Technology Category
- Application Infrastructure & Middleware - Data Visualization
- Networks & Connectivity - Ethernet
Applicable Industries
- Cement
- Education
Applicable Functions
- Procurement
- Product Research & Development
Use Cases
- Inventory Management
- Smart Campus
Services
- System Integration
- Training
About The Customer
Clemson University is a major land-grant, science- and engineering-oriented research university that ranks in the top 25 among national public universities. The university is committed to teaching and student success, fostering an inclusive, student-centered community characterized by high academic standards, a culture of collaboration, school spirit, and a competitive drive to excel. The university's IT department, Clemson Computing and Information Technology (CCIT), provides cyberinfrastructure resources and advanced research computing capabilities. CCIT supports an array of advanced computing infrastructure made possible through the integration of high-performance computing (HPC), high-performance networks, data visualization, storage architectures, and middleware.
The Challenge
Clemson University's IT department, Clemson Computing and Information Technology (CCIT), was facing a significant challenge in managing the workload of their rapidly growing user base. The department utilized the Palmetto cluster, a 17,032-core, 262 TFlop HPC system, as the university's primary HPC resource. This system was heavily used by the university's faculty, staff, students, and 144 external users, including researchers and faculty from other universities. The cluster operated on a 'condo model', where users could purchase nodes for their own priority usage. However, the open-source Maui scheduler previously used by CCIT was unable to handle the scalability and reliability needs of their expanding user base. The system frequently crashed and some advanced features did not function properly, leading to unreliability with the scheduler.
The Solution
To address the challenges, CCIT decided to adopt a commercial-grade workload management solution. After evaluating several vendors, they chose Altair’s PBS Professional® for its massive scalability and technical support. The PBS Professional scheduling software was able to meet the HPC needs of the university, providing reliability and scalability that the previous open-source tool could not handle. Altair's technical team provided comprehensive support, helping CCIT understand the advanced features of PBS Professional before purchase and offering hands-on training before the installation process. The cost was also a crucial factor in the decision-making process. Altair was able to provide an attractive academic pricing offer that fit within CCIT's budget. The implementation of PBS Professional began in September 2011, supporting 1,623 nodes. Today, the node count has increased to 1,804, and PBS Professional can easily scale to support additional nodes for the rapidly growing user base.
Operational Impact
Quantitative Benefit
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