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Center for High Performance Computing

Research Computing and Data Support for the University Community

 

In addition to deploying and operating high-performance computational resources and providing advanced user support and training, CHPC serves as an expert team to broadly support the increasingly diverse research computing and data needs on campus. These needs include support for big data, big data movement, data analytics, security, virtual machines, Windows science application servers, protected environments for data mining and analysis of protected health information, advanced networking, and more.

If you are new to the CHPC, the best place to learn about CHPC resources and policies is our Getting Started page.

Have a question? Please check our Frequently Asked Questions page and contact us if you require assistance or have further questions or concerns.

Announcing the Upcoming Retirements of Julia Harrison and Anita M. Orendt
Julia Harrison
Julia Harrison

After nearly four decades of dedicated service at the University of Utah, Julia Harrison is retiring as the Operations Director of the Center for High Performance Computing.

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Anita M. Orendt
Anita M. Orendt

Anita M. Orendt is a dedicated educator and researcher with a rich background in physical chemistry. Anita has made significant contributions to the academic community at the University of Utah.

Read more
Upcoming Events:

CHPC PE DOWNTIME: Partial Protected Environment Downtime  -- Oct 24-25, 2023

Posted October 18th, 2023


CHPC INFORMATION: MATLAB and Ansys updates

Posted September 22, 2023


CHPC SECURITY REMINDER

Posted September 8th, 2023

CHPC is reaching out to remind our users of their responsibility to understand what the software being used is doing, especially software that you download, install, or compile yourself. Read More...

News History...

Linking Frost Timing to Circulation Patterns

By Courtenay Strong and Gregory McCabe

United States Geological Survey

Atmospheric sciences professor Courtenay Strong and Gregory McCabe of the United States Geological Survey studied how frost timing (specifically, the lengthening of the frost-free season) is influenced by global warming and local atmospheric circulation by utilizing objective-clustering algorithms and optimization techniques. By discovering the circulations responsible for frost timing in different climatic regions of the conterminous United States, they found that atmospheric circulation patterns account for between 25 and 48 percent of variation in frost timing.

Read the paper in Nature Communications or read the article in UNews.

System Status

General Environment

last update: 2024-11-06 17:11:02
General Nodes
system cores % util.
kingspeak 788/972 81.07%
notchpeak 3010/3212 93.71%
lonepeak 1513/1932 78.31%
Owner/Restricted Nodes
system cores % util.
ash Status Unavailable
notchpeak 15638/22068 70.86%
kingspeak 2868/5244 54.69%
lonepeak 36/416 8.65%

Protected Environment

last update: 2024-11-06 17:10:05
General Nodes
system cores % util.
redwood 257/628 40.92%
Owner/Restricted Nodes
system cores % util.
redwood 1004/6472 15.51%


Cluster Utilization

Last Updated: 11/4/24