TACC's New Stampede3 Advances NSF Supercomputing Ecosystem
A unique, innovative, and scalable system to support the open science community
For over a decade, the Stampede systems — Stampede (2012) and Stampede2 (2017) — have been flagships in the
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"Stampede3 will provide the user community access to CPU nodes equipped with high-bandwidth memory for accelerated application performance," said Katie Antypas, office director for NSF's Office of Advanced Cyberinfrastructure. "In addition, the transition from Stampede2 to Stampede3 will be transparent to users easing the shift to a new system. I'm confident it will be a popular platform for the broad science and engineering community."
Said Dan Stanzione, executive director of TACC: "We will continue our long partnership with Dell and Intel and leverage the NSF investments in Stampede2 for this new science resource using the latest technology processors with high bandwidth memory, and making Intel graphics processing units widely available to the NSF open science community."
Stampede3 will deliver:
- A new 4 petaflop capability for high-end simulation: 560 new Intel® Xeon® CPU Max Series processors with high bandwidth memory-enabled nodes, adding nearly 63,000 cores for the largest, most performance-intensive compute jobs.
- A new graphics processing unit/AI subsystem including 10 Dell PowerEdge XE9640 servers adding 40 new Intel® Data Center GPU Max Series processors for AI/ML and other GPU-friendly applications.
- Reintegration of 224 3rd Gen Intel Xeon Scalable processor nodes for higher memory applications (added to Stampede2 in 2021).
- Legacy hardware to support throughput computing — more than 1,000 existing Stampede2 2nd Gen Intel Xeon Scalable processor nodes will be incorporated into the new system to support high-throughput computing, interactive workloads, and other smaller workloads.
- The new Omni-Path Fabric 400 Gb/s technology offering highly scalable performance through a network interconnect with 24 TB/s backplane bandwidth to enable low latency, excellent scalability for applications, and high connectivity to the I/O subsystem.
- 1,858 compute nodes with more than 140,000 cores, more than 330 terabytes of RAM, 13 petabytes of new storage, and almost 10 petaflops of peak capability.
"We believe the high bandwidth memory of the Xeon Max CPU nodes will deliver better performance than any CPU that our users have ever seen," Stanzione said. "They offer more than double the memory bandwidth performance per core over the current 2nd and 3rd Gen Intel Xeon Scalable processor nodes on Stampede2."
In addition, Stampede3 will be the only system in the NSF ACCESS environment to integrate the new Intel Max Series GPUs.
"We're proud to contribute the technologies for TACC's Stampede3 system, which will empower the research community through improved performance with no code changes through our Max Series CPUs, and offer a path forward for open, accelerated computing through our Max Series GPUs," said Mark Hirsch, Intel vice president, general manager of super compute product management, customer architecture and engineering. "The combination of the two processors will forge a path for scientists and engineers to gain unprecedented productivity."
Dave Lincoln, vice president of compute systems and solutions for Dell Technologies, said: "Stampede3 will be a key to discovery as its researchers use the system to study everything from the creation of distant galaxies to finding treatments for once thought incurable diseases. This Dell Technologies-powered system will help TACC continue our long-shared history of deploying the latest technologies to enable curiosity and advance society."
The Stampede3 project, as with the previous Stampede systems, encompasses more than just technology. Stampede3 will also include first-class operations, user support and training, education, outreach, documentation, data management, visualization, analytics-driven application support, and research collaboration.
The new system will be delivered in fall 2023, and go into full production in early 2024, with no break in service from Stampede2 to Stampede3. It will serve the open science community from 2024 through 2029. Stampede3 allocations will be available through the ACCESS project to its broad user community.
"The best way to make the case for the science and engineering need and promise of Stampede3 is to look at the success of the current Stampede2, which is nearing the end of its production life," Stanzione said. "Individual jobs on Stampede2 have been successful even at the extreme scale, ranging to half a million cores, and have come from nearly all fields of science."
Since its deployment, more than 11,000 users working on over 3,000 funded projects have run more than 11 million simulations and data analysis jobs on Stampede2 thus far in its production life.
Stanzione concluded: "We look forward to deploying Stampede3 as the next high-capability and capacity HPC system in the national cyberinfrastructure available to all open science research projects in the
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SOURCE Texas Advanced Computing Center