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Archive for the ‘computing’ category: Page 821

Dec 28, 2015

Researchers have figured out how to store the entire Internet in a test tube

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

Engineer Robert Grass says that though we believe information is here forever, it’s actually fragile. Hard drives and physical sources of information, like books, decay over time. In a video for the BBC, Grass describes his quest to find a method of preserving information that could be stable for millions of years. The secret is DNA.

In 2012, research showed that you could translate a megabyte (MB) of information into DNA and then read it back again. DNA has a language of its own, and is written in sequences of nucleotides (A, C, T, and G). Think of it as similar to binary, which breaks information down into ones and zeros.

And DNA has the advantage of being able to put an enormous amount of information in a tiny space. Theoretically, one gram of DNA could hold 455 exabytes of information. That’s “enough for all the data held by Google, Facebook and every other major tech company, with room to spare”, according to New Scientist.

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Dec 26, 2015

Part 1: Entrepreneur & Researcher Robert Bradbury

Posted by in categories: bioengineering, biotech/medical, computing, life extension, nanotechnology, neuroscience

This came up recently and it occurred I never posted this here. This is a lecture by Robert Bradbury, not not Ray Bradbury. I had the pleasure of exchanging a few emails with him. Unfortunately those emails are lost so I cannot share them. He was an advocate of life extension and he was a big thinker. I’ll post both vids and a link to the M-brain page. He is not with us anymore I regret to say. Ready?


Renown aging expert Robert Bradbury discusses whole genome engineering, evolution and aging and ways to defeat aging. His talk touches on many areas including nanotechnology, biology, and computer science. More information can be found at http://manhattanbeachproject.com Follow updates at http://twitter.com/maxlifeorg

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Dec 25, 2015

Scientists create world’s first biologically powered computer chip

Posted by in categories: computing, engineering, mobile phones

The dream of melding biological and man-made machinery is now a little more real with the announcement that Columbia Engineering researchers have successfully harnessed a chemical energy-producing biological process to power a solid state CMOS integrated circuit.

According to study lead professor Ken Shepard, this is the world’s first successful effort to isolate a biological process and use it to power an integrated circuit, much like the ones we use in phones and computers.

The researchers developed the system by using an artificially created lipid bilayer membrane containing naturally occurring ion pumps, which are powered by the biological world’s “energy currency molecule,” ATP (adenosine triphosphate). ATP is the coenzyme that transfers chemical energy between living cells. It is an end product of processes such as photosynthesis and cellular respiration, and it powers the mechanical work of living systems such as cell division and muscle contraction.

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Dec 23, 2015

Chip combining optics and electronics could mean faster, more energy-efficient computing

Posted by in categories: computing, electronics

For the first time, researchers have used existing manufacturing technology to make a complex processor that uses energy-efficient optical connections.

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Dec 20, 2015

Oxford team demonstrates ‘hybrid’ logic gate as work towards quantum computer continues

Posted by in categories: computing, particle physics, quantum physics

‘In a nice piece of “spin-off science” from this technological achievement, we were able to perform a “Bell test”, by first using the high-precision logic gate to generate an entangled state of the two different-species ions, then manipulating and measuring them independently. This is a test which probes the non-local nature of quantum mechanics; that is, the fact that an entangled state of two separated particles has properties that cannot be mimicked by a classical system. This was the first time such a test had been performed on two different species of atom separated by many times the atomic size.’

While Professor Lucas cautions that the so-called ‘locality loophole’ is still present in this experiment, there is no doubt the work is an important contribution to the growing body of research exploring the physics of entanglement. He says: ‘The significance of the work for trapped-ion quantum computing is that we show that quantum logic gates between different isotopic species are possible, can be driven by a relatively simple laser system, and can work with precision beyond the so-called “fault-tolerant threshold” precision of approximately 99% — the precision necessary to implement the techniques of quantum error correction, without which a quantum computer of useful size cannot be built.’

In the long term, it is likely that different atomic elements will be required, rather than different isotopes. In closely related work published in the same issue of Nature, by Ting Rei Tan et al, the NIST Ion Storage group has demonstrated a different type of quantum logic gate using ions of two different elements (beryllium and magnesium).

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Dec 17, 2015

Scientists have built a functional ‘hybrid’ logic gate for use in quantum computers

Posted by in categories: computing, particle physics, quantum physics

As conventional computers draw ever closer to their theoretical limit, the race is on to build a machine that can truly harness the unprecedented processing power of quantum computing. And now two research teams have independently demonstrated how entangling atoms from different elements can address the problem of quantum memory errors while functioning within a logic gate framework, and also pass the all-important test of true entanglement.

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Dec 17, 2015

Microsoft’s Latest HoloLens Is Here, and It’s Amazing

Posted by in categories: augmented reality, computing

Of all the recent advances in computing and consumer technology, This is BY FAR the one I’m most fascinated! Amazing tech.


The HoloLens headset from Microsoft is the world’s first untethered wearable that generates holograms before your eyes. It’s been nearly a year since we first strapped on a prototype, and as the tech goliath prepares to unleash a first batch of units to developers in the coming months, I was invited to check out just how far the technology has come.

Continue reading “Microsoft’s Latest HoloLens Is Here, and It’s Amazing” »

Dec 17, 2015

B-roll: HoloLens (Channel 9)

Posted by in categories: augmented reality, computing

Intended for broadcast journalists, this broadcast-quality footage highlights Microsoft HoloLens. Microsoft HoloLens is the world’s first fully untethered holographic computer, powered by Windows 10, enabling high-definition holograms to integrate with your world.

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Dec 16, 2015

Carlota Perez: In the midst of ICT revolution: next revolution 30 years out | vimeo.com

Posted by in categories: business, computing, economics, finance, governance, innovation, policy, robotics/AI, science, strategy

https://vimeo.com/53577644

Economist Carlota Perez talk about the future of ICT.

Dec 16, 2015

Team adds to quantum computing toolkit with mixed-atom logic operations

Posted by in categories: computing, particle physics, quantum physics

Physicists at the National Institute of Standards and Technology (NIST) have added to their collection of ingredients for future quantum computers by performing logic operations—basic computing steps—with two atoms of different elements. This hybrid design could be an advantage in large computers and networks based on quantum physics.

The NIST experiment, described in the Dec. 17 issue of Nature, manipulated one magnesium and one beryllium ion (charged atom) confined in a custom trap (see photo). The scientists used two sets of laser beams to entangle the two ions—establishing a special quantum link between their properties—and to perform two types of logic operations, a controlled NOT (CNOT) gate and a SWAP gate. The same issue of Nature describes similar work with two forms of performed at the University of Oxford.

“Hybrid quantum computers allow the unique advantages of different types of quantum systems to be exploited together in a single platform,” said lead author Ting Rei Tan. “Many research groups are pursuing this general approach. Each ion species is unique, and certain ones are better suited for certain tasks such as memory storage, while others are more suited to provide interconnects for data transfer between remote systems.”

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