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  • Podcast

    October 16, 2024
    Podcast | DARPA’s Quantum Proving Ground — with University of Illinois Urbana-Champaign
    Quantum information science deals with the world of the very small, sure, but imagine 128 acres of land devoted to advancing QIS. Now imagine this mega complex in a major city! The Illinois Quantum and Microelectronics Park is expected to draw leading companies and researchers to Chicago, and DARPA is already playing a significant role. Find out what this will mean for advancing the industry and…

  • Podcast

    November 13, 2024
    Podcast | Quantum Networking and Interconnect in Production — with Aliro
    To modify a Feynman quote, we can safely say that no one understands quantum … networking. The definition does mean different things to different folks. Sometimes, the best way to solidify a concept is to bring it to the real world. It turns out there is a way to experiment with quantum networking, and you wouldn’t believe how it’s already being used to interconnect different quantum computing…

  • Podcast

    November 27, 2024
    Podcast | Simulating 128 Qubits (Yes, Really) — with Quantum Rings
    Join host Konstantinos Karagiannis as he discusses how tensor networks may take us into new realms of practical quantum computing for everyone with Bob Wold from Quantum Rings.

  • Insights paper

    December 2, 2024
    Top digital experience trends in 2025 and beyond
    Navigate the dynamic digital landscape of 2025 and beyond. Stay ahead with agility, insights, and a customer-centric approach. Embrace emerging trends for an innovative digital experience."

  • Podcast

    August 7, 2024
    Podcast | Is it Quantum Advantage, Supremacy, or Utility?— with D-Wave
    Skeptical about practical quantum computing applications? Perhaps D-Wave could change your mind. Over 100 real corporate customers are using their quantum annealing systems and software platform today … in production. 

  • Podcast

    August 21, 2024
    Podcast | PQC Standards Arrive! What You Need to Know — with NIST
    They’re here! After a seven-year process, NIST has finally released the first standards for post-quantum cryptography. The industry is excited and optimistic about the future, but what does it mean for you and your organisation? In an interview recorded right before the August 13 release, you’ll hear how we got here with the quantum computing threat, what standards were selected and what…

  • Podcast

    June 12, 2024
    Podcast | The Quantum Many-Body Problem — with Benedikt Fauseweh of TU Dortmund University
    When Richard Feynman proposed the idea of a quantum simulator or computer in 1981, he was frustrated by the limitations of classical systems. He logically suggested that if we live in a quantum world, we need a quantum device to simulate all the interactions of particles that make up reality. An excellent example of such a transistor-choking calculation is the quantum many-body problem. Have…

  • Podcast

    July 24, 2024
    Podcast | Zero-Trust Post-Quantum Cryptography — with XSOC
    The migration to post-quantum cryptography (PQC) is about to begin and is necessary to protect against the threats of fault-tolerant quantum computing. However, critical assets like those in military, banking, and government environments also require other layers of security and strategies such as zero trust and increased encryption bit sizes. Join host Konstantinos Karagiannis as he discusses a…

  • Podcast

    May 29, 2024
    Podcast | Quantum AI Compression: Smaller LLMs without Losing Performance — with Multiverse
    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…

  • Podcast

    June 26, 2024
    Podcast | Quantum Error Correction on a Single Qubit— with Nord Quantique
    Error correction typically involves a lot of physical qubits and using them to create one logical qubit. Ratios vary by modality and approach, so getting a single fault-tolerant qubit may take seven to a thousand physical ones. What if there was a way to correct most of the errors that appear on each qubit instead? Scaling up from there would certainly be much easier, getting us to machines that…
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