Lifeboat Foundation

Maybe someone saw the article on the team in Australia who solved this issue last month; glad folks are collaborating more in this space because we all win when we do.

One of the obstacles that have kept quantum computers on the distant horizon is the fact that quantum bits — the building blocks with which they’re made — are prone to magnetic disturbances. Such “noise” can interfere with the work qubits do, but on Wednesday, scientists announced a new discovery that could help solve the problem.

Specifically, by tapping the same principle that allows atomic clocks to stay accurate, researchers at Florida State University’s National High Magnetic Field Laboratory (MagLab) have found a way to give qubits the equivalent of a pair of noise-canceling headphones.

Continue reading “This new discovery could put quantum computers within closer reach” »

Chinese scientists have developed a nano-sized electric generator that can disappear without a trace inside the human body over time, a breakthrough they claim will bring biodegradable implants on microchips closer to reality.

The technology, reported on the latest issue of Science Advances journal, will have a wide range of applications as it can generate electric pulses to repair damaged neurons and power “brain chip” implants for soldiers in the future, pundits said.

At present, most implants must be surgically removed at the end of their lifespan. To address this issue, a number of small electric devices made from biodegradable materials that can absorbed by the human body after use have been developed around the world.

Continue reading “The power to heal: tiny generator could repair damaged brains, and give soldiers an edge” »

https://youtube.com/watch?v=hX0UELNRR1I

A few weeks ago DJI unveiled its newest drone, the Phantom 4, the first craft to offer robust obstacle avoidance at a price the average consumer can afford. It relied on computer vision to power its autonomous flight, and since DJI had shown off this kind of tech before, we assumed that all the hardware on the Phantom 4 was homegrown, or backed by a giant like Intel. But today the chipmaker Movidius announced that its latest offer, the Myriad 2, was at the center of the onboard processor powering the Phantom 4’s incredible new abilities.

As it turns out this isn’t the first time Movidius has partnered with a big name to develop cutting edge technology. Back in 2014 its first chip, the Myriad 1, was revealed as the brains inside of Google’s first generation of Project Tango tablets. After a decade toiling in relative obscurity, the small 125 person company is suddenly poised to emerge as a leader at the intersection of several major markets — from drones to phones to virtual reality — which are looking for ways to enable cheap, power-efficient computer vision.

Continue reading “The revolutionary chipmaker behind Google’s project Tango is now powering DJI’s autonomous drone” »

For those who read here often, there are clear signs that the FPGA is set to become a compelling acceleration story over the next few years.

From the relatively recent Intel acquisition of Altera by chip giant Intel, to less talked-about advancements on the programming front (OpenCL progress, advancements in both hardware and software from FPGA competitor to Intel/Altera, Xilinx) and of course, consistent competition for the compute acceleration market from GPUs, which dominate the coprocessor market for now.

Last week at the Open Compute Summit we finally got a glimpse of one of the many ways FPGAs might fit into the hyperscale ecosystem (along with other future hardware insight) with an announcement that Intel will be working on future OCP designs featuring an integrated FPGA and Xeon chip. Unlike what many expected, the CPU mate will not be a Xeon D, but rather a proper Broadwell EP. As seen below, this appears to be a 15-core part (Intel did not confirm, but their diagram makes counting rather easy) matched with the Altera Arria 10 GX FPGAs.

Continue reading “Intel Marrying FPGA, Beefy Broadwell for Open Compute Future” »

LONDON & MIAMI–(BUSINESS WIRE)–Blue Prism, the pioneering developer of enterprise Robotic Process Automation (RPA) software, today announced its debut on AIM of the London Stock Exchange (LSE). The first developer of software robots to trade on the public markets, Blue Prism, working closely with its global network of partners, grew 35% last year and has deployments with more than 74 customers, including a number of the world’s largest banks, insurers, utilities, healthcare, telecommunications, service providers and other regulated industries. The initial public offering (IPO) will allow Blue Prism to support its global growth plans and enhance its profile within the RPA marketplace.

“Today’s milestone follows a successful year for the company, and marks a shift in acceptance for software robots as a mainstream choice for the enterprise digital workforce,” said Alastair Bathgate, co-founder and CEO of Blue Prism. “Software robots have been deployed successfully and strategically by large, blue chip organizations that have derived tremendous value from this new solution to the labor market, it’s not science fiction.”

Pseudo-Particles for Error-Free Quantum Computing meet the team and their write up who made it happen through

S. M. Albrecht,

A. P. Higginbotham,

Continue reading “Exponential protection of zero modes in Majorana islands” »

The science fiction world is full of Artificial Intelligence (AI), but AI reality is still far away. According to an article featured in Technology Review, technology is still suffering and nowhere near the expectations of AI.

Senior editor for AI at MIT Technology Review, Will Knight wrote, “For all the remarkable progress being made in artificial intelligence, and warnings about the upheaval this might bring, the smartest computer would still struggle to make it through the eighth grade.”

Knight relates how programmers competed in an Allen Institute for Artificial Intelligence (AI2) contest. The programmers were challenged to write computer programs that could take a science test that was eighth-grade level. During the annual Association for the Advancement of Artificial Intelligence (AAAI) meeting, the winner was announced.

Continue reading “Artificial Intelligence May Be Amazing One Day, But It Currently Still Sucks” »

MIT successfully reconstructed audio from the video of minute vibrations of a potato chip bag.

This could represent a whole new method of surveillance.

One of the latest inventions out of Tel Aviv University can patch up broken hearts. We’re talking about the real organs here, especially those damaged by myocardial infarction or heart attack. A team from the Israeli university created a “cyborg heart patch” that combines both living tissue and electronic components to replace the damaged parts of the organ. “It’s very science fiction, but it’s already here,” says one of its creators, Prof. Tal Dvir. “[W]e expect it to move cardiac research forward in a big way.” The patch can contract and expand like real heart tissue can, but it can do much, much more than that.

The electronic components allow doctors to remotely monitor their patients’ condition from afar. A physician could log into a computer and see if the implant is working as intended. If he senses that something’s amiss, he could release drugs to, say, regulate inflammation or fix the lack of oxygen. That sounds dangerous to us, since computers can be hacked. But the researchers are aiming to develop the patch further so it can regulate itself with no human intervention.

Dvir warns that the “practical realization of the technology may take some time.” For now, those suffering from cardiovascular diseases will have to rely on current treatment methods. The team is still in the midst of refining their cyborg heart patch. Plus, they’re looking at how to create bionic brain and spinal cord tissues using what they’ve learned so far to treat neurological conditions.

Continue reading “‘Cyborg heart patch’ combines electronics and living tissue” »