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  • Podcast

    September 8, 2021
    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. Like a reverse microwave, the new Hilbert computer uses lasers…
  • Podcast

    October 1, 2024
    Since 2018, the United States has had a national strategy for excellence in quantum information science that includes getting the science right, enhancing competitiveness, and enabling people. To achieve that aim, regions across the country have begun ramping up their efforts to become quantum silicon valleys. Find out how Colorado stacks up in advancing the quantum stack, and how recent federal…
  • Podcast

    February 20, 2025
    Quantum computing will never be the same again. Join host Konstantinos Karagiannis for a special onsite interview at Microsoft Azure Quantum labs, where he was invited to see the launch of Majorana 1, the world’s first quantum processor powered by topological qubits. On the day this episode is posted, Nature will release a paper validating how Microsoft was able to create a topoconductor, or new…
  • Client Story

    March 12, 2026
    University admissions teams across the U.S., regardless of the institution’s size, are facing capacity concerns. Lead volumes are rising, while staffing remains flat or declines. At the same time, these teams are spending more time sorting through invalid leads, duplicate records, and bot traffic that masks true demand and slows admissions rep response times. What results is a growing gap between…
  • Podcast

    November 27, 2024
    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.
  • 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…
  • Podcast

    May 5, 2021
    What do you do when you’re working on what could be the world’s most powerful quantum computer … but it’s not quite ready? Well, you give access to other powerful systems via your cloud environment. During this episode we discuss Microsoft Azure Cloud, software development environments and abstracting away complexity, muse on when or if topological computing will arrive (and explain it), and…
  • Podcast

    October 16, 2024
    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
    The “Constellation Platform” is revolutionizing 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
    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…
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