Sentences with phrase «many microelectronic»
And though an existent company with a local presence was said to be interested in taking over IBM's microelectronic biz, they were also said to be planning to move it out of Broome County.
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EI took over some of IBM's microelectronic manufacturing chores, as well as a chunk of its unwanted real estate.
Proteus's sensors send a low - powered signal triggered by these minerals mixing with stomach fluids to a band - aid style microelectronic receiver placed on the skin.
«By designing a custom microelectronic amplifier and tightly integrating the ion channel directly onto the amplifier chip surface, we are able to reduce stray capacitances that get in the way of making fast measurements.»
But bottom - up engineering, say the researchers, could lead to ultrasmall microelectronic devices made up of just handfuls of molecules.
A growing interest in thermoelectric materials — which convert waste heat to electricity — and pressure to improve heat transfer from increasingly powerful microelectronic devices have led to improved theoretical and experimental understanding of how heat is transported through nanometer - scale materials.
The new hybrid system for future quantum processors and their networks forms a parallel with today's technology, which is also a hybrid, as a look at your computer hardware shows: Calculations are made by microelectronic circuits; information is stored on magnetic media, and data is carried through fiber - optic cables via the internet.
Creating a compact - disc - sized wafer full of semiconductors — the microelectronic processors that increasingly run our lives — takes three weeks, hundreds of steps, and an absolutely sterile environment.
That would make the tool a powerful way for nanoscientists to rapidly and cheaply prototype novel devices, such as new micromechanical diagnostics and unique microelectronic designs.
There he developed microelectronic artificial neural networks based on charge transfer devices and the growth and investigation of paraelectric photorefractive crystals.
Thanks to the dramatic decrease in the size of microelectronic components, researchers can now create suitably tiny space probes equipped with cameras, a power supply and navigational and communication capabilities.
And all this must happen on 1.5 square centimeters of polymer that's transparent, flexible, nonirritating, fluid - friendly, and free of all the toxic materials normally used in glowing microelectronic components.
The company's CEO, Anupam Pathak, Ph.D., received his doctorate from the U-M College of Engineering — where he first worked on tremor - cancelling advanced microelectronic technologies for other purposes.
Their lower energy density, i.e. the amount of energy that they can store in a given volume or surface area, has meant that they were not able to power sensors or microelectronic components.
His aim was to ensure that all the various microelectronic circuits function as planned once the chips are produced.
Next generation electronics and quantum computers rely on materials that exhibit quantum - mechanical phenomena and related properties, which can be controlled by external stimuli, e.g. by a battery in a microelectronic circuit.
In collaboration with Boston Scientific, the Microelectronic Circuits Centre Ireland (MCCI) an EI / IDA funded Technology Centre hosted at Tyndall National Institute, has developed an innovative multi-function programmable electronic chip designed to enable heart pacemakers that can be smaller, more efficient and more convenient for patients.
Top - down approaches, on the other hand, start with a much larger chunk of material and sculpt it into silicon chips, circuit boards and other microelectronic components with nanoscale features, by cutting or etching it.
As a potential contact electrode and interconnection material, wafer - scale graphene could be an essential component in microelectronic circuits, but most graphene fabrication methods are not compatible with silicon microelectronics, thus blocking graphene's leap from potential wonder material to actual profit - maker.
A microelectronic chip must meet severe constraints to function in this unique environment
Today's microelectronic devices pump out a lot of heat.
They are thin, light - weight, flexible and can be produced cost - and energy - efficiently: printed microelectronic components made of synthetics.
«We are realizing it on a silicon chip so that it will be compatible with current microelectronic industry standards to enable commercial deployment,» explains Krishnamurthy.
Basic nanotubes are good for many things, like forming into microelectronic components or electrically conductive fibers and composites; for more sensitive uses like drug delivery and solar panels, they need to be as pristine as possible.
The device consists of a microelectronic measuring system capable of gathering biomechanical parameters that characterize the runner's technique during a race.
FPGAs are integrated circuits whose hardware can be reconfigured — even partially during run - time — enabling users to create their own customized, evolving microelectronic designs.
The first setup created a microelectronic structure called a Schottky barrier and allowed only hot electrons to pass from the gold to the semiconductor.
«Because FPGAs are programmable and they tightly couple software and hardware interfaces, there's concern they may introduce a whole new class of vulnerabilities compared to other microelectronic devices,» said Lee W. Lerner, a researcher who leads the GTRI team studying FPGA security.
Such a miscalculation could affect the reliability and performance of chips and other microelectronic devices.
For example, the structures could be used to create small - scale thermal energy harvesters, which could scavenge energy lost in microelectronic devices.
Currently I am involved in a very interesting project: The study of the network oscillations in the brain using an in - vitro animal model and a new high resolution microelectronic device.
These features push for substitution of single layer Gr in transparent conductive layers and in the channel between source and drain of microelectronic devices.
A sensor developed at A * STAR can detect bladder cancer cells and track tumor progression Microelectronic engineers in Singapore have developed and tested sensor technology that can detect an... Read more
He has professional experience with microelectronic controls, design optimization, 3D modeling and simulation.
The electrical signaling bottleneck between current microelectronic chips has left light communication as one of the only options left for further technological progress.
aims at exploiting new technologies, such as highly integrated microelectronic semi - or superconducting circuits, to significantly improve the next generation receivers of mm and sub-mm wavelength telescopes, reinforcing European technological and scientific leadership by considerably improving the receiver performance and observing speed of the European - owned world leading facilities ALMA, APEX, NOEMA and PV.
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ME (Microelectronic) Preparation Dept. for the study of the in - house manufacturing of semiconductor established
Another potential advantage of these biohybrid cells is that they can be made from cheap and readily available materials, unlike many microelectronic devices that require rare and expensive materials like platinum or indium.
Currently, the polymer film system only generates about 5.6 nanowatts, which isn't enough to power most devices, but it could be used to drive these nano - and microelectronic devices through the use of capacitors to store the generated electricity.
The electronic assembler is responsible to perform micro-soldering and micro-welding operations to fabricate delicate microelectronic and electronic assemblies.
Explore the latest electrical engineering and process control techniques through this Masters in Microelectronic Systems Design.