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Archive for the ‘computing’ category: Page 801

Dec 16, 2015

Will this DNA molecular switch replace conventional transistors?

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

A model of one form of double-stranded DNA attached to two electrodes (credit: UC Davis)

What do you call a DNA molecule that changes between high and low electrical conductance (amount of current flow)?

Answer: a molecular switch (transistor) for nanoscale computing. That’s what a team of researchers from the University of California, Davis and the University of Washington have documented in a paper published in Nature Communications Dec. 9.

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Dec 16, 2015

Facebook Open Sources All its Artificial Intelligence Hardware

Posted by in categories: computing, robotics/AI

Facebook announced that its latest artificial intelligence (AI) server designs will be made open source, continuing on the company’s course of letting others share new hardware designs, which it began back in 2011. Codenamed Big Sur, the server is designed to train the newest class of deep learning AI that mimic the human brain’s neural pathways.

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Dec 16, 2015

VisionTek’s new Pocket SSD delivers PC-sized storage in a flash drive-sized package

Posted by in categories: computing, electronics

VisionTek’s new USB 3.0 Pocket SSD slips into your pocket, but it’s faster than the hard drive in your PC—and just as spacious.

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Dec 15, 2015

Singaporean Professor Develops Energy-saving Algorithm

Posted by in categories: computing, electronics, engineering, information science, physics

A researcher at Singapore’s Nanyang Technological University (NTU) has developed a new technology that provides real-time detection, analysis, and optimization data that could potentially save a company 10 percent on its energy bill and lessen its carbon footprint. The technology is an algorithm that primarily relies on data from ubiquitous devices to better analyze energy use. The software uses data from computers, servers, air conditioners, and industrial machinery to monitor temperature, data traffic and the computer processing workload. Data from these already-present appliances are then combined with the information from externally placed sensors that primarily monitor ambient temperature to analyze energy consumption and then provide a more efficient way to save energy and cost.

The energy-saving computer algorithm was developed by NTU’s Wen Yonggang, an assistant professor at the School of Computer Engineering’s Division of Networks & Distributed Systems. Wen specializes in machine-to-machine communication and computer networking, including looking at social media networks, cloud-computing platforms, and big data systems.

Most data centers consume huge amount of electrical power, leading to high levels of energy waste, according to Wen’s website. Part of his research involves finding ways to reduce energy waste and stabilize power systems by scaling energy levels temporally and spatially.

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Dec 15, 2015

What Was Your 1st Computer? — Computerphile

Posted by in categories: computing, mobile phones, neuroscience, robotics/AI, singularity, space

Before each Computerphile interview we asked guests and regular contributors about their first computer.

Professor Uwe Aickelin: Missing Data: https://youtu.be/oCQbC818KKU
Professor Ross Anderson: Chip & PIN Fraud: https://youtu.be/Ks0SOn8hjG8

Continue reading “What Was Your 1st Computer? — Computerphile” »

Dec 14, 2015

Scott Aaronson on Google’s new quantum-computing paper

Posted by in categories: computing, information science, quantum physics

In 2010, a Canadian company called D-Wave announced that it had begun production of what it called the world’s first commercial quantum computer, which was based on theoretical work done at MIT. Quantum computers promise to solve some problems significantly faster than classical computers—and in at least one case, exponentially faster. In 2013, a consortium including Google and NASA bought one of D-Wave’s machines.

Over the years, critics have argued that it’s unclear whether the D-Wave machine is actually harnessing quantum phenomena to perform its calculations, and if it is, whether it offers any advantages over classical computers. But this week, a group of Google researchers released a paper claiming that in their experiments, a quantum algorithm running on their D-Wave machine was 100 million times faster than a comparable classical algorithm.

Scott Aaronson, an associate professor of electrical engineering and computer science at MIT, has been following the D-Wave story for years. MIT News asked him to help make sense of the Google researchers’ new paper.

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Dec 13, 2015

Computing with time travel?

Posted by in categories: computing, quantum physics, time travel

Why send a message back in time, but lock it so that no one can ever read the contents? Because it may be the key to solving currently intractable problems. That’s the claim of an international collaboration who have just published a paper in npj Quantum Information.

It turns out that an unopened message can be exceedingly useful. This is true if the experimenter entangles the message with some other system in the laboratory before sending it. Entanglement, a strange effect only possible in the realm of quantum physics, creates correlations between the time-travelling message and the laboratory system. These correlations can fuel a quantum computation.

Around ten years ago researcher Dave Bacon, now at Google, showed that a time-travelling quantum computer could quickly solve a group of problems, known as NP-complete, which mathematicians have lumped together as being hard.

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Dec 13, 2015

6GB RAM phones coming thanks to Samsung

Posted by in categories: computing, mobile phones

We have very good news for all fans of High RAM Powered Phones. Samsung started mass production of their new LPDDR4 DRAM, allowing for next Generation 6GB RAM phones in India. Samsung essentially produced the industry’s first 12Gigabit LPDDR4 RAM with Samsung’s 20nm manufacturing process.

samsung-128GB-ram-module

The real advantage of those chips is that they have a 50% higher density PCB layout with increased capacity as well as reduced power usage. Both of these are very important factors in small devices like a phone/tablet where every mm2 and mW matters. Please note that this is Gigabits, not Gigabytes. 12 Gigabits is around 1.5GB of RAM. Most high end smartphones have four memory dies, that means 1.5GB x 4 = 6GB RAM phones for us.

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Dec 12, 2015

AMD’s mighty Zen CPUs coming to level the playing field with Intel in 2016

Posted by in category: computing

AMD has confirmed we will see high-end desktop FX processors of the Zen variety later on next year.

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Dec 11, 2015

Computing with time travel

Posted by in categories: computing, quantum physics, time travel

Why send a message back in time, but lock it so that no one can ever read the contents? Because it may be the key to solving currently intractable problems. That’s the claim of an international collaboration who have just published a paper in npj Quantum Information.

It turns out that an unopened message can be exceedingly useful. This is true if the experimenter entangles the message with some other system in the laboratory before sending it. Entanglement, a strange effect only possible in the realm of , creates correlations between the time-travelling message and the laboratory system. These correlations can fuel a quantum computation.

Around ten years ago researcher Dave Bacon, now at Google, showed that a time-travelling quantum computer could quickly solve a group of problems, known as NP-complete, which mathematicians have lumped together as being hard.

Read more