Quantum Developing quantum devices capable of advancing chemistry research 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 Argonne partners with RIKEN, Fujitsu and Nvidia to advance the next generation of computing IonQ to acquire Seed Innovations IonQ to acquire SkyWater in $1.8B Deal 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 Argonne partners with RIKEN, Fujitsu and Nvidia to advance the next generation of computing IonQ to acquire Seed Innovations IonQ to acquire SkyWater in $1.8B Deal Developing quantum devices capable of advancing chemistry research NERSC calls for proposals on its IBM Quantum Innovation Center EeroQ announces solution to the wiring complexity of quantum chips Quantum computing platform beats AI in drug discovery, study claims Nu Quantum raises $60M Series A for quantum networking Quantum Dice secures €2m from EIC to advance probabilistic computing IonQ and CCRM announce quantum-biotech collaboration to develop advanced therapeutics IQM to invest €40 million to expand Finland production facility QuEra showcases quantum integration with HPC at SC25 Pagination Page 1 Next page Next ›
