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Exaflow: Collaborating on the Computational Challenges of CFD

“Fluid Dynamics (FD) simulations provide a powerful tool for the analysis of such fluid flows and are an essential element of many industrial and academic problems. The complexities and nature of fluid flows, often combined with problems set in open domains, implies that the resources needed to computationally model problems of industrial and academic relevance is virtually unbounded.”

Podcast: Why HPC is Vital at NASA

“At NASA, what we’re doing is we’re really looking at ways of making aircraft more efficient. We’re trying to make them quieter. We’re trying to make them get to cruise altitude faster, which saves the taxpayer or the people who are using airplanes a lot of money, and we look at really complex problems. We look at things like rotorcraft. If you think about how that model looks, it’s a very complex model. What do we do with supercomputing? Pretty much everything across the board.”

Video: Optimizing HPC Service Delivery at Boeing

Jim Glidewell from Boeing presented this talk at the PBS Works User Group. “There are multiple elements to providing an effective and efficient HPC service. This presentation will share some of our strategies for extracting maximal value from our HPC hardware and providing a service that meets the needs of our engineering customers.”

The Past and Future of Aircraft Engine Development

“Inside a jet engine, air flowing faster than a hurricane is combined with fuel to generate heat that powers the plane. Designers are turning to supercomputers to model these complex processes to make new engines that are cleaner, quieter and cheaper. Our first aircraft engine transformed the aviation industry. It was the 410-horsepower, air­cooled Wasp, which delivered unprecedented performance and reliability for the time. We have been leading change ever since.”

Video: Computational Fluid Dynamics for Surgical Planning

“The current versions of the codes use MPI and depend on finer and finer meshes for higher accuracy which are computationally demanding. To overcome the demands, the team has gained access to their state-of-the-art cluster equipped with POWER CPUs and Tesla P100 GPUs — and turning to OpenACC and machine learning to accelerate their science. This has allowed them to spend the least resources on programming, and effectively utilize available compute resources.”

Call for Abstracts: FLOW-3D Americas Users Conference

The 2017 FLOW-3D Americas Users Conference has issued its Call for Abstracts. The event takes place Sept. 20-21 in Santa Fe, NM. “The call for abstracts for is now open. Share your experiences, present your success stories and obtain valuable feedback from your fellow CFD practitioners and Flow Science staff. The deadline to submit an abstract is Friday, August 4. The conference proceedings will be made available to attendees as well as through the Flow Science website.”

Supercomputing the Hyperloop on Azure

Today Cycle Computing announced that the HyperXite team is using CycleCloud software to manage Hyperloop simulations using ANSYS Fluent on the Azure Cloud. “Our mission is optimize and economize the transportation of the future and Cycle Computing has made that endeavor so much easier, said Nima Mohseni, Simulation Lead, HyperXite. “We absolutely require a solution that can compress and condense our timeline while providing the powerful computational results we require. Thank you to Cycle Computing for making a significant difference in our ability to complete our work.”

Best Practices – Large Scale Multiphysics

Frank Ham from Cascade Technologies presented this talk at the Stanford HPC Conference. “A spin-off of the Center for Turbulence Research at Stanford University, Cascade Technologies grew out of a need to bridge between fundamental research from institutions like Stanford University and its application in industries. In a continual push to improve the operability and performance of combustion devices, high-fidelity simulation methods for turbulent combustion are emerging as critical elements in the design process. Multiphysics based methodologies can accurately predict mixing, study flame structure and stability, and even predict product and pollutant concentrations at design and off-design conditions.”

Video: Rescale Night Showcases HPC in the Cloud

“Billed as an exposition into ‘The Future of Cloud HPC Simulation,’ the event brought together experts in high-performance computing and simulation, cloud computing technologists, startup founders, and VC investors across the technology landscape. In addition to product demonstrations with Rescale engineers, including the popular Deep Learning workshop led by Mark Whitney, Rescale Director of Algorithms, booths featuring ANSYS, Microsoft Azure, Data Collective, and Microsoft Ventures offered interactive sessions for attendees.”

Job of the Week: Wind Energy Research Engineer at NREL

“The National Renewable Energy Laboratory(NREL), located at the foothills of the Rocky Mountains in Golden, Colorado, is the nation’s primary laboratory for research and development of renewable energy and energy efficiency technologies. NREL is continuing an active research and development program for modeling of wind farm interactions and mesoscale dynamics within the National Wind Technology Center. This R&D program has an opening for one full-time engineer in wind farm modeling and mesoscale research.”