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Archive for the ‘computing’ category: Page 833

Sep 26, 2015

Let’s go inside Samsung’s new Silicon Valley headquarters

Posted by in categories: computing, mobile phones

While Apple has gone for a flying saucer design, Samsung’s new Silicon Valley offices look more like a giant Rubik’s Cube. The $300 million campus opened yesterday, cementing the South Korean company’s presence in the Valley. The 1.1 million-square-foot site in San Jose is intended to accommodate up to 2,000 employees, bringing together Samsung’s American R&D teams as well as providing a home for its local sales and marketing staff. Samsung says the site’s open design is intended to foster collaboration between employees, enabling those “impromptu, spur-of-the-moment interactions that are the genesis of many great ideas.”

The company broke ground on the 10-story campus back in 2013, with architecture firm NBBJ designing the site, which includes courtyards, open “garden floors,” and lab space. “Today represents a major milestone as we open our most strategically important Samsung facility in the US and also our biggest investment in Silicon Valley,” said Jaesoo Han, Samsung’s devices president in America, in a press statement. “Samsung’s goal is nothing less than to develop the best next‐generation technologies for device solutions.” Here’s how the new offices compare to the original renders:

Samsung is stressing that the site is a home for its R&D work, including research into products like displays, semiconductors, and SSD hard drives. However, the building also puts it on more of an equal footing with tech giants like Apple and Facebook, which have already established (or have plans for) monumental homes in Silicon Valley. Samsung may be facing hard times in the smartphone industry, the product category it’s most well known for in the US, but these new offices should give it a little more visibility in the tech world.

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Sep 25, 2015

Watch: Paralysed man walks again via brain waves rerouted to his legs

Posted by in categories: biotech/medical, computing, neuroscience

A paraplegic man who was paralysed for five years has walked again on his own two feet, thanks to a new kind of brain-computer interface that can reroute his thoughts to his legs, bypassing his spinal cord entirely.

The anonymous man, who experiences complete paralysis in both legs due to a severe spinal cord injury (SCI), is the first such patient to demonstrate that brain-controlled overground walking after paraplegia due to SCI is feasible.

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Sep 24, 2015

Don’t Worry, Artificial Intelligence Has A Long Way To Go: Baidu Scientist

Posted by in categories: computing, employment, robotics/AI

Don’t get overly excited about computers and artificial intelligence replacing humans , at least not yet says Andrew Ng, chief scientist at the Chinese search giant Biadu. Computers are still in the “supervised learning” stage where human input is required to connect dots.

artificial intelligence AI Jobs

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Sep 24, 2015

Brain-computer link enables paralyzed California man to walk

Posted by in categories: biotech/medical, computing, engineering, information science, neuroscience, robotics/AI

By Steve Gorman LOS ANGELES (Reuters) — A brain-to-computer technology that can translate thoughts into leg movements has enabled a man paralyzed from the waist down by a spinal cord injury to become the first such patient to walk without the use of robotics, doctors in Southern California reported on Wednesday. The slow, halting first steps of the 28-year-old paraplegic were documented in a preliminary study published in the British-based Journal of NeuroEngineering and Rehabilitation, along with a YouTube video. The feat was accomplished using a system allowing the brain to bypass the injured spinal cord and instead send messages through a computer algorithm to electrodes placed around the patient’s knees to trigger controlled leg muscle movements.

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Sep 23, 2015

Animated GIF

Posted by in categories: computing, neuroscience

The best GIFs are on Giphy.

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Sep 23, 2015

Engineering Humans for War

Posted by in categories: computing, cyborgs, electronics, engineering, military

For decades after its inception in 1958, the Defense Advanced Research Projects Agency—DARPA, the central research and development organization of the Department of Defense—focused on developing vast weapons systems. Starting in 1990, and owing to individuals like Gorman, a new focus was put on soldiers, airmen, and sailors—on transforming humans for war. The progress of those efforts, to the extent it can be assessed through public information, hints at war’s future, and raises questions about whether military technology can be stopped, or should.

