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Archive for the ‘computing’ category: Page 763

Jul 2, 2016

Capitalizing on foundations of innovation

Posted by in categories: computing, economics, government, internet

Like the USPS; could we see a day when DARPA and IARPA positioned to be revenue generators like big tech? Granted these 2 programs are tax payer funded; however, so is USPS. One option is to for a contracted service fee; could DARPA &/ or IARPA charge fees to tech companies and others for using their technologies?


Two of the most important technological advances that helped fueled much of the country’s record economic growth in the post-WW II era were ubiquitous computing devices and modern communications technologies.

Indeed, most of the companies covered on TechCrunch certainly would not exist if not for the development and commercialization of microprocessors and the internet.

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Jul 2, 2016

Focus: Biological Cells Form Electric Circuits

Posted by in categories: biological, computing, singularity

As we continue to improve cell circuitry, we will see this is going to be more and more important to our tech future. I believe once we have the underlying infrastructure improved with QC that we will see more advancement made in Biocomputing as well as opportunities to adopt on multiple levels including Singularity.


Cells that are electrically active and that also produce light for easy voltage monitoring could lead to new studies of heart arrhythmias and possibly bio-computing.

The human heartbeat is produced by electrical pulses that propagate through cardiac tissue, causing rhythmic muscle contraction. Researchers have previously engineered cells to create an artificial tissue capable of producing coordinated electrical activity, and now a team has added the ability to monitor their electrical state by detecting fluorescent emission. They have also fashioned the cells into “living circuits” that might act as model systems for studying heart behavior.

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Jul 2, 2016

Quantum technologies to revolutionise 21st century — Nobel Laureates discuss at Lindau

Posted by in categories: computing, economics, quantum physics

Nice read.


Is quantum technology the future of the 21st century? On the occasion of the 66th Lindau Nobel Laureate Meeting, this is the key question to be explored today in a panel discussion with the Nobel Laureates Serge Haroche, Gerardus ’t Hooft, William Phillips and David Wineland. In the following interview, Council Member Professor Rainer Blatt, internationally renowned quantum physicist, recipient of numerous honours, and Scientific Co-Chairman of the 66th Lindau Meeting, talks about what we can expect from the “second quantum revolution”.

Blatt has no doubt: quantum technologies are driving forward a technological revolution, the future impact of which is still unclear. Nothing stands in the way of these technologies becoming the engine of innovations in science, economics and society in the 21st century. Early laboratory prototypes have shown just how vast the potential of quantum technologies is. Specific applications are expected in the fields of metrology, computing and simulations. However, substantial funding is required to advance from the development stage.

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Jul 2, 2016

Solar nano-grids light up homes and businesses in Kenya

Posted by in categories: business, computing, economics, habitats, nanotechnology

First installations go live as INTASAVE Energy pursues $30M impact investment.

Villagers in Lemolo B and Echareria in Nakuru County, Kenya, are waking up today to a new future as new solar nano-grids installed over the last two weeks allows them to switch on lights and operate new agri-processing machinery. The two communities are the first to receive a revolutionary new model for clean, affordable and reliable energy where a central solar hub provides both commercial energy for new village enterprises and household energy using cutting-edge up-cycled laptop batteries. The hub allows energy to be shared between households, businesses and the community bringing economic, social and environmental benefits.

The installation is the start of a major INTASAVE Energy solar nano-grid initiative (SONG) that ultimately aims to bring the benefits now beginning for villagers in Lemolo B and Echareria to over 450,000 people across the globe. INTASAVE Energy has launched a $30M impact investment programme to make this goal a reality.

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Jul 1, 2016

SanDisk’s new 256GB microSD makes your phone as spacious as a laptop

Posted by in categories: computing, mobile phones

SanDisk doubles the capacity of its microSD memory cards with 256GB Ultra and Extreme options.

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Jul 1, 2016

Research team reproduces major functional principles of the brain using technology

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

How does the human brain collect, process and store the flow of data which it constantly encounters? How does it manage cognitive tasks, which require complex interaction between various areas of the brain and overload high performance computers that work much more quickly? Why can the brain cope with all of this using much less energy? It is the aim of the research team from Kiel led by Professor Hermann Kohlstedt, Head of the Nanoelectronics Department at Kiel University (CAU) and spokesman of the national collaborative research project “Memristive devices for neural systems” (FOR 2093) funded by the German Research Foundation (DFG) to track this impressive efficiency of the human brain using technology and to implement its method of operation in artificial neural networks. The scientists from Kiel have now succeeded in electronically reproducing two fundamental principles of operation of the human brain, memory and synchronisation. They recently published their results in Applied Physics Letters.

