Download the authoritative guide: Cloud Computing 2018: Using the Cloud to Transform Your BusinessAt one time, complex computing tasks -- from designing safer and more efficient automobiles to forecasting weather and seismic activity to researching drugs and gene sequencing -- required a mainframe computer. Now dubbed supercomputers, these machines are made by the likes of companies like IBM and Seattle's Cray Inc., which shipped its first Cray MTA-2 supercomputer system in late December.
Now a different method of performing those complex calculations is beginning to gain clout in the commercial world: grid computing.
"Grid computing is a method of harnessing the power of many computers in a network to solve problems requiring a large number of processing cycles and involving huge amounts of data," said Alan Meckler, chairman and chief executive officer of InternetNews.com parent INT Media Group, which Thursday launched GridComputingPlanet.com, a Web site dedicated to coverage of the grid computing industry. "Rather than using a network of computers simply to communicate and transfer data, grid computing taps the unused processor cycles of numerous -- sometimes thousands of -- computers.
Traditional supercomputers are single systems with large numbers of processors, enormous amounts of memory and performance that is measured in gigaFLOPS or even teraFLOPS. Needless to say, these machines are expensive and require top-notch technical expertise to maintain. For instance, IBM's ASCI White supercomputer is rated at 12 teraFLOPS and costs $110 million.
One of the most well-known grid computing projects is SETI@Home, in which PC users worldwide donate their unused processor cycles to analyze radio signals from outer space for signs of extraterrestrial life. Volunteers simply download a screen saver from the project and their processing power is used to analyze information when the screen saver is active. SETI@Home says that by harnessing volunteers' unused processor cycles it has achieved about 15 teraFLOPS for about with about 3 million volunteers. It says the cost has been about $500,000 to date.
Commercial Uses Growing
While SETI@Home is a non-profit project, commercial interests have also begun to take an interest. Juno Online, now a part of United Online, latched onto the idea last year, dubbing it the Juno Virtual Supercomputer Project. The company viewed the virtual supercomputer as a way of monetizing its free subscriber base by selling supercomputing services to research firms. In May of last year, the company secured its first contract when bioinformatics incubator LaunchCyte LLC signed a letter of intent for use by it and its portfolio of companies.
Other firms are also getting into the act, including supercomputing mainstay IBM. In December, Big Blue sealed a deal to provide a traditional parallel processing system to the University of Texas for Austin's advanced computing center (TACC). TACC will use the system to test computing grids, and IBM has long maintained that grid computing will drastically change computing by enabling heterogeneous systems to share resources over the Web.
INT Media Group launched GridComputingPlanet.com to help the technical community stay abreast of developments brought about by the emergence of grid computing. As part of that effort, the company also announced the launch of Grid Computing Planet Spring 2002 Conference & Expo, which is slated for June 17-18 at the DoubleTree Hotel in San Jose, Calif.
"Grid Computing Planet will become the gateway to grid computing and help solve problems that are beyond the processing limits of individual computers, as well as being a resource center for the technical community, online and offline," Meckler said.
This story was first published on InternetNews, an internet.com site.