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
QuiX Demonstrates Its Strength With Quantum Photonic Engineering
QuiX Quantum is a company based in Enschede, the Netherlands, that realizes quantum technology solutions based on the proprietary silicon nitride waveguide technology TriPleX that enables the realization of large-scale integrated photonic circuits with low loss. The maturity of the waveguide technology allows for achieving full reconfigurability and all-to-all connectivity of the elements of the photonic processor that can be thus defined as universal.
QuiX Demonstrates Its Strength With Quantum Photonic Engineering
QuiX Quantum is a company based in Enschede, the Netherlands, that realizes quantum technology solutions based on the proprietary silicon nitride waveguide technology TriPleX that enables the realization of large-scale integrated photonic circuits with low loss. The maturity of the waveguide technology allows for achieving full reconfigurability and all-to-all connectivity of the elements of the photonic processor that can be thus defined as universal.
Quantum Error Correction, Quantum Volume Records, and Quantum Optimization all Part of Honeywell’s & CQC’s Recent Breakthroughs
For the first time, researchers at Honeywell Quantum Solutions demonstrated repeated rounds of real-time quantum error correction (QEC), an advancement that represents a significant step toward the realization of large-scale quantum computing. The company also achieved a quantum volume of 1,024, doubling its own record from just four months ago. Beyond the hardware milestones, Cambridge Quantum also has developed a new quantum algorithm that uses fewer qubits to solve optimization problems.
The Shorts | 7/23/21 | Government and Policy in Quantum Computing
The rate at which quantum computing is hitting the media stream is ever-increasing. This piece is a collection of recent articles and reports covering various aspects of quantum computing from the lens of government and policy. Mea Cubitt SheQuantum announces Advisory Council of Global Academic
The Shorts | 7/23/21 | Government and Policy in Quantum Computing
The rate at which quantum computing is hitting the media stream is ever-increasing. This piece is a collection of recent articles and reports covering various aspects of quantum computing from the lens of government and policy. Mea Cubitt SheQuantum announces Advisory Council of Global Academic
Need Ultrafast Information Processing? Try Topological Materials for Ultrafast Spintronics
The laws of quantum physics rule the microcosm. They determine, for example, how easily electrons move through a crystal and thus whether the material is a metal, a semiconductor or an insulator. Quantum physics may lead to exotic properties in certain materials: In so-called topological insulators, only the electrons that can occupy some specific quantum states are free to move like massless particles on the surface, while this mobility is completely absent for electrons in the bulk.
Researchers Advance Quantum Sensing of Exotic Spin Interaction
Prof. DU Jiangfeng, Prof. RONG Xing, and their colleagues from the Key Laboratory of Micromagnetic Resonance, University of Science and Technology of China (USTC) of the Chinese Academy of Sciences (CAS), set the most stringent laboratory constraint on the exotic spin- and velocity-dependent interaction at
Need Ultrafast Information Processing? Try Topological Materials for Ultrafast Spintronics
The laws of quantum physics rule the microcosm. They determine, for example, how easily electrons move through a crystal and thus whether the material is a metal, a semiconductor or an insulator. Quantum physics may lead to exotic properties in certain materials: In so-called topological insulators, only the electrons that can occupy some specific quantum states are free to move like massless particles on the surface, while this mobility is completely absent for electrons in the bulk.
Researchers Advance Quantum Sensing of Exotic Spin Interaction
Prof. DU Jiangfeng, Prof. RONG Xing, and their colleagues from the Key Laboratory of Micromagnetic Resonance, University of Science and Technology of China (USTC) of the Chinese Academy of Sciences (CAS), set the most stringent laboratory constraint on the exotic spin- and velocity-dependent interaction at