Since 1987 - Covering the Fastest Computers in the World and the People Who Run Them

Since 1987 - Covering the Fastest Computers in the World and the People Who Run Them

Fusion, the nuclear reaction that powers the Sun and the stars, has incredible potential as a source of safe, carbon-free and essentially limitless energy. But making it a practical and economic reality has bedeviled scientists since the 1950s. Now fusion researchers are getting ready to leverage the power of exascale computing to unravel the mysteries of what may be the ultimate renewable energy source.

“To really understand what’s going on and what’s going to happen in the next experiment, you need big codes and big computers,” says Dr. Choongseok “CS” Chang, lead PI of a multi-institutional multi-disciplinary U.S. SciDAC Partnership Center for High-fidelity Boundary Plasma Simulation, headquartered at Princeton Plasma Physics Laboratory, Princeton University.

Exascale supercomputers are exactly what current fusion research needs, Chang explains. One of the biggest current challenges is making accurate predictions about the processes that occur inside tokamak reactors, which use giant magnetic fields to confine plasma fuel in a torus shape to achieve the conditions necessary for fusion. To advance this science, Chang’s team is preparing to use the Aurora Exascale supercomputer, the country’s first Intel-architecture-based exascale HPC system that will be deployed at the U.S. Department of Energy’s (DOE) Argonne National Laboratory.

It’s critical to be able to predict and control any disturbances that occur inside a tokomak that could bring the ultra-hot plasma into contact with the reactor wall. Engineers have windows measured in milliseconds to control instabilities before the plasma erupts from its magnetic confinement and potentially damages the reactor.

The walls of the reactor must be made out of materials that can bear the incredibly high heat and pressure of the plasma. Tungsten has the highest tensile strength of any pure metal, which is why it is being incorporated into the tokamak at the International Thermonuclear Experimental Reactor (ITER), an international fusion research and engineering project in southern France. Begun in 2013 and projected to have its first plasma in 2026 and begin full operation in 2035, ITER is the world’s largest tokamak, and is intended to prove that large-scale fusion energy is possible.

Experiments at JET (Joint European Tokamak) found that using tungsten in the tokamak walls resulted in a plasma confinement that was lower than expected. “It was totally unexpected,” Chang says, “so they’re really worried. If that was true, then ITER may have difficulty in producing 10 times more fusion energy than the input energy in its present design condition.”

But experiments have also showed that injecting a very light impurity material such as nitrogen or neon gas made the confinement levels recover. Nevertheless, even without injecting light impurity particles, researchers at the Joint European Torus (JET) fusion project in Oxfordshire, UK, were able to produce a groundbreaking 59 megajoules of energy during a five-second pulse in December 2021, more than doubling the previous world record. “This was a historic event, enough to claim that yes, fusion is actually practical,” Chang offers.  However, the energy yield rate was not yet up to the level required by ITER since they did not inject light impurity particles into the tokamak edge.

Since JET uses the same wall material to ITER, Chang says “our early science on Aurora is to understand this tungsten-wall experiment and how this will be extrapolated to ITER. We need to do first-principles-based high fidelity simulation and fundamentally verify the physics.” Their questions include why tungsten is degrading the fusion performance so much, why light impurity particles would bring back the performance, and how best to incorporate them into the reactor design.

The increased processing powers of exascale makes much higher fidelity scientific predictions and offers the potential to train more specialized surrogate models that can be shared in real-time with experimental facilities. “By using large scale HPCs optimized for AI and ML, there can be daily communication and progress between exascale computers running large scale simulations and large scale experiments,” Chang says, comparing it to the current trial-and-error process that can take years. “Aurora is expected to be 2 exaFLOPs peak dual-precision – that will be perfect.”

Chang’s team is using XGC Gyrokinetic code, a modern particle-in-cell code built and optimized for extreme scale computers, especially GPU machines. It’s highly scalable and open source to the U.S. community. “It’s a big code designed to take advantage of big modern HPCs – when I see the specs of Aurora, I get excited,” he laughs. He hopes to have the code ready for Aurora in 2022 or early 2023.

