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  • Electronic Response to Particle Radiation in Condensed Matter

Exascale Computing Project announces $48 million to establish four exascale co-design centers

The U.S. Department of Energy’s (DOE's) Exascale Computing Project (ECP) today announced that it has selected four co-design centers as part of a 4-year $48 million funding award. The first year is funded at $12 million, and is to be allocated evenly among the four award recipients.

November 11, 2016
  • Diffusion Monte Carlo spin densities for Ti4O7

QMC simulations reveal magnetic properties of titanium oxide material

By running computationally intensive quantum Monte Carlo simulations at the Argonne Leadership Computing Facility (ALCF), a U.S. Department of Energy (DOE) Office of Science User Facility, researchers have demonstrated the ability to accurately calculate the magnetic properties of a titanium oxide material that exhibits useful properties for renewable energy and computing technologies.

November 10, 2016

ALCF contributes papers, tutorials, and more to SC16

The Argonne Leadership Computing Facility (ALCF), a DOE Office of Science User Facility, will be well represented at SC16 with several staff members contributing to the HPC community’s premier annual conference. This year's event will take place Nov. 13-18 in Salt Lake City, Utah.

November 02, 2016
  • An Illustration of Moonshot project

Cancer’s big data problem

With the CANDLE platform, researchers at the ALCF will develop predictive models that guide drug treatment choices for tumors based on a much wider assortment of data than currently used.

October 19, 2016

ALCF selects projects for new data science program

The Argonne Leadership Computing Facility (ALCF), a U.S. Department of Energy Office of Science User Facility, has selected four projects to kick off the ALCF Data Science Program (ADSP). The new initiative, targeted at big data problems that require the scale and performance of leadership-class supercomputers, will enable new science and novel usage modalities on these systems.

October 05, 2016
  • Dominique Hoskin

ALCF summer student projects tackle real-world problems

Twenty-two students from universities around the country spent their summer at the ALCF, tackling a wide variety of projects that covered everything from HPC system administration and data analytics to computational science and performance engineering. Every summer, the facility solicits student project proposals from staff members who are interested in mentoring. The program culminates with a special symposium in which the students present their project results.

October 04, 2016
  • ATPESC 2016

Argonne’s HPC training program wraps up fourth year; lecture videos now available online

With its fourth year now in the books, the Argonne Training Program on Extreme-Scale Computing (ATPESC) brought 65 graduates, postdocs, and researchers together at the Pheasant Run Resort in St. Charles, Illinois in August for two weeks of instruction on HPC codes, software, and architecture.

October 04, 2016
  • Former Argonne postdoctoral researcher Diana Berman and Argonne nanoscientist Anirudha Sumant, along with several collaborators, developed a new and inexpensive way to grow pure graphene using a diamond substrate.

Diamond proves useful material for growing graphene

A team led by Materials Scientist Anirudha Sumant with the U.S. Department of Energy’s (DOE) Argonne National Laboratory’s Center for Nanoscale Materials (CNM) and Materials Science Division, along with collaborators at the University of California-Riverside, has developed a method to grow graphene that contains relatively few impurities and costs less to make, in a shorter time and at lower temperatures compared to the processes widely used to make graphene today.

September 16, 2016

Water helps assembly of biofibers that could capture sunlight

In a study led by Argonne nanoscientist Subramanian Sankaranarayanan and chemist Christopher Fry, both of Argonne’s Center for Nanoscale Materials, supercomputer simulations and as well as lab-based experiments showed that water serves as an invisible cage for the growth of the micelle fiber.

September 12, 2016
  • outer rim simulations

Two Argonne-led projects among $39.8 million in first-round Exascale Computing Project awards

The U.S. Department of Energy's (DOE's) Exascale Computing Project (ECP) today announced its first round of funding with the selection of 15 application development proposals for full funding and seven proposals for seed funding, representing teams from 45 research and academic organizations.

September 07, 2016