NEUROTEC project’s Post

𝗕𝗿𝗮𝗶𝗻𝗽𝗼𝗿𝘁 𝗤𝘂𝗮𝗻𝘁𝘂𝗺 𝗗𝗮𝘆 𝟮𝟬𝟮𝟰: 𝗗𝗿𝗶𝘃𝗶𝗻𝗴 𝗤𝘂𝗮𝗻𝘁𝘂𝗺 𝗜𝗻𝗻𝗼𝘃𝗮𝘁𝗶𝗼𝗻 𝗶𝗻 𝗕𝗿𝗮𝗶𝗻𝗽𝗼𝗿𝘁🚀 Today, the Brainport Quantum Day 2024 takes place at the Eindhoven University of Technology campus—a gathering to explore the future of quantum technology. This event highlights how the Brainport region, with its expertise in high-tech systems and precision manufacturing, is perfectly positioned to drive advancements in quantum computing. The program brings together industry leaders, researchers and innovators to discuss cutting-edge developments, funding opportunities and future roadmaps in quantum technology. With hands-on lab tours and networking sessions, the event fosters collaboration between academia, industry and quantum pioneers. The Brainport region continues to lead the way in pushing technological boundaries, showcasing its role as a global hotspot for innovation. Events like these strengthen our ecosystem and open doors to a future shaped by quantum advancements. 🌍 #Brainport #QuantumTechnology #Innovation #CBBE

The RESPITE consortium held its second in-person meeting at Fraunhofer Heinrich Hertz Institute HHI, Berlin. A great opportunity to strengthen the cooperation between our partners (see below), share results, and discuss the next steps of our project. As always, face-to-face meetings generate lively debates and original ideas to drive forward our innovations and find practical solutions to the challenges that interdisciplinary research brings. Exciting (superconducting) neuromorphic computing experiments are fast approaching. #neuromorphiccomputing #Superconducting Single Quantum, Delft University of Technology, Ghent University, University of Groningen, TÜBİTAK, University of Oxford

Neuropuls Project at the 20th Anniversary HiPEAC 2025 Conference in Barcelona! 🎉 In the context of the NEUROCOM workshop, Dimitris Gizopoulos from the University of Athens was invited to present the concept of the Neuropuls project, along with the University of Athens' (Computer Architecture Lab) work on early and fast simulation of neural network accelerators designed for silicon photonics and pure electronics platforms.  Infrastructure supports broad design space exploration at the full system level for programmable and fixed neural network (and other domain specific) accelerators for performance, power, and resilience to hardware defects. Special thanks to the HiPEAC community for providing a platform to share and exchange ideas! #Neuropuls #HiPEAC2025 #NEUROCOM #Research #Innovation

🚀 New Joint Lab is opened! Together with RWTH Aachen University and Forschungszentrum Jülich we have taken our collaboration to the next level with the official opening of a Joint Lab on semiconductor-based quantum computing in Frankfurt (Oder). This lab focuses on advancing scalable quantum computer architectures and enhancing spin-based qubit technologies. During the opening, Prof Dr Hendrik Bluhm, alongside Dr Lars Schreiber (RWTH Aachen) and Dr. Vincent Mourik (FZ Jülich), presented the state-of-the-art research that will be crucial for the development of next-gen quantum technologies. Also, Prof Dr Gerhard Kahmen stressed the potential of quantum technologies, particularly Si/SiGe-based approaches, to solve complex, previously unsolvable problems. The Joint Lab is fully equipped with top-notch infrastructure for fabricating quantum devices, including the first successfully tested silicon quantum wells. Dr. Marvin H. Zöllner, coordinator of the lab, highlighted its role in driving forward innovations in preparation for the Quantum Year 2025. This partnership aims to unlock the potential of quantum computing to tackle real-world problems by scaling up to millions of qubits. Yes, the aim is very ambitious but we are optimistic to reach it together with the enthusiastic colleagues from the Joint Lab. Read more in our press release:  https://lnkd.in/efFYrEhN #QuantumComputing #Innovation #Semiconductors #TechResearch #FutureTech #IHP #RWTH #FZJülich

