Lifeboat Foundation: Safeguarding Humanity
Toggle light / dark theme

Blog

Category: robotics/AI – Page 73

This article outlines examples of where AI has been utilized to predict disease outbreaks and how AI models could help inform future strategies for controlling the spread of infectious diseases to prevent possible pandemics.

AI’s contribution to pandemic preparedness

In August 2024, the World Health Organization (WHO) updated its list of pathogens that could spark the next pandemic, which grew to include more than 30 pathogens. The microorganisms were selected based on available evidence showing them to be highly transmissible and virulent, with limited access to vaccines and treatments. While some pathogens on the list may never cause an epidemic, the growing number of pathogens of concern highlights the need for new tools to help predict and control the spread of infectious diseases.

Read more | >

“The Chinese wisely recognize that if a country standardizes on China’s AI platform, it likely will continue to rely on that platform in the future,” Smith said.

The US should move quickly to promote its AI technology as superior and more trustworthy, enlisting allies in the effort, he recommended.

For its part, Microsoft is on pace to invest about $80 billion this year to build out AI datacenters, train AI models and deploy cloud-based applications around the world, according to Smith.

Read more | >

At CES 2025, Nvidia CEO Jensen Huang kicks off CES, the world’s largest consumer electronics show, with a new RTX gaming chip, updates on its AI chip Grace Blackwell and its future plans to dig deeper into robotics and autonomous cars.

Never miss a deal again! See CNET’s browser extension 👉 https://bit.ly/3lO7sOU
Check out CNET’s Amazon Storefront: https://www.amazon.com/shop/cnet?tag=lifeboatfound-20.
Follow us on TikTok: https://www.tiktok.com/@cnetdotcom.
Follow us on Instagram: https://www.instagram.com/cnet/
Follow us on X: https://www.x.com/cnet.
Like us on Facebook: https://www.facebook.com/cnet.
CNET’s AI Atlas: https://www.cnet.com/ai-atlas/
Visit CNET.com: https://www.cnet.com/

Read more | >

Neuromodulators in the brain act globally at many forms of synaptic plasticity, represented as metaplasticity, which is rarely considered by existing spiking (SNNs) and nonspiking artificial neural networks (ANNs). Here, we report an efficient brain-inspired computing algorithm for SNNs and ANNs, referred to here as neuromodulation-assisted credit assignment (NACA), which uses expectation signals to induce defined levels of neuromodulators to selective synapses, whereby the long-term synaptic potentiation and depression are modified in a nonlinear manner depending on the neuromodulator level. The NACA algorithm achieved high recognition accuracy with substantially reduced computational cost in learning spatial and temporal classification tasks. Notably, NACA was also verified as efficient for learning five different class continuous learning tasks with varying degrees of complexity, exhibiting a markedly mitigated catastrophic forgetting at low computational cost. Mapping synaptic weight changes showed that these benefits could be explained by the sparse and targeted synaptic modifications attributed to expectation-based global neuromodulation.

PubMed Disclaimer

Read more | >

An electronic stacking technique has the potential to exponentially boost the number of transistors on chips, paving the way for more efficient AI hardware.

The electronics industry is approaching a limit to the number of transistors that can be packed onto the surface of a computer chip. So, chip manufacturers are looking to build up rather than out.

Instead of squeezing ever-smaller transistors onto a single surface, the industry is aiming to stack multiple surfaces of transistors and semiconducting elements — akin to turning a ranch house into a high-rise. Such multilayered chips could handle exponentially more data and carry out many more complex functions than today’s electronics.

Read more | >