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Tell us about your infrastructure requirements and how to reach you, and one of team members will be in touch shortly.
Let us know which data center you'd like to visit and how to reach you, and one of team members will be in touch shortly.
The IT infrastructure needs of universities are very specific to higher education, and demand for upgrades is rising as technology continues to play a more integral role, both in the classroom and critical research initiatives. When it comes to higher education, especially engineering and scientific research, the pursuit of information is never-ending. The only way to analyze and answer complex questions that arise along the way is with high performance computing systems. Consequently, astounding amounts of data are being gathered and stored; researchers working for universities are generating billions of files and petabytes of data every day. This data often carries the progress of incredibly important initiatives: climate change, cancer research, and more.
The computing needs of scientists, engineers and researchers will only continue to grow. Fortunately, HPC is a way to effectively harness new scientific opportunities. A few examples of how HPC is impacting the world around us:
The MIT Lincoln Laboratory Supercomputing Center is focused on accelerating U.S. research in machine learning, device physics and autonomous systems (Dell).
NASA Center for Climate Simulation executes on research science initiatives using HPC, giving scientists the ability to access to large data sets and powerful compute resources (Dell).
The University of Pisa built an HPC infrastructure designed to deliver the performance, storage capacity and compute power required for advanced research in numerous competitive fields (HPCwire).
HPC requires highly specialized IT infrastructure and data center designs because the performance demands are staggeringly high. Georgia Tech, for example, recently built a new HPC system that supports data-driven research in astrophysics, computational biology, health sciences, computational chemistry, materials and manufacturing, and numerous other projects. It will also be used for research that improves the energy efficiency and performance of the HPC systems themselves. This necessitates specific needs for proper heating, cooling, space and managing massive workloads. Such an endeavor is best undertaken with the support and partnership of an advanced data center provider well-versed in the IT challenges of HPC. Last fall, DataBank built a high-density solution for Georgia Tech to solve for this very issue.
Supercomputers have the potential to improve human lives through discoveries and advancements in science and research. This is why it’s so critical for universities to have access to a data center and infrastructure provider with experience in helping higher education institutions create roadmaps for their current and future demands, from configurations to reliability.
Planning for research initiatives that require super computing capabilities, like genomics or deep space analysis, are major drivers for attendance and acceptance rates, as well as attracting new professors that bring value to the institution. As such, these initiatives must be factored into planning around compute. It’s important to remember that technology is a direct tie-back to the value proposition a university can offer to its constituents.
If your university is planning to develop an HPC platform, there are several considerations that need to be made with respect to IT infrastructure and data center planning. When we partner with customers in higher education, such as Georgia Tech, we start by walking technology decision makers through existing infrastructure and evaluating a number of factors to determine the changes that need to be made.
“We help universities break through requirements and estimate their demand profile so they’re able to make a decision in terms of how much capacity they need and what type of design they should seek out. It’s a collaborative process with DataBank sharing much of its expertise.”
-Justin Puccio, EVP, Corporate Development, DataBank
Universities commonly operate data centers that have been built over time in an ad hoc fashion. Often, these facilities run legacy infrastructure powered by antiquated gear that supports important prospective programs. It’s time for a new model for enabling HPC in higher education, wherein universities upgrade outdated infrastructure and future proof for the next ten years. A campus data center should be an opportunity to showcase the importance a school places on science and technology.
The new computing paradigm for education institutions means abandoning aging infrastructure and embracing an entirely new approach that will drive the goals of super computing, and by extension, the university. To accomplish this, it’s necessary to solve for the challenges of heating, cooling, space, and managing massive workloads. Consider forming a partnership with an advanced data center provider well-versed in the IT challenges of higher education, HPC in particular.
Building a high-performance computing center is an expensive undertaking, requiring specialized talent in construction and operation as well as significant capital to build and operate a cutting-edge facility. By partnering with DataBank, GeorgiaTech was able to reduce the upfront costs while still achieving its goals of a world-class facility.
Working with a data center partner is also valuable in the context of higher-ed HPC initiatives because the right partner will work with you on your security and compliance concerns. Whether you handle data subject to regulatory entities or you’re trying to secure your environment to protect valuable information, it’s possible to gain the proper power, cooling, and space for your environment and secure it in one fell swoop.
Backups and disaster recovery are important considerations, too. Research moves fast, and backing it up regularly and properly will protect your findings as they evolve.
Benefits of an HPC Partnership
Take it from us: it’s not a small commitment to entrust critical infrastructure components that underpin research efforts, and it calls for an expert partner you can trust. If your technology team is looking to pursue high performance computing initiatives, but is struggling to figure out support and financing, consulting with a specialized data center provider is a pertinent next step.
We live in an incredible time during which scientists, engineers, and scholars around the globe continue to make progress on discoveries that are shaping our future. An HPC solution fosters research on these discoveries, and enables the ability for universities to solve complex problems. Further, many organizations outside of higher education institutions are equally invested in participating and benefiting from ground-breaking research. A new HPC model can attract and build upon these relationships.
Not to mention, it’s important to empower your research team to execute on their search for knowledge, but it’s equally important to protect the fruits of their labor. You can solve this problem by taking advantage of a data center that will give you the space, power and cooling you really need to use HPC effectively.
Fully upgrading a legacy IT infrastructure and creating a complete HPC strategy are decade-plus investment decisions, which is why the right expertise is so critical. DataBank possesses the expertise, skill, and financial strength to be able to meet the unique needs of university clients. DataBank also specializes in providing such environments and the managed services that complement them so that your university doesn’t have to lay out excessive capital for IT initiatives that would be better spent elsewhere.
If you’re seeking to identify the best way to protect your HPC technology and support your researchers, get in touch with DataBank today, or call us at 1.800.840.7533 and speak to an expert.
If you would like to learn more about how DataBank can assist universities with the technology, operations and business model for an HPC facility, sign up for our webinar co-hosted with EYP Critical Facilities on Sept 26 at noon ET
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