Sentences with phrase «generation of devices in»
This includes the all new Pixel 2 and Pixel 2 XL, Google's latest smartphones and the second generation of devices in the Pixel series, complete with a handful of changes from the original models including improvements on the inside like the new Snapdragon 835 processor.
https://www.androidheadlines.com/
Microsoft has launched its second generation of devices in the Surface family.
Not exact matches
It also coincides with what Amazon claims is a tripling in the growth rate of Kindle e-reader sales, thanks to new lower price points and the rollout of a third - generation version of the device.
Nintendo has sold just 12.6 million units of its latest - generation console, the Wii U, since that device's launch in 2012.
Says Piers Harding - Rolls, head of games at U.K. - based IHS Screen Digest, in an e-mail, «I expect to see increasing downloads over this generation and on to the next generation of devices as it is in the interest of console manufacturers to act as a retailer.»
RIM will not be releasing its next generation of BlackBerry devices until next year, and recent management stumbles are causing investors and analysts to lose faith in the company's ability to deliver.
Prince said he can imagine a future in which Cloudflare's apps are as disruptive as Java or Apple, creating a new generation of applications that run on networks instead of devices.
Conventional wisdom holds that the millennial generation, influenced by the 9/11 attacks, burdened with student debt and reared in a world of high - speed mobile devices, is a unique group of young people.
In cooperation the multinational corporation based in Switzerland - Hdac Technology AG, HyundaiPay has announced plans to hold a Token Generation Event on the 27th of November, aiming to bring blockchain technology and smart contacts to IoT payment platforms and secure transactions amongst connected deviceIn cooperation the multinational corporation based in Switzerland - Hdac Technology AG, HyundaiPay has announced plans to hold a Token Generation Event on the 27th of November, aiming to bring blockchain technology and smart contacts to IoT payment platforms and secure transactions amongst connected devicein Switzerland - Hdac Technology AG, HyundaiPay has announced plans to hold a Token Generation Event on the 27th of November, aiming to bring blockchain technology and smart contacts to IoT payment platforms and secure transactions amongst connected devices.
As people who live in a generation of texting and email, we are all guilty on some level of spending a good chunk of our existence attached to a tech device.
Because they are the generation of the cell phone, of the electronic device that's in their hand that they use constantly,» Cuomo said.
A new generation of medical devices using wireless communications, sophisticated software and data center - driven «cloud» computing promises to deliver health care in ways previously limited to the confines of fancy hospital rooms.
But it may well be part of the next generation of always - smaller semiconductor devices and in any case it contributes to the process of understanding and controlling the structure and hence properties of new semiconductors.
From the development of the blue laser to high - efficiency, high - brightness, light - emitting devices and new age tailor - made polymers capable of a host of applications in biomedical, chemical, electronics, and opto - electronics, IMRE's research into next - generation materials is likely to catalyze new industries in Singapore
While working in the RAMS program, Phillips assisted in the development of a second - generation weigh - in - motion device, an integrated hardware and software automation system that weighs moving vehicles.
Yet as the first generation of photovoltaic panels approach the end of their useful life, the prospect of these devices ending up in landfill threatens to tarnish their eco-friendly credentials.
This will help physicists and device engineers to design better quantum capacitors, an array of subatomic power storage components capable to keep high energy densities, for instance, in batteries, and vertical transistors, leading to next - generation optoelectronics with lower power consumption and dissipation of heat (cold devices), and better performance.
Most existing thermoelectric devices are based on rare, expensive and unstable materials such as bismuth telluride, making them unsuitable for widespread use in energy generation — but Peidong Yang «s team at the University of California, Berkeley, have found a cheap alternative in silicon.
The observation of an abnormal state of matter in a two - dimensional magnetic material is the latest development in the race to harness novel electronic properties for more robust and efficient next - generation devices.
For several years, a team of researchers at The University of Texas at Dallas has investigated various materials in search of those whose electrical properties might make them suitable for small, energy - efficient transistors to power next - generation electronic devices.
A generation of young adults raised on electronic devices has a high affinity for the gadgets and engages in less face - to - face contact than was once the norm, he says.
The result, he says, has been a second series of patents which will play a vital role in the next generation of devices.
However, in the US there is now a booming trade in a new generation of radio devices which can carry high - quality audio or video signals round a home or office.
We look at the state of the rovers currently on Mars, the big accidental discovery by the Spirit rover, and the next - generation device slated to join them in 2010, the Mars Science Laboratory Rover.
By tying substances like this in knots, the researchers hope to understand how their intricate configurations and unique properties can be harnessed in the next generation of advanced materials and photonic devices.
Attendees at the astrobiology meeting in Arizona showcased an assortment of high - tech devices for next - generation exploration, ranging from microfluidic «life analyzers» and integrated nucleic acid extractors for studying «Martian metagenomics» to exquisitely sensitive, miniaturized organic chemistry labs for spotting tantalizing carbon compounds and minerals at microscopic scales.
