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Thursday, December 30, 2010

#CONSUMER: "Report: touch panels grow 30 percent y/y"

Touchscreen module shipments are going through the roof with better than 30 percent growth last year and even brighter prospects for 2010, with 6.3 million units shipped in the first half. Manufacturing from 32 suppliers is on track for 20 million units in the second half of 2010, according to DisplaySearch LLC (Santa Clara, Calif.) Look for 2011 to be a record year for all sectors of touchscreen module sales. R. Colin Johnson @NextGenLog


Top five out of 32 touch screen suppliers of the 6.3 million modules shipped in the first half of 2010, which will grow to 20 million in second half, according to DisplaySearch.

Boosted in recent years by smartphones, and in 2010 by the iPad and the legions of copycats piggybacking on Apple's success, touchscreens are also soaring in mini-notebooks an in novel new form-factors, such as the enTourage Pocket eDGe which features both an LCD touchscreen and and E-Ink reflective display. Taiwan touchscreen suppliers lay claim to the lion's share--43.5 percent in 2009--especially in advanced capacitive, as opposed to resistive, touchscreens. China however is nipping at Taiwan's tail, with forecasted shipments increasing 39 percent in 2010, mostly for legacy resistive touchscreens. Both U.S. and European manufacturers are also reporting record-high shipments in 2010, but Japanese touchscreen suppliers, on the other hand, are reporting flat growth in 2010 due to the strength of the Yen, according to DisplaySearch.
Full Text: http://bit.ly/NextGenLog-fvX9

Wednesday, December 29, 2010

#MEMS: "Automotive MEMS hits record high"

Micro-electro-mechanical system (MEMS) chips, such as the accelerometers that trigger airbags, are linked to better car sales, but are also proliferating due to government mandates for roll-over detection, electronic stability control and dozens of other safety improvements. Look for MEMS chips sales to top a billion units by 2015. R. Colin Johnson @NextGenLog


Recovery in the automotive MEMS market is complete as 2010 marks a new high point for worldwide shipments.

Automotive MEMS chip sales rebounded to a new high in 2010, 662.3 million units, surpassing the previous high mark in 2007 of 640 million units, according to a market researcher, according to iSuppli (El Segundo, Calif.) Recession-depleted inventories were replenished in 2010, prompting record growth of 32.1 percent, up from 501 million units in 2009. Growth is expected to continue at a more sustainable rate of 7.4 percent in 2011, but will reach double-digit gains again by 2014.
Full Text: http://bit.ly/NextGenLog-hxH8

Thursday, December 23, 2010

#CHIPS: "IBM 'racetrack' memory enters home stretch"

IBM's racetrack memory aims to replace flash and hard disks with a solid-state microchip that is faster and denser that traditonal mass storage devices. Look for racetrack memories to make their commercial debut as flash substitutes in five to seven years. R. Colin Johnson, Kyoto Prize Fellow @NextGenLog


IBM 's racetrack memory moves magnetic domains along a nanowire where they "race" around the "track." IBM plans to embed billions of nanowires into silicon chips to store hundreds of times more information on a chip than even the densest disk drives hold today.

Here is what my story in EETimes says about racetrack memories: The odd thing about magnetic spin is that it does not displace atoms, allowing walled domains on hard disks to switch between "1" and "0" without the fatigue mechanisms that eventually wear-out flash bit cells. Unfortunately, solid-state nonvolatile memories like flash, ferroelectric and even experimental resistive RAMs have limited lifetimes, according to IBM, which claims its racetrack memory combines the advantages of solid-state memories with the access mechanism of a hard disk drive.
Full Text: http://bit.ly/NextGenLog-gKO1

Wednesday, December 22, 2010

#ENERGY: "Thermoelectrics could harvest car exhaust heat"

Thermoelectric materials generate electricity by harvesting waste heat by transferring it from one end of a polymer strip to the other. Look for thermoelectrics to become widely used to harvest waste heat over the next five years. R. Colin Johnson, Kyoto Prize Fellow @NextGenLog


The conversion of energy between light and electricity (LEDs/solar cells) and between light and heat (light bulb/greenhouse) is complemented by thermoelectric conversion between electricity and heat.

