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CHPC - Research Computing Support for the University

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 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, and advanced networking. Visit our Getting Started page for more information.

Fall 2018 Presentation Schedule now available!

Upcoming downtime of cluster compute and interactive nodes - both general and protected environments

  •  July 17th:
    • Interactive nodes (includes atmos, meteo, wx, frisco, apollo) and resource managers on all general clusters
    • Compute nodes on tangent, lonepeak and redwood
  • July 31st: Compute nodes on ember
  • August 21st: Compute nodes on ash and notchpeak
  • August 28th: Compute nodes on kingspeak

CHPC Spring 2018 Newsletter

Changes to General Allocations

Notchpeak (new cluster) is available for general use

 CHPC on Twitter

News History...

Analyzing and Predicting Stream Properties

By Milada Majerova and Bethany Neilson, Utah Water Research Laboratory, Utah State University

The stream temperature regime is an important and very complex component of habitat quality. With introducing beaver dams in to the system and thus changing stream hydraulic properties, the processes become even more complicated and difficult to predict. Beaver dams increase spatial and temporal variability in temperature and flow, as well as increase baseflow and groundwater gains during summer months. This variability could play an important role for fish and other aquatic organisms under changing conditions when summers are predicted to be hotter and longer with less precipitation throughout the year. Stream temperature quantification and modeling then becomes an essential tool in order to better understand, predict and manage our stream systems. CHPC resources play an indispensable role in the modeling effort of capturing and predicting the stream hydraulic properties and temperature variability.

System Status

General Environment

last update: 2018-07-20 02:13:02
General Nodes
system cores % util.
ember 828/972 85.19%
kingspeak 864/864 100%
notchpeak 832/928 89.66%
lonepeak 656/1100 59.64%
Owner/Restricted Nodes
system cores % util.
ash 5856/7444 78.67%
notchpeak 640/640 100%
ember 1220/1220 100%
kingspeak 6416/7340 87.41%
lonepeak 400/400 100%

Protected Environment

last update: 2018-07-20 02:10:37
General Nodes
system cores % util.
redwood 0/436 0%
Owner/Restricted Nodes
system cores % util.
redwood 1512/1680 90%

Cluster Utilization

Last Updated: 7/17/18