Grid Computing Yields Earthquake Forecast

Author

Gorder, Pam Frost

Author_Institution

Freelance Writer

Volume

9

Issue

1

fYear

2007

Firstpage

6

Lastpage

10

Abstract

The physical forces that govern seismic events are so complex that scientists have struggled to assemble forecasts on the scale of decades. Now a new statistical technique has enabled John Rundle and his team at the University of California to narrow the forecast window to less than three years. The calculations require a day of supercomputing time, but he and his partners plan to automate research-quality forecasts and make them available online. You can only do this with grid computing. The idea of linking supercomputers into a computational grid to confront big problems isn´t a new one, but Rundle and others in Earth science are doing something different. They´re linking grids together - effectively, using grids of grids - thanks to a software movement that takes its name from the musical phenomenon known as the mashup

Keywords

earthquakes; geophysics computing; grid computing; Earth science; computational grid; earthquake forecast; earthquake research; grid computing; statistical technique; supercomputers; Earthquakes; Educational institutions; Grid computing; Information filtering; Information filters; Information management; Management information systems; Marine technology; Proposals; Synthetic aperture radar interferometry; earthquake forecasting; grid computing; software mashups;

fLanguage

English

Journal_Title

Computing in Science & Engineering

Publisher

ieee

ISSN

1521-9615

Type

jour

DOI

10.1109/MCSE.2007.8

Filename

4052515