And they may enable a new generation of brighter, low - power, low - cost lighting devices that could challenge the dominance of light - emitting diodes (LEDs) in the future and help meet society's ever - escalating demand for greener bulbs.
This finding not only provides an ideal platform for investigating the mechanism of superconductivity in the two - dimensional system, but also paves the way for the development of next - generation nano - scale superconducting devices.
The ultrathin high - Tc superconductor would effectively contribute to the significant down - sizing and consequent high - density integration in electric circuits, leading to the realization of future - generation electronic devices with high energy - saving and ultrahigh - speed operation.
In the next generation of devices, we will use the placement precision to couple chemical reactions to the movements of a rotor.
A new study by University of Illinois engineers found that in the transistor laser, a device for next - generation high - speed computing, the light and electrons spur one another on to faster switching speeds than any devices available.
She says that there may be practical applications in the future — a commentary accompanying the paper suggests that the method could aid in the development of technologies such as molecular wires, atom - thick conductors that could help shrink electronic devices — but that their result concerns «extremely fundamental» physics that might be just as valuable for developing quantum intuition in the next generation of physicists.
Graduate students Junyi Wu and Curtis Wang and professor Milton Feng found that light stimulates switching speed in the transistor laser, a device they hope will usher in the next generation of high - speed data transmission.
Through the Rensselaer cMDIS, Meunier and his team are able to develop the potential of new materials such as phosphorene to serve in future generations of computers and other devices.
Professor Georges Gielen, Vice Rector of Science, Engineering and Technology at the Katholieke Universiteit in Leuven, Belgium, said the next generation of electronics, including wireless sensor networks and other tiny devices envisioned as part of the «Internet of things,» require low - power, high performance chips.
These contributions «represent a significant step forward in structure - function relationships in organic semiconductors, critical for the development of the next generation of flexible electronic devices,» the authors point out.
Such electron doping - driven structural phase transitions at the 2 - D limit is not only important in fundamental physics; it also opens the door for new electronic memory and low - power switching in the next generation of ultra-thin devices.»
The work illustrates the rapidly - advancing contribution that computational materials science is making towards rational, next - generation energy devices,» said Professor Alan Aspuru - Guzik, an expert on computational materials science in the Department of Chemistry and Chemical Biology at Harvard University, who was not involved in the work.
«In this context, the development of functional inks based on two - dimensional crystals is the gateway for the realisation of new generation electrodes in energy storage and conversion devices.&raquIn this context, the development of functional inks based on two - dimensional crystals is the gateway for the realisation of new generation electrodes in energy storage and conversion devices.&raquin energy storage and conversion devices.»
«In microelectronics, this approach to growing high - density carbon nanotube forests on conductors can potentially replace and outperform the current copper - based interconnects in a future generation of devices,» says Cambridge researcher Hisashi SugimIn microelectronics, this approach to growing high - density carbon nanotube forests on conductors can potentially replace and outperform the current copper - based interconnects in a future generation of devices,» says Cambridge researcher Hisashi Sugimin a future generation of devices,» says Cambridge researcher Hisashi Sugime.
For ultrafast operation of such nano - devices, generation of spin current in picoseconds — one trillionth of a second — a time - scale that is difficult to achieve using electrical circuits, is highly desired,» Cahill added.
Yes, it will fit in your mom's basement: The Omni is about 48 inches in diameter and weighs about 110 pounds, though the Virtuix team is looking at ways to reduce the size in future generations of the device.
Co-Directors of the Stony Brook University Cerebrovascular and Stroke Center, Henry Woo, MD, and David Fiorella, MD, PhD, have also been instrumental in pioneering treatments and devices for stroke such as the newest generation of stentriever devices and aspiration catheters to remove blood clots from the brain.
Less well known are other higher titanium oxides — those with a higher number of titanium and oxygen atoms than TiO — that are now the subject of intensifying research due to their potential use in next - generation electronic devices.
Researchers have developed a process to create a virtually perfect monolayer of «white graphene,» making a dream team pairing of graphene and white graphene substrate for use in next generation electronic devices a possibility.
Ordonez, Hayashi, and a team of researchers from SSC Pacific, in collaboration with the University of Hawai ′ i at Mānoa, have been developing novel graphene devices as part of a Navy Innovative Science and Engineering (NISE)- funded effort to imbue the Navy with inexpensive, lightweight, flexible graphene - based devices that can be used as next - generation sensors and wearable devices.
A picture of spin wave devices, showing magneto - electric cells used for voltage - controlled spin wave generation in the...
Nadrian C. Seeman, of New York University in the U.S., is the founding father of structural DNA nanotechnology, a field that exploits the structural properties of DNA to use it as a raw material for the next generation of nanoscale circuits, sensors, and biomedical devices.
The delight of making research discoveries with colleagues, engineering neural devices in close partnership with people who have disabilities and opening new pathways to learning for the next generation are all at the heart of the Center's mission.
«It is no surprise that Phil has been asked to participate in virtually all of the design studies for the next generation of fusion devices,» said Al von Halle, the head of electrical engineering at PPPL.