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Field
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of open firmware. If you have a strong background in FPGA development, system-on-chip architectures, digital signal processing, and an interest in quantum computing research, you have the right skill set to
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tailored to specific experimental needs and help to set the standard for modular, reusable development of “open firmware”. If you have a strong background in FPGA development, system-on-chip architectures
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of controlling small quantum computers and memories, we anticipate the development of high-speed event-driven decision making, likely to require the use of FPGAs or CPLD based hardware. In the framework of setting
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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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board (PCB) design, analog and digital telecommunications, advanced digital design, wireless networks, VLSI, VHDL, FPGA or a closely related field. Must be able to teach related coursework in electronics
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development lifecycle Detailed design of electrical systems including circuit design, FPGA development, and low-level software development and integration Analysis of alternative solutions and trade-space
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specify FPGA based applications Design and implement improvements to the software development, build, test and deployment environment and processes to ensure robust reliable solutions transition
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OR related field OR physical science and experience with micro-processor, FPGA, RF, real-time automated system control, network data storage, and data acquisition Experience with general productivity
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systems including bare-metal embedded systems, RTOSes, FPGAs, and embedded Linux. You will have opportunities to develop tools, techniques, and processes to solve some of the most difficult software
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with designs for infrared or optical image sensors, sensor characterization, performance optimization, and calibration methods. Digital logic design and implementation using FPGAs. Experience in DSP