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
Quantum Correlations at the Macro-Scale: Can We See Them?
One of the most fundamental features of quantum physics is Bell nonlocality: the fact that the predictions of quantum mechanics cannot be explained by any local (classical) theory. This has remarkable conceptual consequences and far-reaching applications in quantum information. However, in our everyday experience, macroscopic objects seem to behave according to the rules of classical physics, and the correlations we see are local. Is this really the case, or can we challenge this view? In a recent paper in Physical Review Letters, scientists from the University of Vienna and the Institute of Quantum Optics and Quantum Information (IQOQI) of the Austrian Academy of Sciences have shown that it is possible to fully preserve the mathematical structure of quantum theory in the macroscopic limit. This could lead to observations of quantum nonlocality at the macroscopic scale.
Startup Funding September 2021
Quantum Machines raised $50.0M in a Series B round led by Red Dot Capital Partners with the participation of Exor, Claridge Israel, Samsung NEXT, Valor Equity Partners, Atreides Management LP, and joined by TLV Partners, Battery Ventures, 2i Ventures, and other existing investors. Quantum Machines develops…
The Shorts | 10/6/21 | Technology and Hardware 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 technology and hardware. Mea Cubitt
U.S. Department of Homeland Security Publishes Guidance to Mitigate Risks From Quantum Computing’s Threat
The Department of Homeland Security (DHS), in partnership with the Department of Commerce’s National Institute of Standards and Technology (NIST), released a roadmap to help organizations protect their data and systems and to reduce risks related to the advancement of quantum computing technology.
The Shorts | 10/5/21 | Cybersecurity and Cryptography in Quantum Computing
The rate at which quantum computing is hitting the media stream is ever-increasing. This piece is a collection of articles and reports covering various aspects of quantum computing from the lens of cybersecurity and cryptography. Mea Cubitt
Intel’s Loihi Chip and Lava Framework – A Challenger to Quantum Optimization?
Intel introduced Loihi 2, its second-generation neuromorphic research chip, and Lava, an open-source software framework for developing neuro-inspired applications. Their introduction signals Intel’s ongoing progress in advancing neuromorphic technology.
Experience-Driven Training in Quantum Technology Funded; SPIE Optics and Photonics Champion Academy to Offer
The SPIE Optics and Photonics Champion Academy will build an expanding group of leaders in research, advocacy, mentorship, and science communication.
The Shorts | 10/4/21 | Business and Industry 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 business and industry. Mea Cubitt
Indispensable Research for Future Information and Computing Technologies Conducted by U.S. Department of Energy
A team led by the Department of Energy’s Oak Ridge National Laboratory has found a rare quantum material in which electrons move in coordinated ways, essentially “dancing.” Straining the material creates an electronic band structure that sets the stage for exotic, more tightly correlated behavior – akin to tangoing – among Dirac electrons, which are especially mobile electric charge carriers that may someday enable faster transistors. The results are published in the journal Science Advances.