But it could also reveal the next Apple TV and new ipads, according to leaks. The back of an Apple iphone 6 Plus gold, is shown here at a Verizon store on September 18
but now a huge proportion of web browsing is done from phones and other mobile devices n
attains international master level without being told the rules In the last two decades computers have become exponentially more powerful,
Thanks to recent advances in computer speeds, these neural networks have grown in size and complexity, greatly increasing their power and proficiency.
but to demonstrate the potential power of computer learning. Neural networks like the one found in Giraffe are already outperforming humans in many areas of pattern recognition, with Google Deepmind matching game testers in classic Atari 2600 games.
#Innovative Smart T-shirt for the posture correction How often, sitting at the computer or watching television, you will notice that you not are sitting correctly?
Product Truposture equipped with Bluetooth for wireless data transfer to a mobile device that runs on the ios
Turing then raised the price to $750 a tablet from $13. 50, bringing the annual cost of treatment for some patients to hundreds of thousands of dollars.
Using an"Avatar"-like bio-robotic motor system that integrates a real muscle and tendon along with a computer controlled nerve stimulator acting as the avatar's spinal cord
The transformation would present serious challenges for those who are unfamiliar with computers and mobile phones mainly older people living in rural areas.
Smith and his colleagues ran a massive computer analysis to examine how brain connectivity patterns correlated with individual behavioral traits, such as age, socioeconomic status, history of drug abuse, personality traits and various
The Reading-led team used supercomputer simulations to look at many different candidates as potential photocatalysts for fuel production reactions.
In both, researchers used machine-learning and parallel processing techniques to"teach"computers to characterize microbiotic colonies
The human brain is the most powerful computer known, an extraordinary assembly of living electrical circuits. To gain greater understanding of how the human brain works
#3d Computer Chips Could Be 1, 000 Times Faster Than Existing Ones A new method of designing and building computer chips could lead to blisteringly quick processing at least 1,
000 times faster than the best existing chips are capable of, researchers say. The new method,
Reducing the distance between the two elements can dramatically reduce the time computers take to do their work
the three-pronged electrical switches that do the logical operations for computers. According to Moore's law, a rough rule first articulated by semiconductor researcher Gordon E. Moore in 1965, the number of transistors on a given silicon chip would roughly double every two years.
Beyond that, shrinking transistors to the bitter end may not do much to make computers faster. Long commute time The main roadblock to faster computers is not flagging processor speed,
but a memory problem, Shulaker said. Big data analysis requires the computer to draw some tiny piece of data from some previously unknown spot in truly staggering troves of data.
Then the computer must shuttle that information via an electrical signal back and forth across the (relatively) vast inches of wire between the computer's memory (typically a hard drive)
and the processors, facing the speed bump of electrical resistance along the entire path.""If you try to run that in your computer,
you would spend over 96 percent of the time just being idle, doing absolutely nothing,"Shulaker said."
the computer is still hogging power, even though it's not calculating a thing. Solving the memory-CPU"commute time,
That computer, however, was slow and bulky, with relatively few transistors. Now, they have created a system for stacking memory and transistor layers,
It could help protect sensitive electronic components on microchips such as mobile devices, high-power engines and magnetic resonance imaging (MRI SCANNERS from the heat,
Aprecia Pharmaceuticals has developed a way of producing individually dosed tablets that dissolve on contact with liquid.
The fascinating part is that each tablet is produced using a layering technique similar to now common 3d printing.
and the process is repeated until the correct amount of drug is embedded within the tablet. Each tablet is extremely porous
and breaks down once in contact with a liquid, so even kids and those having trouble swallowing can put one in the mouth,
and using a computer to identify when to deliver light to maintain a desired level of activity.
or tablets and co-opts the camera to detect birefringent hemozoin in histological samples, which is indicative of malarial infection.
The MOPID device marks another in a series of recent mobile device imaging innovations that are empowering clinicians
or read about technology pioneer Jonathan Rothberg plan to bring ultrasound to mobile devices) d
#3d Tissue Printing Using a DNA Guidance System Researchers at UCSF have developed a method called DNA Programmed Assembly of Cells (DPAC) that brings us one step closer to being able to print fully functional living organs.
