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Form of workQuantum Computing Inc. (QCi) is an innovative, quantum optics and nanophotonics technology company on a mission to accelerate the value of quantum computing for real-world business solutions, delivering the future of quantum computing, today. The company provides accessible and affordable solutions with real-world industrial applications, using nanophotonic-based quantum entropy that can be used anywhere and with little to no training, operates at normal room temperatures, low power and is not burdened with unique environmental requirements. QCi is competitively advantaged delivering its quantum solutions at greater speed, accuracy, and security at less cost. QCi’s core nanophotonic-based technology is applicable to both quantum computing as well as quantum intelligence, cybersecurity, sensing and imaging solutions, providing QCi with a unique position in the marketplace. QCi’s core entropy computing capability, the Dirac series, delivers solutions for both binary and integer-based optimization problems using over 11,000 qubits for binary problems and over 1000 (n=64) qubits for integer-based problems, each of which are the highest number of variables and problem size available in quantum computing today. Using the Company’s core quantum methodologies, QCi has developed specific quantum applications for AI, cybersecurity and remote sensing, including its Reservoir Photonic Computer series (intelligence), reprogrammable and non-repeatable Quantum Random Number Generator (cybersecurity) and LiDAR and Vibrometer (sensing) products.
Position DescriptionWe are seeking a new FPGA Design Engineer to join our Hardware team. You will work directly with a diverse team of experts including quantum scientists, optical, nanofabrication, hardware, FPGA, and embedded engineers. Together, you’ll develop prototypes and photonic-based products across multiple application areas including quantum computing, quantum intelligence, quantum remote sensing, quantum bio-imaging, and quantum cybersecurity.
This is a unique opportunity to participate in the architecture design of multiple new FPGA projects in the pipeline, and to work closely with some of the brightest scientists and engineers in lithium niobate, photonic-based quantum technologies. If you enjoy the excitement of solving complex problems, creating realistic application quantum benefits, and working in a fast-paced, innovative environment, this could be the perfect role for you!
Develop and Design real-time computational and digital algorithms and systems using FPGAs
Develop RTL code for use within multiple projects. Analyze and enhance efficiency, scalability, and stability of the system resources
Integrate multiple FPGAs and off-the-shelf hardware devices into our quantum device architecture
Collaborate with cross-disciplinary teams to design and customize quantum systems with customers requirements/feedbacks
Design, implement, simulate, and test the operation of the FPGA logic and systems
Document architectures, test results, and codes
3-5 years of FPGA design experience
Expertise in System Verilog/Verilog
Proficiency in RTL simulation (ModelSim, etc.) and building testbenches to verify your design.
Experience with Altera(Intel) or Xilinx FPGAs and associated development tools
Experience working with lab equipment such as oscilloscopes and logic analyzers, and comfortable with hardware debugging
Experience with high-speed FPGA transceivers (10/40/100Gbps Ethernet) and in digital hardware circuit design are preferred
Excellent communication skills (written and verbal)
Collaborative teammate who is supportive of co-workers and contributes to problem solving
Ability to work well in a fast-paced professional office environment and manage simultaneous tasks and deliverables
Bachelor of Science in Electrical Engineering or Computer Engineering Required
Masters of Science in Electrical Engineering or Computer Engineering Preferred
Incumbent(s) in this position may be required to perform other duties and special assignments not specifically stated above.
Statements outlined in this section are designated as essential job functions in accordance with the Americans with Disabilities Act of 1990.
