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microelectronics: In this project, you would develop advanced low-power mixed-signal (analog + digital) circuitry on CMOS chips which will drive our custom implants Bionic Vision implantable probes: In this project
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the feasibility of novel ultralow-power electronics based on quantum-mechanical tunnelling processes in advanced CMOS, which has a strong potential for Internet-of-Things devices and edge-artificial intelligence
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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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the feasibility of novel ultralow-power electronics based on quantum-mechanical tunnelling processes in advanced CMOS, which has a strong potential for Internet-of-Things devices and edge-artificial intelligence
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in advanced CMOS technologies such as FDSOI and FinFET. Data converters (ADC and DAC) play a crucial role in such advanced CIM technology; hence, we are looking for a highly motivated analog and mixed
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with top Flemish universities to match our research domains: 6G and Wireless Internet of Things communication Automotive CMOS and beyond CMOS 3D system integration Advanced nano-interconnects Advanced
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design using advanced CMOS technologies, along with a solid background in analog and digital signal processing systems. Comprehensive understanding of the entire IC design flow, including circuit design
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and radio-frequency (RF) integrated circuits (ICs) design automation for deep nanometer CMOS technologies. Deep nanometer technology nodes enable the design of highly integrated systems for consumer and
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are: Incorporation of CMOS compatible transition metals in thin-film synthesis, gearing towards GHz SAW excitation Sensoric study of the acousto-NEMS for harsh environments Study of the acousto-NEMS in quantum regime
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environments Change: Development of pMOS GaN Technology to complement nMOS GaN Impact: Operate microelectronics in harsh environments Job description We seek you as a PhD candidate to investigate enabling CMOS