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Field
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nV/√Hz , ce qui fait de la préservation de l'intégrité du signal tout au long de la chaîne d'acquisition un défi critique. Dans ce contexte, les circuits reconfigurables (FPGA) sont apparus [3] comme
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Specific Requirements • Bac+5 en électronique et/ou microélectronique (ingénieur ou master 2) • Connaissance de l'électronique numérique (mise en œuvre de FPGA, DSP) • Connaissance des techniques de
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to operate as a passive radar, active radar, communication node and spectrum surveillance tool. FPGA development on the system of each of these modes will be an objective in order to deliver novel research
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topics. Candidates should have some experience working with FPGAs as well as an understanding of computer networks. Experience with both RTL and HLS design is favoured. The ideal candidate would have some
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-level layer implementations - extend hardware developments to use near-FPGA DDR and HBM memories - create functional demos using networks of interest (Yolo, Resnets, LLMs, ...) - create proof-of-concept
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Future. Discover. Together. We develop innovative systems for wireless communication using light and are looking for support in implementing them on FPGAs. Optical wireless communication uses light
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detectors (both SPADs and SNSPDs). Development of circuits for the treatement of analog signals produced by fast linear optical detectors. Managment of the electornic elements between the FPGA and fast
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resource. The project will combine algorithm development with hardware-aware modelling and evaluation on FPGA-based platforms. The successful candidate will have the opportunity to help define new approaches
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available hardware accelerator platforms. The most cost-efficient and energy-efficient way to build this correlator system is with FPGAs near the receivers, tensor-core-enabled GPUs for correlations, and an
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LevelUndergraduate Skills/Qualifications Microcontroladores, Microprocesadores, FPGAs LanguagesENGLISHLevelExcellent LanguagesFRENCHLevelGood Additional Information Eligibility criteria https://www.upm.es