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to make a difference. If this sounds like you, you’ve come to the right place! Responsibilities: Conduct original research on joint communications and radar sensing for spaceborne systems, with a focus on
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of the chip: threshold voltage, supply voltage, temperatures, etc. Two identical resonators implemented in two different places in an FPGA will therefore have a slightly different frequency. This property has
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innovation, and looking to make a difference. If this sounds like you, you've come to the right place! Responsibilities: Conduct original research on joint communications and radar sensing for spaceborne
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primarily responsible for talking to biological neurons in vitro and training them to do different tasks. You will research "how" and "why" neurons process information, make decisions, and how to influence
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design and testing and chassis to system design; The FPGA gateware design and verification for qubit control signal processing on different FPGA chips; The low-level software driver and API development
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design; The FPGA gateware design and verification for qubit control signal processing on different FPGA chips; The low-level software driver and API development. Demonstrated programming experience in
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for seizure detection. These algorithms will be implemented on a spiking neural network (SNN) processing unit deployed on FPGA and custom-designed chips with an integrated detection mechanism. Research area and
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making a difference to people's lives. We believe that inspiring our people to do outstanding things at Durham enables Durham people to do outstanding things in the world. Being a part of Durham is about
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project. The research will bridge both established and emerging technical expertise within the section, encompassing areas such as FPGA and neuromorphic computing, Edge AI, machine learning, power