Quantum Peter Coveney: the challenges quantum computing systems must overcome for use in the lab Qubit topology, communication overhead, and noise fundamentally shape the performance and scalability of quantum computing systems. Professor Peter Coveney’s insights from decades of multi-disciplinary computing research Latest Content IonQ and Cambridge launch UK quantum innovation centre PNNL develops high-purity isotopic gas production systems for quantum technologies Peter Coveney: the challenges quantum computing systems must overcome for use in the lab New technologies SEEQC unveils Italy’s first quantum computing system QC Ware launches Promethium for chemical and materials discovery 7 million Euro awarded to advance the deployment of a European Quantum-Secure Network White papers Leveraging open platforms for scalable quantum computing control systems Quantum computing is complicated, but the infrastructure doesn’t have to be More content Leveraging open platforms for scalable quantum computing control systems Quantum computing opens up new possibilities in materials science Quantinuum breaks key benchmark record with its 56-qubit quantum computer Q-CTRL breaks records for optimisation problems demonstrating use cases for quantum computing Computing companies collaborate to advance Quantum error correction New approach to scale quantum communications brings global quantum networking closer to implementation Nvidia, ORCA and PSNC join forces to integrate quantum photonics and HPC Nvidia Blackwell pushes the boundaries of scientific computing Australian government invests $620M USD into PsiQuantum AIST Selects QuEra’s Neutral-Atom quantum computer Riverlane awarded £2.1m to develop its quantum error correction decoder D-Wave extends quantum computing performance gains Pagination Previous page ‹ Previous Page 12 Next page Next ›
