Insight Search Search Submit Sort by: Relevance Date Search Sort by Relevance Date Order Asc Desc Podcast November 15, 2023 Podcast | Warm, Interconnected Qubits— with Universal Quantum Quantum computing faces several scaling issues to achieve fault-tolerant systems that can solve practical business problems. We need high-fidelity interconnect to have modules or even full quantum computers work as one powerful system. And qubits could stand to run a little hotter as refrigeration gets out of hand as we add more of the sensitive little entities. Join host Konstantinos Karagiannis… Podcast August 9, 2023 Podcast | Quantum Computing Standardisation— with Pasqal Standardisation is something we take for granted in classical information technology. But when it comes to quantum computing, are we all speaking the same language? In addition to making neutral-atom quantum systems, Pasqal is trying to ensure all aspects of QIS will interoperate going forward. Standardisation has always helped businesses adopt new technologies because they are more consistent… Podcast August 23, 2023 Podcast | Schrödinger’s Cat Qubits— with 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 Qubits— with 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 August 18, 2023 Transcript | Quantum Computing Standardisation— with Pasqal Join Host Konstantinos Karagiannis for a chat with Catherine Lefebvre from Pasqal and learn how they’re doing more than making room-temperature quantum computers. Newsletter December 9, 2025 Private Equity Insights Q4 2025 Private equity firms stand at a pivotal moment. The convergence of governance reform, finance transformation, AI disruption, and cyber threats demands a new playbook. Podcast Transcript June 2, 2023 Transcript | Bringing Interconnect to Trapped Ions with IonQ Interconnect has been a quantum computing buzzword for quite some time and with good reason. Entangling qubits between separate quantum computers is the key to scaling and building fault-tolerant systems. IonQ recently doubled down on this approach by acquiring a company that specialises in the technology. Join Host Konstantinos Karagiannis for a chat with Aharon Brodutch about how trapped ions… Podcast May 17, 2023 Podcast | Bringing Interconnect to Trapped Ions with IonQ Interconnect has been a quantum computing buzzword for quite some time and with good reason. Entangling qubits between separate quantum computers is the key to scaling and building fault-tolerant systems. IonQ recently doubled down on this approach by acquiring a company that specialises in the technology. Join Host Konstantinos Karagiannis for a chat with Aharon Brodutch about how trapped ions… Podcast Transcript February 7, 2023 Transcript | Quantum-Inspired Applications with Icosa Computing We’re getting close to practical advantage with quantum computing when running optimisation algorithms. Companies interested in being leaders in their industry should already be considering how to harness this promised power with use cases that solve their business problems. But some companies want a better solution that’s advantageous today, even if it’s only quantum-inspired. Join host… 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… Load More