Problems with the future of gaming.
A strange bug is removing people’s games on PlayStation 4 and 5, and Vita, and Sony doesn’t have a fix.
It wasn’t long ago that PlayStation sparked fan outrage when it said it would remove Discovery video content from people’s libraries, even though they had paid for it.
PlayStation later backtracked, but a similar, unintentional, issue has now come up: a random bug that’s wiping digital games from people’s libraries.
A new report reveals the chaos behind the startup Stability AI, including an incident where its now-ex CEO disappeared in his pajamas.
As investors are pouring billions of dollars into AI companies, analysts are starting to become wary of an “AI bubble” that’s forming.
Researchers identify molecular cues that make developing neurons remodel their connections.
At this very moment, the billions of neurons in your brain are using their trillions of connections to enable you to read and comprehend this sentence.
Now, by studying the neurons involved in the sense of smell, researchers from Kyushu University’s Faculty of Medical Sciences report a new mechanism behind the biomolecular bonsai that selectively strengthens these connections.
Key synapse acts as a “smart teacher,” sending messages against the usual flow of information in the brain.
Information flows in a well-defined direction in the brain: Chemical and electrical signals are passed from one neuron to the other across the synapse, from the pre-synaptic to the post-synaptic neuron. Now, Peter Jonas and his group at the Institute of Science and Technology Austria (IST Austria) show that information also travels in the opposite direction at a key synapse in the hippocampus, the brain region responsible for learning and memory.
At the so-called mossy fiber synapse, the post-synaptic CA3 neuron influences how the pre-synaptic neuron, the so-called mossy fiber neuron, fires. “We have shown, for the first time, that a retrograde information flow is physiologically relevant for pre-synaptic plasticity,” says Yuji Okamoto, a postdoc in the group of Peter Jonas at IST Austria and co-first author of the paper published in Nature Communications.
An article in Nature Electronics presents how to use electron-beam lithography to obtain p-and n-type vertical organic electrochemical transistor matrix arrays and complementary logic circuits.
⚠️ Mac users, beware! Malicious ads and fake websites are spreading dangerous malware like Atomic Stealer, which can steal your passwords, cryptocurrency, and other sensitive data.
Advances with photoswitches could lead to a smartphone that’s soft and flexible and shaped like a hand so you can wear it as a glove, for example. Or a paper-thin computer screen that you can roll up like a window shade when you’re done using it. Or a TV as thin as wallpaper that you can paste on a wall and hardly know it’s there when you’re not watching it.
Photoswitches, which turn on and off in response to light, can be stitched together to replace the transistors used in electronic devices that control the flow of the electric current.
Commercial silicon transistors are brittle, nontransparent, and typically several microns thick, about the same thickness as a red blood cell. In contrast, photoswitches are one or two nanometers, about 1,000 times thinner. They can also be mounted on graphene, a transparent, flexible material.
Researchers have developed a carbon nanotube (CNT) transistor for molecule glasses that facilitates detailed examination of molecular interactions. This innovative technology is poised to open a fresh research direction in nanotechnology and molecular biology.
