Latest Quantum Computing Post
The week ending November 22, 2025, delivered a powerful surge of advancements in quantum computing demanding your attention—from Hong Kong deploying the city’s first chip-based quantum network to IBM and Cisco unveiling plans for a distributed, fault-tolerant quantum infrastructure. Funding accelerated, hardware reached new milestones, and post-quantum defenses hardened. These developments aren’t hype; they’re the building blocks of the next computing era. Here’s the full summary you can’t afford to miss.
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At The Qubit Report, our mission is to promote knowledge and opinion of quantum computing from the casual reader to the scientifically astute. Because Quantum is Coming.
Recent Quantum Computing Posts
Beijing Tech Firm Introduces FPGA-Based Quantum Coprocessors for Flexible Computation
WiMi Hologram Cloud Inc. shares a plan for digital quantum coprocessors using FPGAs. The approach adapts qubit operations into programmable logic. Homogeneous and heterogeneous structures support varied workloads with enhanced stability.
MicroAlgo Debuts FULL Adder Quantum Algorithm with CPU Registers
MicroAlgo Inc. presents a new arithmetic method in quantum gate computing. The design uses CPU registers to handle qubits for addition tasks. This approach draws on the Bernstein-Vazirani algorithm for more efficient operations.
BTQ Signs MOU with South Korean Quantum Technology Groups
BTQ Technologies has formalized an agreement with FQCF, QuINSA, and QCI. The plan addresses industrial standards and events that link research with real-world applications. South Korea’s quantum technology strategy provides a supportive environment for next-generation security.
LightSolver Charts a New Era in Hybrid Optical Computing
LightSolver merges optical and electronic methods for faster, more energy-efficient computing. Their technology addresses iterative workloads in fields like climate modeling and complex simulations. By integrating photonic hardware with existing silicon structures, LightSolver envisions a unified future for next-generation processors.
Merry Christmas from Russia: 50-Qubit Cold Atom Quantum Computer Prototype Debuts
Researchers at Lomonosov Moscow State University (MSU) and the Russian Quantum Center (RQC) demonstrated the nation’s first functioning 50-qubit prototype. The system uses single neutral rubidium atoms positioned by optical tweezers. The demonstration took place on December 19, aligning with Russia’s plan to expand quantum computing capacity.
Japan: Okayama University Develops High-Performance Nanodiamonds for Bioimaging and Quantum Sensing
Researchers at Okayama University have developed nanodiamonds with nitrogen-vacancy centers, providing strong fluorescence and long-lasting spin properties. These nanodiamonds require less energy and preserve quantum states for extended periods, demonstrating heightened performance for magnetic field and temperature detection. They may enable new methods in disease monitoring, battery assessments, and thermal management in electronics.
Northwestern Demonstrates Quantum Teleportation Over Busy Fiber
Northwestern University engineers have demonstrated quantum teleportation on a busy fiber optic cable carrying Internet data. Their approach simplifies the infrastructure needed for advanced sensing or quantum computing by placing quantum information in a low-traffic wavelength. The method supports high-speed classical data and quantum signals without requiring new fiber installations.
Pasqal and Riverlane Collaborate on Fault-Tolerant Quantum Computing
Pasqal partners with Riverlane to merge neutral atom quantum systems with a specialized quantum error correction stack. Their collaboration aims to overcome reliability barriers by detecting and correcting errors in real time. Together, the two teams foresee industry-wide benefits for fields such as energy storage, pharmaceuticals, and artificial intelligence.
Oxford Ionics, Quanscient, and Airbus Pursue Quantum CFD Simulations
Oxford Ionics, recognized for its trapped-ion quantum computing systems, announced working together with Quanscient, a provider of multiphysics simulation software, and Airbus, an aerospace manufacturer, to develop quantum simulations for computational fluid dynamics (CFD).