Aurora will integrate Intel’s upcoming HPC and AI hardware and software innovations, including future generation Intel Xeon Scalable processors (codenamed Sapphire Rapids HBM), and accelerated by future Intel Data Center GPUs (codenamed Ponte Vecchio). It is based on Slingshot 11 fabric and the HPE Cray EX supercomputer platform. It will support ten petabytes of memory, and will leverage Intel Distributed Asynchronous Object Storage (DAOS) technology, supported on Intel Optane Persistent Memory. “The oneAPI unified programming model will simplify development across diverse architectures,” Chang says.

Chang has faith that Aurora will shorten the timeframe for the development of commercial fusion energy, which he acknowledges always seemed to be just a few decades away. In the meantime, he says, “there’s still a lot of work to do.”

Julian Smith is an award-winning green tech, conservation and travel writer based in Portland, Oregon, whose work has appeared in Wired, Smithsonian, New Scientist and the Washington Post among others.

Be the most informed person in the room! Stay ahead of the tech trends with industy updates delivered to you every week!

Full-stack quantum computing startup Rigetti announced a number of new partnerships and strategic updates at its inaugural investor day meeting, held in-person at the company’s Fab-1 facilities in the San Francisco are Read more…

Jetstream2, a collaborative cloud HPC system spread across five institutions, has entered full production following an early operations phase that began earlier this year. The computer — which now serves a broad resear Read more…

In this regular feature, HPCwire highlights newly published research in the high-performance computing community and related domains. From parallel programming to exascale to quantum computing, the details are here. Read more…

Two and a half years later, much of the world has settled into an uneasy routine with Covid-19 thanks to a host of highly effective vaccines and a handful of effective therapeutic drugs. Variants loom over this tenuous p Read more…

When DeepMind, an Alphabet subsidiary, started off more than a decade ago, solving some most pressing research questions and problems with AI wasn’t at the top of the company’s mind. Instead, the company started off AI research with computer games. Every score and win was a measuring stick of success... Read more…

Contributions from Blythe Walker , CTO RenaissanceRe, Colum Thorne, VP Platform Architecture RenaissanceRe, Eoin Shanaghy – CTO fourTheorem, Luciano Mammino, Senior Cloud Architect fourTheorem, Matthew Meckes, Senior Serverless Specialist AWS

RenaissanceRe is one of the world’s leading reinsurance companies, consistently recognized for our innovation, technical excellence, and creative problem-solving. Read more…

Insurance is a highly regulated industry that is evolving as the industry faces changing customer expectations, massive amounts of data, and increased regulations. A major issue facing the industry is tracking insurance fraud. Read more…

Well-heeled Google spinout SandboxAQ announced its first acquisition today – snapping up cybersecurity software specialist Cryptosense – while quantum networking startup Aliro Quantum added a CMO to ramp up commercia Read more…

Full-stack quantum computing startup Rigetti announced a number of new partnerships and strategic updates at its inaugural investor day meeting, held in-person Read more…

Jetstream2, a collaborative cloud HPC system spread across five institutions, has entered full production following an early operations phase that began earlier Read more…

When DeepMind, an Alphabet subsidiary, started off more than a decade ago, solving some most pressing research questions and problems with AI wasn’t at the top of the company’s mind. Instead, the company started off AI research with computer games. Every score and win was a measuring stick of success... Read more…

Well-heeled Google spinout SandboxAQ announced its first acquisition today – snapping up cybersecurity software specialist Cryptosense – while quantum netwo Read more…

Chipmaker Cerebras is patching its chips – already considered the world's largest – to create what could be the largest-ever computing cluster for AI computing. A reasonably sized "wafer-scale cluster," as Cerebras calls it, can network together 16 CS-2s into a cluster to create a computing system with 13.6 million cores for natural... Read more…

SambaNova Systems is announcing – and shipping – its second-generation DataScale system, the DataScale SN30. Powered by the eponymous Cardinal SN30 RDU (Rec Read more…

The wheels are turning on the so-called CHIPS and Science Act, with a flurry of activity this week to turn the legislation into action. On Friday, U.S. President Joe Biden will be in Ohio alongside Intel CEO Pat Gelsinger to break ground on the chipmaker's new $20 billion manufacturing site, which will likely be partially... Read more…

The steady maturation of MLCommons/MLPerf as an AI benchmarking tool was apparent in today’s release of MLPerf v2.1 Inference results. Twenty-one organization Read more…

It is perhaps not surprising that the big cloud providers – a poor term really – have jumped into quantum computing. Amazon, Microsoft Azure, Google, and th Read more…

