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.
Our Mission
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
The Long of The Shorts | Week Ending 11/13/2021 | Quantum Computing
The rate at which quantum computing is hitting the media stream is ever-increasing. This piece is a compilation derived from The Shorts posted on The Qubit Report this week. Mea Cubitt
IoT Security Using Quantum Hardware Tested by Crypto Quantique and BT Labs
Crypto Quantique, a specialist in physical-unclonable-function (PUF) cybersecurity for the internet of things (IoT), is engaged with the globally-recognised BT Labs to explore applications for its Q:Architecture, IoT security platform. Q:Architecture comprises QDID hardware IP that generates on-demand random, unique, unforgeable identities and cryptographic keys in silicon, and the QuarkLink security platform for provisioning, onboarding, and managing IoT devices throughout their lifetime.
The Shorts | 11/12/21 | Science and Research 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 science and research. Mea Cubitt
What’s Next for Time Crystals?
UC Berkeley physicist Norman Yao first described five years ago how to make a time crystal — a new form of matter whose patterns repeat in time instead of space. Unlike crystals of emerald or ruby, however, those time crystals existed for only a fraction of a second.
New Topological Superconducting Material Realized by Researcher at Weizmann Institute of Science and Technion
Researchers at Weizmann Institute of Science and Technion in Israel have recently gathered evidence of topological superconductivity in 4Hb-TaS2, a new material realized by one of their colleagues. Their paper, published in Nature Physics, could have important implications for the future development of various quantum devices.
Multiverse Partners With Ionq to Unlock the Power of Quantum Computing for Global Financial Companies
Multiverse Computing today announced a partnership with IonQ, the leader in trapped-ion quantum computing, which will enable financial services organizations to model risk more accurately and quickly than ever before, using the IonQ Quantum Cloud platform within Singularity®, Multiverse’s computing financial solution.
Korea’s Institute for Basic Science Discovers Method to Preserve Coherence Across Quantum Otto Engine Cycles
How monitoring quantum Otto engine affects its performance – Minimizing the measurement effects preserves coherence across engine cycles and improves the power output and reliability – Heat engines are devices that utilize waste heat to perform mechanical work and generate power. The invention of heat
The Shorts | 11/11/21 | 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
Quantum Xchange Joins Hudson Institute’s Quantum Alliance Initiative
Quantum Xchange, delivering the future of encryption with its leading-edge key distribution platform, announced its membership with the Hudson Institute’s Quantum Alliance Initiative (QAI), a consortium of companies, institutions, and universities whose mission is to raise awareness and develop policies that promote the critical importance of U.S. leadership in quantum technology, while simultaneously working to ensure that the nation’s commercial businesses, government agencies, and digital infrastructure will be safe from a future quantum computer cyberattack by 2025.