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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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, silicon-proven AI/ML accelerator for transmitter error correction (digital predistortion/calibration). Your work will sit at the intersection of machine learning, DSP, and digital IC design, and you will
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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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reflected off the ocean, it is possible to infer parameters such as wave height, sea‑ice coverage, and wind conditions. In this project, we aim to go a step further, and investigate whether these signals
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, contain information about the geographical area the signals are reflected by. For signals reflected by the ocean, we can infer wave height, sea ice coverage and winds using GNSS-reflectometry (GNSS-R). In
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about the geographical area the signals are reflected by. For signals reflected by the ocean, we can infer wave height, sea ice coverage and winds using GNSS-reflectometry (GNSS-R). In this project, we
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groups. Professor Bram Nauta’s Integrated Circuit Design (ICD) group focuses on various aspects of analog and Radio Frequency (RF) Integrated Circuits (IC). The group's motto is “fundamental solutions