Gorman sketched out an early version of the thinking in a paper he wrote for DARPA after his retirement from the Army in 1985, in which he described an “integrated-powered exoskeleton” that could transform the weakling of the battlefield into a veritable super-soldier. The “SuperTroop” exoskeleton he proposed offered protection against chemical, biological, electromagnetic, and ballistic threats, including direct fire from a.50-caliber bullet. It “incorporated audio, visual, and haptic [touch] sensors,” Gorman explained, including thermal imaging for the eyes, sound suppression for the ears, and fiber optics from the head to the fingertips. Its interior would be climate-controlled, and each soldier would have his own physiological specifications embedded on a chip within his dog tags. “When a soldier donned his ST [SuperTroop] battledress,” Gorman wrote, “he would insert one dog-tag into a slot under the chest armor, thereby loading his personal program into the battle suit’s computer,” giving the 21st-century soldier an extraordinary ability to hear, see, move, shoot, and communicate.

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Sep 23, 2015

Even computer programmers could be put out of a job by robots

Posted by in categories: computing, robotics/AI

No one is safe.

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Sep 23, 2015

Permanent data storage with light

Posted by in categories: computing, materials, nanotechnology

The first all-optical permanent on-chip memory has been developed by scientists of Karlsruhe Institute of Technology (KIT) and the universities of Münster, Oxford, and Exeter. This is an important step on the way towards optical computers. Phase change materials that change their optical properties depending on the arrangement of the atoms allow for the storage of several bits in a single cell. The researchers present their development in the journal Nature Photonics (10.1038/nphoton.2015.182).

Light determines the future of information and communication technology: With optical elements, computers can work more rapidly and more efficiently. Optical fibers have long since been used for the transmission of data with light. But on a computer, data are still processed and stored electronically. Electronic exchange of data between processors and the memory limits the speed of modern computers. To overcome this so-called von Neumann bottleneck, it is not sufficient to optically connect memory and processor, as the optical signals have to be converted into electric signals again. Scientists, hence, look for methods to carry out calculations and data storage in a purely optical manner.

Scientists of KIT, the University of Münster, Oxford University, and Exeter University have now developed the first all-optical, non-volatile on-chip memory. “Optical bits can be written at frequencies of up to a gigahertz. This allows for extremely quick data storage by our all-photonic memory,” Professor Wolfram Pernice explains. Pernice headed a working group of the KIT Institute of Nanotechnology (INT) and recently moved to the University of Münster. “The memory is compatible not only with conventional optical fiber data transmission, but also with latest processors,” Professor Harish Bhaskaran of Oxford University adds.

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Sep 23, 2015

Scientists shatter distance record for teleporting quantum data

Posted by in categories: computing, encryption, internet, quantum physics

Quantum teleportation, the act of reconstructing quantum data somewhere else, is impressive just by itself. However, scientists at the US’ National Institute of Standards and Technology have managed to one-up that feat. They’ve broken the distance record for quantum teleportation by transferring the information from one photon to another across 63 miles of optical fiber. That may not sound like much, but it’s an achievement just to beam that data in the first place — 99 percent of photons would never make the complete trip. It was only possible thanks to newer detectors that could pick up the faint signal of the lone light particle.

You’d clearly need to send much more information before this teleportation becomes practical, but the achievement does open the door to many possibilities in quantum computing. You could use unbreakable quantum encryption at inter-city distances, for instance. The biggest challenge may simply be to extend the range to the point where quantum data transfers work on the scale of the internet, where there are occasionally thousands of miles between connections.

[Image credit: Getty Images/iStockphoto].

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Sep 22, 2015

Calculations with nanoscale smart particles

Posted by in categories: biotech/medical, chemistry, computing, nanotechnology, particle physics

Researchers from the Institute of General Physics of the Russian Academy of Sciences, the Institute of Bioorganic Chemistry of the Russian Academy of Sciences and MIPT have made an important step towards creating medical nanorobots. They discovered a way of enabling nano- and microparticles to produce logical calculations using a variety of biochemical reactions.

Details of their are given in the journal Nature Nanotechnology. It is the first experimental publication by an exclusively Russian team in one of the most cited scientific magazines in many years.

The paper draws on the idea of computing using biomolecules. In electronic circuits, for instance, logical connectives use current or voltage (if there is voltage, the result is 1, if there is none, it’s 0). In biochemical systems, the result can a given substance.

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