Here is what my EETimes story said about thermoelectrics: Today's state-of-the-art thermoelectrics are only about 5 percent efficient, but new research indicates that a class of material called skutterudites—plus a new technque for aligning their atoms—could improve thermoelectric efficiencies to as much as 20-percent, enough for commercialization. Such high-efficiency thermoelectric converters on the exhaust pipe of an automobile, for instance, could convert enough heat into electricity to charge the batteries of a hybrid vehicle...
Full Text: http://bit.ly/NextGenLog-dXDm

Monday, December 20, 2010

#MATERIALS: "Rare earth scarcity gauged by DoE"

A long-awaited report from the U.S. Department of Energy (DoE) on rare earth scarcity concludes that in the short term the "clean energy economy" is at risk of supply-chain disruptions. Look for rare earths to get government mandates subsidies by the end of the decade. R. Colin Johnson, Kyoto Prize Fellow @NextGenLog


Eset superhero prepares to vanquish malicious malware where ever it might lurk!

Here is what my EETimes story says about rare earths: The study recommends the development of domestic U.S. extraction, processing and manufacturing capabilities as well as cooperative efforts with Japan and Europe to mitigate scarcity worldwide. The report also promised to follow-up with a more complete U.S. rare-earth development strategy by the end of 2011...
Full Text: http://bit.ly/NextGenLog-gvMe

Thursday, December 16, 2010

#QUANTUM: "Spintronics aims for atomic memories"

Spintronics memories should store quantum information on the individual atoms, rather than electrons, according to University of Utah researchers. Look for quantum computers to revolutionize information processing by the end of the decade. R. Colin Johnson, Kyoto Prize Fellow @NextGenLog


A phosphorus-doped one millimeter square silicon chip demonstrate how data can be stored in magnetic "spins" on the nuclei of phosphorus atoms.

The research team, led by professor Christoph Boehme, demonstrated how it's done by reading and writing spin onto phosphorus atoms in a silicon substrate, achieving a refresh time of 112 seconds—thousands of times longer than memories storing information on electron spin. To prove that atomic nuclei store spins more reliably than electrons, the Boehme group's experimental demonstration used a phosphorus-doped silicon chip measuring just 1 millimeter square. After supercooling the material to 3.2 degrees Kelvin, an intense magnetic field of nearly 8.6 Tesla aligned the spins of the phosphorus atom's electrons, which was then transferred to the nuclei by FM-band radio waves.
Full Text: http://bit.ly/NextGenLog-fhqj

#MATERIALS: "Spintronics aims for atomic memories"

Spintronics memories should store quantum information on the individual atoms, rather than electrons, according to University of Utah researchers. Look for atomic scale memories that use store information of the spin-state of atoms within seven years. R. Colin Johnson, Kyoto Prize Fellow @NextGenLog


A phosphorus-doped one millimeter square silicon chip demonstrate how data can be stored in magnetic "spins" on the nuclei of phosphorus atoms.

Led by professor Christoph Boehme, a team of researchers demonstrated how it's done by reading and writing spin onto phosphorus atoms in a silicon substrate, achieving a refresh time of 112 seconds—thousands of times longer than memories storing information on electron spin...To prove that atomic nuclei store spins more reliably than electrons, the Boehme group's experimental demonstration used a phosphorus-doped silicon chip measuring just 1 millimeter square. After supercooling the material to 3.2 degrees Kelvin, an intense magnetic field of nearly 8.6 Tesla aligned the spins of the phosphorus atom's electrons, which was then transferred to the nuclei by FM-band radio waves. Up to 112 seconds later, the group was able to demonstrate that near-terahertz wavelengths could then be used to transfer the nuclei spins back onto the atom's electrons, allowing its value to be electrically read-out as a current...
Full Text: http://bit.ly/NextGenLog-fnZS

