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AI is disrupting almost every industry right now, so it’s not surprising that machine learning techniques are being used to improve quantum computers and accelerate the coming of fault-tolerant systems. Applications may have an advantageous business impact sooner than we thought. Join Protiviti’s Konstantinos Karagiannis for a chat with Michael Hush from Q-CTRL and learn how they’re squeezing a…
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Microsoft Azure Quantum has provided access to quantum computers in the cloud for about four years. A lot has changed in that time, including the generative AI revolution. It’s now possible to create quantum circuits with the help of Copilot and users can work on advanced scientific problems in Azure Quantum Elements by combining quantum computing, high-performance computing (HPC) clusters, and…
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Imagine a mesh network of AI-powered nodes that could validate the security of your organisation’s systems and applications. It’s a clever use of blockchain to add security to real-world devices, and, best of all, it will feature post-quantum cryptography. How soon will this technology simplify security for businesses and governments worldwide? And might this kind of approach even prevent killer…
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Experience the transformative potential of responsible AI. Our tailored governance framework ensures ethical use and compliance, guiding your AI journey.
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There’s been much speculation about how fault-tolerant quantum computing might accelerate the power of artificial intelligence in the future. But what if those technologies switched roles? AI is already improving certain aspects of current quantum technology. Find out how businesses and verticals can start to use these techniques for real use cases in quantum sensing, simulation, and migration to…
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Large Language Models are … large. Forget Bitcoin and recharging electric vehicles; the grid could be toppled by powering AI in a few years. It would be optimal if AI could run on more underpowered edge devices. What if there was a quantum-inspired way to make LLMs smaller without sacrificing overall performance in combined metrics? We explore a way to do that and other advanced ideas like…
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We’ve done plenty of episodes where there is a piece of software or cloud platform users can try, usually for the purposes of making coding or algorithmic development easier. Coding naturally seems to be the quickest way to get involved in quantum computing, but we’ve never discussed actually building quantum hardware at home! Find out how to start learning the engineering side of quantum…
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Quantum computing faces several scaling issues to achieve fault-tolerant systems that can solve practical business problems. We need high-fidelity interconnect to have modules or even full quantum computers work as one powerful system. And qubits could stand to run a little hotter as refrigeration gets out of hand as we add more of the sensitive little entities. Join host Konstantinos Karagiannis…
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If you build an easy-to-use portal to the world of quantum coding, eventually, companies are going to take notice and want to offer the environment to their teams. Learn how you can interact with quantum computing hardware and software of all types, either on your own or with your teammates to solve real business problems, using qBraid. Join Host Konstantinos Karagiannis for a chat about this…
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Using cardinality constraints for portfolio optimization opens the doors to new applications for creating innovative portfolios and exchange-traded-funds (ETFs). All while providing better returns with less market risk. Host Konstantinos Karagiannis recently co-authored a paper on portfolio optimization with Sam Palmer from Multiverse Computing. Find out how the team was able to outperform…
