Argonne Leadership Computing Facility

ALCF Resources
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Leadership Computing Resources

The ALCF provides users with access to supercomputing resources that are significantly more powerful than systems typically used for open scientific research.

Featured: Aurora
Science & Engineering
- Output
  
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  INCITE Program
  
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Computational Science

The ALCF is accelerating scientific discoveries in many disciplines, ranging from chemistry and engineering to physics and materials science.

Featured: Engineering
Community and Outreach
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Growing the HPC Community

The ALCF is committed to providing training and outreach opportunities that prepare researchers to efficiently use its leadership computing systems, while also cultivating a diverse and skilled HPC workforce for the future.
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Accelerating Science

The Argonne Leadership Computing Facility enables breakthroughs in science and engineering by providing supercomputing resources and expertise to the research community.
Support
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Support Center

The ALCF Support Center assists users with support requests related to their ALCF projects.

Help Desk
Hours: 9:00am-5:00pm CT M-F
Email: support@alcf.anl.gov
Guides
Featured: Get Started

Featured: MyALCF

Normalizing Inclusion by Embracing Difference

Events

Scientific Data Science: An Emerging Symbiosis

Events

Mechanics of Biological Motor Control

Events

Director of The Artificial Intelligence and Autonomy Innovation Center at MITRE Labs; AI Red Team Leader for the Department of Defense

Events

Automating Chemical Research Toward Autonomous Molecular Design

Events

An Inexact Projected Gradient Method with Rounding and Lifting by Nonlinear Programming for Solving Rank-One Semidefinite Relaxation of Polynomial Optimization

Events

Ensemble Simulations and Experimental Free Energy Distributions: Evaluation and Characterization of Isoxazole Amides as SMYD3 Inhibitors Inhibitors

Publications Journal of Chemical Information and Modeling

Alchemical Free Energy Estimators and Molecular Dynamics Engines: Accuracy, Precision and Reproducibility

Publications Journal of Chemical Theory and Computation

The Performance of Ensemble-Based Free Energy Protocols in Computing Binding Affinities to ROS1 Kinase

Publications Scientific Reports

Large Scale Study of Ligand–Protein Relative Binding Free Energy Calculations: Actionable Predictions from Statistically Robust Protocols

Publications Journal of Chemical Theory and Computation

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Leadership Computing Resources

Featured: Aurora

Computational Science

Featured: Engineering

Growing the HPC Community

Accelerating Science

Support Center

Featured: Get Started

Featured: MyALCF

Normalizing Inclusion by Embracing Difference

Scientific Data Science: An Emerging Symbiosis

Mechanics of Biological Motor Control

Director of The Artificial Intelligence and Autonomy Innovation Center at MITRE Labs; AI Red Team Leader for the Department of Defense

Automating Chemical Research Toward Autonomous Molecular Design

An Inexact Projected Gradient Method with Rounding and Lifting by Nonlinear Programming for Solving Rank-One Semidefinite Relaxation of Polynomial Optimization

Ensemble Simulations and Experimental Free Energy Distributions: Evaluation and Characterization of Isoxazole Amides as SMYD3 Inhibitors Inhibitors

Alchemical Free Energy Estimators and Molecular Dynamics Engines: Accuracy, Precision and Reproducibility

The Performance of Ensemble-Based Free Energy Protocols in Computing Binding Affinities to ROS1 Kinase

Large Scale Study of Ligand–Protein Relative Binding Free Energy Calculations: Actionable Predictions from Statistically Robust Protocols