The is a master of energy efficiency. It has approximately 100 billion nerve cells, also known as neurons, which manage with power of only about 20 Watt. Modern high performance computers would require many thousands of times more energy to perform similarly complex calculations as the brain manages. The neurons in the brain are linked to each other with synapses and form a highly complex network. The term “learning” in the neurological sense means that the synaptic connections in the brain are not determined statically. Instead they are continually readjusting on the basis of environmental influences, for example sensations. This makes it possible to store new memory content locally, known as the neurological plasticity of the brain.

In addition to the spatial ability of the neural connections to adjust, there is another important building block to process information in the brain: the synchronisation of neural groups. Electrical impulses, so-called action potentials, form the basic unit of information processing in the brain. These impulses permanently transmit information between the neurons and in doing so they cross and influence the synaptic connections in the brain. “In the case of conscious sensory perceptions the spatial irregular occurrence of neural impulses changes into ordered structures suddenly and for a limited time,” says Professor Thorsten Bartsch, a neurologist at Kiel University and member of the research group. The previously independent impulses of the neurons synchronise themselves in this case even over areas of the brain that are not close together. Evidence of this synchronised “firing” in humans can also be shown by measuring brain waves (electroencephalography, EEG).

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Jul 1, 2016

MIT graphene breakthrough could make chips one million times faster

Posted by in categories: computing, materials

Researchers use graphene to create a new way of converting electricity into light, delivering the possibility of dramatic speed improvements over today’s chips.

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Jun 30, 2016

Quantum technologies to revolutionize 21st century

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

Is quantum technology the future of the 21st century? On the occasion of the 66th Lindau Nobel Laureate Meeting, this is the key question to be explored today in a panel discussion with the Nobel Laureates Serge Haroche, Gerardus ‘t Hooft, William Phillips and David Wineland. In the following interview, Professor Rainer Blatt, internationally renowned quantum physicist, recipient of numerous honours, Council Member and Scientific Co-Chairman of the 66th Lindau Meeting, talks about what we can expect from the “second quantum revolution”.

Blatt has no doubt: are driving forward a technological revolution, the future impact of which is still unclear. Nothing stands in the way of these technologies becoming the engine of innovations in science, economics and society in the . Early laboratory prototypes have shown just how vast the potential of quantum technologies is. Specific applications are expected in the fields of metrology, computing and simulations. However, substantial funding is required to advance from the development stage.

Professor Blatt, the first quantum revolution laid the physical foundations for trailblazing developments such as computer chips, lasers, magnetic resonance imaging and modern communications technology. In the Quantum Manifest published in mid-May, researchers now talk about the advent of a second quantum revolution. What exactly does this mean?

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Jun 30, 2016

The Next Wearable Technology Could Be Your Skin

Posted by in categories: computing, mobile phones, wearables

Technology can be awkward. Our pockets are weighed down with ever-larger smartphones that are a pain to pull out when we’re in a rush. And attempts to make our devices more easily accessible with smartwatches have so far fallen flat. But what if a part of your body could become your computer, with a screen on your arm and maybe even a direct link to your brain?

Artificial electronic skin (e-skin) could one day make this a possibility. Researchers are developing flexible, bendable and even stretchable electronic circuits that can be applied directly to the skin. As well as turning your skin into a touchscreen, this could also help replace feeling if you’ve suffered burns or problems with your nervous system.

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Jun 30, 2016

AI beats top U.S. Air Force tactical air combat experts in combat simulation

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

Retired U.S. Air Force Colonel Gene Lee, in a flight simulator, takes part in simulated air combat versus artificial intelligence technology developed by a team from industry, the U.S. Air Force, and University of Cincinnati. (credit: Lisa Ventre, University of Cincinnati Distribution A: Approved for public release; distribution unlimited. 88ABW Cleared 05/02/2016; 88ABW-2016–2270)

The U.S. Air Force got a wakeup call recently when AI software called ALPHA — running on a tiny $35 Raspberry Pi computer — repeatedly defeated retired U.S. Air Force Colonel Gene Lee, a top aerial combat instructor and Air Battle Manager, and other expert air-combat tacticians at the U.S. Air Force Research Lab (AFRL) in Dayton, Ohio. The contest was conducted in a high-fidelity air combat simulator.

According to Lee, who has considerable fighter-aircraft expertise (and has been flying in simulators against AI opponents since the early 1980s), ALPHA is “the most aggressive, responsive, dynamic and credible AI I’ve seen to date.” In fact, he was shot out of the ai r every time during protracted engagements in the simulator, he said.

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