$208 Million Petascale Computer Gets Green Light

coondoggie writes "The 200,000 processor core system known as Blue Waters got the green light recently as the University of Illinois at Urbana-Champaign and its National Center for Supercomputing Applications (NCSA) said it has finalized the contract with IBM to build the world's first sustained petascale computational system. Blue Waters is expected to deliver sustained performance of more than one petaflop on many real-world scientific and engineering applications. A petaflop equals about 1 quadrillion calculations per second. They will be coupled to more than a petabyte of memory and more than 10 petabytes of disk storage. All of that memory and storage will be globally addressable, meaning that processors will be able to share data from a single pool exceptionally quickly, researchers said. Blue Waters, is supported by a $208 million grant from the National Science Foundation and will come online in 2011."

imagine...

[spiffmastercow]

nah, nevermind

$208 Million Petascale Computer Gets Green Light

[Naughty+Bob]

I'm glad they've given it a green light.

Imagine having all that computer power, and not even knowing if it was switched on!

Re:Naive question...

[Glith]

Come on now. Let's be serious. They're trying to play Crysis.

Star Trek "Data" rated at 60 Teraflops

[peter303]

I just saw The Measure of a Man episode on the Star Trek Labor Day marathon. Data has a speed of 60 Teraflops and 100 petabytes of storage. That used to seem large in the late 1980s. (Episode were Data goes on trial whether he is a machine or sentient.)

Re:Naive question...

[serviscope_minor]

I don't use one myself, but I know people involved with supercomptuers. They are used for large simulations. Often this comes down to solving large systems of linear equations, since at the inner step finite elements need solutions to these large equation systems. The point is, the larger the computer the larger the grid you can have. This involves simulating a larger volume, or simulating the same volume in more detail (think, for example of weather systems).

As for concrete advancemants? I'm not in the biz, so I don't know, but I expect so. Apparently they're also used for stellar simulations, so I expect the knowledge of the universe has been advanced. I would be suprised if they haven't seen duty in global warming simulation too.

Re:Yes, but the article doesn't address a few ques

[QuantumRiff]

It will not run 32 bit linux, so of course, the admins in charge are going to bitch about the lack of adobe flash support.

Re:Naive question...

[Deadstick]

Weather modeling comes to mind, both terrestrial and space.

rj

Re:Naive question...

[mikael]

These machines are used to work on simulations that involve aerodynamics and hydrodynamics, quantum electrodynamics (QED), or electromagnetohydrodynamics. All of these simulations require that a mathematical model is constructed from a high density mesh of data points (2048 ^ 3). Blocks of such points are allocated to individual processors. Because of this, each processor must be able to communicate at a high speed with its neighbours (up to 26 neighbours with a cubic mesh).

Usually, the actual individual calculations per element will be take up less than a page of mathematical equations, but require high precision, so the data values will be 64-bit floating point quantities. A single element might require 20 or more variables. Thus the need for some many processors and high clock speed.

Re:Naive question...

[Ilgaz]

Do you notice neither USA or Russia blows a portion of planet to test nuclear weapons anymore? It is because the planet is so peaceful so further research is not required? Unfortunately no.

These monsters can simulate a gigantic nuclear explosion in molecular level.

Or for peace purposes, they can actually simulate that New Orleans storm based on real World data and pinpoint exactly what would happen.

Can't take another 40

[Main+Gauche]

in 40 years some kid will laugh at your pathetic attempt at geek coolness when you mention the Bluewater and say "wow your old..."

Forty more years of the kids saying "your"? Kill me now! :)

Re:Naive question...

[Rostin]

I'm working on a PhD in chemical engineering, and I do simulations. I occasionally use Lonestar and Ranger, which are clusters at TACC, the U. of Texas' supercomputing center. Lonestar is capable of around 60 TFLOPS and Ranger can do around 500-600 TFLOPS. A few users run really large jobs using thousands of cores for days at a stretch, but the majority of people use 128 or fewer cores for a few hours at a time.

My research group does materials research using density function theory, which is an approximate way of solving the Schroedinger equation. Each of our jobs usually uses 16 or 32 cores, and takes anywhere from 5 minutes to a couple of days to finish. Usually we are interested in looking at lots of slightly different cases, so we run dozens of jobs simultaneously.

The applications are pretty varied. Some topics we are working on -
1) Si nanowire growth
2) Si self-interstitial defects
3) Au cluster morphology
4) Catalysis by metal clusters
5) Properties of strained semiconductors

Re:Naive question...

[bh_doc]

electromagnetohydrodynamics

And quantum electroptical tomographics. See, I can make shit up, too...