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the transmitter output efficiently and accurately. The goal is to design innovative receiver and analog-to-digital converter (ADC) architectures capable of capturing the transmitter output with extremely high
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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
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partners. Design analog and mixed-signal CMOS circuits for driving, sensing, and reading spintronic devices. Participate in the full IC design flow from architecture to schematic, layout, and verification
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investigated using electron paramagnetic resonance (EPR) spectroscopy, a magnetic resonance technique analogous to nuclear magnetic resonance (NMR) but specifically suited to the detection of paramagnetic
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for system and circuit simulation, apply modern analog/RF design methodologies, and participate in measurement and characterization of prototype chips. The project encourages creative thinking and
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Vignolle (joan.vignolle@enscbp.fr ) References: Igau, Alain.; Grutzmacher, Hansjorg.; Baceiredo, Antoine.; Bertrand, Guy. Analogous .Alpha.,.Alpha.'-Bis-Carbenoid, Triply Bonded Species: Synthesis of a
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two companies. The project has partners from eight different EU countries. All 15 PhD projects are within the overall theme of neuromorphic computing and analog signal processing, targeting applications
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memory devices has only recently been explored, this doctoral project aims to advance that frontier. Initially, the research will explore CMOS–memristor hybrid implementations, leveraging their analog
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will also be aware of the wider philosophical and cultural context. The study program is complex and interdisciplinary, promoting the ability to examine, through analogy, similar cases in different
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efficiency, frequency performance, and functionality across RF, mm-wave, and wireless communication systems. The group bridges fundamental science with practical applications, pushing the boundaries of analog