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Altair Extends Strategic HPC OEM Agreement with HPE

Troy, Mich., Sept. 3, 2020 – Altair (Nasdaq: ALTR), a global technology company providing solutions in product development, high performance computing (HPC), and data analytics, extended its multi-year OEM agreement with Hewlett Packard Enterprise (HPE) to offer the newly enhanced version of Altair® PBS Professional® workload manager and job scheduler across HPE’s industry-leading HPC systems, including HPE Apollo Systems and […]

Nissan Shifts to Oracle Cloud for CFD, 3D Visualization HPC Design Workloads

Oracle announced today that Nissan Motor Co. is migrating its on-premises engineering simulation HPC workloads to run on the Oracle Cloud Infrastructure. Nissan uses computational fluid dynamics (CFD) and structural simulation techniques to design and test cars for external aerodynamics and structural failures. Oracle said Nissan chose its cloud platform for its bare-metal compute, RDMA […]

The Hyperion-insideHPC Interviews: Rich Brueckner and Doug Ball Talk CFD, Autonomous Mobility and Driving Down HPC Package Sizing

Doug Ball is a leading expert in computational fluid dynamics and aerodynamic engineering, disciplines he became involved with more than 40 years ago. In this interview with the late Rich Brueckner of insideHPC, Ball discusses the increased scale and model complexity that HPC technology has come to handle and, looking to the future, his anticipation […]

Supercomputing the spread of the coronavirus in busy indoor spaces

A joint project carried out by four Finnish research organisations has studied the transport and spread of coronavirus through the air. Preliminary results indicate that aerosol particles carrying the virus can remain in the air longer than was originally thought, so it is important to avoid busy public indoor spaces. This also reduces the risk of droplet infection, which remains the main path of transmission for coronavirus.

How Supersonic Commercial Flight is Possible with Big Compute

In this video from Big Compute 2020, Blake Scholl from Boom Supersonic describes how high performance computing in the cloud has opened a new era of high-speed flight. “We’ve done about 66 million core hours of computing, mainly through Rescale since we started the design effort on XB-1. And if you asked yourself what that would look like and wind tunnel testing, it would be financially and timewise just absolutely impractical.”

Azure HBv2 Virtual Machines eclipse 80,000 cores for MPI HPC

Today Microsoft announced general availability of Azure HBv2-series Virtual Machines designed to deliver leadership-class performance, message passing interface (MPI) scalability, and cost efficiency for a variety of real-world HPC workloads. “HBv2 VMs deliver supercomputer-class performance, message passing interface (MPI) scalability, and cost efficiency for a variety of real-world high performance computing (HPC) workloads, such as CFD, explicit finite element analysis, seismic processing, reservoir modeling, rendering, and weather simulation. Azure HBv2 VMs are the first in the public cloud to feature 200 gigabit per second HDR InfiniBand from Mellanox. 

GE Research Leverages World’s Top Supercomputer to Boost Jet Engine Efficiency

GE Research has been awarded access to the world’s #1-ranked supercomputer to discover new ways to optimize the efficiency of jet engines and power generation equipment. Michal Osusky, the project’s leader from GE Research’s Thermosciences group, says access to the supercomputer and support team at OLCF will greatly accelerate learning insights for turbomachinery design improvements that lead to more efficient jet engines and power generation assets, stating, “We’re able to conduct experiments at unprecedented levels of speed, depth and specificity that allow us to perceive previously unobservable phenomena in how complex industrial systems operate. Through these studies, we hope to innovate new designs that enable us to propel the state of the art in turbomachinery efficiency and performance.”

Video: Making Supernovae with Jets

Chelsea Harris from the University of Michigan gave this talk at the CSGF 2019. “I am developing a FLASH hydrodynamics module, SparkJoy, to perform these simulations at high order. These projects are part of a DOE INCITE project to explore progenitor effects on CC SNe and of the DOE SciDAC program “Towards Exascale Astrophysics of Mergers and Supernovae.”

Reducing the risk of blood clots by supercomputing turbulent flow

People with mechanical heart valves need blood thinners on a daily basis, because they have a higher risk of blood clots and stroke. With the help of the Piz Daint supercomputer, researchers at the University of Bern have identified the root cause of blood turbulence leading to clotting. Design optimization could greatly reduce the risk of clotting and enable these patients to live without life-long medication.

Predictive Data Science for Physical Systems: From Model Reduction to Scientific Machine Learning

Karen Willcox from the University of Texas gave this Invited Talk at SC19. “This talk highlights how physics-based models and data together unlock predictive modeling approaches through two examples: first, building a Digital Twin for structural health monitoring of an unmanned aerial vehicle, and second, learning low-dimensional models to speed up computational simulations for design of next-generation rocket engines.”