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seo upcoming laptop 2013 2013

Seo Master present to you:

Samsung Series 3 NP350V5C Review


Samsung Series 3 NP350V5C
Samsung Series 3 NP350V5C is a lightweight mid-range gaming laptop with Intel Core i7-3610QM, AMD Radeon HD 7670M GPU, 750GB hard drive and 8GB of RAM. The laptop delivers sufficient computing and multimedia performance. Priced at 999 euro, the Samsung Series 3 NP350V5C is significantly cheaper than more serious gaming behemoths. The 15-incher machine comes with a diverse array of ports; a couple of USB 3.0 ports, VGA port, full-sized HDMI port. The laptop uses 15” 1366 x 768 full HD LED-backlit display, which unfortunately shows annoying reflection when used outdoors.
The upper mid-range hardware configuration offers adequate performance for average gaming. Skyrim scores about 35fps at high detail settings, but slumps to 19fps when battery-saving mode is enabled. The notebook pleasantly hums at 32dB at idle with occasional clacking noise from the hard drive. It runs for 5 hours 40 minutes at idle, with minimal brightness and WLAN turned off; and slightly more than one hour under full load with maximum display brightness.

AMD will Release Brazos 2.0 Processors in 2013


AMD Brazos 2.0 Processors
Netbook users would be familiar with AMD’s APU solutions, which combines a processor and integrated graphics solution. Unlike Intel’s built-in graphics capability, AMD’s platforms work more like dedicated graphic cards, allowing fluid full HD video playback and DirectX 11 representations. After releasing the highly efficient C50/C60 and the more powerful E350/E450, the company released the E2-1800, which turned out to be a disappointment with its slight performance increase compared to the E450.
In 2013, we would start to see ultra-portable laptops running the new E2-2000 dual-core processor clocked at 1.75GHz. The APU will feature 1MB of cache the Radeon HD7340 GPU (538-700MHz). From the technical standpoint, this would easily look like AMD’s attempt to rebrand the earlier E2-1800, as the 50MHz clock increase would offer nearly indiscernible performance boost during daily usages.
Significant improvements wouldn’t arrive until AMD releases APUs with 28nm Kabini core, which will be aimed to replace all Brazos chips in the market.

Asus BU400A Ultrabook Will be Available in 2013



Asus BU400A Ultrabook


Consumers will start seeing the Asus BU400A ultrabook with touchscreen display in January 2013. The machine is aimed for enterprise use and although it doesn’t look quite as svelte as Asus’ Zenbook lineup, the BU400A is still a lightweight enough for any traveling businessperson. The laptop features a spill-resistant keyboard, HD display and solid carbon frame, as well fingerprint scanner, trusted protection module and data encryption.
The anti-shock system would easily protect the data stored within the mechanical hard drive. A more ultrabook-like version comes with a SSD for extra performance and reliability. The BU400A supports Windows 8 OS and its features, including the gestures. Weighing about 3.6lbs, the sleek laptop features SD card ports, VGA and USB 3.0.
In terms of processing and graphical powers, Asus BU400A will be equipped with 3rd generation Intel Core processors and Nvidia NVS 5200M graphic card. The Computrace LoJack and Intel’s Anti-Theft technology would help users retrieve stolen or lost notebooks and prevent harmful intrusions to enterprise data.

Retina Macbook Air Will Be Unveiled in 2013


MacBook Air

Analysts say that there will be some big changes in Apple’s lineup in 2013. The company may introduce a Retina Display version of MacBook Air along with Retina iPad Mini in 2013. The new MacBook could have the new Mac OS X 10.9 under the hood and the iOS 7 would be released some point next year too.
Loyal Apple fans should get excited with other new devices the company plan to release in 2013. For example, huge Apple TV sets with screen sizes somewhere between 42” and 55” would be available for about $2000 at around Christmas 2013. The TV will serve as a hub that connects multiple iDevices near the area. The TV may include FaceTime, Siri and support for iOS apps.
Along with the Retina MacBook Air, the company will also launch the iPad Mini 2, which currently lacks full-HD resolution. This would address one significant issue that plagues the original iPad Mini. The display technology would also significantly enhance user experience for MacBook Air owners.

