Samsung demonstrates 10.1-inch, 300dpi WQXGA penTile RGBW prototype tablet display

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Because tablets are regularly used for viewing rich-colored images, the 10.1-inch 300 dpidisplayis ideal for applications that require extraordinary image and text clarity such as browsing the web and viewing high-definition movies, or reading books and spreadsheets.

“In order to develop tablets with the form and function that consumers demand, a design engineer ultimately has to determine how to get the highest resolution display possible, while still fitting within the overall power budget for their design,” said Joel Pollack, executive vice president of Nouvoyance, Samsung’s affiliate company that developed the PenTile RGBW technology.

Lightness and power efficiency of the display are critical factors since higher resolution displays typically draw more power.

“Samsung’s PenTiledisplay technologyis the only display technology that operates at 40 percent less power yet provides twice that of Full HD-viewing performance for consumers compared to legacy RGB stripe LCDs. There is no other commercial display technology on the market today that offers this high of a resolution and pixel density in a 10.1-inch size display,” said Dr. Sungtae Shin, Senior VP ofSamsung Electronics.

PenTile RGBW WQXGA Technology Highlights

• This 10.1-inch tablet panel is capable of 300 cd/m²of luminance, yet uses 40 percent less power than that used by legacy RGB stripe LCDs in power-saving modes.

• An outdoor brightness mode of as much as 600 cd/m²luminance enables viewing in bright ambient lighting.

• The display’s color gamut is 72 percent., allowing greater color realism than legacy RGB stripe tablet displays that have a typical color gamut of 55 percent NTSC.

• PenTile technology achieves 300 dpi resolution with two-thirds the number of subpixels, maintaining the VESA/ICDM displayresolutionstandard.

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Intel updates Atom processor roadmap

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So, it can be no surprise that, rather than creating a line of processor specifically for smart phone and tablet PCs, the company has chosen to work with an existing line of processors. The Atom processor line, a well-established line of processors for laptops and desktops, is getting some new members to the family tree. The line of processors are expected to change and grow over the next three years. There will be three new chips in the Atom family, one in 2012, one in 2013 and one in 2014.

The chips are also going to show some significant changes with each generation released. The current generation of Atom processors has a 45nm technology node. Next years processors will be 32nm node, which are correctly sized to fit into a mobile phone or atablet PCeasily. In the following years we will see these chip numbers decrease, the chip that are slated to come out in 2013 are expected to have a 22nm technology node. That chip will be named the 'Silvermount'. It will reduce the power usage from the current 40W to just only the use of 15W. The 'Airmont', 14nm Atom processor, is expected to be rolled out in 2014.

So, you may soon see the trademarked"Intel Inside"on your next cell phone.

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Sharp, NHK develop 85-inch direct-view LCD display

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NHK began R&D into Super Hi-Vision, which has dramatically higher resolution than current HDTV, in 1995 and aims to begin trial broadcasts in 2020. With approximately 33 megapixels (7,680 x 4,320 pixels), or 16 times the resolution of HDTV, Super Hi-Vision will offer powerful, life-like image reproduction.

Under the joint development, Sharp’s UV2A LCD technology was used to create for the first time in the world a direct-view LCD compatible with the unprecedentedly highdisplayperformance of Super Hi-Vision. The incredibly detailed images on the giant screen will immerse the viewer in a virtual-reality-like experience. The display's brightness is 300 cd/m².

The LCD will be shown to the public at NHK’s Science&Technology Research Laboratories in Tokyo from May 26 to 29, 2011.

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300-dpi: Epson, E-ink give ePaper a resolution boost

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Today E Ink andSeiko Epsonhave announced a joint venture that will create a 300-dpielectronic paperdevice for ePaper document readers. This will represent a fusion of Epson's high-speed display controller platform and E Ink'shigh-resolutionePaper display. The combination of these systems has the potential to create the highest-resolution E-ink system on the market.

The machine, which will have a display size of 9.68 inches on the diagonal, with a resolution of 2,400 x 1,650. This translates to roughly 3.96 million pixels on the display screen. The screen will, as all E-ink devices do, have a thin body and a glare free screen with a very lowpower consumptionrate.

