integrated circuits. Functions to be
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be world-class leaders in areas at the crossroads of Next Generation Electronics, Circuits, Architectures and Design Automation for Artificial Intelligence (AI) and applications. The department intends
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of quantum memory protocols in both bulk crystals and waveguide structures, design and integration of MW coils and circuits with photonic components, including optical resonators. The project aims to deliver
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for this position will be: Solid modeling and design of high-performance integrated photonic devices Process development of low-loss photonic integrated circuits on different material platforms Heterogeneous
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integrated photonic devices based on silicon nitride (SiN) technology for applications in the optical O-band (1250 nm – 1350 nm). The activity includes the design of test structures and the experimental
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research on AI/ML methods for accelerating integrated circuit (IC) design. * Participate in the deployment and testing of AI/ML-driven IC design algorithms to both open-source and industry-standard CAD tools
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National Aeronautics and Space Administration (NASA) | Pasadena, California | United States | about 5 hours ago
of digital read out integrated circuits (DROICs) for space instruments that affect focal plane array (FPA) signal to noise, dynamic range, and speed. Novel in-pixel DROIC architectures avoid signal saturation