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with a master's or diploma degree Fundamental understanding of mixed-signal circuit architecture (e.g., ADCs, DACs) Experience in deep learning, hardware development, or memory technology is a plus
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to fossil chironomid research, applying new approaches for interpreting fossil chironomid records or developing new types of calibration data for further expanding the use of aquatic invertebrate and
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the double ellipsoidal model, to represent energy input. While effective in reproducing the temperature field for analysing residual stresses and distortions after experimental calibration, these models
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research, including a demonstrated ability to conceive, organize, conduct and publish independent astrophysical research of international calibre. Advanced knowledge of astronomical techniques (such as
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biasing functions. Establish performance metrics and specifications for sub-circuits (e.g., DACs, ADCs, amplifiers, switches, and oscillators) considering cryogenic constraints. Design, simulate, and tape
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determinants of restoration success (e.g., hydrodynamics and water quality) and include advanced features such as remote data transfer making them highly user-friendly. Calibration of these devices will be done
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musculoskeletal conditions. Apos utilizes personally calibrated footwear with unique biomechanical elements attached to the sole of the shoe that alter the user's walking pattern, redistributing forces across
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(stamping, inkjet printing etc.), and biosensor assembly and calibration, using a variety of electroanalitycal techniques. The research will involve field-application with clinical partners and validation
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collaboration (neuroscientists and device physicists) Your Profile: Master’s degree in electrical/electronic engineering, physics or related fields Strong skills in mixed-signal circuit designs (TIA, ADC, …) and
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in device fabrication and preparation, using techniques such as inkjet printing, and biosensor assembly and calibration, using a variety of electroanalitycal techniques. The research will involve field