In April 2018, the U.S. Department of Energy announced plans to procure a trio of exascale supercomputers at a total cost of up to $1.8 billion dollars. Over the ensuing four years, many announcements were made, many deadlines were missed, and a pandemic threw the world into disarray. Now, at long last, HPE and Oak Ridge National Laboratory (ORNL) have announced that the first of those... Read more…

The U.S. Senate on Tuesday passed a major hurdle that will open up close to $52 billion in grants for the semiconductor industry to boost manufacturing, supply chain and research and development. U.S. senators voted 64-34 in favor of advancing the CHIPS Act, which sets the stage for the final consideration... Read more…

The 59th installment of the Top500 list, issued today from ISC 2022 in Hamburg, Germany, officially marks a new era in supercomputing with the debut of the first-ever exascale system on the list. Frontier, deployed at the Department of Energy’s Oak Ridge National Laboratory, achieved 1.102 exaflops in its fastest High Performance Linpack run, which was completed... Read more…

The first-ever appearance of a previously undetectable quantum excitation known as the axial Higgs mode – exciting in its own right – also holds promise for developing and manipulating higher temperature quantum materials... Read more…

Amid the high-performance GPU turf tussle between AMD and Nvidia (and soon, Intel), a new, China-based player is emerging: Biren Technology, founded in 2019 and headquartered in Shanghai. At Hot Chips 34, Biren co-founder and president Lingjie Xu and Biren CTO Mike Hong took the (virtual) stage to detail the company’s inaugural product: the Biren BR100 general-purpose GPU (GPGPU). “It is my honor to present... Read more…

Additional details of the architecture of the exascale El Capitan supercomputer were disclosed today by Lawrence Livermore National Laboratory’s (LLNL) Terri Read more…

Tesla has revealed that its biggest in-house AI supercomputer – which we wrote about last year – now has a total of 7,360 A100 GPUs, a nearly 28 percent uplift from its previous total of 5,760 GPUs. That’s enough GPU oomph for a top seven spot on the Top500, although the tech company best known for its electric vehicles has not publicly benchmarked the system. If it had, it would... Read more…

HPCwire takes you inside the Frontier datacenter at DOE's Oak Ridge National Laboratory (ORNL) in Oak Ridge, Tenn., for an interview with Frontier Project Direc Read more…

AMD is getting personal with chips as it sets sail to make products more to the liking of its customers. The chipmaker detailed a modular chip future in which customers can mix and match non-AMD processors in a custom chip package. "We are focused on making it easier to implement chips with more flexibility," said Mark Papermaster, chief technology officer at AMD during the analyst day meeting late last week. Read more…

Intel reiterated it is well on its way to merging its roadmap of high-performance CPUs and GPUs as it shifts over to newer manufacturing processes and packaging technologies in the coming years. The company is merging the CPU and GPU lineups into a chip (codenamed Falcon Shores) which Intel has dubbed an XPU. Falcon Shores... Read more…

The long-troubled, hotly anticipated MareNostrum 5 supercomputer finally has a vendor: Atos, which will be supplying a system that includes both Nvidia and Inte Read more…

The Universal Chiplet Interconnect Express (UCIe) consortium is moving ahead with its effort to standardize a universal interconnect at the package level. The c Read more…

Fusion, the nuclear reaction that powers the Sun and the stars, has incredible potential as a source of safe, carbon-free and essentially limitless energy. But Read more…

Just a couple of weeks ago, the Indian government promised that it had five HPC systems in the final stages of installation and would launch nine new supercomputers this year. Now, it appears to be making good on that promise: the country’s National Supercomputing Mission (NSM) has announced the deployment of “PARAM Ganga” petascale supercomputer at Indian Institute of Technology (IIT)... Read more…

You may recall that efforts proposed in 2020 to remake the National Science Foundation (Endless Frontier Act) have since expanded and morphed into two gigantic bills, the America COMPETES Act in the U.S. House of Representatives and the U.S. Innovation and Competition Act in the U.S. Senate. So far, efforts to reconcile the two pieces of legislation have snagged and recent reports... Read more…

© 2022 HPCwire. All Rights Reserved. A Tabor Communications Publication

HPCwire is a registered trademark of Tabor Communications, Inc. Use of this site is governed by our Terms of Use and Privacy Policy.

Reproduction in whole or in part in any form or medium without express written permission of Tabor Communications, Inc. is prohibited.