Exploring the dark universe at the speed of petaflops

Nov 21, 2013 by Gail Pieper
This visualization, part of a 1.1-trillion-particle simulation run on Argonne’s supercomputer Mira, shows the complexity of cosmological structure formation. Credit: H. Finkel, S. Habib, K. Heitmann, K. Kumaran, V. Morozov, T. Peterka, A. Pope, T. Williams, M. E. Papka, M. Hereld, and J. Insley, Argonne National Laboratory; D. Daniel, P. Fasel, N. Frontiere, Los Alamos National Laboratory; Z. Lukic, Lawrence Berkeley National Laboratory.

An astonishing 95% of our universe is made of up dark energy and dark matter. Understanding the physics of this sector is the foremost challenge in cosmology today. Sophisticated simulations of the evolution of the universe play a crucial role.

The primary lens through which scientists look at the night sky is no longer only a telescope—it's also a . The new and coming generations of supercomputers will finally be capable of modeling the in the detail and volume required by astronomical surveys of the sky that are now underway, or soon will be.

Scientists use large cosmological simulations to test theories about the structure of the universe and the evolution of the distribution of galaxies and clusters of galaxies. State-of-the-art supercomputers let cosmologists make predictions and test them against data from powerful telescopes and space probes. Two decades of surveying the sky have culminated in the celebrated Cosmological Standard Model. Yet two of the model's key pillars— and dark energy, together accounting for 95% of the universe—remain mysterious. A research team led by Argonne is tackling this mystery, aided by some of the world's fastest supercomputers.

To model the distribution of matter in the universe, the researchers are running some of the largest, most complex simulations of the large-scale structure of the universe ever undertaken.

The Argonne team has run a 1.1-trillion-particle simulation on half a million processor cores of Mira, Argonne's new Blue Gene/Q supercomputer. The team was among a few science teams from across the country to gain early access to the system, which is now online.

The power and speed of supercomputers and simulation codes have significantly advanced over the past decade. Mira enables cosmology runs with greater resolution and accuracy on much larger simulation volumes—giving researchers the ability to confront theory with observational data from wide-area cosmological surveys.

Exploring the cosmic structure of the dark universe is an enormously complex problem. As the universe expands, gravitational attraction causes matter to coalesce and form structures—first sheets, then filaments where the sheets intersect, and then clumps where the filaments meet. As time progresses, one can begin to see more clearly the basic structure of an enormous web of voids, filaments, and clumps. Simulations at Argonne have calculated this web-like structure, the so-called cosmic web, in a cube of simulated space more than 13 trillion light-years across.

"Because these trillions of particles are meant to trace matter in the entire universe, they are extremely massive, something in the range of a billion suns," said Argonne computational physicist Salman Habib, the project's director. "We know the gravitational dynamics of how these tracer particles interact, and so we evolve them forward to see what kind of densities and structure they produce, as a result of both gravity and the expansion of the universe. That's essentially what the simulation does: it takes an initial condition and moves it forward to the present to see if our ideas about structure formation in the universe are correct."

Next-generation sky surveys will map billions of galaxies to explore the physics of the "dark universe." Science requirements for these surveys demand simulations at extreme scales in order to resolve galaxy-scale mass concentrations over the observational volumes of sky surveys.

A key aspect of the Argonne project involves developing a major simulation suite covering approximately 100 different cosmological scenarios and combining them in a framework that can generate predictions for any scenario within the range covered by the original runs.

This research is supported by the U.S. Department of Energy's Office of High Energy Physics, Advanced Scientific Computing Research, and Argonne's Laboratory Directed Research and Development program.

Explore further: 'Perfect storm' quenching star formation around a supermassive black hole

More information: Read more about dark energy: 1.usa.gov/RoA7rY

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