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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

    January 21, 2026
    Podcast | AI-Powered Digital Twins for Quantum Hardware — with Quantum Elements
    The “Constellation Platform” is revolutionising the path to fault-tolerant quantum computing. Rather than relying on traditional state vector simulations that hit a wall at 50 qubits, this platform from Quantum Elements uses a breakthrough method, stochastic compression, to create realistic digital twins of quantum hardware at scale. This approach allows developers to simulate the complex time…

  • Podcast

    August 23, 2023
    Podcast | Schrödinger’s Cat Qubitswith Alice&Bob
    Quantum computing needs logical, error-corrected qubits to reach the ultimate goal of fault-tolerant systems that can change the world. Without logical qubits, we won’t be able to have production-ready business use cases that are pure quantum. Is it too early to be thinking about creating these “perfect” qubits? One company says it’s already tackling the problem with a new take on the old quantum…

  • Podcast Transcript

    September 8, 2023
    Transcript | Schrödinger’s Cat Qubitswith Alice&Bob
    Quantum computing needs logical, error-corrected qubits to reach the ultimate goal of fault-tolerant systems that can change the world. Without logical qubits, we won’t be able to have production-ready business use cases that are pure quantum. Is it too early to be thinking about creating these “perfect” qubits? One company says it’s already tackling the problem with a new take on the old quantum…

  • 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…

  • Whitepaper

    December 19, 2023
    Top-of-Mind Compliance Issues for Financial Institutions in 2024
    Discover crucial insights on compliance issues for financial institutions in 2024. From AI to ESG, navigate the evolving landscape with our comprehensive guide.

  • Whitepaper

    September 16, 2020
    The Road to Resiliency – Building a Robust Audit Plan for Operational Resilience
    Executive Summary The financial services industry has long relied on internal audit functions to assess and challenge the effectiveness of various programmes designed to protect and build organisational value. These programmes have included disaster recovery, business continuity, risk management, cybersecurity, and many others designed to help institutions recover from an event. The pressure…

  • Podcast

    October 6, 2021
    Podcast | From Astrophysics to Quantum Computing Algorithms: A Software Engineer’s Journey with Agnostiq
    One of the hottest jobs in quantum computing in the coming years will be that of software engineer. The need for translating complex business needs to quantum algorithms and code will only grow. In this episode we talk to Dr. Anna Hughes from Agnostiq about her unique career path to quantum software engineer. Guest: Dr. Anna Hughes, Quantum Software Engineer at Agnostiq

  • Podcast

    November 12, 2025
    Podcast | Spin Qubits: Sensing Heartbeats to Dark Matter — with Argonne National Laboratory
    The word “foundry” might make you think of large machines pouring metal into molds, but Argonne National Labs has a Quantum Foundry that implants individual atoms, like silicon, into materials such as diamond. The resulting spin qubits are optically active and can use photons to communicate. We can expect spin qubits to help interconnect systems, which could help us achieve distributed quantum…

  • 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…
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