So COTSBOT's advanced computer vision and learning algorithm allow it to learn to target crown-of-thorns starfish more accurately.
These electrical signals the same as those a doctor looks at when running an electroencephalogram (EEG) test were sent to a computer,
systems (known as brain-computer interfaces) to move limb prostheses, such as a robotic arm. And last year, a paralyzed person used his brain to control an exoskeleton that allowed him to make the first kick of the 2014 World cup.
said that the work"is another step in demonstrating the feasibility of using brain-computer interfaces to control various devices that already exist."
or the development of a fully implantable brain-computer interface system may allow us to overcome this problem,
and forward this detection to a mobile device. This can mean targeted campaigns and even let makers know how long a person is staring at a specific thing.
the material most commonly found in today's computer chips. But to exploit graphene remarkable electronic properties in semiconductor applications where current must be switched on and off,
Image courtesy of The Molecular Foundry) Used in everything from cell phones to supercomputers, modern microelectronic circuits contain billions of nanometer scale transistors,
and metamaterials offers tantalizing future prospects for technologies such as high resolution optical microscopes and superfast optical computers.
Because we use essentially the same device technology as existing computer chips, we believe it will be much easier to manufacture a full-scale processor chip than for any of the leading designs,
which harness the science of the very small the strange behaviour of subatomic particles to solve computing challenges that are beyond the reach of even today fastest supercomputers.
In classical computers data is rendered as binary bits, which are always in one of two states:
or tablet already has around one billion transistors on it, with each transistor less than 100 billionths of a metre in size, said Dr Menno Veldhorst,
as they do in computer chips. As a semimetal, graphene naturally has no bandgaps, making it a challenge for widespread industry adoption.
which could bring superior computers, cryptography and communications technologies. Conventional computers use electrons to process information.
However, the performance might be ramped up considerably by employing the unique quantum properties of electrons
Researchers in UCSB's Department of Electrical and Computer engineering are seeking to make computer brains smarter by making them more like our own Abstract:
what computers would require far more time and energy to perform. What are these functions? Well, you're performing some of them right now.
"Classical computers will always find an ineluctable limit to efficient brain-like computation in their very architecture,
The energy-efficient compact circuitry the researchers are striving to create would also go a long way toward creating the kind of high-performance computers
and giving a serious boost to future computers,"said Prezioso. In the meantime, the researchers will continue to improve the performance of the memristors,
which is the basis for controlling electrons in computers, phones, medical equipment and other electronics. Yoke Khin Yap, a professor of physics at Michigan Technological University, has worked with a research team that created these digital switches by combining graphene and boron nitride nanotubes.
Solving the Semiconductor Dilemma To get to faster and smaller computers one day, Yap says this study is a continuation of past research into making transistors without semiconductors.
And one day, all their tweaks could make for faster computers--and digital pinball games--for the rest of us s
Rice university scientists make tantalum oxide practical for high-density devices Scientists at Rice university have created a solid-state memory technology that allows for high-density storage with a minimum incidence of computer errors.
"But this is a new way to make ultradense, nonvolatile computer memory, "Tour said. Nonvolatile memories hold their data even
unlike volatile random-access computer memories that lose their contents when the machine is shut down.
Computer-assisted technology developed especially for this purpose combines the advantages of both methods and suppresses unwanted noise.
the material most commonly found in today's computer chips. But to exploit graphene's remarkable electronic properties in semiconductor applications where current must be switched on and off
#New optical chip lights up the race for quantum computer The microprocessor inside a computer is a single multipurpose chip that has revolutionised people's life,
and performing otherwise intractable mathematics that aren't possible for super computers. The fully reprogrammable chip brings together a multitude of existing quantum experiments
much like they operate any other piece of software on a computer. They no longer need to convince a physicist to devote many months of their life to painstakingly build
which is used to build magnetic hard discs in computers. They created holes, or antidots, in thin films of manganite.
someday not too far off, let you roll up your computer like a piece of paper. But the basic science of how to get electrons to move quickly
a computer then reconstructs the path those photons must have taken, which generates an image of the target material--all without the lens that's required in conventional microscopy."
"The computer does the imaging part--forget about the lens, "explained Michael Zürch, Friedrich Schiller University Jena, Germany and lead researcher."
