Lifeboat Foundation: Safeguarding Humanity
Toggle light / dark theme

Blog – Page 10794

Check out what I’m doing July 25! #Comedy! Please join me if you can. http://sanfrancisco.carpediem.cd/events/4056859-eureka-at-pianofight/ #transhumanism #CaliforniaGovernor

Interested in becoming post-Human? What if it promised you eternal six-packs? Still on the fence? Then come join Eureka! as we host transhumanist Zoltan Istvan and learn more about how the future of technology will transform humankind.

Zoltan Istvan is an American transhumanist, journalist, entrepreneur, and Libertarian futurist. Formerly a reporter for the National Geographic Channel, Zoltan now writes futurist, transhumanist, libertarian and secular themed articles for major media, including Vice’s Motherboard, Wired, The Huffington Post, TechCrunch, and Newsweek. Zoltan regularly appears on television and video channels discussing futurist topics. He is one of the world’s most influential transhumanists and believes transhumanism will grow into a mainstream social movement in the next decade. He is the author of The Transhumanist Wager, a philosophical science fiction novel. In 2017, he announced his intent to run for Governor of California in the 2018 election as Libertarian.

Joining hosts Allen Saakyan and Kevin Whittinghill will be the hilarious comedy stylings of Chris Conatser (Learn from Me Comedy) and Allison Page (Killing My Lobster).

And now, a little bit about PianoFight!

Read more

Plasma, an extremely hot gas with electrically charged particles, is found all throughout the universe and is influenced by environmental forces, such as magnetic fields.

The complex behaviours observed in space and in the lab suggest plasma can generate the magnetic field in the opposite direction to the one applied, according to the researchers from Tohoku University.

This causes the field lines to diverge, much like magnets with their North poles facing toward each other.

Read more

Scientists are coming up with some very crazy experiments lately. Anything involving the human brain is always met with a fair bit of skepticism. However, a new project by Harvard researchers allows humans to control animals with their thoughts. It sounds quite impressive, although animal right activists may have concerns about this project. Regardless, a brain-to-brain interface could have some interesting consequences.

Read more

As this example shows, 3D printing has come a long way, quickly. In February 2011, when The Economist ran a story called “Print me a Stradivarius”, the idea of printing objects still seemed extraordinary. Now, it is well established. Additive manufacturing, as it is known technically, is speeding up prototyping designs and is also being used to make customised and complex items for actual sale.

SLOWLY but surely the sole of a shoe emerges from a bowl of liquid resin, as Excalibur rose from the enchanted lake. And, just as Excalibur was no ordinary sword, this is no ordinary sole. It is light and flexible, with an intricate internal structure, the better to help it support the wearer’s foot. Paired with its solemate it will underpin a set of trainers from a new range planned by Adidas, a German sportswear firm.

Adidas intends to use the 3D-printed soles to make trainers at two new, highly automated factories in Germany and America, instead of producing them in the low-cost Asian countries to which most trainer production has been outsourced in recent years. The firm will thus be able to bring its shoes to market faster and keep up with fashion trends. At the moment, getting a design to the shops can take months. The new factories, each of which is intended to turn out up to 500,000 pairs of trainers a year, should cut that to a week or less.

Read more

As embedded intelligence is finding its way into ever more areas of our lives, fields ranging from autonomous driving to personalized medicine are generating huge amounts of data. But just as the flood of data is reaching massive proportions, the ability of computer chips to process it into useful information is stalling.

Now, researchers at Stanford University and MIT have built a new chip to overcome this hurdle. The results are published today in the journal Nature, by lead author Max Shulaker, an assistant professor of electrical engineering and computer science at MIT. Shulaker began the work as a PhD student alongside H.-S. Philip Wong and his advisor Subhasish Mitra, professors of electrical engineering and computer science at Stanford. The team also included professors Roger Howe and Krishna Saraswat, also from Stanford.

Computers today comprise different chips cobbled together. There is a chip for computing and a separate chip for data storage, and the connections between the two are limited. As applications analyze increasingly massive volumes of data, the limited rate at which data can be moved between different chips is creating a critical communication “bottleneck.” And with limited real estate on the chip, there is not enough room to place them side-by-side, even as they have been miniaturized (a phenomenon known as Moore’s Law).

Read more