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-layer optimizations for contributing to relevant standardization bodies Implementing prototypes involving congestion control, real-time communication and QUIC to optimize for Quality of Service (QoS
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computing and quantum computing are future-oriented topics that our researchers are working on. Our research fields are in the following areas - Fraunhofer ITWM »Optimization« »Processes and materials
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processes to understand reaction pathways, optimize catalyst performance, and design more efficient electrode structures. Your work will help accelerate the development of scalable, low-waste, and energy
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on integrated memory devices and ferroelectric transistors, ensuring precise and reliable results. Data Evaluation & Process Optimization: You evaluate the obtained measurement data, identify optimization
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that our researchers are working on. Our research fields are in the following areas: »Optimization« »Processes and materials« »Mathematics for vehicles, systems, and plants« »Analytics and computing« What
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The Fraunhofer Institute for Toxicology and Experimental Medicine ITEM is one of 76 institutes of the Fraunhofer-Gesellschaft, Europe’s largest organization for application-oriented research
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divided into four areas with respective subgroups: »Optimization« »Processes and Materials« »Mathematics for Vehicles, Systems, and Plants« »Analytics and Computing« What you contribute You have completed
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researchers are working on. Our research fields are in the following areas - Fraunhofer ITWM »Optimization« »Processes and materials« »Mathematics for vehicles, systems, and plants« »Analytics and computing
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Sustainable Development Goals of the United Nations. As an institute of the Fraunhofer-Gesellschaft, we show how to not only master challenges, but grow with them. We push boundaries, think ahead and shape
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characterization and reliability of III/V semiconductor devices, in particular transistors. You will perform lifetime measurements, optimize measurement methods (especially for GaN transistors), and evaluate