"The computer emulates the lens.""Without a lens, the quality of the images primarily depends on the radiation source.
#Pioneering research develops new way to capture light--for the computers of tomorrow Pioneering research by an international team of scientists,
data on a computer are processed still and stored electronically. The team of scientists from Germany and England have made a key breakthrough by capturing light on an integrated chip,
Our technology might also eventually be used to reproduce in computers the neural-type processing that is carried out by the human brain."
the researchers used a computer to simulate the effect of heat on the individual lithium atoms that comprise a dendrite,
which will help to create future supercomputers Superconductivity, which is almost incompatible with magneticfield, under certain conditions is able to promote magnetization.
They suggest that techniques based on this effect are able to move us closer to future supercomputers:
that this technology will allow to create much more economical and stable computing machines and supercomputers,
According to Natalya Pugach, superconductive spintronics technologies may help to build supercomputers and powerful servers, whose energy consumption and heat emission create much more problems than in case of ordinary desktop computers."
"Development of computer technologies was based on semiconductors. They are good for personal computers, but when you use these semiconductors to build supercomputers,
they produce heat and noise, demand powerful cooling systems. Spintronics allows to solve all these problems,
"--Natalya Pugach concludes s
#Discovery about new battery overturns decades of false assumptions Abstract: New findings at Oregon State university have overturned a scientific dogma that stood for decades,
ranging from cell phones to laptop computers and electric cars. But there may soon be a new type of battery based on materials that are far more abundant and less costly.
"Electrical energy storage in batteries is essential not only for consumer products such as cell phones and computers,
Modern computers use this principle in practically Every bit (unit of measurement for the digital information content) and the almost unbelievable increase in performance over the last decade was based on a very simple rule:
because there is not just one storage device in our computers, but several optimised ones, depending on the task."
For the last 20 years, scientists have been attempting to create quantum systems that will outperform traditional semiconductor-based computers, the development potential
The main problem preventing the development of these computers is the high sensitivity of the nanoworld to external influences that destroy quantum states.
or blood serum along with an array of electronics to transmit the results in real time to a tablet via Bluetooth,
including computer chips and other optoelectronic components.""Our results demonstrate relatively fast modulation from fundamentally slow phosphorescent light emitters,
One example could be optical communications networks on computer chips. Prototype on-chip networks have used semiconductor lasers as light emitters.
or blood serum along with an array of electronics to transmit the results in real time to a tablet via Bluetooth,
which holds the promise of solving problems a lot more efficiently than a classical computer. Physicists are now able to realize the basic building blocks,
It is designed to solve real-world optimization problems conventional computers are not able to tackle. All current approaches for adiabatic quantum computation face the same challenge:
"The step from mechanical calculators to fully programmable computers started the information technology age 80 years ago.
and a simple design, Accion can batch-manufacture modules much like computer chips in quantities of around 200 at once.
networks can effectively double the frequency spectrum resources available for devices like smartphones and tablets."
and bring this functionality to handheld devices such as cellular handsets, mobile devices such as tablets for Wifi,
and think more like a brain than a standard computer. Such systems are already being developed,
energy efficiency and size of future data centers, supercomputers and cloud systems. Photonic devices, which use photons instead of electrons to transport
offer many advantages compared to traditional electronic links found in today computers. Optical links can transmit more information over larger distances
By strapping tiny computers and wireless radios onto the backs of giant flower beetles and recording neuromuscular data as the bugs flew untethered,
#Putting batteries on stage spotlights performance at the nanoscale Used in everything from electric vehicles to laptop computers,
Currently, colors on computer and iphone screens come from dye materials pre-placed on the pixels.
In principle, they are miniaturized extremely electron storage units. qdots can be produced using the same techniques as normal computer chips.
it is only necessary to miniaturize the structures on the chips until they hold just one single electron (in a conventional PC it is 10 to 100 electrons.
In the long term, researchers around the world are hoping for true marvels from this new type of computer:
such as the factoring of large numbers, should be child's play for such a computer. In contrast, conventional computers find this a really tough nut to crack.
However, a quantum computer displays its talents only for such special tasks: For normal types of basic computations, it is pitifully slow w
Unlike conventional computers that store data on transistors and hard drives, quantum computers encode data in the quantum states of microscopic objects called qubits.
