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  • Podcast

    July 24, 2024
    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

    June 25, 2025
    When NIST released the first post-quantum cryptography standards in August 2024, it set off a domino effect that will hopefully result in protecting the world from the quantum computing threat. Now that we’re beginning to migrate and trust our data to lattice-based cryptography, it’s a good time to examine how ML-KEM works and get some hints about how to implement it well. And who better to ask…
  • Podcast

    June 12, 2024
    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

    April 30, 2026
    In this episode, Vincent van Wingerden, Director of Strategic Partnerships at Classiq, joins host Konstantinos Karagiannis to discuss the dawn of quantum vibe coding. While traditional quantum programming often requires tedious manual manipulation of gates and hardware-specific constraints, Classiq’s platform introduces a high-level abstraction that allows users to focus on intent rather than…
  • Podcast Transcript

    April 1, 2020
    This is a series of podcasts on GRC programmes and technologies, obtaining perspectives from Protiviti leaders and subject-matter experts around the world on GRC drivers, innovations and challenges in their markets. This episode features conversation with Matthew Landers, an associate director with Protiviti based in Denver, who offers his viewpoints on GRC developments and advancements in the…
  • Podcast

    April 1, 2020
    This is a series of podcasts on GRC programmes and technologies, obtaining perspectives from Protiviti leaders and subject-matter experts around the world on GRC drivers, innovations and challenges in their markets. This episode features conversation with Matthew Landers, an associate director with Protiviti based in Denver, who offers his viewpoints on GRC developments and advancements in the…
  • Podcast Transcript

    April 1, 2020
    We’re producing a series of podcasts on GRC programmes and technologies, obtaining perspectives from Protiviti leaders and subject-matter experts around the world on GRC drivers, innovations and challenges in their markets. This episode features conversation with Scott Wisniewski, a managing director and leader with Protiviti’s Software Solutions group. Scott offers his thoughts and perspectives…
  • Podcast Transcript

    March 31, 2020
    This is a series of podcasts on GRC programmes and technologies, obtaining perspectives from Protiviti leaders and subject-matter experts around the world on GRC drivers, innovations and challenges in their markets. This episode features conversation with Protiviti Managing Director Scott Bolderson and Associate Director Nicolas Perna. Scott is a leader within our business performance…
  • Podcast Transcript

    June 2, 2021
    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. We cover mostly financial customer…
  • Podcast

    June 26, 2024
    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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