Intel Bay Trail-T Laptops Will be Released in 2013


Intel Bay Trail-T Laptops


The Bay Trail-T is a direct follow-on of the current Clover Trail platform. With the 22nm architecture, these new processor models will require only half the power consumption of the 32nm Clover Trail. A leaked document shows that a machine running Bay Trail-T can go for about 11 hours, whereas the older Clover Trail offers only 9 hours of operational time with the same battery capacity.
The Bay Trail-T has bumped the number of cores to four, with clock rate ranging from 1.5GHz to 2.1 GHz, which means the new platform should provide nearly 60 percent of performance increase compared to the Clover Trail.
Bay Trail-T processors are fully optimized for Windows 8 notebooks, with the Intel HD 4000 integrated graphics solution, also used by the current Ivy Bridge chips. This would allow Bay Trail-T machines to have up to 2560 x 1600 pixels resolution and three-fold boost in performance

Touchscreen Notebook Manufacturers May Face Serious Supply Problems in 2013


New Notebook





PC maker looking delivers a large number of touchscreen notebooks may suffer supply problems in 2013. Major vendors like Asus, Acer, Lenovo, HP, Sony and Dell are struggling to acquire a steady supply of touchscreen component for their notebooks. Current touch panel makers are still concentrating on huge demands in smartphones and tablet market.
Also, there is almost no indication that consumers want touch-based Windows 8 notebooks, although the new OS version is fully optimized for touch operations. Acer expects that touchscreen notebooks will account for 15 to 30 percent of its total shipment in 2013, if Windows 8 successfully reshapes the PC industry by encouraging people to use the touch-based interface more.
As touch panels makers are still fully committed to satisfy demands in mobile industry, notebook vendors will experience poor yield rates. Compal further reiterates this prediction that in 2013 the biggest hurdle for touch-based notebooks is not the lack of demand but supply.

How Windows 8 Would Affect Laptop Market in 2013?



Windows 8 Laptop
It is an undeniable fact that Microsoft Windows is dominating the computing world with its appealing user-friendly interface and support for a wide range of devices. Although some would quickly argue that Windows OS isn’t the best in the market, Microsoft has improved significantly and Windows 7 was often praised as its best Windows version yet. Windows 8 will arrive soon and the market would be inundated with new PCs and laptops designed specifically for the new OS.
If you are planning to purchase a Windows 8 laptop next year, there are a few changes to consider. Touch capability may finally arrive to laptops, as Windows 8 interface are fully optimized for both mouse/keyboard input and touch. It is also important to expect a lot of convertibles and hybrids, as Windows 8 finally allows these devices to work properly. It is also quite possible that there will be close integration between Windows Phone 8 smartphones and Windows 8 laptops.

Laptops with Haswell Processor Will Be Released in 2013



Laptops with Haswell Processor
Some new laptops released in 2013 are expected to deliver twice the performance and battery life with the new Intel “Haswell” Core processor. The new processor family will succeed Intel’s current mainstream processor family, the Ivy Bridge. Haswell will deliver twice the battery live and double the performance of Ivy Bridge. When used in Ultrabooks, this could be equal to approximately 6 to 8 hours of battery life.
The processor giant shed some light on the processor last September at the Intel Developer Forum. It claimed that the power consumption has been reduced sharply to the point where Haswell processor can run in tablets. The most power-efficient model of Ivy Bridge draws 17 Watts, while low-power versions of Haswell processors will draw 10 Watts during idle.
More powerful 15 Watts and 17 Watts models are also available for standard laptops. Haswell tablets running Windows 8 could reach performance levels never achieved before in the mobile industry. The ultrabook market has stagnated following the slumping PC industry and the Haswell processor family can create a spark that everybody needs.

Ultrabooks in 2013 Will Have Touch Capability



New Ultrabooks


Ultrabooks are known for their elegant, lightweight and slim design that delivers full-scale performance without sacrificing battery life. These devices are more portable than standard laptops and can be used anywhere. Despite its small footprint, they have all the features you need, including SSD drive and USB 3.0 ports.
Apparently, some manufacturers are noticing the eventual convergence between tablets and notebooks. Some tablets models can transform into netbooks with their docks or integrated physical keyboard, and in turn, some ultrabooks models in 2013 will have touch capability. This would significantly close the gap between two computing devices and offer consumers significantly much more options.
Future release of touch-capable ultrabooks is announced during the Annual One Summit in New Delhi, India. Intel and Microsoft are currently working to develop an exceptional touch experience in Windows 8 environment. Intel has also worked with Nuance to create an immersive voice-based capability, which allows voice commands on PC and laptops.