Epson will manufacture and sell the E-ink devices, though there has yet to be any word about when the system will be in use or how much the devices will cost. We do know that Epson is going to target the devices to business and educational users where the higher resolution of the screens is not just appreciated but necessary in order to process some of the types of data collected.

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DonanimHaber leaks data on new AMD processors

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So, it can be no surprise when data about a new processor is leaked. The newest leak come to us fromDonanimHaber. The site has published a report that details the information on the newestmobile processorthatAMDplans to release later in this year.

The processor, which has been dubbed the A8-3530MX is expected to launch as part of the company's LlanonotebookAPU line of machines, which will feature a set of four processing cores and an integratedgraphics processorthat has the Northbridge components embedded in the chipset.

The four cores in the CPU will each be capable of operating at a base frequency of 1.9GHz. The processors can get a boost, with the help of a TurboCore they will be able to reach a top speed of up to 2.6GHz. Either way, the processor will be paired with 4MB of L2 cache.

The graphics are being handled by a Radeon HD 6620G, which has been clocked at 444MHz. This is actually a bit slower than some of the current options, which can be clocked to 500MHz that you will find inside the low-voltage E-240 and E-350 machines. The system will also be capable ofBlu-ray3D playback.

No word yet on which machines this processor will make its way into or what the machines will cost.

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Apple upgrades iMacs with quad-core processors

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The new iMacs all have Intel quad-core processors, which were available as an upgrade to the standard dual-core processors of the previous generation. Apple Inc. says the new models are up to 70 percent faster.

The new 21.5-inch iMac has a singleThunderboltport, which can carry data at speeds 20 times higher than most current USB ports. It can also connect to additional monitors. The 27-inch iMac has two Thunderbolt ports.

Apple introduced Thunderbolt on MacBook Pro laptops in February. The port was developed byIntelCorp.

The 21-inch iMac starts at $1,199, the larger model at $1,699.

Apple last revamped its iMacs in October 2009.

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For computer chip builders, only one way to go: Up

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Analysts call it one of the most significant developments in silicon transistor design since the integrated circuit was invented in the 1950s. It opens the way for faster smartphones, lighter laptops and a new generation of supercomputers - and possibly for powerful new products engineers have yet to dream up.

Minuscule fins jutting from the surface of the typically flat transistors improve performance without adding size, just as skyscrapers make the most of a small square of land.

"When I looked at it, I did a big, 'Wow,'"said Dan Hutcheson, a longtimesemiconductor industrywatcher and CEO of VLSI Research Inc."What we've seen for decades now have been evolutionary changes to the technology. This is definitely a revolutionary change."

Intel CEO Paul Otellini said that"amazing, world-shaping devices"will be created using the new technology.

Computers are already doing things that were almost unimaginable when Intel co-founder Gordon Moore made his famous prediction in 1965 that computers should double in power every two years. The axiom, known as Moore's Law, has held true ever since as computers have gotten cheaper, smaller and more powerful.

Engineers believe Intel's new transistors will keep the axiom going for years to come. Chips with the 3-D transistors will be in full production this year and appear in computers in 2012.

When Moore's Law was first coined, the most advanced computers were large, mainframe-type machines that took up entire rooms and were best suited for narrow tasks done one at a time.

Today we have smartphones that let us carry around the Internet in our pocket, supercomputers that have beaten Jeopardy! and chess champions, and even experimental cars that drive themselves. Technologists entertain visions of even deeper integration of artificial intelligence into our lives as computer technology advances, such as robots performing surgery.

Transistors, tiny on/off switches that regulate electric current, are the workhorses of modern electronics. They're to computers what synapses are to the human nervous system. They have become faster over the years thanks to new materials and manufacturing techniques, but Intel's latest advance is a redesign of the transistor itself.

A chip can have a billion transistors, all laid out side by side in a single layer, as if they were the streets of a city. Chips have had no"depth"- until now. On Intel's chips, the fins will jut up from that streetscape, sort of like bridges or overpasses.

The fins give the transistor three"gates"to control the flow of electric current, instead of just one. That helps prevent current from escaping. There's a limit to how much current a chip can take, and the new design allows more of that power to be spent on computing rather than being wasted.

