The first cellular map of a mammalian brain is here.
High-resolution atlas charts neural neighborhoods for more than 5,300 cell types.
A stroke happens when blood flow is lost to part of the brain. Your brain cells cannot get the oxygen and nutrients they need from blood, and they start to die in a few minutes. This can cause lasting brain damage, long-term disability, or even death.
A stroke can occur when an obstruction such as a blood clot travels from another part of the body and lodges inside an artery in the brain.
When an arterial wall becomes damaged, various types of emboli, or obstructions, can form. Emboli can be made up of various substances such as platelets, elements in the blood that help it clot, blood clots that form elsewhere and pass to the damaged area, cholesterol, or a combination of things.
For example, an embolism is formed in the carotid artery and breaks loose, traveling towards the brain where it will eventually lodge, blocking the blood the brain needs. The blocked artery deprives the brain of oxygen, which cause damage to the surrounding tissue. The result is a stroke.
Moore’s Law predicts that computers get faster every two years because of the evolution of semiconductor chips.
Researchers at Tohoku University and the University of California, Santa Barbara, have shown a proof-of-concept of energy-efficient computer compatible with current AI. It utilizes a stochastic behavior of nanoscale spintronics devices and is particularly suitable for probabilistic computation problems such as inference and sampling.
The team presented the results at the IEEE International Electron Devices Meeting (IEDM 2023) on December 12, 2023.
With the slowing down of Moore’s Law, there has been an increasing demand for domain-specific hardware. A probabilistic computer with naturally stochastic building blocks (probabilistic bits, or p-bits) is a representative example due to its potential capability to efficiently address various computationally hard tasks in machine learning (ML) and artificial intelligence (AI).
In December 2022, NASA’s MAVEN mission observed a rare solar event causing the solar wind to “disappear.” This led to significant changes in Mars’ atmosphere and magnetosphere, including their expansion. Scientists, astounded by the data, formed a working group to study this phenomenon. Credit: SciTechDaily.com.
NASA ’s MAVEN detected a unique solar event that drastically affected Mars ’ atmosphere, offering vital insights into the planet’s interaction with solar phenomena.
In December 2022, NASA’s MAVEN (Mars Atmosphere and Volatile EvolutioN) mission observed the dramatic and unexpected “disappearance” of a stream of charged particles constantly emanating off the Sun, known as the solar wind. This was caused by a special type of solar event that was so powerful, it created a void in its wake as it traveled through the solar system.
Our most advanced text-to-image diffusion technology, delivering high-quality, photorealistic outputs that are closely aligned and consistent with the user’s prompt.
Imagen 2 is our most advanced text-to-image diffusion technology, delivering high-quality, photorealistic outputs that are closely aligned and consistent with the user’s prompt. It can generate more lifelike images by using the natural distribution of its training data, instead of adopting a pre-programmed style.
Imagen 2’s powerful text-to-image technology is available for developers and Cloud customers via the Imagen API in Google Cloud Vertex AI.
The Google Arts and Culture team is also deploying our Imagen 2 technology in their Cultural Icons experiment, allowing users to explore, learn and test their cultural knowledge with the help of Google AI.
Tesla has released a demo of their Gen 2 Tesla Bot with impressive advancements in design and capabilities, sparking discussion about its potential impact on manufacturing and the company’s success.
Questions to inspire discussion.
What are the improvements in the Gen 2 Tesla Bot?
—The Gen 2 Tesla Bot has updated design, actuated neck, improved hand and finger control, and a new tactile sensing system.
Headquartered in Oxford, UK, MitoRx is working on orally delivered mitochondrial protective therapeutics targeting mitochondrial dysfunction linked to the progression of conditions such as Duchenne muscular dystrophy and Huntington’s disease, along with other neurodegenerative diseases. The company says the new funding will be allocated towards its preclinical work in Huntington’s disease, activating its first neurodegenerative disease program, and exploring research collaborations and partnerships.
MitoRx anticipates delivering preclinical results in Duchenne muscular dystrophy, Huntington’s disease, and COPD next year.
“Interim results in our Duchenne program demonstrate that our muscle-penetrative lead asset preserves strength in oxidative muscle, and confirms mitochondrial modulation,” said Dr Christine Charman, Chief Development Officer at MitoRx. “These results will be presented at the Muscular Dystrophy Association Clinical and Scientific Conference in Orlando during March 2024.”
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Nowadays, many malicious elements online use AI to digitally expand their operations, and experts claim that such AI-generated fraud is only expected to worsen.
This increasing criminal use of AI challenges security agencies as they look to capture and convict criminals. Unfortunately, most agencies do not have the resources to handle the increased volume of cases, and those that do struggle immensely with differing regulations across jurisdictions. Furthermore, the lack of federal legislation on AI leaves agencies largely on their own to navigate these evolving challenges.
A new study has illustrated how a protein called Snail helps brain cells coordinate in response to injury, showing that how much Snail is produced affects whether an injury heals efficiently.
According to a notice the agency posted on the government contracting portal SAM.gov on Thursday (Dec. 7), the technology was developed by researchers at NASA’s Langley Research Center in Virginia and has been studied for use in a simulated entry into Neptune’s atmosphere. A separate 2021 study of the same technology studied it for use in the atmosphere of Mars.
Related: Space Force wants ‘Foo Fighter’ satellites to track hypersonic missiles
The agency claims its MHD system is “simpler than conventional methods for control of hypersonic craft (e.g., chemical propulsion, shifting flight center of gravity, or trim tabs) and enables new entry, descent, and landing mission architectures.”