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management of factory operations. In the Virtual Product Creation business unit at Fraunhofer IPK, we develop innovative approaches for model-based systems engineering (MBSE). Our focus is on optimizing
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Engineering Interest in subjects like Chemical Reaction Engineering, Process Modelling and Optimization, Circular Economy and Sustainability (Green Chemistry) Practical laboratory experience Proficiency in
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Engineering Interest in subjects like Chemical Reaction Engineering, Process Modelling and Optimization, Circular Economy and Sustainability (Green Chemistry) Practical laboratory experience Proficiency in
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Engineering Interest in subjects like Chemical Reaction Engineering, Process Modelling and Optimization, Circular Economy and Sustainability (Green Chemistry) Practical laboratory experience Proficiency in
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technical support of the FIB systems Active participation in international research projects in close collaboration with scientific users Co-development and optimization of new sample preparation techniques
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metrics and tests (static/dynamic) that best reflect the code quality and functional safety of ST. Determination of the optimal format for transferring the metrics and test results to the LLM. Development
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well as the optimization of laser systems in the NIR, SWIR, MWIR, and LWIR ranges for different application fields. A particular emphasis is placed on high-power fiber lasers in the 2-µm wavelength range. More information
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include create a N model ensemble of at least 4 process-based models (DayCent, LDNDC, Daisy, Candy) model within-field N-fluxes (e.g., N2O-losses, NO3-leaching, N-mineralization) for optimized N
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Max Planck Institute for Extraterrestrial Physics, Garching | Garching an der Alz, Bayern | Germany | 3 months ago
of FPGA designs. Further development and optimization of the existing VHDL design. Supporting the integration and system tests of the camera electronics, including evaluation and documentation
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tackle the complex challenges of our time. What you will do Development and optimization of integrated RF circuitry for Radar Transceivers for implementation into 2.5/3D heterointegrated systems Design of