Intel has been talking about 3-D, or"tri-gate,"transistors for nearly a decade, and other companies are experimenting with similar technology. Wednesday's announcement is noteworthy because Intel has figured out how to manufacture the transistors cheaply in mass quantities.

Other semiconductor companies argue that there's still life to be squeezed from the current design of transistors, but Intel's approach still allows it to advance at least a generation ahead of rivals such as IBM Corp. and Advanced Micro Devices Inc.

Intel's approach carries some risks because the technology is untested on the mass market. But Doug Freedman, an analyst with Gleacher&Co., said Intel's approach might actually reduce chip defects if the multiple gates make the transistors more reliable.

"Intel takes big gambles when it knows what it's doing,"Freedman said.

The reduced power consumption also addresses a key need for Intel, which is the dominant maker of chips for personal computers but has been weak in the growing markets for chips used in smartphones and tablet computers. Intel's current chips use too much power for it to be competitive in those markets, and the 3-D chips could help it become more of a player.

Transistors are microscopic, but their performance is felt with every click of a mouse, tap on a smartphone or download from a website. The faster they twitch, the faster a computer"thinks"- and sucks up power.

They need to get smaller without leaking too much power, a worrisome issue as the materials reach the atomic scale and get worse at blocking current from escaping.

Intel's advance does not add a complete third dimension to chip-making - that is, the company can't add an entire second layer of transistors to a chip, or start stacking layers into a cube. That remains a distant but hotly pursued goal of the industry, as cubic chips could be much faster that flat ones while consuming less power.

And the technological advance Intel has achieved won't guarantee success, asIntelhas learned in repeated attempts at cracking the mobile market. The performance expectations and power requirements for phones and tablet computers are not as high as those for PCs.

Other chip makers such as Qualcomm Inc. and Texas Instruments Inc. have entrenched partnerships with cellphone makers that Hutcheson, the industry watcher with VLSI Research, said will be tough to overcome.

"When it comes to the mobile market, they have their work cut out for them,"he said. But"this gives you thetransistorsto build the next great system."

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Intel redesigns transistors for faster computers

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The switches, known astransistors, have typically been flat. By adding a third dimension -"fins"that jut up from the base -Intelwill be able to make the transistors and chips smaller. Think of how skyscrapers address the need for more office space when land is scarce.

The company said the new structure will let chips run on less power. That gives Intel its best shot yet at cracking the growing markets for chips used in smartphones and tablet computers. Intel has been weak there because its current chips use too much power.

Chips with the 3-D transistors will be in full production this year and appear in computers in 2012.

Intel has been talking about 3-D, or"tri-gate,"transistors for nearly a decade, and other companies are experimenting with similar technology. The announcement is noteworthy because Intel has figured out how to manufacture the transistors cheaply in mass quantities.

Transistors are at the center of the digital universe. They're the workhorses of modern electronics, tiny on/off switches that regulate electric current. They're to computers what synapses are to the human nervous system.

Transistors operate in the shadows, but they're integral to daily life. And they need to shrink, so that computers can get smaller and smarter.

A chip can have a billion transistors, all laid out side by side in a single layer, as if they were the streets of a city. Chips have no"depth"- until now. On Intel's chips, the fins will jut up from that streetscape, sort of like bridges or overpasses.

However, Intel's advance doesn't mean it can add a whole second layer of transistors to the chip, or start stacking layers into a cube. That remains a distant but hotly pursued goal of the industry, as cubic chips could be much faster that flat ones while consuming less power.

Enlarge

An illustration of a 32nm transistor compared to a 22nm transistor. On the left side is the 32nm planar transistor in which the current (represented by the yellow dots) flows in a plane underneath the gate. On the right is the 22nm 3-D Tri-Gate transistor with current flowing on 3 sides of a vertical fin.

The demand is there for smartphones that deliver the Internet in our pockets, supercomputers that beat human champions at"Jeopardy!,"and other feats of computer wizardry that would have been impossible in the 1970s. Processors then could only hold several thousand transistors. Today they hold billions.

The latest change isn't something that consumers will be able to see because it happens at a microscopic level. But analysts call it one of the most significant shifts in silicon transistor design since the integrated circuit was invented more than half a century ago.