#NANOTECH: "NIST launches $44M technology program"

A new technology innovation program (TIP) for advanced manufacturing research in electronics, biotechnology and nanotechnology was funded with $22 million by the National Institute of Standards and Technology (NIST), which expects matching funds from research partners to exceed $44 million total. Look for advances in displays and energy over the next three years. R. Colin Johnson, Kyoto Prize Fellow @NextGenLog


Kent Displays received $3 million develop a suite of integrated processes for efficient, "roll-to-roll" manufacturing of flexible, reflective displays for high-volume product markets.

The two- to three-year programs will research nine targeted manufacturing technologies that offer innovative and promising approaches in a variety of fields in electronics, biopharmaceuticals, renewable energy generation and energy storage...
Full Text: http://bit.ly/NextGenLog-hM4U

Wednesday, December 15, 2010

#3D: "Optical metrology measures in 3D"

Output in 3-D from TVs, game consoles and mobile handsets will be joined by 3-D input in 2011. Look for 3D optical metrology to debut on-the-cheap in 2011. R. Colin Johnson, Kyoto Prize Fellow @NextGenLog


Here Seikowave is creating a 3D model of a complex object using structured Light Illumination. SLI uses TI's digital light processor (DLP) to project stripes of light onto 3D objects and scenes then measures the distortion to determine shape.

Here is what my EETimes story says about 3D metrology: Called 3-D optical metrology, the technique projects stripes of light onto objects, then makes measurements of the distortions in the reflected light to deduce size and shape, thereby allowing real-world scenes to be input automatically to a 3-D model. Generating accurate 3-D models traditionally requires either manual measurements or expensive, laser-based 3-D rangefinding systems. Now Texas Instruments and others are downsizing their microelectromechanical system-based picoprojectors to do the same job inexpensively using structured light illumination. SLI offers automated 3-D sensing by projecting matrices of light onto objects, the reflected distortions from which allow the objects' dimensions to be deduced automatically...
Full Text: http://bit.ly/NextGenLog-fh1R

#WIRELESS: "Mobile 3-D to drive user acceptance"

Retailers have plenty of 3-D TVS in stock this holiday season, but the products' acceptance has been hampered by limited content and by the need for LCD-shutter glasses that dim displays as they switch the view between eyes. Look for 3D TV demand to strengthen after users gain experience with the 3D mobile devices to be delivered in 2011. R. Colin Johnson, Kyoto Prize Fellow @NextGenLog


Mobile devices like the Fuji 3D still camera have autostereoscopic displays built-in, a trend that will grow to over 60
million units by 2014, according to In-Stat.


Here is what my story in EETimes says about 3D TV: User uptake of 3D TVs has only been strong in the home theater market, for which DisplaySearch forecasts that 3.2 million 3-D TVs will be shipped in 2010. That same forecast, however, predicts that 3-D TVs will grow to over 90 million units in 2014—accounting for 41 percent of all flat-panel sets sold that year, up from just 2 percent today—as autostereoscopic displays that do not require the glasses enter the market. Toshiba, for one, is already selling glasses-free 3-D televisions in Japan. Many of the users who buy glasses-free 3-D TVs in 2014 will have already gained experience with autostereoscopic displays by using the ones built into their mobile devices...
Full Text: http://bit.ly/NextGenLog-ehJe

#ALGORITHMS: "Augmented reality: Geotagging the real world"

Augmented reality (AR)--the overlay of information on live images via a device display--has already been proved in military applications such as heads-up windscreen displays in fighter aircraft. Look for augmented reality to go mainstream in 2011 with 3D-social-networking becoming AR's killer app.


Viewing Tokyo's skyline with Sekai Camera reveals hundreds of user-supplied geo-tags highlighting points of interest in the style of social-media.