Moreover, this specific type of quantum bit can be manufactured using a similar technology to that employed for the production of everyday computers,
#Travel Inside 3d Cells In full Color on Your Laptop Nanolive SA announces the release of an off-line version of STEVE. Starting from today, scientists,
Medical Doctors and students all around the world will be enabled to travel inside 3d cells in full color by simply downloading STEVE on their laptop declares Dr. Yann Cotte, CEO and cofounder of Nanolive SA.
#Flexible sensors turn skin into a touch-sensitive interaction space for mobile devices (w/video) If a mobile phone rings during a meeting,
Computer scientists at Saarland University are studying the potential use of the human body as a touch sensitive surface for controlling mobile devices.
users can use their own body to control mobile devices. Because of the flexible material used, the sensors can be manufactured in a variety of shapes, sizes and personalized designs.
The research team will be presenting the Skinproject from March 16th to March 20th at the Cebit computer expo in Hanover (Stand E13, Hall 9). If a mobile phone rings during a meeting,
Computer scientists at Saarland University are studying the potential use of the human body as a touch sensitive surface for controlling mobile devices.
users can use their own body to control mobile devices. Because of the flexible material used, the sensors can be manufactured in a variety of shapes, sizes and personalized designs.
The research team will be presenting the Skinproject from March 16th to March 20th at the Cebit computer expo in Hanover (Stand E13,
and executes commands and thus controls mobile devices. Depending on the type of skin sticker used, applying pressure to the sticker could, for example,
Users can also design their iskin patches on a computer beforehand to suit their individual tastes. simple graphics program is need all you,
According to Steimle, inbuilt microchips may in future allow the skin-worn sensor patches to communicate wirelessly with other mobile devices.
Korea, and beforehand at the computer expo Cebit, which takes place from the 16th until the 20th of March in Hannover (hall 9, booth E13) 0
what computers would require far more time and energy to perform. What are these functions? Well, youe performing some of them right now.
the resulting device would have to be loaded enormous with multitudes of transistors that would require far more energy. lassical computers will always find an ineluctable limit to efficient brain-like computation in their very architecture,
The energy-efficient compact circuitry the researchers are striving to create would also go a long way toward creating the kind of high-performance computers
and giving a serious boost to future computers, said Prezioso. In the meantime, the researchers will continue to improve the performance of the memristors,
#Controlling swarms of robots with light and a single finger (w/video)( Nanowerk News) Using a smart tablet and a red beam of light,
A person taps the tablet to control where the beam of light appears on a floor. The swarm robots then roll toward the illumination,
When the person swipes the tablet to drag the light across the floor the robots follow.
If the operator puts two fingers in different locations on the tablet, the machines will split into teams
Using a smart tablet and a red beam of light, Georgia Institute of technology researchers have created a system that allows people to control a fleet of robots with the swipe of a finger.
A person taps the tablet to control where the beam of light appears on a floor. The swarm robots then roll toward the illumination,
When the person swipes the tablet to drag the light across the floor the robots follow.
If the operator puts two fingers in different locations on the tablet, the machines will split into teams
The tablet-based control system has one final benefit: it was designed with everyone in mind. Anyone can control the robots,
which is the basis for controlling electrons in computers, phones, medical equipment and other electronics. Yoke Khin Yap, a professor of physics at Michigan Technological University, has worked with a research team that created these digital switches by combining graphene and boron nitride nanotubes.
Solving the Semiconductor Dilemma To get to faster and smaller computers one day, Yap says this study is a continuation of past research into making transistors without semiconductors.
Optical technologies offer an enormous potential especially in transmitting data between computer chips, explains Manfred Kohl of the KIT.