"When I looked at it, I did a big, 'Wow.' What we've seen for decades now have been evolutionary changes to the technology. This is definitely a revolutionary change,"said Dan Hutcheson, a longtime semiconductor industry watcher and CEO of VLSI Research Inc., who was briefed ahead of time on Intel's announcement.

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For consumers, the fact that Intel's transistors will have a third dimension means that they can expect a continuation of Moore's Law. The famous axiom, pronounced in 1965 by Intel co-founder Gordon Moore, has guided the computer industry's efforts and given us decade after decade of cheaper and more powerful computers.

The core of Moore's prediction is that computer performance will double every two years as the number of transistors on the chips roughly doubles as well. The progress has been threatened as transistors have been shrunken down to absurd proportions, and engineers have confronted physical limitations on how much smaller they can go. Controlling power leakage is a central concern.

For Intel, which is based in Santa Clara, Calif., the change is a reminder of its leadership in advanced semiconductor technology and its incentive to keep Moore's Law alive.

Previous major changes have focused on new materials that can be used for transistors, not entire redesigns of the transistors themselves.

"People have been trying to avoid changing the structure,"Hutcheson said.

Other semiconductor companies argue that there's still life to be squeezed from the current design of transistors. Hutcheson agrees, but said Intel's approach should allow it to advance at least a generation ahead of its rivals, which include IBM Corp. and Advanced Micro Devices Inc.

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The reduced power consumption addresses a key need for Intel.

The performance expectations and power requirements for PCs are much higher than they are for phones and tablet computers, so Intel's dominance in PC chips doesn't necessarily lead to success in mobile devices. Even Intel's Atom-based chips, which are designed for mobile devices, have been criticized as too power hungry.

The new technology will be used for Intel's PC chips and its Atom line.

Technological leadership alone won't guarantee success, however, as Intel has learned in repeated attempts at cracking the mobile market.

Other chip makers such as Qualcomm Inc. and Texas Instruments Inc. have entrenched partnerships with cellphone makers, and there is suspicion about the performance of Intel's chips in mobile devices.

"When it comes to the mobile market, they have their work cut out for them,"Hutcheson said of Intel. But"this gives you the transistors to build the next great system."

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The $25 educational PC

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Mr. Braben has developed a very small USB stick PC that has an HDMI port in one end and aUSB porton the other. The machine, which runs on a version ofLinux, is designed to help get programming and the general knowledge of how computers work back into the educational curriculum.

Mr. Braben’s central argument stems around the notion that computer science education has, in the 2000’s, veered away from development and towards teaching basic skills such as creating custom documents in a word processor, or making presentations, instead of higher-level skills, such as leaning about system architecture or development.

These small PC’s, which would cost about $25 a unit, would be able to be furnished to each student, and have courses structured around their use.

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You may be wondering what kind of hardware students will be able to get for that cost? As it turns out, the offerings are pretty solid. The system features a 700MHz ARM11 processor, which is paired with 128MB of RAM. The system runs OpenGL ES 2.0, which will allow it to have a decent level of graphics performance. The system is already confirmed to have 1080p output. An SD card slot provides storage for this unit.

This computer will be distributed by the Raspberry Pi Foundation, which promotes computer science education in schools. There is no final word on when the devices will be available, but its developer hopes to be shipping them out in the next 12 months.

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Seagate breaks areal density barrier: Unveils hard drive featuring 1 terabyte per platter

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Seagate’s GoFlex Desk products are the first to feature the newhard drive, delivering storage capacities of up to 3TB and anareal densityof 625 Gigabits per square inch, the industry’s highest.Seagateis on track to ship its flagship 3.5-inch Barracuda desktop hard drive with 3TBs of storage on 3 disk platters– enough capacity to store up to 120 high-definition movies, 1,500 video games, thousands of photos or virtually countless hours of digital music– to the distribution channel in mid-2011. The drive will also be available in capacities of 2TB, 1.5TB and 1TB.

GoFlex Desk external drives are compatible with both the Windows operating system and Mac computers. Each drive includes an NTFS driver for Mac, which allows the drive to store and access files from both Windows and Mac OS X computers without reformatting. The GoFlex Desk external drive’s sleek black 3.5-inch design sits either vertically or horizontally to accommodate any desktop environment.

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