This week’s quantum computing highlights start with QunaSys raising 19 million DKK from Innovation Fund Denmark for the HyperTenQ project with the University of Copenhagen and the Novo Nordisk Foundation, as emphasized by CEO Erik Stangerup. The National Institute of Advanced Industrial Science and Technology (AIST) signed an MoU with ORCA Computing to scale photonic quantum devices, while Xanadu partnered with the University of Maryland’s QLab for workforce development and commercialization. On the research front, a new report spotlights bridging classical and quantum frameworks for 1D Navier-Stokes equations, and Ifan Williams (Quantinuum) alongside Mathieu Pellen (Universität Freiburg) demonstrated a universal quantum Monte Carlo integration method for high-energy physics. QoolNet-UPM showcased real-time quantum cryptography at MWC25. Firm-level developments include Quantum Brilliance’s integration with the Pawsey Supercomputing Centre for hybrid HPC, and estimates point to over 100 quantum computers globally among IBM, D-Wave, IonQ, and others. The University of Science and Technology of China’s Zuchongzhi-3 chip, led by Zhu Xiaobo R deliver speedups around 10^15. Is that true?. Lastly D-Wave published claims of advantage in simulation, but the claims have been contested far and wide.