Here is what my story at EETimes says about AR: Consumer AR is coming to a GPS-enabled camera phone near you. In 2011, Apple, Google and a dozen startups plan to offer apps and systems that will relay commercial information—such as what's on sale at the various stores in the mall you're visiting—AR-style. Even Intel Capital is looking to cash in on the craze by investing in Layar (Amsterdam, Netherlands), an AR platform company that offers online tools for the development community...But social networking may be the killer AR app...
Full Text: http://bit.ly/NextGenLog-eZIo

#ENERGY: "Personal power management puts you in charge"

Personal power management is permitting users to take control of their energy consumption. Look for personal energy management solutions from a whole ecosystem of electronics and software providers starting in 2011. R. Colin Johnson, Kyoto Prize Fellow @NextGenLog


Google PowerMeter and The Energy Detective (TED) is all you need to monitor energy usage with your computer or mobile device.

Here is what my EETimes story says about personal energy management: Google already has a free downloadable app, the PowerMeter, that can monitor overall energy consumption in a home with an installed breaker-box add-on, such as Energy Inc.'s TED (The Energy Detective). Intel is taking the approach one step further by "personalizing" energy management as it once helped personalize computing; the company has crafted a prototype personal-energy monitor that plugs into the wall (instead of the breaker box) and uses artificial intelligence to deduce which appliances in a household are on and how much power they are using...
Full Text: http://bit.ly/NextGenLog-gCBN

#CONSUMER: "Touchscreen tabs advance 'consume only' model"

Electronic devices designed exclusively to consume, rather than both consume and create, began with Apple's iPod music player, which only Microsoft's Zune has effectively challenged. Look for Apple to be challenged by touchscreen tablets from every consumer electronics maker worldwide in 2011. R. Colin Johnson, Kyoto Prize Fellow @NextGenLog


RIM's Blackberry PlayBook is banking the superior security that Blackberry phones have over the iPhone. Tethering their iPad-like PlayBook to a Blackberry phone allows RIM users to keep pace with Apple without sacrificing security.

Following the debut of Apple iPad, every major electronics producer is taking on Apple. Makers of laptops, netbooks, smartphones and, yes, even music players will all be marketing competing touchscreen tablets in 2011. Almost all will try to emulate the trend-setting iPad while adding some differentiator; Dell's Streak, for example, also lets you make phone calls...
Full Text: http://bit.ly/NextGenLog-fZWN

#CHIPS: "Three Reasons IBM Keeps Winning the Green500"

IBM keeps winning the Green500, a contest for the most energy-efficient supercomputer. There are three reasons IBM keeps winning, but the bottom line is that it is not cranking up clock speeds just to win the Top500, thereby increasing its energy efficiency ratings for the Green500. Look for IBM to win both the Green500 and the Top500 with the same supercomputer in 2011. R. Colin Johnson, Kyoto Prize Fellow @NextGenLog


IBM's Blue Gene/Q (pictured) houses thousands of processors in racks that are connected by high-speed optical interconnects to achieve peta-flops of performance. (Source: IBM).

Here is what Smarter Technology says about green supercomputers: The supercomputers of the world are not just competing on raw speed, but also in Green500, whose official metric is floating-point operations per second per watt of energy consumed (flops/watt). For instance, this year's winner—the IBM Blue Gene/Q—achieved 1,684 Mflops/watt, compared with the second-ranked system by HP, which used Intel's Xeon processors to deliver 948.29 Mflops/watt, making the Blue Gene/Q 77 percent more energy-efficient. Still in the prototype stage, when completed next year, the Blue Gene/Q is expected to top 20 peta-flops, making it 10 times faster than this year's winner of the Top500 list—giving the Blue Gene/Q a shot at topping both the Top500 and Green500 lists in 2011.
Full Text: http://bit.ly/NextGenLog-ea4X

Tuesday, December 14, 2010

#MATERIALS: "Metamaterials could camouflage ships"

Metamaterials that can bend light in nearly any direction may hold the key to future military camouflage based on the chameleon-like photosensitive skin of the squid. Look for metamaterials to debut in as military camouflage within five years. R. Colin Johnson, Kyoto Prize Fellow @NextGenLog


In previous research, Rice researcher Naomi Halas made light bending nanocups from colloidal particles on glass capped by an elastomer that is lifted off after curing.

