A Perspective in Nature Reviews Electrical Engineering introduces an intelligent mobile edge computing paradigm for the implementation of generative artificial intelligence on the Internet of Things system. Read the paper: https://lnkd.in/ezDcV-Zu
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Meeting the rising demand for digital infrastructure for data centres New technological developments comparable to AI-generated content material, quantum computing and 5G enlargement are driving an insatiable demand... See more https://lnkd.in/gevUugYD
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Tech Pioneer Executive Leader. IT trailblazer from South American scene in the 90s. Now, a Visionary Leader coaching and strategizing to help US and global businesses win with innovations in the IT, STEM, and AI areas.
As industrial computing needs grow, the size and energy consumption of the relevant hardware must keep up with... | Click below to read the full article at The Digital Insider.
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As we transition to a new era in computing, there is a need for new devices that integrate electronic and photonic functionalities at the nanoscale while enhancing the interaction between photons and electrons.
Sub-wavelength confinement of light demonstrated in indium phosphide nanocavity
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Chief Technology Officer, Alphawave IP | Professor of Electrical and Computer Engineering, University of Toronto
Interconnect fuels and differentiates AI hardware, and chiplets are increasingly fueling and driving interconnect solutions. In my keynote at the Hot Interconnects Conference, I'll (inter)connect the dots on how chiplets are enabling AI everywhere.
This year, IEEE Hot Interconnects is going to have some exciting keynotes! Introducing our first keynote speaker 📢 Tony Chan Carusone, CTO at Alphawave Semi will provide his vision on the role of chiplets in his talk “Connectivity for AI Everywhere: The Role of Chiplets”. Abstract 📜: Chiplet technology is set to be a transformational paradigm. It offers compelling advantages in cost, time-to-market, and power consumption. AI has emerged as a primary catalyst for this trend because the only way to meet the accelerated demands of AI is by using chiplets. By combining dense logic, memory, and high-speed connectivity chiplets, new silicon systems tailored to specific workloads can be created without starting from scratch each time. As chiplet adoption increases, so do the bandwidth demands both within the package across die-to-die interfaces, and beyond the package. Low-latency inter-die communication is crucial for compute performance, and high-speed optical interconnects are vital for scaling AI clusters. Bio ℹ: Tony has been a professor of Electrical and Computer Engineering at the University of Toronto since 2001. He has over 100 publications, including 8 award-winning best papers focused on integrated circuits for digital communication. Tony has also been a consultant to the semiconductor industry for over 20 years, working with startups and some of the largest technology companies in the world. We expect more keynote speakers! Stay tuned for details on keynote sessions! IEEE Computer Society #hoti #hoti24 #hpc #datacenter #interconnection #smartnic #fpga #conference2024
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In 1945, a significant advancement in computing history occurred with the unveiling of ENIAC, the first general-purpose electronic digital computer. This groundbreaking event marked a pivotal moment in the evolution of technology, revolutionizing the way complex calculations were performed. ENIAC, which stands for Electronic Numerical Integrator and Computer, was developed by John Mauchly and J. Presper Eckert at the University of Pennsylvania. The sheer size of ENIAC was impressive, taking up an entire room with its massive physical structure comprised of vacuum tubes, switches, and cables. The capabilities of ENIAC were remarkable for its time, with the ability to perform calculations at speeds previously unimaginable. This electronic marvel paved the way for future innovations in computing, laying the foundation for the digital age we now live in. The impact of ENIAC extended far beyond its initial unveiling, influencing the development of subsequent computer systems that would eventually lead to the technological advancements we rely on today. The unveiling of ENIAC in 1945 not only marked a significant milestone in computing history but also served as a catalyst for the rapid progression of technology in the decades that followed. The legacy of ENIAC lives on in the modern computers and devices we use daily, showcasing the enduring impact of this pioneering invention. It is a testament to the ingenuity and vision of the early computer pioneers who set the stage for the digital revolution that continues to shape our world. 💻🚀 #ENIAC #ComputingMilestone @academy_rad
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As we transition to a new era in computing, there is a need for new devices that integrate electronic and photonic functionalities at the nanoscale while enhancing the interaction between photons and electrons.
Sub-wavelength confinement of light demonstrated in indium phosphide nanocavity
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General Scientific Coordinator Regional Governments at Garraf Karst Park Nature Reserve (Barcelona. Catalonia. Spain)
Sub-wavelength confinement of light demonstrated in indium phosphide nanocavity phys.org As we transition to a new era in computing, there is a need for new devices that integrate electronic and photonic functionalities at the nanoscale while enhancing the interaction between photons and electrons.
As we transition to a new era in computing, there is a need for new devices that integrate electronic and photonic functionalities at the nanoscale while enhancing the interaction between photons and electrons.
Sub-wavelength confinement of light demonstrated in indium phosphide nanocavity
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What if you could unlock the secrets of the universe with a computer that is faster than anything ever built? What if you could create devices that are smaller, smarter, and cheaper than ever before? These are the questions that quantum computing and semiconductor technology are trying to answer, as they reshape the technological landscape of the 21st century. #semiconductortechnology #manufacturingindustry #techsolutions https://lnkd.in/eKDVej9Y
Exploring the Future of Quantum Computing and Semiconductor Technology - IoT Business News
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Quantum 2.0 is here, enabling breakthroughs in computing, networking, security, and sensing. Imagine quantum computers simulating complex systems, quantum networks ensuring secure communications, and sensors mapping uncharted phenomena. At Nokia, we’re exploring the vast potential of quantum technologies along these lines and with Nokia Bell Labs’ pioneering research, we’re unlocking new possibilities in healthcare, communication, and beyond. Read more about our journey and the impact of Quantum Technology 2.0. in this new blog post: : https://nokia.ly/47eDYB2 #NokiaInnovates #QuantumComputing
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Where Does the World Wide Web Go From Here?🌐 This question is becoming increasingly relevant in an era of rapid technological development. With the development of artificial intelligence, the Internet of things and quantum computing, the future of the World Wide Web promises to be even more amazing and innovative. The online sphere can become even more integrated into our daily lives, from education and healthcare to entertainment and work processes. #internet #technology #future #innovation
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