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2013, By: Seo Master

seo By 2013, computers will be 1000 times faster 2013

Seo Master present to you:
London: Get ready for the next-generation computers and smart phones that are up to 1,000 times faster than the systems you use today.
Computer maker IBM is developing “skyscraper” computers using huge sandwiches of silicon chips by sticking layer after layer of chips covered with tiny components together.
The process, for which IBM has roped in glue maker 3M, will make PCs and smart phones up to 1,000 times faster than the existing ones and are expected to be available in market as early as 2013.
3M currently makes heat resistant glues, adhesives used in the aerospace industry and sticky tapes, but the hi-tech glues created for IBM could actually be the key step towards making the next evolutionary leap in computing, the Daily Mail reported.
The attempts at piling chips vertically - known as 3D packaging - has so far been suffering from overheating. But, the new glues could potentially conduct heat through a stack of densely-packed chips and away from logic circuits that could be burnt out by the heat. The research aims to create “stacks” of up to 100 layers of silicon, the report said.
Mike Bowman, marketing manager for 3M, said, “This material fits underneath computer chips when they’re attached to printed circuit boards - the unique part of what we’re doing is that our glue conducts heat out to the edge of the sandwich. “Our glue will spread heat more evenly through the chip. With conventional chips, with just one or two layers, but once you’re stacking chips, the problem can become very severe.”
According to the researchers, a ball of advanced adhesive is placed between layers of chips, allowing up to 100 chips to be stacked without overheating.
”Today’s chips including those containing 3D transistors are in fact 2D chips that are still very flat structures,” Bernie Meyerson, a vice president of IBM research, said in a statement.
So far, most increases in computing power have been driven by scientific breakthroughs that allow chip makers to etch ever-smaller circuits onto ever-smaller chip wafers. The new ‘3D’ approach could accelerate gadgets such as tablet computers to unheard-of new speeds.
“Our scientists are aiming to develop materials that will allow us to package tremendous amounts of computing power into a new form factor - a silicon skyscraper,” said Meyerson. “We believe we can advance this, and create a new class of semiconductors - faster, with lower power usage, ideal for tablets and smart phones.”
Other 3M glues are used in hi-tech industries such as solar power, as well as in markedly lower-tech environments such as carpentry.
Both companies did not speculate on a release date for the new technology, but insiders said such versions could be on the market as early as 2013.
2013, By: Seo Master

seo Make Your Own Laptop A Touch Screen 2013

Seo Master present to you: Today's artist is not limited to pencil and paper. The digitization of the world has long been a part of the creative crowd and with the availability of touch screen laptopstoday even the most amateur can get a taste of expressing art directing into digital form.

Most artists, or anybody for that matter, have the foresight to purchase a laptop designed specifically with touch screen technology. And while many computers have the life expectancy of two to five years, most people don't have the inclination to fork over extra money for a new laptop. Most people simply didn't know there exist such a feature.

Regardless of your specific situation, anyone who desires the touch screen laptop functionality now can have it for less than two hundred dollars by the way of the TabletLaptop by NAVIsis. It allows for the touch screen functionality as an add-on option.

The minimum PC requirements are easy enough that only the dinosaurs of computers won't be able to meet. In fact, if you have a laptop any less than the minimum requirements, and you would like to upgrade, just go out and buy a new laptop. They aren't even expensive these days. But back to the point, most Windows home operating systems with a Pentium 500MHz or equivalent will do. The input is the later version USB 1.1 so every machine with a USB will do and an optical disk drive for the CD.

Some of the cool features are programmed to work integrated with Microsoft products. For example, in Microsoft Outlook, the add-on allows for creating and sending handwritten emails. The device is easy to install and allows for all the standard features of a touch screen laptop or tablet pc such as dynamically manage and control objects and applications without the need for a mouse.

