Mira Community Conference

Mira Community Conference - March 4 - 8, 2013

Work with ALCF staff to develop a path forward for your science by combining world-class computing expertise and resources.

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Argonne team working on CONVERGE code

High-Performance Computing Enables Huge Leap Forward in Engine Development

Sibendu Som and his colleagues are using the computational power at the ALCF to create more robust fuel spray and combustion models for predictive engine simulations

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turbulent magnetic field lines (red) inside a coronal hole

Furthering the Understanding of Coronal Heating and Solar Wind Origin

Groundbreaking astrophysics accelerated by ALCF and TAU

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A view of the matter distribution in the universe

DOE researchers advance scientific computing with record-setting simulations

A team led by Argonne used the HACC framework to achieve nearly 14 petaflops on the 20-petaflop Sequoia in a record-setting benchmark run with 3.6 trillion simulation particles

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visualization of the flow of concrete

High-Fidelity Simulation of Complex Suspension Flow for Practical Rheometry

William George of NIST is using ALCF resources to research the flow of concrete to improve its workability

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Mira: Our Next-Generation Supercomputer

Mira will provide billions more processor-hours per year to the scientists, engineers, and researchers who use it to run complex simulations of everything from nuclear reactors to blood vessels through allocations awarded through INCITE, ALCC and Director's Discretionary programs. [Photo Gallery]

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Live Status

Science on IntrepidCoresCore Hours
Thermodynamics of Binding Biomass to Cellulases for Renewable Fuel6553654145.352591146
Thermodynamics of Binding Biomass to Cellulases for Renewable Fuel65536114667.84858941
PArallel Run-Time Systems81922351.0654296875
Large Eddy Simulation of two phase flow combustion in gas turbines81922541.7797406684

Featured Video

Supercomputing Sheds Light on the Dark Universe

In the News

DOE to Field Pre-Exascale Supercomputers Within Four Years
HPCWire
Blood Clots Are Ready for Their Close-Up [Slide Show]
Scientific American
Sequoia Supercomputer Runs Cosmology Code at 14 Petaflops
HPCWire
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Events

Feb 13, 2013

Composability, Performance, and Resilience in Multilevel Solvers

Building 240/Room 1404-1405
Feb 14, 2013

Response of high-latitude peatlands to climate change - Improving model predictive capabilities

Searle 240A
Feb 18, 2013

A Performance Modeling Approach for Analyzing In-Memory MapReduce Workloads on Multi-core Architecture

Building 240/Room 4301
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