Wireless Display on a Contact Lens

 Posted by: Wille D. Jones

A team of researchers led by Babak Amir Parviz, an associate professor of electrical engineering at the University of Washington, just published a paper in the 22 November edition of the Journal of Micromechanics and Microengineering that described a breakthrough in the development of an electronic contact lens with a built-in display. Parviz, who collaborated with University of Washington ophthalmologist Tueng Shen and optoelectronics researchers from Aalto University in Finland, has for several years been working on contact lenses that will someday augment the wearer’s vision with external data or use sensors to collect data about the state of the wearer’s health.

The researchers say that they successfully created a single-pixel wireless display comprising a blue gallium nitride LED mounted on a transparent sapphire chip, an integrated circuit that doubles as a power harvester and controller for the LED, and metal interconnects. They also showed that a series of passive lenses (called Fresnel lenses) less than 1 micrometer thick, when placed on the surface of the contact lens about 360 micrometers away from the LED, can focus the LED light onto the retina in a way that makes it appear as though the single-pixel image is floating in space about 1 meter away from the eye.  Otherwise, the image would be right up against the cornea, where the human eye is incapable of bringing objects into focus.

 

Of the high-tech miniature display, the researchers said that although it has only one controllable pixel, “…we have provided the first proof-of-concept technology demonstrations for producing multipixel and in-focus images using a contact lens by producing multipixel micro-LED array chips on transparent substrates and micrometer-scale Fresnel lenses that can be integrated into a contact lens.” In other words, the team is making significant progress toward the goal—an array of 3600 10-µm-wide pixels spaced 10 µm apart—that Parviz mentioned in the September 2009 IEEE Spectrum article “Augmented Reality in a Contact Lens.” Now that the researchers have demonstrated the ability to remotely control red and blue LEDs, doing so with green ones is the next step in order to produce full-color displays integrated into contact lenses.

Among the technical hurdles that remain is developing an improved power supply. The 5-millimeter-radius loop antenna used to draw power wirelessly in the experiments documented in the paper only harvests enough energy when it is within about 2 centimeters of the radio transmitter. Another problem is that the so-called bionic lens is made from polyethylene terephthalate, a form plastic that is not porous enough to be worn against the eye all day. Its poor oxygen permeability could lead to corneal swelling. But the team says it is already back in the lab, attempting to overcome these challenges.

http://spectrum.ieee.org

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Meet the New World's Fastest Micromouse Robot

 Posted by: Evan Ackerman

 

One year ago, we got super excited when a micromouse managed to negotiate a maze in under five seconds. At the 2011 All Japan Micromouse Robot Competition in Tsukuba, the micromouse pictured above shaved an entire second off of that time, completing the maze in a scant 3.921 seconds. That's fast.

This robot, called Min7.1, was designed by Ng Beng Kiat. It has a top speed of just over 12 kph, which is wicked quick for something that's 10 cm long and weighs only 90 grams. Of course, the micromouse has to figure out where it's going before it can put the hammer down and blaze through on its final run, which is why it first gets an autonomous exploration phase:

If we continue the trend, next year we'll have a three second robot, followed by a two second robot, and by  2016 or so, robots will be blowing through mazes before we even ask them to.

http://spectrum.ieee.org

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5 of the world's fastest supercomputers

The biannual Top 500 list, revised each June and November, shows that the fastest supercomputers are getting even faster.

No. 1: K Computer

The positions haven't shifted, but there were plenty of changes atop the list released Monday of the world's 500 fastest supercomputers.

K Computer, which became the world's fastest supercomputer by a factor of three five months ago, has been upgraded and is now four times speedier than the next-fastest. It is more powerful than the next seven supercomputers combined.

The supercomputer is capable of 10.51 Petaflops. That means it can do 10.51 quadrillion -- that's a million billion -- calculations per second. Hence the supercomputer's name: The letter "K" is short for the Japanese word "kei," which symbolizes 10 quadrillion.

For comparison's sake, the fastest commercially available Intel processor (the Core i7) is capable of about 109 gigaflops, or about 109 billion calculations per second. That means K Computer is more than 96,000 times faster than your PC.

The K Computer is a truly massive supercomputer: it comprises 864 computer racks. Still, it remains surprisingly energy efficient -- one of the most efficient on the list.

K Computer is used at the Riken Institute for Physical and Chemical Research in Kobe, Japan. The Riken Institute shares its computing power for researchers' projects around the world.

The Top 500 list is revised each June and November by researchers at the National Energy Research Scientific Computing Center, the University of Tennessee in Knoxville and the University of Mannheim in Germany. In the latest edition, unveiled Monday, the top 10 fastest supercomputers were unchanged since the last list came out in June. That's the first time that's happened since the list began in 1993.

