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Field
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computing architectures, replacing conventional structureless and deterministic LIF point-neuron models. This is pursued through circuit designs that exploit and control memristor dynamics (e.g., local
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systems research. Our ambition is to provide a scientific basis for design trajectories of electronic systems, ranging from digital circuits to cyber-physical systems. The trajectories are constructive and
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This 3.5-year PhD project is fully funded by industry, and home students are eligible to apply. The successful candidate will receive an annual tax-free stipend set at the UKRI rate (£21,805 for
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minimal environmental impact. However, their practicability is often limited by suboptimal power management circuits (PMC), which need to be optimised or custom-designed on a case-by-case basis
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-level circuit design, and detailed simulation and verification. The developed architectures will be implemented as integrated circuits and validated through measurements on fabricated silicon chips. With
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education, research, and innovation, which has been inspiring generations of thinkers for over 400 years. Thrive: Trinity College Dublin's Strategic Plan 2025 - 2030 The PhD studentship is part of the SEAI
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. The aim of this project is to design, fabricate, and measure on-chip photonic integrated circuits that are capable of new types of signal-processing, sensing and communications applications. In
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measurements. Electronic Circuits and Architectures (ELCA) Join a pioneering research team dedicated to advancing the design and development of high-performance electronic circuits and systems. You will be part
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to the design, control and validation of the secondary circuit of the device on the operational and biological level. The research engineer will build on proof of concept studies and previously conducted by
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of biomedical innovation. Job description PhD projects will combine molecular engineering, cell programming, and chemical–biological interfacing to engineer human cells using synthetic gene circuits and