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Field
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design (how to design the magnetic and electrical circuits that interact to convert mechanical power into electrical power). Thermal design (how to get rid of the heat developed in the electric and
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investigate and develop innovative memory solutions in advanced CMOS technologies such as FDSOI. The development of integrated circuits also plays an important role in making these networked devices and their
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, therefore the PhD position provides opportunity to work in this exciting area in collaboration with major industries. This PhD project is part of Center for Climate Robust Electronic Design project funded by
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Your Job: This position focuses on building, operating, and testing superconducting quantum devices. Your tasks in detail are: Design and fabrication of superconducting quantum circuits Setting up
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architectural design explorations and the implementation of software development platforms. The goal of this PhD is to create a modular and extensible simulation infrastructure that facilitates design
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, • in-depth knowledge of machine vision principles and image processing, • programming experience, preferably in Python, • practical experience with the design and testing of simple electronic circuits
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& Nanotech platforms, and EPFL's NeuroTech labs). Profile Sought We welcome motivated candidates with a strong background in: • RF circuits / analog electronics • Electromagnetics / antenna design • Wireless
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Join us to decode how genetic variation reprograms brain cells and disrupts their communication using AI Job description We are looking for a PhD student to work at the intersection of machine
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discipline boundaries and abstraction levels Knowledge in integrated circuit design, testing and simulation using Cadence is a plus Knowledge of evolutionary optimization methods is a plus Very good
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network capable of both inference and learning, aiming at investigating candidate architectures for ASIC design in a longer-term future beyond the scope of this PhD work. Thesis objectives As part of