At the present time, some 10 percent of the electricity in Germany is consumed by information and communication technologies, such as computers and smart phones of users,
but also by the servers in large computer centers. As data traffic grows exponentially, new approaches are necessary to increase throughput and, at the same time, curb power consumption.
color lightave moved from the research lab into commercial products like high-end TVS, e readers, laptops,
and photonic crystal technology, could lead to brighter and more efficient mobile phone, tablet, and computer displays, as well as enhanced LED lighting.
and more efficient displays. ince screens consume large amounts of energy in devices like laptops, phones,
and tablets, our approach could have a huge impact on energy consumption and battery life, she noted. f you start with polarized light,
See explained. f you put the photonic crystal-enhanced quantum dot into a device like a phone or computer,
The scientists experimented with silicon structures used in computer chips that power computers, tablets and mobile phones,
#Scientists make tantalum oxide practical for high-density devices Scientists at Rice university have created a solid-state memory technology that allows for high-density storage with a minimum incidence of computer errors.
"But this is a new way to make ultradense, nonvolatile computer memory, "Tour said. Nonvolatile memories hold their data even
unlike volatile random-access computer memories that lose their contents when the machine is shut down.
With computer software, the researchers translated the robots center of pressure to the platforms motors,
#New optical chip lights up the race for quantum computer The microprocessor inside a computer is a single multipurpose chip that has revolutionised people's life,
and performing otherwise intractable mathematics that aren't possible for super computers. The fully reprogrammable chip brings together a multitude of existing quantum experiments
much like they operate any other piece of software on a computer. They no longer need to convince a physicist to devote many months of their life to painstakingly build
#New research could help build computers from DNA Scientists have found a way to'switch'the structure of DNA using copper salts
and in DNA-based computing-where computers are built from DNA rather than silicon. It could also be used for detecting the presence of copper cations,
Logic gates are an elementary building block of digital circuits-used in computers and other electronic equipment. They are made traditionally using diodes or transistors
and computer engineers at North carolina State university have developed a new technique for creating less-expensive, low-power embedded systems-the computing devices found in everything from thermostats to automobiles."
and cameras that can be mass-produced using the same photolithography techniques used to manufacture computer microchips."
and Xin decided to use existing data to train computer algorithms to make predictions of new materials,
and metamaterials offers tantalizing future prospects for technologies such as high resolution optical microscopes and superfast optical computers.
During the last decades these computers have become more and more powerful by integrating ever smaller components on silicon chips.
This is very difficult for a regular computer, while humans and possibly also our circuits can do this much better."
and re-scan it repeating the process until the desired spatial resolution is achieved before combining the data from each scan using a computer algorithm.
This is an important step on the way towards optical computers. Phase change materials that change their optical properties depending on the arrangement of the atoms allow for the storage of several bits in a single cell.
With optical elements, computers can work more rapidly and more efficiently. Optical fibers have long since been used for the transmission of data with light.
But on a computer, data are processed still and stored electronically. Electronic exchange of data between processors and the memory limits the speed of modern computers.
To overcome this so-called Von neumann bottleneck, it is not sufficient to optically connect memory and processor,
Permanent all-optical on-chip memories might considerably increase future performance of computers and reduce their energy consumption.
a computer then reconstructs the path those photons must have taken, which generates an image of the target material--all without the lens that's required in conventional microscopy."
"The computer does the imaging part--forget about the lens, "explained Michael Zürch, Friedrich Schiller University Jena, Germany and lead researcher."
"The computer emulates the lens.""Without a lens, the quality of the images primarily depends on the radiation source.
#Pioneering research develops new way to capture light-for the computers of tomorrow The key breakthrough will allow large quantities of data to be stored directly on an integrated optical chip,
data on a computer are processed still and stored electronically. The team of scientists from Germany and England have made a key breakthrough by capturing light on an integrated chip,
Our technology might also eventually be used to reproduce in computers the neural-type processing that is carried out by the human brain.
they can be arranged within the gel in practically any design that can be created on a computer.
improving the image quality of TV-SETS, tablets, and mobile phones. Exciting quantum dot applications are also emerging in the fields of green energy, optical sensing,
Because we use essentially the same device technology as existing computer chips, we believe it will be much easier to manufacture a full-scale processor chip than for any of the leading designs,
which harness the science of the very small-the strange behaviour of subatomic particles-to solve computing challenges that are beyond the reach of even today's fastest supercomputers.
In classical computers, data is rendered as binary bits, which are always in one of two states:
"The silicon chip in your smartphone or tablet already has around one billion transistors on it, with each transistor less than 100 billionths of a metre in size,"said Dr Menno Veldhorst,
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