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Quantum computing capabilities are exploding, causing disruption and incredible opportunities. But many technology and business leaders don’t understand the impact this technology will have on their businesses—the tremendous potential improvements and the risk to data and critical business processes.
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Ever notice that giant tech companies seem to get press coverage for privacy concerns as often as they do for new product launches? How did we end up in this world of playing catch up with the ethical implications of technology? Quantum computing is still relatively new, but it will impact machine learning, encryption, and other areas that will have major repercussions on all our futures.
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It’s amazing how many programming languages and interfaces exist in quantum computing already. What if there was a way to learn and use all of them without installing anything? qBraid is making that possible with a site you can join for free today. Join host Konstantinos Karagiannis for a chat with Kanav Setia from qBraid.
Guest Speaker: Kanav Setia– CEO qBraid
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The holy grail of quantum computing in the near term is a use case that provides advantage. We believe it’s only a matter of time, but major companies have to plan and prepare now so that they are not left behind when these applications arrive. Join host Konstantinos Karagiannis for a chat about quantum computing use cases with Pranav Gokhale from Super.tech.
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Ever notice that giant tech companies seem to get press coverage for privacy concerns as often as they do for new product launches? How did we end up in this world of playing catch up with the ethical implications of technology? Quantum computing is still relatively new, but it will impact machine learning, encryption, and other areas that will have major repercussions on all our futures.
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An 85-year-old idea may hold the key to nearly error-free qubits. The Majorana fermion has taken on almost mythical status, but Microsoft recently solved a critical technical hurdle to creating topological qubits with the particle. How close are we to quantum computers with this technology? What other future developments can we expect from Azure Quantum?
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Quantum volume. Algorithmic qubits. Qubit counts in general. What do they really tell us about the usability and power of a quantum computer? As we learned from classical computing, only benchmark software can really compare how systems perform different tasks. Super.tech is back to discuss their SupermarQ benchmark suite that gives us real performance data for quantum hardware.
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It’s hard to improve the purity of an atom. Identical and easy to find, atoms such as those in ytterbium can make flawless qubits. We only need to be able to trap and control them. Can using trapped ions as qubits therefore yield the most powerful quantum computers on the planet? How scalable is this approach on the road to quantum advantage?
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Classical computing cannot simulate more than about 50 qubits. What does it mean that we now have a quantum computer with, gasp, 100 qubits? ColdQuanta found a way to beat giants like IBM to this amazing feat, and they did it with a new approach that may lead to smaller quantum computing systems that could be rack-mountable one day.
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D-Wave has been making quantum computers for over a decade, and their annealers excel at optimisation. If you look at the use cases the company has been helping customers with – saving time, money or both - it almost feels like quantum advantage is here. During this podcast, we discuss the power of annealers from D-Wave and how organisations can take advantage of the benefits today.
