Apple’s latest third generation iPad with stunning new Retina Display, a million more pixels than on HDTV the best display ever on a mobile device), 5 Mega Pixel iSight Camera, and ultra-fast 4G LTE, scheduled to release in India on 27th April 2012, with a starting price of $499.

Use your new iPad as a personal hotspot, if your carrier supports it, iPad can act as a personal hotspot for connecting up to five devices — such as a MacBook Air, an iPod touch, or another iPad — over Wi-Fi, Bluetooth, or USB.

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With Windows 8 now on a clearer path to release, expect the big device makers to try to crash the raucous Apple party with Microsoft leading the way.

Whither Android? So far, the only Android tablet supplier to come close to busting up the nonstop iPad festivities is Amazon.

That’s high irony. Amazon is hardly a hardware company. And certainly a far cry from the likes of Motorola, Dell, Sony, Toshiba, Samsung, and Asus. All of which have failed to come up with a blockbuster Android alternative to the iPad. (Samsung and Asus have had limited success, but nothing that rivals the iPad in numbers.)

Here’s what Deutsche Bank’s Chris Whitmore said this week in a research note below a heading entitled “No iPad-killer in this bunch.”

Analyst unsure about Android: “In the past 12 months, the tablet market has been flooded with a slew of Android-based devices; none of which have matched the success of the iPad. From a hardware perspective, it is clear most offerings are ‘me-too’ with little to no differentiation.”

Whitmore continues. “We continue to believe these Android-based ‘iPad-killers’ will fall short. Many [device makers] seem to agree and are shifting their efforts on Win8 based tablets, which should ship in 2H12 (second half 2012).”

And this week that shift gained some velocity when Microsoft provided more clarity about Windows 8 on ARM in fairly exacting detail.

Waiting for a Windows 8 tablet: Personally, I’m anxious to get my hands on a Win 8 tablet from, say, Hewlett-Packard, Dell, Sony, or Samsung. Why? My experience (going on two months now) with the Motorola-Verizon XyBoard 10.1 (aka, Xoom 2) running Android 3.2 has been less than satisfying (though I do love Motorola’s thin, lightweight design). In short, Android on my XyBoard doesn’t have the reliability of iOS on my iPad 2.

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The default Android browser often fails at doing really basic things like rendering Web pages quickly and opening mobile Web pages on some sites (forcing the browser to default to “desktop” seems to help). Other browsers like Opera Mobile are fast but have other shortcomings. Seem trivial? When you use the Web a lot like I do it’s not (and I could go on, but that’s for another post on another day).

Maybe I’m whining but here’s the rub: I don’t have these problems on the iPad. And I get the uneasy feeling that Motorola and/or Verizon don’t have the laserlike focus that Apple has on product support. And Google’s highly fragmented approach to upgrading Android (who knows when my XyBoard will get Android 4.0?) only makes things worse.

Maybe Microsoft brand + smooth user experience can offer a good iPad alternative: And this is where Microsoft has a shot at making things better. If Hewlett-Packard, for instance, can deliver a smooth (the catchall word to describe what Apple provides and Android lacks) experience on a Windows 8 tablet, plus access to a full version of Microsoft Office and Windows’ file system to boot, that would be enough to give consumers pause when considering an iPad.

And Microsoft can use its most lethal weapon (Office) to turn the tablet into more of a creation/productivity device. The iPad (or any tablet for that matter) is still largely a passive experience.

Discipline is needed too. Microsoft has plenty of experience with making sure the user experience is relatively stable across different brands. In fact, some heavy-handed, authoritarian oversight never hurts when it comes to making sure the experience is smooth (Apple comes to mind).

Who knows, Microsoft may even steer buyers away from a next-generation 9-inch Kindle Fire while pulling consumers out of the long iPad lines.

If the price is right, that is. Needless to say, if Windows 8 tablets are not price competitive with the iPad, all bets are off.

Author: Brooke Crothers

Brooke Crothers writes about small devices and the hardware inside. He has served as editor at large at CNET News and a contributing reporter to The New York Times’ Bits and Technology sections. His interest in things small began when living in Tokyo in a very small apartment for a very long time. He is a member of the CNET Blog Network and is not an employee of CNET.

