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(passive and active devices) design and fabrication. Experience with on-chip laser development. Experience with ophthalmic OCT imaging in human and animal models. Experience with FPGA, embedded systems, and
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background in microfabrication. Further, experience with experimental setups, large-scale data acquisition and analysis, FPGA programming skills, and knowledge of Python and C++ are important assets
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-on experience in FPGA programming in VHDL or Verilog language and development of firmware for standalone microcontrollers or SoC chips Knowledge of I/O and communication standards, e.g., SPI, I2C, USB 2/3, PCIe
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the most recent computational technology, including the Dragen FPGA, as well as a GPU accelerated compute nodes. The postdoc project Hematological malignancies remain a significant cause of morbidity and
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strong experimental background in dual comb laser spectroscopy, frequency-locked lasers, or optoelectronics and the following skillsets: Hands-on experience with data acquisition and processing (FPGA
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electronics, development of FPGA devices, development of narrow-linewidth lasers, laser frequency stabilisation and control, image analysis, data acquisition, optical design and Gaussian beam propagation
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Preferred Knowledge, Skills, and Abilities: Ability to program and use modern field-programmable gate array (FPGA) development boards, such as the Xilinx RFSoC series Knowledge of both the mathematical