Google chrome to distrust chunghwa and netlock TLS certificate authorities over repeated compliance failures and behavioral issues
Microsoft and CrowdStrike have announced that they are teaming up to align their individual threat actor taxonomies by publishing a new joint threat actor mapping.
“By mapping where our knowledge of these actors align, we will provide security professionals with the ability to connect insights faster and make decisions with greater confidence,” Vasu Jakkal, corporate vice president at Microsoft Security, said.
The initiative is seen as a way to untangle the menagerie of nicknames that private cybersecurity vendors assign to various hacking groups that are broadly categorized as a nation-state, financially motivated, influence operations, private sector offensive actors, and emerging clusters.
Qualcomm fixes 3 zero-days in Adreno GPUs used in targeted Android attacks—OEMs urged to patch fast.
Researchers from Ruhr University Bochum, Germany, have developed a new method that allows them to visualize the contribution of the interaction between water and proteins for the first time with extreme temporal resolution. Terahertz (THz) calorimetry makes it possible to quantify changes of fundamental thermodynamic magnitudes, such as solvation entropy and enthalpy in relation to biological processes in real time.
No image is infinitely sharp. For 150 years, it has been known that no matter how ingeniously you build a microscope or a camera, there are always fundamental resolution limits that cannot be exceeded in principle. The position of a particle can never be measured with infinite precision; a certain amount of blurring is unavoidable. This limit does not result from technical weaknesses, but from the physical properties of light and the transmission of information itself.
TU Wien (Vienna), the University of Glasgow and the University of Grenoble therefore posed the question: Where is the absolute limit of precision that is possible with optical methods? And how can this limit be approached as closely as possible?
And indeed, the international team succeeded in specifying a lowest limit for the theoretically achievable precision and in developing AI algorithms for neural networks that come very close to this limit after appropriate training. This strategy is now set to be employed in imaging procedures, such as those used in medicine. The study is published in the journal Nature Photonics.
Switching to camizestrant, a next-generation oral SERD, significantly prolongs progression-free survival and maintains quality of life in patients with ESR1-mutated, hormone receptor-positive advanced breast cancer. The proactive, biomarker-guided approach allows earlier intervention and may redefine standard care.
A simplified quantum gravity model, which can be simulated using current quantum technologies, replicates key features of Einstein’s gravity, offering insights into the quantum nature of spacetime and paving the way for experimental exploration.
With the Darwin-Gödel Machine (DGM), Sakana AI introduces an AI system that can iteratively improve itself through self-modification and open-ended exploration. Early results look promising, but the method is still expensive to run.
NASA released more details about its proposed fiscal year 2026 budget May 30, canceling dozens of science missions and cutting thousands of jobs.