Advanced Computing in the Age of AI | Friday, March 29, 2024

Dell Pushing Advanced Scale to the Enterprise 

SC15 is starting to feel like EnterpriseHPC15. The big systems and chip makers all seem to be publicly pivoting towards the enterprise. Yesterday it was Dell’s turn declaring its intention to democratize HPC and accelerate mainstream adoption.

Dell, which bills itself as the lone desktop-to-petaflops company now that HP has split up, is rolling out what it calls engineered solutions and reference architectures intended to make HPC adoption dramatically easier for small and medium enterprises. Engineered solutions can be ready-to-run out of the box, said Jim Ganthier, vice president and general manager, Engineered Solutions and Cloud, Dell. The reference architectures are more likely to deliver 80 percent of the solution with Dell-client collaboration filling in the final 20 percent

Put simply, the Dell belief is this: HPC is becoming increasingly critical to how organizations of all sizes innovate and compete. Many organizations lack the in-house expertise to configure, build and deploy an HPC system without losing focus on their core science, engineering and analytic missions.

Indeed every big systems builder seems to have a version of the argument. Ganthier cited National Center for Manufacturing Sciences data that suggests 98 percent of all products will be designed digitally by 2020, yet 95 percent of the center’s 300,000 manufacturing companies have little or no HPC expertise.

“We can call it the HPC gap,” Ed Turkel, HPC strategist, Dell, told EnterpriseTech. “Many smaller companies think it’s too hard, too expensive, they don’t know how to do it, they’re terrified of Linux – there are a lot of reasons. So we want to pursue this notion of democratizing, we want to make this whole process simpler.”

If supercomputers are the spearhead of advanced computing, the slowdown in Moore’s Law has flattened the spear tip just as the enterprise’s need for advanced computing has grown. Result: Some of the grandeur has slipped from the TOP500 and making the list is not the badge of glory it once was. Ganthier said, “It’s kind of starting to run its course because standing up [in the TOP500] is just a beauty contest.” The real action, Dell is betting, is putting HPC to work. He said Dell wouldn’t walk away from the TOP500 – there were 13 Dells on the list this year – but it wasn’t a priority.

In implementing this strategy, Turkel said Dell wants to replicate in the HPC sphere what the company did to the PC market starting in the late 1980s and later on with X86 servers – ease and broaden market acceptance of technology.

This applies to traditional enterprise users of advanced scale computing in such industries as manufacturing and energy, where Dell wants to provide solutions so that companies can “more easily consume HPC technology and therefore focus on their primary mission.”

“At the same time, we also believe there’s a vast, untouched part of the market of industrial customers who might be doing technical computing on workstations, or even PCs, but have not taken advantage of the benefits of HPC yet,” Turkel said.

Dell plans to leverage its technical expertise, work with prominent domain collaborators, and alliance with leading technology partners to create a pipeline of pre-formed HPC solutions. A good example is the fruit of its collaboration with genomics powerhouse, the Translational Genomics Institute. The Dell HPC System for Genomic Data Analysis is designed to meet the needs of genomic research organizations to enable cost-effective bioinformatics centers delivering results and identifying treatments in clinically relevant timeframes while maintaining compliance and protecting confidential data.

The engineered solution version is “literally a part number. Everything is prebuilt and prewired right up to including genomics analysis tool suites,” said Ganthier. A more sophisticated user might choose to work with the reference architecture so as to create a system optimized for specific needs.

Two other application-specific HPC offerings announced as part of the Dell HPC Systems Portfolio include:

• Dell HPC System for Manufacturing is designed for customers running complex manufacturing design simulations using workstations, clusters or both. Applicable use cases include Finite Element Analysis for structural analysis using ANSYS Mechanical & Computational Fluid Dynamics for predicting fluid behavior in designs utilizing ANSYS Fluent or CD-adapco STAR-CCM+.

• Dell HPC System for Research is designed as a foundation, or reference architecture, for baseline research systems and numerous applications involving complex scientific analysis. This standard cluster configuration can be used as a starting point for Dell’s customers and systems engineers to quickly develop research systems that match the unique needs of research customers requiring systems for a wide variety of research agendas.

“HPC is no longer a tool only for the most sophisticated researchers. We’re taking what we’ve learned from working with some of the most advanced, sophisticated universities and research institutions and customizing that for delivery to mainstream enterprises,” said Ganthier.

The new Dell HPC System Portfolio is a family of HPC and data analytics solutions featuring: simplified design, configuration, and ordering in a matter of hours instead of weeks; domain-specific design that’s designed and tuned by Dell engineers and domain experts for specific science, engineering and analytics workloads using flexible industry-standard building blocks; and fully tested and validated with a single point of hardware support and a wide range of additional service options.

Big data and the cloud considerations were also important if not the major drivers in the strategy shift. “Every conversation about HPC now has a big data component or has a cloud component,” said Ganthier. Data handling and data analytics will no doubt play important roles in product development, as will efforts to leverage Dell cloud resources.

Investment and realignment of resources are needed to make the new strategy work. Dell announced a new expansion of its Dell HPC Innovation Lab in cooperation with Intel specifically for support of its Intel Scalable System Framework. It’s a multi-million dollar expansion to the Austin, TX, facility and includes additional domain expertise, infrastructure and technologists. It’s likely more such centers will be added over time.

Ganthier noted Dell is an early supporter of the nascent OpenHPC project being organized by the Linux Foundation. Its primary goal is a more ‘standardized’ software stack for HPC. It’s still early, but there’s agreement that such a stack, if it were reliable and easy to use, could accelerate HPC adoption in the enterprise.

Dell is clearly betting big on Intel. Beyond becoming the first major original equipment manufacturer (OEM) to join the Intel Fabric Builders program, Dell is working closely with Intel to support its Intel Scalable System Framework, which includes Intel Omni-Path Fabric technology, next-generation Intel Xeon processors, the Intel Xeon Phi processor family, and the Intel Enterprise Edition for Lustre.

Dell also announced that its new networking H-Series switches and adapters for PowerEdge servers would support Omni Path. The architecture includes advanced features such as traffic flow optimization, packet integrity protection and dynamic lane scaling allowing for finer-grained control on the fabric level to enable high resiliency, high performance and optimized traffic movement.

In addition, Dell said it would showcase at SC15 many components of the Intel Scalable System Framework including Intel Omni-Path Architecture, Intel Enterprise Edition of Lustre, and the Intel Xeon Phi processor family. In addition, Dell is hosting numerous confidential advisory sessions with customers at the show gathering insights to help optimize its implementation of systems using next-generation Intel Xeon Phi.

About the author: George Leopold

George Leopold has written about science and technology for more than 30 years, focusing on electronics and aerospace technology. He previously served as executive editor of Electronic Engineering Times. Leopold is the author of "Calculated Risk: The Supersonic Life and Times of Gus Grissom" (Purdue University Press, 2016).

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