  No. 2: Tianhe-1A

Just a year ago, the Tianhe-1A was the fastest supercomputer on the planet. The fact that the K Computer is now four times faster than the Tianhe-1A shows just how rapidly things change in this space.

Located at the National Supercomputer Center in Tianjin, China, the Tianhe-1A is capable of achieving speeds of 2.57 quadrillion calculations per second.

It uses just 14,336 central processing units. That's because, unlike the K Computer -- which has more than 88,000 CPUs -- the Tianhe-1A has several thousand Nvidia graphics processors to accelerate computation. That saves a lot of floor space.

Like the K Computer, the Tianhe-1A is open for researchers to use for large-scale scientific computations. It is currently being used for drug discovery, hurricane and tsunami modeling, cancer research, car design, and studying the formation of galaxies.

The Chinese are coming on strong in supercomputing, with 75 systems on the Top 500 list -- second only to the United States.

No. 3: Jaguar

Once the fastest in the world at 1.75 quadrillion calculations per second, the U.S. Department of Energy's Jaguar supercomputer is now stuck in third place. But not for long.

The computer is in the process of getting an enormous upgrade. When several hundred AMD 12-core CPUs and 18,000 Nvidia graphics processors are installed, the DOE says Jaguar will be capable of 20 quadrillion calculations per second, which would make it twice as fast as the No. 1 K Computer. When the upgrade is finished early next year, the supercomputer will be appropriately renamed "Titan."

Built by Cray, Jaguar is located in the DOE's Oak Ridge National Laboratory in Tennessee. It is used for research on climate change, alternative fuel technologies and atomic energy, among other projects. It's an open system, so approved private companies and academics are also allowed to use the machine.

 No. 138: Blue Gene Watson

The oldest supercomputer on the list just fell out of the top 100 for the first time.

When it debuted in July 2005, IBM's Blue Gene Watson was the second-fastest supercomputer in the world. It now ranks 138th-- still a remarkable achievement for a six-year old machine. The supercomputer is capable of 91.3 teraflops, or 91.3 trillion calculations per second.

Headquartered at the company's Thomas J. Watson Research Center in Yorktown, N.Y., Blue Gene Watson is primarily used to study physics, semiconductors and systems technologies that can be used to develop new IBM hardware, software and services. About 10% of the computer is devoted to external projects for other scientific researchers.

IBM, by far the largest supercomputer maker in the world, planned to run Watson -- its Jeopardy!playing computer -- on a Blue Gene supercomputer. Instead, IBM opted to run it on a commercially available Power 7 server, in order to demonstrate that businesses could one day buy a "Watson" for themselves.

No. 500: Baku

The 500th fastest supercomputer is Baku, a research machine located in Stuttgart, Germany.

Clocking in at 60 trillion calculations per second, it was in position No. 305 just six months ago. When it was built just two and a half years ago, it was the 77th fastest. That's how fast these machines become outdated.

The supercomputer, built by Cray, is one of just five systems in the Top 500 to run Windows. The vast majority of systems run the open-source Linux operating system, but a small handful feature other OS's, including Microsoft's lesser-known high-performance computing version of Windows, called Windows HPC 2008.

 http://money.cnn.com

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Destination address of data from host to host (Basic)

Figure 01

Base on Figure 01, we have a question: let consider that both switches are using a default configuration, which two destination address will PC0 use to send data to PC3 ?

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Arts groups tell BT to block access to The Pirate Bay

UK arts lobby groups have demanded BT block access to the BitTorrent file sharing website, The Pirate Bay.

BT said there must be a court order before it can act 

Music industry trade body, the BPI, said it would take legal action if the telecoms firm refused to co-operate.

The movie industry has already forced BT to block Newzbin 2, a members-only site that aggregates illegally copied material.

BT said: "We can confirm we are now in receipt of a letter from the BPI. BT is considering its response."

The telecoms operator added that a court order would be needed before any blocking could begin.

A source told the BBC the firm was unlikely to fight a lengthy legal battle as it had in the Newzbin case.

"We would not tolerate Counterfeits 'R' Us on the High Street - if we want economic growth, we cannot accept illegal rip-off sites on the internet either," said the BPI's chief executive, Geoff Taylor.

Richard Mollet, chief executive of The Publishers Association added: "It is crucial that the creative sector keeps up the momentum of getting internet companies to do their bit in tackling illegal sites."

The Motion Picture Association, independents trade body PACT and the Creative Coalition Campaign also voiced their support.

Illegal

The Pirate Bay was launched in 2003 by a group of friends from Sweden and rapidly became one of the most famous file-sharing sites on the web.

Although it hosts no files itself, it does allow users to search for and access copyrighted content including movies, games and TV shows.

