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Field
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good programming and automation skills (e.g. C++, MATLAB, Python, LabVIEW, Arduino, Raspberry Pi or FPGA-based controllers) Expertise in developing robotics and motion control systems is beneficial
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accelerators and other scientific applications, focusing on FPGA-based digital signal processing for real-time control. Responsibilities span the full system lifecycle, from concept to commissioning, with
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acquisition systems for particle accelerators and other scientific applications, focusing on FPGA-based digital signal processing for real-time control. Responsibilities span the full system lifecycle, from
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(requirements, design, implementation and test) of FPGA Design and/or ASIC Design. Knowledge of SystemVerilog, Verilog and/or VHDL. Experience with verification languages (UVM, SystemVerilog, SystemC). Expertise
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in digital systems design. Utilizes register-transfer level tools for logic synthesis, simulation, and the implementation of digital circuits in field-programmable gate arrays (FPGAs). Includes
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areas of computer and information engineering, including but not limited to Networking. Robotics. Digital design and FPGA prototyping. Neuromorphic computing and hardware accelerators for AI. Quantum
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functional support to ESA projects and carries out technological research and development (R&D) in the field of integrated circuits, relating, for example, to ASICs, ASSPs, FPGAs, microprocessors and
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preferred; Hands- on experience in one of the following areas and desire to cross the boundaries and learn new things Embedded software development for the FPGA / CPU SoC systems (for example, Zynq 7000, Zynq
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or digital circuits -Experience integrating analog and digital (FPGA, microcontroller) circuits -Evidence of a strong desire to teach students the practical aspects of electrical and computer engineering
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Networks, Robotics, Digital Design and FPGA Prototyping, Neuromorphic Computing and AI Hardware accelerators, and Quantum Computing. Qualifications Qualifications & Experience: Required Qualifications: PhD