The main complaint observable is that it further complicates the intended mobility of a laptop. The website promises a compact design, and as compact it can be, there is a physical size requirement that no amount of innovation, to today's knowledge, can eliminate. An effective detriment the laptops purpose of being portable.

Some specific design problems as differentiates the add-on from acting completely like a true native touch screen tablet. These laptops, such as the Toshiba touch screen laptop, offer a swivel screen that flips and twists and folds backwards that an ordinary laptop with an add-on cannot. Being able to fold backwards allows the user to write on the screen much more intuitively than a regular laptop screen.2013, By: Seo Master

seo History of computer 2013

Seo Master present to you: History of computer
A computer is a general purpose device that can be programmed to carry out a finite set of arithmetic or logical operations. Since a sequence of operations can be readily changed, the computer can solve more than one kind of problem.

Conventionally, a computer consists of at least one processing element, typically a central processing unit (CPU) and some form of memory. The processing element carries out arithmetic and logic operations, and a sequencing and control unit that can change the order of operations based on stored information. Peripheral devices allow information to be retrieved from an external source, and the result of operations saved and retrieved.

The first electronic digital computers were developed between 1940 and 1945 in the United Kingdom and United States. Originally they were the size of a large room, consuming as much power as several hundred modern personal computers (PCs). In this era mechanical analog computers were used for military applications.

Modern computers based on integrated circuits are millions to billions of times more capable than the early machines, and occupy a fraction of the space. Simple computers are small enough to fit into mobile devices, and mobile computers can be powered by small batteries. Personal computers in their various forms are icons of the Information Age and are what most people think of as "computers". However, the embedded computers found in many devices from mp3 players to fighter aircraft and from toys to industrial robots are the most numerous.

History of computing
The first use of the word "computer" was recorded in 1613, referring to a person who carried out calculations, or computations, and the word continued with the same meaning until the middle of the 20th century. From the end of the 19th century the word began to take on its more familiar meaning, a machine that carries out computations.
Limited-function early computersThe history of the modern computer begins with two separate technologies, automated calculation and programmability, but no single device can be identified as the earliest computer, partly because of the inconsistent application of that term.

A few devices are worth mentioning though, like some mechanical aids to computing, which were very successful and survived for centuries until the advent of the electronic calculator, like the Sumerian abacus, designed around 2500 BC of which a descendant won a speed competition against a modern desk calculating machine in Japan in 1946, the slide rules, invented in the 1620s, which were carried on five Apollo space missions, including to the moon and arguably the astrolabe and the Antikythera mechanism, an ancient astronomical computer built by the Greeks around 80 BC.

The Greek mathematician Hero of Alexandria (c. 10–70 AD) built a mechanical theater which performed a play lasting 10 minutes and was operated by a complex system of ropes and drums that might be considered to be a means of deciding which parts of the mechanism performed which actions and when.This is the essence of programmability.

Around the end of the 10th century, the French monk Gerbert d'Aurillac brought back from Spain the drawings of a machine invented by the Moors that answered either Yes or No to the questions it was asked.Again in the 13th century, the monks Albertus Magnus and Roger Bacon built talking androids without any further development (Albertus Magnus complained that he had wasted forty years of his life when Thomas Aquinas, terrified by his machine, destroyed it).

In 1642, the Renaissance saw the invention of the mechanical calculator, a device that could perform all four arithmetic operations without relying on human intelligence. The mechanical calculator was at the root of the development of computers in two separate ways. Initially, it was in trying to develop more powerful and more flexible calculators that the computer was first theorized by Charles Babbage and then developed. Secondly, development of a low-cost electronic calculator, successor to the mechanical calculator, resulted in the development by Intel of the first commercially available microprocessor integrated circuit.
First general-purpose computers
In 1801, Joseph Marie Jacquard made an improvement to the textile loom by introducing a series of punched paper cards as a template which allowed his loom to weave intricate patterns automatically. The resulting Jacquard loom was an important step in the development of computers because the use of punched cards to define woven patterns can be viewed as an early, albeit limited, form of programmability.

It was the fusion of automatic calculation with programmability that produced the first recognizable computers. In 1837, Charles Babbage was the first to conceptualize and design a fully programmable mechanical computer, his analytical engine.

