Web Articles

  • Engine simulation

Argonne’s machine learning capabilities help accelerate R&D

Designing and manufacturing a new part or product, such as a car engine or wind turbine, can be time-consuming and costly. To combat limitations on these processes, scientists and engineers at the U.S. Department of Energy’s (DOE) Argonne National Laboratory are using cutting-edge machine learning techniques to help organizations reduce design time from months to days and slash development costs.

April 17, 2018
  • 2019 INCITE Program

U.S. Department of Energy’s INCITE Program Seeks Advanced Computational Research Proposals for 2019

The U.S. Department of Energy ‘s (DOE) Innovative and Novel Computational Impact on Theory and Experiment (INCITE) program is now seeking proposals for high-impact, computationally intensive research campaigns in a broad array of science, engineering and computer science domains.

April 16, 2018
  • Direct numerical simulation of turbulent flow in nuclear reactor

The science of bubbles

Igor Bolotnov, a professor of nuclear engineering at North Carolina State University, is using Mira to better understand boiling phenomena, bubble formation, and two-phase bubbly flow inside of nuclear reactors, which rely on water/steam conversion to produce energy.

April 04, 2018
  • The ALCF's Simulation, Data, and Learning Workshop

ALCF workshop supports simulation, data, and learning research

From February 27 to March 1, 2018, the ALCF welcomed more than 50 prospective and current users to the facility for its Simulation, Data, and Learning Workshop. This training event provided an opportunity for attendees to work directly with ALCF staff members and invited experts from Intel, Cray, and Arm, to learn about the systems, tools, frameworks, and techniques that can help advance research in these three areas of scientific computing.

April 03, 2018
  • Researchers sew atomic lattices seamlessly together

Researchers sew atomic lattices seamlessly together

Researchers from the University of Chicago and Cornell University developed a new technique to “sew” crystals together to join different materials at the atomic level. As part of this study, the team used Argonne’s Mira supercomputer to model a system of nearly 150,000 atoms to explore ripple formation in the materials. This research was published in Science.

March 22, 2018
  • Schematic of the new Li-air cell design

Out of thin air

Argonne researchers conducted basic science computational studies as part of a collaboration with researchers at the University of Illinois at Chicago to design a “beyond-lithium-ion” battery cell that operates by running on air over many charge and discharge cycles. The design offers energy storage capacity about three times that of a lithium-ion battery, with significant potential for further improvements. 

March 21, 2018
  • Introduce a Girl to Engineering Day

Warm introductions to science and engineering

Argonne's annual Introduce a Girl to Engineering Day (IGED) provides an opportunity for over 100 girls to learn about STEM careers by participating in hands-on activities, sitting down with scientists for mentoring sessions, and touring laboratory facilities, including the ALCF's machine room and visualization laboratory.

March 07, 2018
  • Membrane bound structure of the Sarcoplasmic reticulum calcium pump

Theta provides insights into the building blocks of life

As part of the ALCF's Theta Early Science Program, researchers from the University of Chicago used the new supercomputer to advance the study of membrane transport proteins. Their work included an investigation of how pH conditions affect the passage of small drug molecules across cell membranes, lending insight into the origin of acidity/alkalinity effects on drug adsorption.

March 06, 2018
  • Colleen Bertoni

Q&A with Colleen Bertoni, the ALCF’s Margaret Butler Fellow

Now entering the second year of the two-year fellowship, Bertoni is working to improve the performance and accuracy of a new quantum chemistry code that can be used to calculate the properties of complex chemical systems, such as excitons for solar cells. Using this new code, she aims to carry out large-scale computational studies on ALCF supercomputers, with the goal of providing insights into chemical systems that could ultimately help scientists to design better materials.

February 06, 2018
  • saltwater research

Argonne scientists uncover fresh insights about the structure of salt water

New insight into science that seems, on its surface, exceedingly simple — what happens when you add salt to water — could ultimately lead to a better understanding of biochemical processes in cells and perhaps advance sources of clean energy.

February 01, 2018