IBM'S 'PIXIE DUST 'BREAKTHROUGH TO QUADRUPLE DISK DRIVE DENSITY.IBM (International Business Machines Corporation, Armonk, NY, www.ibm.com) The world's largest computer company. IBM's product lines include the S/390 mainframes (zSeries), AS/400 midrange business systems (iSeries), RS/6000 workstations and servers (pSeries), Intel-based servers (xSeries) is using just a few atoms of "pixie dust See AFC. " to push back the data storage industry's most formidable barrier. The company is first to mass-produce computer hard disk drives using a revolutionary new type of magnetic coating that is eventually expected to quadruple quad·ru·ple adj. 1. Consisting of four parts or members. 2. Four times as much in size, strength, number, or amount. 3. Music Having four beats to the measure. n. the data density of current hard disk drive products -- a level previously thought to be impossible, but crucial to continue feeding the information-hungry Internet economy The Internet Economy refers to conducting business through markets whose infrastructure is based on the Internet and World-Wide Web. An Internet economy differs from a traditional economy in a number of ways, including: communication, market segmentation, distribution costs, and price. . For consumers, increased data density will help hasten the transition in home entertainment from passive analog technologies to interactive digital formats. The key to IBM's new data storage breakthrough is a three-atom-thick layer of the element ruthenium ruthenium (r  thē`nēəm), metallic chemical element; symbol Ru; at. no. 44; at. wt. 101.07; m.p. about 2,310°C;; b.p. about 3,900°C;; sp. gr. 12. , a precious metal similar to platinum, sandwiched between two magnetic layers. That only a few atoms could have such a dramatic impact caused some IBM scientists to refer to the ruthenium layer informally as "pixie dust." Known technically as "antiferromagnetically-coupled (AFC (1) (Application Foundation Classes) A class library from Microsoft that provides an application framework and graphics, graphical user interface (GUI) and multimedia routines for Java programmers. ) media," the new multilayer coating is expected to permit hard-disk drives to store 100 billion bits (gigabits) of data per square inch of disk area by 2003. AFC media is shipping in volume beginning today in IBM's Travelstar notebook hard disk drive products with data densities up to 25.7 gigabits per square inch. In time, IBM plans to implement AFC media across all of its disk drive product lines. The increasing data densities enabled by AFC media are expected to simplify processes for storing consumers' rapidly growing volumes of digital data (music, photographs, presentations and video); accelerate an industry trend toward smaller disk-drive form factors that consume less energy; and stimulate the creation of new and more capable digital-media and data-intensive applications. In the past decade, the data density for magnetic hard disk drives has increased at a phenomenal pace: doubling every 18 months and, since 1997, doubling every year, which is much faster than the vaunted vaunt v. vaunt·ed, vaunt·ing, vaunts v.tr. To speak boastfully of; brag about. v.intr. To speak boastfully; brag. See Synonyms at boast1. n. 1. Moore's Law "The number of transistors and resistors on a chip doubles every 18 months." By Intel co-founder Gordon Moore regarding the pace of semiconductor technology. He made this famous comment in 1965 when there were approximately 60 devices on a chip. for integrated circuits Integrated circuits Miniature electronic circuits produced within and upon a single semiconductor crystal, usually silicon. Integrated circuits range in complexity from simple logic circuits and amplifiers, about 1/20 in. (1. . But the designers knew they were accelerating toward a barrier that could suddenly halt further progress: When magnetic regions on the disk become too small, they cannot retain their magnetic orientations -- the data -- over the typical lifetime of the product. This is called the "superparamagnetic effect," and has long been predicted to appear when densities reached 20 to 40 billion bits (gigabits) per square inch, which is near the data density of current products. "AFC media is the first dramatic change in disk drive design made to avoid the high-density data decay due to the superparamagnetic effect," said Currie Munce, who holds the dual positions of director, Advanced Hard Disk Drive Technology at IBM's Storage Technology Division and director, Storage Systems and Technology at IBM's Almaden Research Center The IBM Almaden Research Center, located near San Jose, California, is one of IBM's largest research centers, specializing in both basic research in material science and applied research in computer storage, where many refinements and improvements were made in hard disc drive . "Our deep understanding of the complex physical phenomena of how the AFC media works enabled us to be first in the industry to ship AFC media in products, and we're working to extend this technology to perform magnetic recording at 100 gigabits per square inch and beyond." The 100-gigabit density milestone was once thought to be unattainable due to the superparamagnetic effect. A natural solution to this problem is to develop new magnetic alloys that resist more strongly any change in magnetic orientation. But recording data on such materials becomes increasingly difficult. AFC media solves this problem. The ultra-thin ruthenium layer forces the adjacent layers to orient themselves magnetically in opposite directions. The opposing magnetic orientations make the entire multilayer structure appear much thinner than it actually is. Thus small, high-density bits can be written easily on AFC media, but they will retain their magnetization due to the media's overall thickness. |
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