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By Richard Adhikari TechNewsWorld 01/13/12 11:53 AM PT

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Scientists at IBM have apparently discovered the absolute minimum amount of data required to store a bit of data: a dozen atoms. They stored code for the word “think” using under 100 iron atoms, using a scanning tunneling microscope to engineer antiferromagnetically coupled atoms that store data for hours at low temperatures.

Researchers at IBM’s (NYSE: IBM) Almaden Labs have created a 12-atom magnetic memory bit, in a continuation of work on atomic-level memory storage first posited in 1959 by American physicist Richard Feynman.

This image shows a magnetic byte imaged five times in different magnetic states to store the ASCII code for each letter of the word “THINK,” a corporate mantra used by IBM since 1914. The team achieved this using 96 iron atoms — one bit was stored by 12 atoms and there are eight bits in each byte.

Disk drives currently use about 1 million atoms to store a single bit of information, according to IBM.

The scientists used antiferromagnetism to achieve their result.

They stored the ASCII code for the word “Think” on 96 iron atoms using this approach.

“This atomic storage is not something you’ll see coming to a Best Buy (NYSE: BBY) near you, but it’s an indication of the way the IT industry continues to find innovative ways around the limitations of storage technology,” Charles King, principal analyst at Pund-IT, told TechNewsWorld.

“What’s interesting about this is, people have wondered where the brick wall is — the maximum amount of data that can be stored magnetically,” Jim Handy, an analyst at Objective Analysis, told TechNewsWorld. “The researchers worked this backwards, to find out what’s the minimum amount of storage we’ll need.”

IBM did not respond to requests to comment for this story.

How IBM’s Process Works

The IBM scientists used a scanning tunneling microscope (STM) to engineer 12 antiferromagnetically coupled atoms that stored a bit of data for hours at low temperatures.

In the simplest terms, the spin of electrons in atoms of antiferromagnetic materials aligns in a regular pattern with those of their neighbors pointing in opposite directions.

Visualize a flat surface with arrows in a 4 by 4 pattern — four rows and four columns. The arrows in each row and column alternately point up or down, so an arrow pointing up will have its neighbors to the sides and immediately above and below pointing down, for example.

Antiferromagnetic order exists at low temperatures, and vanishes at and above the Neel temperature. This temperature depends on the material used.

In order to store the ASCII code for the word “Think,” the researchers had to image a magnetic byte (one byte = 8 bits = 96 atoms at 12 atoms per bit) five times in different magnetic states.

The Long, Hard Road to Market

Given that the process of writing data onto a magnetic byte is tortuous, and can only be carried out at low temperatures, it’s not likely that IBM will be able to commercialize its atomic storage technology any time soon.

“With an announcement like this, you’d expect a five- to 15-year horizon with risk at the back end,” Rob Enderle, principal analyst at the Enderle Group, told TechNewsWorld. “Manufacturing to scale is often a very difficult problem to solve with a technology like this, which is why the very wide range.”

Come Play With My STM

A scanning tunneling microscope is an instrument used to image surfaces at the atomic level. IBM Zurich researchers Gerd Binnig and Heinrich Rohrer developed the device in 1981 and won the Nobel Prize in Physics in 1986 for it.

The STM is based on the concept of quantum tunneling.

The atomic storage developed by IBM researchers follows on from previous experiments using the STM.

In September of 2010, IBM researchers used the STM to take 100,000 snapshots of an atom within less than one second. This let them look into what’s happening in individual atoms in close to real time, and paved the way for the creation of ultra-high density storage devices, among other things.

In April of 2010, IBM scientists in Switzerland used the STM to create a 3D replica of the world that measured 22 x 11 micrometers. That technology could be useful in the semiconductor industry, among other areas, they said at the time.

40 Years On

IBM’s work in atomic storage follows on from an experiment conducted in 2002 by University of Wisconsin physics professor Franz Himpsel.

Himpsel created two-dimensional atomic storage on silicon using a small amount of gold using an STM. He used 20 atoms to represent one bit of data.

That work was sparked by a lecture American physicist Richard Feynman gave in 1959 at an American Physical Society meeting. Feynman had suggested, among other things, that it should be possible to make nanoscale machines that arrange atoms the way researchers want.

Courtesy:Technewsworld.com

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