Here is what my EETimes story says about metamaterials: Marine biologists collaborating with engineers and scientists at Rice University will develop the new metamaterial with a $6 million grant from the Office of Naval Research. A marine biologist at the Woods Hole Oceanographic Institution who specializes in cephalopods (squid, octopus and cuttlefish) will team with Rice University to investigate how metamaterials can be constructed which observe and match their colors to the surrounding environment...
Full Text: http://bit.ly/NextGenLog-hYqw

#ENERGY: "Fuel Cells Provide Campus Power"

The University of California at San Diego is building one of the world's largest fuel cells in hopes of generating up to 95 percent of its own power with a 2.8-MegaWatt fuel cell—the largest of its kind on a university campus. Look for corporate campuses to follow suite in 2011. R. Colin Johnson, Kyoto Prize Fellow @NextGenLog


Direct FuelCell power plants comprise three major functional elements: Electrical Balance of Plant, Mechanical Balance of Plant and Fuel Cell Modules (source: FuelCell Energy).

Here is what my Smarter Technology story said about fuel cells: One of the world's largest fuel cell arrays—2.8 MegaWatts—will be installed in San Diego's Energy Innovation Park at the University of California at San Diego (UCSD) campus. FuelCell Energy (Danbury, Conn.) is installing the giant fuel cell capable of powering 2,800 homes—along with two others in the city of San Diego—to provide a renewable store of electricity. In cooperation with the city of San Diego and BioFuels Energy there, the project will turn methane from wastewater into electricity. The nearby Point Loma Wastewater Treatment Plant will pipeline the purified methane bio-gas to the three fuel cells constructed by FuelCell Energy...
Full Text: http://bit.ly/NextGenLog-elp7

Monday, December 13, 2010

#SECURITY: "3 Reasons Clouds Prevent Cyber-Attacks"

Recent cyber-attacks have shown that cloud computers are resilient to distributed denial-of-service (DDoS) attacks that overwhelm traditional Web servers. Look for an even faster migration to cloud computing over the next five years as cyber attacks intensify on traditional servers. R. Colin Johnson, Kyoto Prize Fellow @NextGenLog


Cloud-based Amazon Web Services (AWS) bring on servers to match the users accessing a Website, thereby thwarting attacks.

Recent cyber-attacks have demonstrated that cloud computers can handle distributed denial-of-service (DDoS) attacks that crash traditional servers—for instance, when WikiLeaks briefly hosted on Amazon Web Services (AWS) for its latest disclosures. What is it about cloud computers that make them immune to cyber-attacks?
The three main ingredients in cloud computers that make them more resilient against cyber-attacks are elasticity, bandwidth and redundancy.
Full Text: http://bit.ly/NextGenLog-dEBu

Friday, December 10, 2010

#MEMS: "Micro-Mirrors to Enable Quantum Computing"

Micro-electro-mechanical systems (MEMS) moved closer to enabling quantum computing with university researchers demonstrating that micro-mirrors can read and write qubits encoded on clouds of ultra-cold atoms suspended in a transparent media. Look for laser controlled optical quantum computers to debut in about 10 years. R. Colin Johnson, Kyoto Prize Fellow @NextGenLog


Ultracold cloud of atoms used to store quantum qubits in the laboratory of Mark Saffman's group at University of Wisconsin-Madison.

