San Diego, August 27, 2009 -- To protect their systems from network failures and to make sure that their data is delivered as fast as possible, popular services such as Google may replicate their data centers on multiple continents and at multiple sites based on their proximity to population centers. This presents two critical challenges for network systems researchers: interconnecting multiple computers within a single data center; and synchronizing individual data centers in wide-area replication.
"This integrated solution would accommodate the growing size and performance required of future data centers, while minimizing the cost and energy per switched bit," says Shaya Fainman, a professor of electrical and computer engineering in UC San Diego's Jacobs School of Engineering, and Deputy Director of CIAN.
Working on the project with Fainman: fellow UC San Diego electrical engineering professor George Papen; UCSD Center for Networked Systems Director Amin Vahdat; Columbia University professor Keren Bergman, who runs the CIAN satellite testbed at Columbia; Caltech professor Axel Scherer; and professor Ming Wu from UC Berkeley.
Interconnecting multiple computers within a single data center is straightforward as long as the number of machines remains small (in the tens or hundreds). But modern electronic interconnect technologies make it almost impossible to deliver large, aggregate communication bandwidths between arbitrary nodes in a single data center.
CIAN researchers are developing novel integrated optical interconnection technologies for tomorrow's data centers. However, most of these technologies use somewhat discrete components and could not be integrated into large system arrays that can scale at low cost. Now that is changing, thanks to recent advances in nanophotonics using a silicon CMOS-compatible manufacturing process. Chip-scale, highly integrated optoelectronic solutions can now be realized at low cost, while still meeting the needs of future data centers.
CIAN is an NSF Engineering Research Center (ERC) headquartered at The University of Arizona. The Center aims to provide the technological foundation for an advanced optical network that simultaneously achieves efficient high data rate aggregation, amortizing the cost for end users, while providing the necessary flexibility to support diverse end-user requirements. The development of these technologies is essential for delivery of single-user data rates approaching 10 Gigabits per second and provision of the associated services to a broad population base, regardless of "last-mile" technology. In addition to UA and UC San Diego, CIAN member campuses include USC, UC Berkeley, Caltech, Stanford, Columbia, UCLA, Norfolk State and Tuskegee.
CIAN's Testbed Infrastructure, led by UA professor Franko Kueppers, includes the main, shared research testbed at UC San Diego (co-led by professors Stojan Radic and George Papen), as well as satellite testbeds at Columbia University (with Keren Bergmann as lead) and the University of Southern California (led by Alan Willner).
The SEED project is one of several profiled in the inaugural July 2009 edition of the CIAN quarterly newsletter. Click here to download a PDF of the 8-page publication. CIAN also recently launched a new Web site .
Doug Ramsey, 858-822-5825, email@example.com