NASA to use supercomputers for identifying asteroid impacts

The results will help first responders and other agencies to identify and make better-informed decisions for how to defend against life-threatening asteroid events.

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These six Hubble Space Telescope images reveal a jumble of misshapen galaxies punctuated by exotic patterns such as arcs, streaks, and smeared rings. These unusual features are the stretched shapes of the universe's brightest infrared galaxies that are boosted by natural cosmic magnifying lenses. Some of the oddball shapes also may have been produced by spectacular collisions between distant, massive galaxies. The faraway galaxies are as much as 10,000 times more luminous than our Milky Way. The galaxies existed between 8 billion and 11.5 billion years ago. NASA (Representational image)

The researchers from the National Aeronautics and Space Administration (NASA) are reportedly using supercomputers to produce simulations of hypothetical asteroid impact scenarios for creating 3D models. According to reports, the results will help first responders and other agencies to identify and make better-informed decisions for how best to defend against life-threatening asteroid events.

In 2013, an asteroid's shock wave affected the Russian city of Chelyabinsk, injuring over 1,200 people and damaged buildings as far away as 93 kilometres (58 miles).

A NASA statement revealed that high-fidelity simulations of potential asteroids covering a wide range of sizes were run on the Pleiades supercomputer using NASA's Cart3D and Lawrence Livermore National Lab's ALE3D modelling software by experts on the Asteroid Threat Assessment Project at the NASA Advanced Supercomputing facility at Ames Research Center in California's Silicon Valley.

The NASA team was able to run large-scale simulations of the Chelyabinsk asteroid event on Pleiades to produce many impact scenarios quickly. This was because Cart3D is dozens of times faster than typical 3-D numerical modeling used for aerodynamic analysis.

Pleiades is an open star cluster containing middle-aged, hot B-type stars located in the constellation of Taurus. The detailed simulations allowed the team to model the fluid flow that occurs when asteroids melt and vaporise as they break up in the atmosphere.

The asteroid research by NASA is shared with scientists at universities, national labs, and government agencies who develop assessment and response plans to look at damage to infrastructure, warning times, evacuations, and other options for protecting lives and property.

Related topics : Nasa Asteroid
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