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Sep 3, 2016

US soldiers could soon travel like stormtroopers on new ‘hoverbike’

Posted by in category: military

Engineers showed laboratory research into the ‘hoverbike,’ a rectangular shaped quadcopter that has since been named the Joint Tactical Aerial Resupply Vehicle, or JTARV.

‘Anywhere on the battlefield, Soldiers can potentially get resupplied in less than 30 minutes,’ said Army researcher Tim Vong.

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Sep 3, 2016

Neuromorphic Chips: a Path Towards Human-level AI

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

[Figure about depicts a layout, showing two ‘somas’, or circuits that simulate the basic functions of a neuron. The green circles play the role of synapses. From presentation of K.K. Likharev, used with permission.]

One possible layout is shown above. Electronic devices called ‘somas’ play the role of the neuron’s cell body, which is to add up the inputs and fire an output. In neuromorphic hardware, somas may mimic neurons with several different levels of sophistication, depending on what is required for the task at hand. For instance, somas may generate spikes (sequences of pulses) just like neurons in the brain. There is growing evidence that sequences of spikes in the brain carry more information than just the average firing rate alone, which previously had been considered the most important quantity. Spikes are carried through the two types of neural wires, axons and dendrites, which are represented by the red and blue lines in figure 2. The green circles are connections between these wires that play the role of synapses. Each of these ‘latching switches’ must be able to hold a ‘weight’, which is encoded in either a variable capacitance or variable resistance. In principle, memristors would be an ideal component here, if one could be developed that could be mass produced. Crucially, all of the crossnet architecture can be implemented in traditional silicon-based (“CMOS”-like) technology. Each crossnet (as shown in the figure) is designed so they can be stacked, with additional wires connecting somas on different layers. In this way, neuromorphic crossnet technology can achieve component densities that rival the human brain.

Likarev’s design is still theoretical, but there are already several neuromorphic chips in production, such as IBM’s TrueNorth chip, which features spiking neurons, and Qualcomm’s “Zeroeth” project. NVIDIA is currently making major investments in deep learning hardware, and the next generation of NVIDIA devices dedicated for deep learning will likely look closer to neuromorphic chips than traditional GPUs. Another important player is the startup Nervana systems, which was recently acquired by Intel for $400 million. Many governments are are investing large amounts of money into academic research on neuromorphic chips as well. Prominent examples include the EU’s BrainScaleS project, the UK’s SpiNNaker project, and DARPA’s SyNAPSE program.

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Sep 3, 2016

Portable Underwater Turbines Can Power Your Next Camping Trip

Posted by in category: energy

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Sep 3, 2016

New solar cell is more efficient, costs less than its counterparts

Posted by in categories: engineering, solar power, sustainability

35 percent efficiency.


The cost of solar power is beginning to reach price parity with cheaper fossil fuel-based electricity in many parts of the world, yet the clean energy source still accounts for slightly more than 1% of the world’s electricity mix.

To boost global solar power generation, researchers must overcome some of the technological limitations that are preventing solar power from scaling up even further, which includes the inability to develop very high-efficiency solar cells – solar cells capable of converting a significant amount of sunlight into usable electrical energy – at very low costs.

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Sep 3, 2016

This Speaker Will Upgrade Your Pool Party

Posted by in category: futurism

Click on photo to start video.

This waterproof speaker will upgrade your pool party

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Sep 3, 2016

Turing Learning breakthrough: Computers can now learn from pure observation

Posted by in categories: computing, innovation

Soon, the machines really might be watching your every move — and, for the first time, independently making sense of what they see.

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Sep 3, 2016

The World’s First 1000-Core Processor Was Just Created

Posted by in categories: computing, encryption

UC Davis has developed the KiloCore, a CPU that has 1000 cores suited for parallel tasks like encryption, crunching scientific data, and encoding videos.

Processor technology has certainly come far, with a host of different materials and techniques being implemented to increase speed and power. And now, we have a new kind of development. A team of scientists at UC Davis made the world’s first 1000-core processor.

The team has unveiled the KiloCore, a CPU that has 1000 cores and all the speed that come with that kind of power. The chip has a maximum computation rate of 1.78 trillion instructions per second and contains 621 million transistors.

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Sep 3, 2016

Parallel Universes: The Science Explained

Posted by in categories: cosmology, science

Is there another one of you out there in a separate, parallel universe? This video explains the science (and misconceptions) of parallel universes.

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Sep 3, 2016

This Solar-Powered Pipe Desalinates The Water That Flows Through It

Posted by in categories: solar power, sustainability

It’s called “The Pipe.” And if it works, it could change the calculus of our water problems.

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Sep 3, 2016

New Molecular Mechanical Computer Design is 100 Billion Times More Energy Efficient

Posted by in categories: energy, supercomputing

This new computer system is 100 billion times more energy efficient than the most energy efficient conventional green supercomputer. Using only links and rotary joints, this “molecular mechanical computer” removes the need for parts that create friction and generate heat.

The trend for computing, and for technology in general, really consists of just one word: Smaller. Previously, technology that could fit on your desk was the rage. Then it became tech that fit in your bag. Then the palm of your hand. Now, scientists are playing with even smaller technology, down to the molecular size.

Scientists have developed a computer system that can, theoretically, be 100 billion times more energy efficient than the most energy efficient conventional green supercomputer. Using only links and rotary joints, this “molecular mechanical computer” removes the need for gears, clutches, switches, springs, and other parts that create friction and generate heat.

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