Research and development areas:
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development of theory and design of high-performance processors of parallel architecture;
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research of technologies for energy-efficient FPGA-based processors of computer and cyber-physical systems;
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development of theory and design of parallel conflict-free access computer memory;
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development of methods and tools for FPGA-based self-configurable high-performance computer systems design;
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multilayer cyber-physical system architecture;
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research of user-cyber-physical system interaction technology;
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research of intellectualization and decision-making technologies for cyber-physical systems;
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network interaction of cyber-physical system layers and cyber-physical systems interaction technology within the Internet of things;
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research and development of intelligent data acquisition technologies for autonomous cyber-physical systems;
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data processing in cyber-physical systems via network technologies;
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synthesis and optimization of the computer devices for FPGA-based hardware platforms of sensor and actuator units of cyber-physical systems;
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cryptographic processors of cyber-physical systems research and design;
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digital signal and image processing methods and tools development;
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implementation of the ensembles of intelligent autonomous units for sensor and control networks;
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mobile Applications for Round-the-Clock Remote Monitoring of the Human Functional State;
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acquisition and processing of data in cps for remote monitoring of the human functional state;
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quantum computers and quantum accelerators;
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digital quantum coprocessor IP core generators;
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digital quantum qubits and digital quantum gates;
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software of a digital quantum computer.