Here is what my EETimes story says about quantum MEMS: Semiconductor memories today need bit-lines to address them before reading or writing, but according to Duke University and the University of Wisconsin-Madison, qubits can be likewise addressed with two lasers focused on them by MEMS micro-mirrors.
Full Text: http://bit.ly/NextGenLog-h8ti

#DISPLAYS: "IT Kiosks Ride Touch-Screen Wave"

Touch-screen-tablet mania is sweeping the globe, not only boosting Apple's worldwide mobile PC standing from No. 8 to No. 3—behind HP and Acer—but boosting sales at every other vendor of touch screens too, such as NextWindow (a subsidiary of Smart Technologies ULC, Calgary), which IT organizations are enlisting to offer walk-up information centers worldwide. Look for large touchscreens to begin appearing everywhere public information is available over the next five to seven years. R. Colin Johnson, Kyoto Prize Fellow @NextGenLog


The NextWindow 1900 Series Touch Screen installed on the HP TouchSmart All-In-One PC turns it into a giant touch-screen tablet.

Here is what my story in Smarter Technology says about touchscreens: Sales of touch screens worldwide continue to rise on the iPad tide that has already raised Apple's worldwide mobile PC market share to 12.4 percent (up from 4.8 percent without the iPad), according to a recent DisplaySearch report. Touch screens for kiosks were already in widespread use, such as at American Airlines Admirals Club lounges, which use HP's TouchSmart PCs with NextWindow touch screens. The new wave of touch-screen mania triggered by the phenomenal success of Apple's iPad, however, has touched off not only a competing tablet frenzy—like HP's Slate and Samsung's Galaxy Tab—but is also prompting IT organizations worldwide to start offering NextWindow-based public information centers in the increasingly familiar touch format...
Full Text: http://bit.ly/NextGenLog-f2n7

Thursday, December 09, 2010

#3D: "Startup hawks monolithic 3-D chips"

True monolithic three-dimensional (3-D) silicon chips will beat die stacked with through-silicon-vias (TSVs) by a factor of 10,000 in connectivity, according to serial entrepreneur Zvi Or-Bach who spoke at the 3-D Architectures for Semiconductor Integration and Packaging conference in Burlingame, Calif. Look for monolithic 3D chips to nip TSVs in the bud for some applications in 2012 and beyond. R. Colin Johnson, Kyoto Prize Fellow @NextGenLog


The simplest way to create 3-D chips is to fabricate the bottom chip as usual, cover it with oxide, then bond it to a similarly oxide clad giant-transistor donar chip, which can then be etched into individual transistors.

According to Or-Bach, NuPGA's 3-D IC fabrication techniques can be used to stack memory on top of a processor, to stack bit-wide memory chips into byte-wide configurations or just to shrink the die of existing designs by optimizing chip area versus height. Any number of chip layers can be composed, according to Or-Bach, enabling general-purpose monolithic 3-D to reduce chip areas by as much as three times over conventional 2-D.
Full Text: http://bit.ly/NextGenLog-g3rQ

#OPTICAL: "Optical Fibers Boost Speed, Cut Weight and Power of Computers"

A switch to optical fibers for communications is under way that will boost the speed while cutting the power and weight of computers. Using the already popular complementary metal-oxide semiconductor (CMOS) process, IBM's new CMOS Integrated Silicon Nanophotonics (CISN) process uses optical waveguides instead of copper wires for all interconnection and communications. Look for migration from copper wire to optical cables across the board over the rest of the decade. R. Colin Johnson, Kyoto Prize Fellow @NextGenLog


IBM's CMOS Integrated Silicon Nanophotonics technology includes all the optical components needed to convert electricity to light and back again, including modulators, wave division multiplexers (WDM) and detectors (Source: IBM).

