Results that matter
The HPE ProLiant DL385 Gen10 server also specializes in targeting high-performance computing (HPC) applications to address complex, compute-intensive workloads to unlock discovery in science and engineering as well bolster time to insights for commercial use across manufacturing, banking and financial, and more.
“At the Minnesota Supercomputing Institute, we are committed to accelerating research for a range of sciences and technologies to foster innovation across a breadth of industries,” said Dr. James Wilgenbusch, director, Research Computing, Minnesota Supercomputing Institute at University of Minnesota. “By running our system on the HPE ProLiant DL385 server, based on the 2nd Gen AMD EPYC™ processor, we are gaining significant performance required to power our enormously diverse set of computational workloads, while achieving efficiency and cost savings compared to our previous system.”
Making record-setting results available to HPE customers
HPE makes it simple for customers to achieve record-setting performance and efficiency. Workload matching, a standard feature on HPE ProLiant, brings the expertise of HPE performance engineers to preconfigured profiles that automatically optimize hundreds of BIOS setting combinations to precisely match server resources to workload requirements.
Workload matching was used extensively to achieve the new HPE ProLiant DL325 and HPE ProLiant DL385 benchmark results.
Taking holistic, 360-degree approach to security
Cyber-attacks have become more frequent, pervasive and sophisticated, proving the typical perimeter security strategy inadequate.
HPE takes a unique holistic, 360-degree approach to security, arming the server with innovative firmware protection, malware detection and firmware recovery capabilities right down to the silicon.
The HPE-exclusive silicon root of trust has already made the HPE ProLiant the world’s most secure industry standard server.i Now, with the integration of the new AMD EPYC™-embedded Secure Processor into the HPE silicon root of trust, customers gain even more protection.
The integration of the HPE silicon root of trust and the AMD Secure Processor provides for a BIOS-level double validation of the server, first by the HPE silicon root of trust as the server initializes then, again, by the AMD Secure Processor before the AMD EPYC™ starts, preventing the server from booting should the firmware be compromised in any way.
This integrated double validation protects applications and data plus prevents the spread of malware to other connected infrastructure resources.
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