It is privileged to join with the world's leading professional society for optics and photonics for the quantum computing and nanoparticle research forum. Today I have joined with SPIE, the international society for optics and photonics for better research networking, connect and supportive to mankind. I would be joining with Photonics West forum and upcoming Quantum computing events in Jan-2025 #quantum computing#optics and photonics#SPIE#Research and Innovations for mankind#Technology innovations

Nature Electronics spoke with our CEO & Founder Carolina Aguilar about our work on #graphene-based brain computer interfaces and our recent first-in-human procedures. #BrainComputerInterface #BCI #BCITherapeutics #neurotechnology Graphene Flagship The University of Manchester Salford Royal Hospital Sharing the link: https://lnkd.in/eCpMGNwn

Our recent research introduces a comprehensive thermal crosstalk model for meshed Mach-Zehnder Interferometer (MZI) topologies in neuromorphic computing. This model accounts for propagation effects, losses, and crosstalk, validated through a 3x3 Silicon Photonic circuit. The findings illustrate applications in programmable logic gates and artificial neuron implementations. Hear the full talk at SPIE Photonics West at Moscone South, Room 202 on January 28, 2025, from 12:25 PM - 12:40 PM PST. This work is in collaboration with Politecnico di Torino and Ph.D. student Andrea Marchisio. https://ow.ly/M3yW50Uqm6V #SPIE #PhotonicsWest #NeuromorphicComputing #Photonics #Research

The Cavendish Laboratory is playing a key role in four of the UK's five new quantum technology hubs, supported by a £160M investment to transform sectors like healthcare and security. One of them is Q-BIOMED, a major new research hub we co-lead with UCL, which aims to harness quantum technology to improve early diagnosis and treatment of disease. Our researchers are also involved in three of the other newly-announced hubs: - The UK Hub for Quantum Enabled Position, Navigation and Timing (QEPNT), led by the University of Glasgow - QCI3: Hub for Quantum Computing via Integrated and Interconnected Implementations, led by the University of Oxford - The Integrated Quantum Networks (IQN) Quantum Technology Research Hub, led by Heriot-Watt University. Read more about the hubs : https://buff.ly/46iXoEh

I am pleased to share our latest work, "Measurement-Induced State Transitions in Dispersive Qubit-Readout Schemes," now published in Physical Review Applied. This research explores the onset of measurement-induced state transitions (MISTs) in superconducting qubits caused by multi-photon resonances during dispersive readout and describes a universal way to predict and mitigate such transitions.    By focusing on fluxonium qubits, we demonstrate how this approach can guide the optimization of qubit design and improve the performance of quantum systems across different qubit types. I hope our work will be a valuable resource for researchers developing high-fidelity quantum measurements and advancing scalable quantum computing technologies.    I am deeply grateful to my co-author, Ivan Pechenezhskiy at Syracuse University, and to my colleagues at Atlantic Quantum for their insights and collaboration throughout this project.    You can find the full paper here: https://lnkd.in/gx2C7HUq

Together with 15 European partners, we have launched a major project to develop new technology and new talent within braincomputer interfaces. For Aarhus University, the project (called DONUT: European Doctoral Network for #Neural #Prostheses and #Brain Research), represents a major investment in measuring electrical signals in the brain: #EEG measurements. (READ ON via link i comments 👇 ) "The primary focus of DONUT is to address the many different challenges in brain-computer interfaces. We’re looking in particular at developing novel integrated circuit and system solutions for small, portable user-friendly EEG devices," says Assistant Professor Milad Zamani from Aarhus University's Integrated Nanoelectronics research group, who is leading the Danish part of the project. Also involved in the project here at AU is Associate Professor kaare mikkelsen from the Biomedical Machine Learning research group and Assistant Professor Simon L. Kappel from the NeuroTechnology Lab. The project is a collaboration between Rhine-Waal University, Radboud University, KU Leuven, Universidad Miguel Hernández de Elche, Aarhus University, Kaunas University of Technology, the Slovenská akadémia vied / Slovak Academy of Sciences, snap GmbH, MindAffect B.V., Mindspeller BCI, Technaid S.L., T&W Engineering A/S, SneakyBox, evolving systems consulting GmbH and Promotionskolleg NRW. #NeuroTech #BrainChips #BrainComputerInterfaces #digidk