Not exact matches
That still benefits from specialized
silicon, and Google plans to bring the models it builds over to the Movidius
chips so it can run them
on mobile
devices.
The shift will not impact GE's $ 500 million collaboration with SUNY Polytechnic Institute
on silicon carbide power electronic
chips, which GE says is «a core breakout technology» and a «key focal point» of GE to bring cutting edge energy
devices to market.
The success of the PEMC production line in Albany is also key for SUNY Poly's Utica campus, where GE is also planning to work with SUNY Poly
on silicon carbide
chip «packaging,» another stage in the
chip making process where the
chips are put into protective materials and made ready to plug into
devices.
The GE lab, an arm of its Niskayuna - based Global Research Center, will focus
on packaging
silicon carbide
chips for use in power
devices.
These techniques include: human tissue created by reprogramming cells from people with the relevant disease (dubbed «patient in a dish»); «body
on a
chip»
devices, where human tissue samples
on a
silicon chip are linked by a circulating blood substitute; many computer modelling approaches, such as virtual organs, virtual patients and virtual clinical trials; and microdosing studies, where tiny doses of drugs given to volunteers allow scientists to study their metabolism in humans, safely and with unsurpassed accuracy.
I'd say the trend is going the other way: that the [
silicon lithography] technology that has developed around the integrated circuit is now being adopted in several other areas, like microelectromechanical systems, microfluidic
devices, chemical labs
on a
chip, and more.
Unlike almost every other major group elsewhere, CQC2T's quantum computing effort is obsessively focused
on creating solid - state
devices in
silicon, from which all of the world's computer
chips are made.
Using the new methods of micromachining, which borrow technology for making computer
chips to carve out and build up microscopic structures
on silicon wafers, Peter Gammel and his colleagues at Bell Labs / Lucent Technologies reduced three of the critical
devices of a cell phone to Lilliputian size that will allow all the components of a phone to be constructed
on a single
chip.
Because the
device is small enough to be placed
on a
silicon chip, it has the potential to be less expensive than other systems.
Dr Anna Peacock, an Associate Professor in Optoelectronics who heads the group in the ORC, comments: «The ability to grow single crystal - like materials directly inside the fibre core is a truly exciting prospect as, for the first time, the optoelectronic properties of the
silicon fibre
devices will be able to approach those of their
on -
chip counterparts.»
The filter's tuning span, which is a measure of how well the
device can adjust to fluctuating data demands, is the widest ever demonstrated
on a
silicon chip.
«RAM is placed
on the
silicon chips used in electronic
devices, and the companies that make these
chips have it down to a science,» says Jim Handy, a director with Objective Analysis, a semiconductor market - research firm based in Los Gatos, Calif. «Every year, they put more memory
on smaller
chips while keeping their prices relatively steady.
However, until now, all prototypes of
devices based
on conventional ferroelectrics have not been compatible with
silicon technology, which is used in the production of most modern
chips.
For inventing bistable digital micromirror
devices based
on silicon chips and for pioneering their uses in full colour video projectors which give large bright pictures of high quality using a lamp of normal power.
To improve the efficiency of waveguides —
devices that guide light
on the surface of
silicon optical computer
chips — a complex balance must be struck.
Silicon photonics, inventor of GHz
silicon modulator, novel
on -
chip nanophotonics
devices, novel micron - size photonic structures for light manipulation, light confining structures to slow down, enhance, and manipulate light
This
silicon chip «coprocessor» will be designed by Microsoft, and will be chiefly used to analyze visual data
on the
device.
Each connected object is equipped with WISeKey's Secure Element, called VaultIC184, consisting of a tamper resistant, easy to integrate
silicon chip, based
on a state - of - the - art secure microcontroller, thus transferring the burden of
device security to WISeKey's highly secure Personalization Center.
We'll concede that
silicon ranks up there with advanced calculus
on the «fun to discuss at parties» scale, but Qualcomm's newest Bluetooth
chip is going to unlock some radical
devices you will almost certainly want to buy this year.