Dell announced that its systems supported the landing of NASA's new Mars rover, Curiosity.
Dell systems played a key role in the most complicated portion of the mission, with data analysis conducted in two NASA High Performance Computing (HPC) clusters running Dell PowerEdge servers. Managed by NASA's Jet Propulsion Laboratory (JPL) in Pasadena, California, the Mars rover, Curiosity, is the largest rover ever sent to explore the Red Planet.
Launched on Nov. 26, 2011, Curiosity landed on the Red Planet at 10:32 p.m. Pacific Daylight Time on Aug. 5, 2012 near the base of a mountain inside the Gale Crater near the Martian equator. Researchers plan to use Curiosity to study the mountain s layers which hold evidence about the wet environments of early Mars and may hold clues about whether the planet ever offered conditions favorable for life. The rolling laboratory will search for two things: environments where life might have existed, and the capacity of those environments to preserve evidence of past life.
"We're proud to work hand-in-hand with NASA, a true American institution that provides the world with the understanding that modern day pioneering delivers optimism and the drive to go further," said Jere Carroll, general manager civilian for agencies at Dell Federal, in a statement. "This notion echoes Dell's mission to provide customers with a full spectrum of IT hardware and services, helping them to accomplish their mission more effectively and efficiently. Most importantly, we are honored to be able to test and validate this mission s most critical portion, landing on the Red Planet."
JPL's Dell HPC clusters, Galaxy and Nebula, provided vital support to NASA's Curiosity rover in analyzing the vast amounts of test data needed to correctly prepare the rover for entering the Martian atmosphere and landing it on the planet. This difficult task was powered by Dell PowerEdge servers that make up the Galaxy and Nebula clusters. The final landing sequence parameters developed by the mission team, which was tested and validated using the Dell HPC clusters, were uploaded last week to Curiosity, Dell officials said.
NASA officials said Curiosity's main assignment is to investigate whether its study area ever has offered environmental conditions favorable for microbial life. To do that, it packs a science payload weighing 15 times as much as the science instruments on previous Mars rovers. The landing target, an area about 12 miles by 4 miles (20 kilometers by 7 kilometers), sits in a safely flat area between less-safe slopes of the rim of Gale Crater and the crater's central peak, informally called Mount Sharp. The target was plotted to be within driving distance of layers on Mount Sharp, where minerals that formed in water have been seen from orbit, NASA said.
With the successful landing, the 1-ton rover's two-year prime mission on the surface of Mars has begun. However, one of the rover's 10 science instruments, the Radiation Assessment Detector (RAD), already has logged 221 days collecting data since the spacecraft was launched on its trip to Mars last November.
This article was originally published on 08-07-2012
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