Here is what my Smarter Technology story says about optical: Optical fibers today are used for high-speed shared connections, such as an Internet service provider's connection to the regional backbone. However, IBM's new CMOS Integrated Silicon Nanophotonics (CISN) process seeks to migrate optical communications to connections between servers, between the printed circuit boards (PCBs) inside servers, between the semiconductor microchips mounted on PCBs, and eventually between the cores on a single microchip...
Full Text: http://bit.ly/NextGenLog-gGEX

Tuesday, December 07, 2010

#WIRELESS: "Freescale aims baseband/RF SoCs at two-way radio"

Since announcing in early 2009 that it was exiting the cellular platform business, Freescale has begun targeting wireless applications that require long battery life combined with low cost. Now the downsized Cellular Products division is making SoCs targeted at two-way radios and smart meters while finalizing the IP for a new breed of software-configurable multi-mode cellular basebands. Look for Freescale-branded basebands in 2011. R. Colin Johnson, Kyoto Prize Fellow @NextGenLog


Freescale's Ruby vector processors, Amber channel coding and RF transcievers enable the Cellular Product Division (CPD) to leverage its intellectual property (IP) for two-way radio, wireless medical monitoring, smart meters and software-configurable multi-mode cellular basebands.

When Freescale Semiconductor Inc. spun off from Motorola in 2004, some assumed that the new chip maker would be prohibited from making products for cellular phone handsets. But, in fact, Freescale's Cellular Products Group inherited most of the baseband intellectual property (IP) from Motorola and hired its own cellular software gurus to replace those that stayed at Motorola...Separate "Ruby" and "Amber" baseband IP efforts, along with its extensive IP for making all-CMOS radio transceivers in the range of 50-MHz to 2.6 GHz using orthogonal frequency-division multiplexing (OFDM), enable Freescale to produce specialized SoCs for two-way radios, wireless medical monitors, smartmeter market and multi-model handsets...
Full Text: http://bit.ly/NextGenLog-fMLA

Thursday, December 02, 2010

#QUANTUM: "Internet to Communicate by Entanglement"

The realization of a quantum Internet got one step closer when entanglement was recently demonstrated as a viable method to broadcast or copy information to many other network nodes—or users—simultaneously. Look for advances in quantum computing leading to innovative uses on the Internet over the next eight to 12 years. R. Colin Johnson, Kyoto Prize Fellow @NextGenLog


Massive hardware cools and isolates the nodes of Caltech's seminal quantum network (source: Nara Cavalcanti).

Here is what my Smarter Technology story says about quantum computing: Secure eavesdrop-proof communications using quantum-key distribution are already available over optical gateways between two parties, but now a possible new quantum Internet could be enabled by teleporting the same information to multiple nodes using entanglement—what Einstein called "spooky action at a distance"—thereby allowing secure broadcasts to copy identical information to multiple nodes on a future quantum Internet...
Full Text: http://bit.ly/NextGenLog-ejpa

Wednesday, December 01, 2010

#CHIPS: "IBM debuts CMOS silicon nanophotonics"

Silicon chips will be communicating with pulses of light instead of electrical charge starting in 2011, according to International Business Machines Corp., which described its CMOS Integrated Silicon Nanophotonics (CISN) technology Wednesday (Dec. 1) at a tradeshow. Look for silicon photonics to become an everyday part of every semiconductor makers high performance computing efforts over the next five years. R. Colin Johnson, Kyoto Prize Fellow @NextGenLog


IBM's all silicon optical transceivers house modulators, wave guides, wavelength-division multiplexers, switches and detectors all cast the same CMOS die.

Here is what my EETimes story says about silicon photonics: At Semicon Japan in Chiba, Japan, IBM (Armonk, N.Y.) heralded silicon nanophotonics as the enabler for future exascale processors that can execute a million trillion operations per second (1,000-times faster than today's petascale supercomputers)... By integrating electrical-to-optical and optical-to-electrical transceivers onto traditional CMOS chips, silicon photonics promises to break the bottleneck now holding back development of exascale computing platforms. IBM now claims to have solved this problem with its CISN technology which is currently being licensing to partners, and which will begin to appear in commercial transceivers starting in 2011...
Full Text: http://bit.ly/NextGenLog-hBbm