In April 2009, the Swedish courts found the four founders of the site guilty of helping people circumvent copyright controls.

The ruling was upheld after an appeal in 2010, but the site continues to function.

http://www.bbc.co.uk

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Two reasons a network administrator would use CDP

Verify Layer 2 connectivity between two devices when Layer 3 fails.

Obtain the IP address of a connected device in order to telnet to the device.

Cisco Discovery Protocol (CDP) is primarily used to obtain protocol addresses of neighboring devices and discover the platform of those devices. CDP can also be used to show information about the interfaces your router uses. CDP is an independent media protocol and runs on all Cisco-manufactured devices including routers, bridges, access servers, and switches. It should be noted that CDP is a protocol which works on the layer2. 

By default, multicast advertise is sent every 60 seconds to 01-00-0 c-cc-cc-cc as the destination address . When reaching the holdtime of 180 seconds , if not receiving the advertise from neighboring devices yet, the information of neighboring devices will be cleared.

Cisco Discovery Protocol (CDP) is a proprietary protocol designed by Cisco to help administrators collect information about both locally attached and remote devices. By using CDP, you can gather hardware and protocol information about neighbor devices, which is useful info for troubleshooting and documenting the network.

Router1#Show cdp neighbor

Capability Codes: R - Router, T - Trans Bridge, B - Source Route Bridge
                              S - Switch, H - Host, I - IGMP, r - Repeater, P - Phone

Device ID        Local Intrfce       Holdtme         Capability       Platform          Port ID
Router1              Fas 0/1              141                   R               C1841            Fas 0/1

Router1#Show cdp neighbor details 

Device ID: Router2
Entry address(es):
  IP address : 192.168.100.1
Platform: cisco C1841, Capabilities: Router
Interface: FastEthernet0/1, Port ID (outgoing port): FastEthernet0/1
Holdtime: 162

Version :
Cisco IOS Software, 1841 Software (C1841-ADVIPSERVICESK9-M), Version 12.4(15)T1, RELEASE SOFTWARE
Technical Support: http://www.cisco.com/techsupport
Copyright (c) 1986-2007 by Cisco Systems, Inc.
Compiled Wed 18-Jul-07 04:52 by pt_team

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Duplex: full

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Canon goes to Hollywood

 by Lori Grunin

Those of you hoping that Canon's latest announcement, long-rumored to be a camera with extraspecial video capabilities, would be a 5D Mark III can now officially be disappointed. At about $20,000, this one ain't for the hobbyists or the still-images-firsters.

 

 (Credit: Canon USA)

The new series of cameras, dubbed Cinema EOS, consists of two models based around a new 4K Super35 CMOS sensor and incorporating the most current version of its Digic DV III image processor. The two models differ only by mount: the C300 PL uses a PL mount (developed by Arri for film cameras) and the C300 uses a Canon EF mount.

There had been speculation that the camera would either be a 4K or a 2K (HD) model, and it's oddly both and neither. While the sensor has a native 4K resolution, the cameras only output 2K, 1080/30p HD. As far as I can tell, the camera is binning (grouping into subblocks) the different colors to achieve higher low-light and color sensitivity; it uses Canon's XF codec, which supports 4:2:2 subsampling and outputs at a maximum bit rate of 50Mbps, both of which are arguably more important than more pixels. And this is a first generation, so the company has a little bit of time before it starts rolling out upstream models with higher resolution, though Canon's definitely lost the "cutting-edge" title to RED. The camera offers dual CompactFlash slots, though I don't know if they support UDMA 7, as well as a lot of features and menus found in the XF camcorder series.

The unit itself looks to be pretty small, at least given what filmmakers are used to, and for them the lack of autofocus and autoexposure probably won't matter. I'm kind of interested to see what aspects of this end up rolling downstream.

This is a system, of course, and that demands new lenses. Canon had announced a couple at NAB in the spring, PL and EF versions of a 14.5-60mm T2.6 and 30-300mm T2.95-3.7, and it will be delivering three new EF-mount primes optimized for the system: CTZ-029 (24mm T1.5), CTZ-030 (50mm T1.3), and CTZ-031 (85mm T1.3). They're supposedly optimized for the higher resolution requirements, and will of course work on standard EF mount cameras. That looks like a win for everyone. The primes are slated to ship in the summer of 2012 for $6800 each.

 

Canon concept camera (Credit: Canon USA)

When it ships in January, the Cinema EOS' $20,000 price will include important accessories, such as an external LCD and XLR unit. For a more in-depth initial analysis, check out DVInfo's coverage.

Canon also announced that it's working on a full-frame dSLR capable of 24p Motion JPEG 4K video recording that looks amazingly like a 1D X . I also have to say, Motion JPEG? Not exactly the video raw format everyone's looking for.

http://news.cnet.com

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