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By Lamont Wood
Special to LiveScience
posted: 08 April 2007
11:34 pm ET
Just when you got used to hard drives with hundreds of gigabytes (hundreds of billions of bytes) they do it: make one with a terabyte (a trillion bytes).
Yes, you can now get a terabyte hard drive on a desktop PC. Breaking the ice with a Hitachi drive was Dell, with Area 51 game-oriented machines from its Alienware subsidiary. The 1T option initially costs $500.
In case youre wondering, as printed text a terabyte would occupy 100 million reams of paper, consuming some 50,000 trees. It is enough to hold 16 days (not hours) of DVD-quality video, or a million pictures, or almost two years worth of continuous music.
You might not have any songs that last for two years, but thats irrelevant, indicated Henry Baltazar, storage analyst for The 451 Group, a technology analyst firm in San Francisco. There will be a demand for it, since a lot of people have digital media, like movies, pictures and music, Baltazar told LiveScience.
Larger devices will become more commonplace, and we will see the same kind of transition from gigabyte to terabyte drives as we previously saw from megabyte to gigabyte drivesin fact, the move from 500 gigabytes to a terabyte has taken longer than expected.
The leap from 500G to 1T required a breakthrough in areal density (how tight the bytes are packed on the surface of the disk), according to Doug Pickford, a marketing executive at Hitachi Global Storage Technologies. The trick, he explained, was to move to Perpendicular Magnetic Recording (PMR), where each bit is a perpendicular rather than a linear magnetized spot on the diskas if the bits were standing up rather than lying down.
Currently, areal density is growing at about 35 to 40 percent per year, and the techniques used to create the 1T drive are expandable to make a 5T drive, Pickford said. More work will be needed to surpass the 5T hurdle, but he foresaw no physical limitations until drives reach a capacity of at least 50T.
At that point, theyll hold about a century of music.
Incidentally, for planning purposes, the next level is the petabyte (a quadrillion bytes); and then the exabyte (one quintillion bytes); and then the zettabyte (one sextillion bytes); and then the yottabyte (one septillion bytes.)
Special to LiveScience
posted: 08 April 2007
11:34 pm ET
Just when you got used to hard drives with hundreds of gigabytes (hundreds of billions of bytes) they do it: make one with a terabyte (a trillion bytes).
Yes, you can now get a terabyte hard drive on a desktop PC. Breaking the ice with a Hitachi drive was Dell, with Area 51 game-oriented machines from its Alienware subsidiary. The 1T option initially costs $500.
In case youre wondering, as printed text a terabyte would occupy 100 million reams of paper, consuming some 50,000 trees. It is enough to hold 16 days (not hours) of DVD-quality video, or a million pictures, or almost two years worth of continuous music.
You might not have any songs that last for two years, but thats irrelevant, indicated Henry Baltazar, storage analyst for The 451 Group, a technology analyst firm in San Francisco. There will be a demand for it, since a lot of people have digital media, like movies, pictures and music, Baltazar told LiveScience.
Larger devices will become more commonplace, and we will see the same kind of transition from gigabyte to terabyte drives as we previously saw from megabyte to gigabyte drivesin fact, the move from 500 gigabytes to a terabyte has taken longer than expected.
The leap from 500G to 1T required a breakthrough in areal density (how tight the bytes are packed on the surface of the disk), according to Doug Pickford, a marketing executive at Hitachi Global Storage Technologies. The trick, he explained, was to move to Perpendicular Magnetic Recording (PMR), where each bit is a perpendicular rather than a linear magnetized spot on the diskas if the bits were standing up rather than lying down.
Currently, areal density is growing at about 35 to 40 percent per year, and the techniques used to create the 1T drive are expandable to make a 5T drive, Pickford said. More work will be needed to surpass the 5T hurdle, but he foresaw no physical limitations until drives reach a capacity of at least 50T.
At that point, theyll hold about a century of music.
Incidentally, for planning purposes, the next level is the petabyte (a quadrillion bytes); and then the exabyte (one quintillion bytes); and then the zettabyte (one sextillion bytes); and then the yottabyte (one septillion bytes.)
