A(nother) new Cold War : Chinese AI companies 'distilled' Claude to improve own models, Anthropic says And this, at least on the surface, seems like a turning-point of sorts :
I cant wait for Donnie Yen to reprise his role as Ip Man, in Ip Man 17, to defeat the Al Kung Fu overlord.
"What do you think is more dangerous, AI hallucinations or overconfident humans?" Idiots. Idiots are more dangerous than AI hallucinations or overconfident humans.
A link to a scenario about a bleak economic future because of AI. It has some bits about the impact of AI on Tech, but it leans more into the financial impact of Tech. Not Videos and Gee Whiz, but rather about the impact on lives. It is just a scenario, so don't take it as the path that will actually happen. THE 2028 GLOBAL INTELLIGENCE CRISIS A Thought Exercise in Financial History, from the Future
Mac Mini Production Coming to Houston Later This Year CUPERTINO, CALIFORNIA Apple today announced a significant expansion of factory operations in Houston, bringing the future production of Mac mini to the U.S. for the first time. The company will also expand advanced AI server manufacturing at the factory and provide hands-on training at its new Advanced Manufacturing Center beginning later this year. Altogether, Apple’s Houston operations will create thousands of jobs. “Apple is deeply committed to the future of American manufacturing, and we’re proud to significantly expand our footprint in Houston with the production of Mac mini starting later this year,” said Tim Cook, Apple’s CEO. “We began shipping advanced AI servers from Houston ahead of schedule, and we’re excited to accelerate that work even further." For more than two decades, users around the world have relied on the incredibly popular Mac mini for the tremendous power it packs into its ultra-compact design. With its next-level AI capabilities, it has become an essential tool for everyone from students and aspiring creatives to small business owners. Beginning later this year, Mac mini will be produced at a new factory on Apple’s Houston manufacturing site, doubling the campus’s footprint. Apple began producing advanced AI servers in Houston in 2025 for the first time, and production is already ahead of schedule. Servers assembled in Houston — including logic boards produced onsite — are used in Apple data centers around the country. Beyond production, Apple is investing in the workforce that will drive American manufacturing forward. Later this year, Apple’s 20,000-square-foot Advanced Manufacturing Center is scheduled to open its doors in Houston. Currently under construction, the dedicated facility will provide hands-on training in advanced manufacturing techniques to students, supplier employees, and American businesses of all sizes. Apple experts will teach participants the same innovative processes that are used to make Apple products, allowing American manufacturers to take their work to the next level. Since announcing its $600 billion commitment to the U.S. last year, Apple and its American Manufacturing Program partners have already reached several milestones: Apple exceeded its target and sourced more than 20 billion U.S.-made chips from 24 factories across 12 states, including those of partners like TSMC, Broadcom, and Texas Instruments. GlobalWafers has begun production at its new $4 billion bare silicon wafer facility in Sherman, Texas. At Apple’s direction, wafers produced in Sherman will be used by Apple’s chip manufacturing partners in the U.S., including TSMC and Texas Instruments. Supported by Apple’s investment, Amkor broke ground on its new $7 billion semiconductor advanced packaging and test facility in Peoria, Arizona, where Apple will be the first and largest customer. Corning’s Harrodsburg, Kentucky, facility is now 100 percent dedicated to cover glass for iPhone and Apple Watch shipped globally, and by the end of this year, every new iPhone and Apple Watch will have cover glass made in the state. In 2026, Apple is on track to purchase well over 100 million advanced chips produced by TSMC at its Arizona facility — a significant increase from 2025. Apple opened its Apple Manufacturing Academy in Detroit, which is already supporting more than 130 small- and medium-sized American manufacturers with hands-on training in AI, automation, and smart manufacturing. The academy recently expanded with new virtual programming, giving businesses across the country on-demand access to the curriculum developed by Apple experts and Michigan State University faculty.
‘200,000 living human neurons’ on a microchip demonstrated playing Doom — Cortical Labs CL1 video shows the gameplay and explains how the neurons learn the game
I believe this adage 100% applies to artificial intelligence: We tend to overestimate the effect of a technology in the short run and underestimate the effect in the long run.
There are 30 strawberrys (or fruits) in 10 kolache...unless there's some cream cheese filling involved
This was an observation made decades ago about Computer Tech... Moore’s Law In 1965, Intel co-founder Gordon Moore observed that the number of transistors on a microchip was increasing rapidly. He foresaw that this exponential increase in computing power would be the key to affordable electronics manufacturing. Moore predicted that the number of transistors in a microchip would double every year for the next decade. In 1975, he revised the prediction to every two years. His prediction, known as Moore’s Law, has proved to be true – or, as some argue, a self-fulfilling prophecy. The number of transistors that can be squeezed on a chip has grown from tens in the 1960s to tens of billions today. A driver of progress Moore’s Law has propelled the semiconductor industry forward. For chipmakers, being first to market with a new generation of smaller, denser, more powerful chips has proved lucrative. And, thanks to scaling, the cost of Logic and Memory chips has dropped so dramatically that it’s now possible to put a chip in practically anything. As we move from a world where microchips are everywhere to one where AI is everywhere, the growth opportunities for the industry will only continue to expand. The relentless pace of Moore’s Law has changed the world we live in. By repeatedly doubling the number of transistors on a chip, chipmakers keep delivering higher performance at lower cost with each new generation of chip. The result? Consumer products that were once the stuff of dreams. Moore’s Law is alive and well Innovation doesn’t slow when transistor shrink does. It just becomes more challenging – and, as a result, more profitable if done well. As the pace of 2D shrink slows, chipmakers are relying more and more on exotic materials, advanced packaging technologies and more complex 3D transistor designs to deliver improved chip performance. The semiconductor industry increasingly needs to connect engineers from across the entire breadth of physical, chemical, biological and computer sciences in order to realize their new designs – designs that will change our technological world in ways that right now we can’t even conceive of. They will enable waves of innovation in areas such as autonomous vehicles, hyperconnectivity, medical technology and – perhaps most impactfully – the spread of faster, more efficient AI into every aspect of our lives. __________ I don't know if 2028 will be the actual year when things really break open, but I have the pace not slowing down for advances in Tech.
Pretty sure the advances will eventually slow down at Texas Tech someday. 2028 should be fun as hell unless you live in Lubbock
Meta's AI display glasses reportedly share intimate videos with human moderators https://futurism.com/artificial-intelligence/meta-disturbing-smart-glasses
Garbage. It's like a bunch of clips spliced together. Different scenes are different stylistically like it was 20 different directors. Not cohesive at all.
