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processors. Enabling safe, secure and real-time automotive functionalities in the RISC-V world, RIGOLETTO will establish the foundation for a next-generation Automotive Computing Platform based on the open
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findings at meetings and/ or conferences. Lead the definition and documentation of requirements, architecture and design of secure, scalable, asynchronous, agentic systems, based on knowledge of principles
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and application architectures with implementations of massively distributed embedded systems that interact with each other and their environment to enable secure, goal-driven, autonomous and evolvable
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hardware and geometric features. Force protection, physical security, and threat mitigation strategies. Motorsports safety. Product development and innovation. Rail crashworthiness and safety. Run-off-road
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and application architectures with implementations of massively distributed embedded systems that interact with each other and their environment to enable secure, goal-driven, autonomous and evolvable
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and application architectures with implementations of massively distributed embedded systems that interact with each other and their environment to enable secure, goal-driven, autonomous and evolvable
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and application architectures with implementations of massively distributed embedded systems that interact with each other and their environment to enable secure, goal-driven, autonomous and evolvable
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interface, and all the way to quantum algorithms and applications. The long-term mission of the programme is to develop fault-tolerant quantum computing hardware and quantum algorithms that solve life
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the physical world and must cope with its continuous behaviour. An increasing number of cyber-physical systems operate in safety-critical domains. Examples are autonomous vehicles, robotic surgery, traffic
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protocols. Ensure that investigators and key personnel complete required training. Monitor research subject care and ensure safety measures are met. Serve as the primary contact with users and external