Limited finances and Babbage's inability to resist tinkering with the design meant that the device was never completed—nevertheless his son, Henry Babbage, completed a simplified version of the analytical engine's computing unit (the mill) in 1888. He gave a successful demonstration of its use in computing tables in 1906. This machine was given to the Science museum in South Kensington in 1910.

In the late 1880s, Herman Hollerith invented the recording of data on a machine-readable medium. Earlier uses of machine-readable media had been for control, not data. "After some initial trials with paper tape, he settled on punched cards ..." To process these punched cards he invented the tabulator, and the keypunch machines.

These three inventions were the foundation of the modern information processing industry. Large-scale automated data processing of punched cards was performed for the 1890 United States Census by Hollerith's company, which later became the core of IBM. By the end of the 19th century a number of ideas and technologies, that would later prove useful in the realization of practical computers, had begun to appear: Boolean algebra, the vacuum tube (thermionic valve), punched cards and tape, and the teleprinter.

During the first half of the 20th century, many scientific computing needs were met by increasingly sophisticated analog computers, which used a direct mechanical or electrical model of the problem as a basis for computation. However, these were not programmable and generally lacked the versatility and accuracy of modern digital computers.

Alan Turing is widely regarded as the father of modern computer science. In 1936 Turing provided an influential formalisation of the concept of the algorithm and computation with the Turing machine, providing a blueprint for the electronic digital computer. Of his role in the creation of the modern computer, Time magazine in naming Turing one of the 100 most influential people of the 20th century, states: "The fact remains that everyone who taps at a keyboard, opening a spreadsheet or a word-processing program, is working on an incarnation of a Turing machine".

The Atanasoff–Berry Computer (ABC) was the world's first electronic digital computer, albeit not programmable. Atanasoff is considered to be one of the fathers of the computer.Conceived in 1937 by Iowa State College physics professor John Atanasoff, and built with the assistance of graduate student Clifford Berry, the machine was not programmable, being designed only to solve systems of linear equations. The computer did employ parallel computation. A 1973 court ruling in a patent dispute found that the patent for the 1946 ENIAC computer derived from the Atanasoff–Berry Computer.

The first program-controlled computer was invented by Konrad Zuse, who built the Z3, an electromechanical computing machine, in 1941.The first programmable electronic computer was the Colossus, built in 1943 by Tommy Flowers.

George Stibitz is internationally recognized as a father of the modern digital computer. While working at Bell Labs in November 1937, Stibitz invented and built a relay-based calculator he dubbed the "Model K" (for "kitchen table", on which he had assembled it), which was the first to use binary circuits to perform an arithmetic operation.

Later models added greater sophistication including complex arithmetic and programmability. A succession of steadily more powerful and flexible computing devices were constructed in the 1930s and 1940s, gradually adding the key features that are seen in modern computers. The use of digital electronics (largely invented by Claude Shannon in 1937) and more flexible programmability were vitally important steps, but defining one point along this road as "the first digital electronic computer" is difficult.Shannon 1940 Notable achievements include:
Konrad Zuse's electromechanical "Z machines". The Z3 (1941) was the first working machine featuring binary arithmetic, including floating point arithmetic and a measure of programmability. In 1998 the Z3 was proved to be Turing complete, therefore being the world's first operational computer.

The non-programmable Atanasoff–Berry Computer (commenced in 1937, completed in 1941) which used vacuum tube based computation, binary numbers, and regenerative capacitor memory. The use of regenerative memory allowed it to be much more compact than its peers (being approximately the size of a large desk or workbench), since intermediate results could be stored and then fed back into the same set of computation elements.
The secret British Colossus computers (1943), which had limited programmability but demonstrated that a device using thousands of tubes could be reasonably reliable and electronically reprogrammable. It was used for breaking German wartime codes. The Harvard Mark I (1944), a large-scale electromechanical computer with limited programmability.

The U.S. Army's Ballistic Research Laboratory ENIAC (1946), which used decimal arithmetic and is sometimes called the first general purpose electronic computer (since Konrad Zuse's Z3 of 1941 used electromagnets instead of electronics). Initially, however, ENIAC had an inflexible architecture which essentially required rewiring to change its programming.

Source: Wikipedia
2013, By: Seo Master
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