IBM researchers showed a prototype optical transceiver chipset Monday they say will allow people to download movies or share online data eight times faster than current technology allows.The chipset can move data at 160 gigabits by representing information as light pulses instead of electrons and could be used for both corporate and consumer applications as soon as 2010, IBM said.Consumer demand for digital media such as movies, music and photos has caused an explosion in the amount of data being transferred over the Internet, and underlined the need for greater bandwidth and connectivity, said T.C. Chen, vice president for science and technology at IBM Research, in a statement.IBM says it can meet that need, building its new chipset by making an optical transceiver with standard complementary metal oxide semiconductor (CMOS) technology, and combining that with optical components crafted from exotic materials such as indium phosphide and gallium arsenide. The resulting package is just 3.25 by 5.25 millimeters in size, small enough to be integrated onto a printed circuit board. Although all those technologies exist today, it will probably be at least three years until suppliers can produce enough parts for IBM to bring optical transceivers into its product stream, the company said.When it does arrive, the part could have an immediate impact on applications from computing to communications and entertainment. A PC using that board would be able to reduce the download time of a typical high-definition feature-length movie from 30 minutes to one second, the company said. The demand for bandwidth has also pushed other chipmakers to explore optical circuits. In September, researchers at Intel and the University of California at Santa Barbara said they had discovered how to build low-cost “laser chips” that move data much faster than standard copper wire interconnects. That could help eliminate the bottleneck of feeding data to processors that are becoming ever faster according to Moore’s Law, they said. And in December, IBM said it had found a way to slow down speeding photons, allowing them to store data as light instead of electricity.IBM did the work with funding from the U.S. Department of Defense’s Defense Advanced Research Projects Agency. Researchers will present details of the project on March 29 in a report at the Optical Fiber Conference in Anaheim, Calif. The full name of the chipset is the “160Gb/s, 16-channel, full-duplex, single-chip CMOS optical transceiver.”-Ben Ames, IDG News Service (Boston Bureau)Related Links: TSMC Extends Lead Over IBM, Other Rivals, Gartner Says IBM Finds Way to Keep Chips Running CoolerCheck out our CIO News Alerts and Tech Informer pages for more updated news coverage. Related content opinion Website spoofing: risks, threats, and mitigation strategies for CIOs In this article, we take a look at how CIOs can tackle website spoofing attacks and the best ways to prevent them. By Yash Mehta Dec 01, 2023 5 mins CIO Cyberattacks Security brandpost Sponsored by Catchpoint Systems Inc. Gain full visibility across the Internet Stack with IPM (Internet Performance Monitoring) Today’s IT systems have more points of failure than ever before. Internet Performance Monitoring provides visibility over external networks and services to mitigate outages. By Neal Weinberg Dec 01, 2023 3 mins IT Operations brandpost Sponsored by Zscaler How customers can save money during periods of economic uncertainty Now is the time to overcome the challenges of perimeter-based architectures and reduce costs with zero trust. By Zscaler Dec 01, 2023 4 mins Security feature LexisNexis rises to the generative AI challenge With generative AI, the legal information services giant faces its most formidable disruptor yet. That’s why CTO Jeff Reihl is embracing and enhancing the technology swiftly to keep in front of the competition. By Paula Rooney Dec 01, 2023 6 mins Generative AI Digital Transformation Cloud Computing Podcasts Videos Resources Events SUBSCRIBE TO OUR NEWSLETTER From our editors straight to your inbox Get started by entering your email address below. Please enter a valid email address Subscribe