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Archive for the ‘computing’ category: Page 740

Aug 19, 2016

Focus: Giant Molecule Made from Two Atoms

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

Experiments confirm the existence of 1-micrometer-sized molecules made of two cesium atoms by showing that their binding energies agree with predictions.

Strongly bound diatomic molecules such as H2H2or O2O2 are less than a nanometer across. Surprisingly, scientists have been able to create two-atom molecules more than a thousand times larger by using exotic atoms that attract one another only very weakly. Now, a pair of physicists have calculated what makes these “macrodimers” stable, and they have verified their predictions by creating micrometer-sized molecules containing two cesium atoms. The macrodimers could have applications in quantum computing.

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Aug 19, 2016

The Military Is Genetically Modifying Bacteria to Make Even Tinier Computers

Posted by in categories: computing, genetics, military

Geobacter is so common that junior-high students use it in science fairs, but it could also wire the military’s future nanoelectronics.

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Aug 18, 2016

Time #20: is Fat Burning Due to 100 hz Vibration in Mitochondria?

Posted by in categories: biotech/medical, computing

The blog take away: How is the key frequency of beta oxidation made in a mitochondria?Most people believe fat burning via beta oxidation is a fuel mediated mechanism but Dr. Doug Wallace’s data strongly suggests it is linked to the vibration state of the inner mitochondrial membrane. If so, how is the sun’s photoelectric abilities critical to this mechanism in mitochondria? Watch the video in the hyperlink closely from 50:00 – 59:00 for the clue.

Hyperlink

Water surrounds each mitochondria in a cell with its MINOS layer. It is adjacent to the cytochrome 1 complex. Water has a high dielectric constant. It is 78 in bulk water, to be exact, Why is that critical? Well cytochrome one has a redox Fe-S couple that acts like a semiconductor for electrons. Electrons act differently in a semiconductor than they do when they are not captured by one. How much do you know about semiconductor integrated circuits? In a typical network in an integrated circuit, each network will include at least one driver, which must contain a source or drain diffusion and at least one receiver. This set up will consist of a gate electrode over a thin gate dielectric (look for a view of a MOS transistor on line if you’re unsure of this arrangement to get a visual.)

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Aug 18, 2016

Neuromorphic computing mimics important brain feature

Posted by in categories: computing, information science, robotics/AI

(Phys.org)—When you hear a sound, only some of the neurons in the auditory cortex of your brain are activated. This is because every auditory neuron is tuned to a certain range of sound, so that each neuron is more sensitive to particular types and levels of sound than others. In a new study, researchers have designed a neuromorphic (“brain-inspired”) computing system that mimics this neural selectivity by using artificial level-tuned neurons that preferentially respond to specific types of stimuli.

In the future, level-tuned neurons may help enable systems to perform tasks that traditional computers cannot, such as learning from their environment, pattern recognition, and knowledge extraction from big data sources.

The researchers, Angeliki Pantazi et al., at IBM Research-Zurich and École Polytechnique Fédérale de Lausanne, both in Switzerland, have published a paper on the new neuromorphic architecture in a recent issue of Nanotechnology.

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Aug 17, 2016

The silicon dreamer who’s difficult to doubt

Posted by in categories: computing, quantum physics

She is showing the world how QC really works. Hoping; Science and Tech finally gives her the recognition she deserves; and history reflects just how key to QC she is. She is to QC as Tesla was to energy (breaking the boundaries).


They said a silicon based quantum computer couldn’t be built. Professor Michelle Simmons and her team are proving otherwise.

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Aug 17, 2016

“Super-Babies to a Quantum Portal to the Cosmos” –China’s 2016 Headlines Foreshadow Control of the Planet & Beyond

Posted by in categories: computing, quantum physics, space

As I highlighted earlier, we now understand more about the telescope announcement 3 months ago and its tie with the Quantum Satellite. Also, we are aware of China’s efforts to be the world leader of tech as they have proven in Pharmaceuticals (namely the generic brand market). Space is another area they have passion due to the opportunities in mining rare and raw materials, etc. Things are getting extremely interesting for sure.

BTW — the balance of tech power is changing; and we could see soon a day that folks look towards China stating the future of tech v. SV.

Continue reading “‘Super-Babies to a Quantum Portal to the Cosmos’ --China’s 2016 Headlines Foreshadow Control of the Planet & Beyond” »

Aug 17, 2016

How Today’s Jungle of Artificial Intelligence Will Spawn Sentience

Posted by in categories: computing, information science, robotics/AI, transportation

From time to time, the Singularity Hub editorial team unearths a gem from the archives and wants to share it all over again. It’s usually a piece that was popular back then and we think is still relevant now. This is one of those articles. It was originally published August 10, 2010. We hope you enjoy it!

You don’t have a flying car, jetpack, or ray gun, but this is still the future. How do I know? Because we’re all surrounded by artificial intelligence. I love when friends ask me when we’ll develop smart computers…because they’re usually holding one in their hands. Your phone calls are routed with artificial intelligence.

Every time you use a search engine you’re taking advantage of data collected by ‘smart’ algorithms. When you call the bank and talk to an automated voice you are probably talking to an AI…just a very annoying one. Our world is full of these limited AI programs which we classify as “weak” or “narrow” or “applied.”

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Aug 16, 2016

Parking-ticket bot will now help homeless people get benefits

Posted by in categories: computing, robotics/AI

Stanford computer science student Joshua Browder, whose DoNotPay bot helps you fight parking tickets in London and New York (it’s estimated to have overturned $4M in tickets to date) has a new bot in the offing: a chatbot that helps newly homeless people in the UK create and optimise their applications for benefits.

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In austerity-wracked Britain, where the Tories have made things easier than they’ve ever been for landlords and harder than they’ve ever been for workers, repossessions and evictions are at an all-time high. So Browder — who was born in the UK — decided to add a homelessness navigation aid to his bot, which had already been expanded to handle fight-delay reimbursement applications. He’s also researching adding New York City homelessness form-completing to the bot’s repertoire.

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Aug 16, 2016

IBM’s foray into Chinese healthcare sector

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

Watson joins China’s research team.


China’s Hangzhou Cognitive Care has teamed up with IBM to bring Watson super computer to 21 hospitals in the country.

Singapore: In a bid to intensify its fight against cancer, China’s Hangzhou Cognitive Care has teamed up with IBM to bring Watson super computer to 21 hospitals in the country. The super computer is all set to play a crucial role in a new multi-year program being unveiled in China. This is IBM’s first partnership in China’s healthcare sector.

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Aug 16, 2016

New Tiny Implantable Devices Are Powered by Ultrasound

Posted by in categories: computing, neuroscience

Researchers have developed a wireless device small enough to be implanted in individual nerves, and capable of detecting the electrical activity of nerves and muscles deep within the body, according to DARPA, which funded the work.

The millimeter-scale sensor and external ultrasonic transceiver that powers the implant and communicates with it is called a “neural dust” system. The team, led by the University of California, Berkeley’s Department of Electrical Engineering and Computer Sciences, completed the first in vivo tests of this technology in rodents and reported them in the journal Neuron.

The sensor can be implanted into either a nerve or muscle, and consists of a piezoelectric crystal, a single custom transistor, and a pair of recording electrodes. The system reported both electroneurogram (ENG) recordings from the sciatic nerve and electromyographic (EMG) recordings from the gastrocnemius muscle, according to the journal article.

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