Case Studies > Liberty University Engineering Invests in Cloud-Native HPC to Enable New R&D Capabilities

Liberty University Engineering Invests in Cloud-Native HPC to Enable New R&D Capabilities

Customer Company Size

Large Corporate

Region

America

Country

United States

Product

Rescale

Tech Stack

Cloud HPC
Simulation-based design

Implementation Scale

Enterprise-wide Deployment

Impact Metrics

Productivity Improvements
Innovation Output

Technology Category

Infrastructure as a Service (IaaS) - Cloud Computing
Platform as a Service (PaaS) - Data Management Platforms

Applicable Industries

Education

Applicable Functions

Product Research & Development
Discrete Manufacturing

Use Cases

Predictive Maintenance
Manufacturing System Automation

Services

Cloud Planning, Design & Implementation Services
Software Design & Engineering Services

About The Customer

Liberty University is on a mission to educate values-driven students in an environment that encourages innovation and impacts tomorrow’s society. In order to empower student and faculty researchers and continue to attract future leaders, the Liberty School of Engineering invests in curriculum and tools that enable cutting-edge research projects. Adapting to the demands of a quickly evolving industry landscape, the university has woven the practice of simulation-based design throughout its various disciplines. By applying simulation and other computational engineering approaches to its classes, competitions, and clubs, the school hopes to continue growing its reputation for producing high-quality research and top graduates.

The Challenge

Liberty University's engineering program, one of the fastest growing schools within the university, required computation-intensive R&D and faced challenges providing adequate high performance computing (HPC) resources. The HPC software and hardware required varied greatly across a wide range of engineering programs, including civil, electrical, industrial, mechanical, and computer engineering. Combining that variation with the ongoing need for support posed a challenge for the IT team, so they began to search for a solution that could quickly scale to the needs of the school. They had concerns around cost and their ability to deliver it quickly. When they explored their specific requirements they knew they were short on personnel to implement and maintain a solution on-premises, so they explored options for cloud HPC.

The Solution

Liberty’s IT and Engineering teams searched for a solution that could easily scale and support any number of students and an array of computational needs like batch HPC workloads and cloud desktops for visualization and pre/post processing. Once they decided that cloud was their preferred strategy, they began to assess the work required to build their own cloud services on top of a public cloud service provider. In this process, the team was working to enable a specialized HPC software whose vendor had experience working with Rescale and recommended it as a comprehensive and easy-to-deploy HPC solution for that software. It was determined that Rescale could also support all of Liberty’s other HPC applications while providing prebuilt IT management tooling that would save the team significant implementation time.

Operational Impact

Rescale provided an all-in-one HPC platform that was easy to implement, use, and control.
It allows the university to manage the hardware and costs down to a project level, which is a huge benefit.
Giving Liberty researchers an easy-to-learn user experience and flexible on-demand access to the latest cloud HPC tools through Rescale has opened up new possibilities.
The Engineering school now empowers students to explore complex questions through geological, weather, finite element, fluid-dynamic, thermodynamic, electromagnetic, and other computation-intensive simulation types.

Quantitative Benefit