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Center for High Performance Computing
Research Computing and Data 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 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.
Upcoming Events:
Update to redwood idle session management following August 20, 2024 downtime
Posted September 3rd, 2024
Redwood Cluster Operating System Updated to Rocky Linux 8.10
Posted August 21st, 2024
Allocation Requests for Fall 2024 are Due September 1st, 2024
Posted August 7th, 2024
Allocation Requests for Summer 2024 are Due June 1st, 2024
Posted May 1st, 2024
CHPC Downtime: Tuesday March 5 starting at 7:30am
Posted February 8th, 2024
Two upcoming security related changes
Posted February 6th, 2024
Allocation Requests for Spring 2024 are Due March 1st, 2024
Posted February 1st, 2024
CHPC ANNOUNCEMENT: Change in top level home directory permission settings
Posted December 14th, 2023
CHPC Spring 2024 Presentation Schedule Now Available
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...
Selective Activation of Central Thalamic Pathways Facilitates Behavioral Performance in Healthy Non-Human Primates
By Andrew Janson1,2, Jonathan Baker4, Nicholas D. Schiff4, Christopher R. Butson1-3
Departments of Neurology, Neurosurgery, and Psychiatry, University of Utah; Brain and Mind Research Institute, Weill Cornell Medical College
Deep brain stimulation within the central thalamus (CT-DBS) has been proposed as a therapeutic strategy to improve arousal regulation and cognitive impairments in patients with severe brain injury. We hypothesized that fiber pathways in the central thalamus have a specific orientation, projecting to the cortex and striatum, which are robustly activated with stimulation configurations that facilitate behavioral performance and enhance cortical and striatal activity.
System Status
General Environment
| General Nodes | ||
|---|---|---|
| system | cores | % util. |
| kingspeak | 964/972 | 99.18% |
| notchpeak | 2926/3212 | 91.1% |
| lonepeak | 801/3012 | 26.59% |
| Owner/Restricted Nodes | ||
| system | cores | % util. |
| ash | 1152/1152 | 100% |
| notchpeak | 16643/21940 | 75.86% |
| kingspeak | 3852/5340 | 72.13% |
| lonepeak | 416/416 | 100% |
Protected Environment
| General Nodes | ||
|---|---|---|
| system | cores | % util. |
| redwood | 556/628 | 88.54% |
| Owner/Restricted Nodes | ||
| system | cores | % util. |
| redwood | 4825/6472 | 74.55% |