“With this release, we’re going to be nimbler and faster to market than ever before,” said Dr. Amir Isfahani, President & CEO of Flow Science.
SANTA FE, N.M. (PRWEB)
September 19, 2022
In the 2022R2 release, Flow Science has unified the workstation and HPC versions of FLOW-3D to deliver a single solver engine capable of taking advantage of any type of hardware architecture, from single node CPU configurations to cluster-like multi-node parallel high performance computing executions. Additional developments include a new log conformation tensor method for visco-elastic flows, continued solver speed performance improvements, advanced cooling channel and phantom component controls, improved entrained air functionalities, as well as boundary condition definition improvements for civil and environmental engineering applications.
“By combining the workstation and HPC versions of our products, we are making the latest HPC optimizations available to our workstation users who run on lower CPU core counts, removing the delay for our HPC customers getting their hands on the latest developments, and maintaining only one unified code base, which makes our development efforts that much more efficient. With this release, we’re going to be nimbler and faster to market than ever before,” said Dr. Amir Isfahani, President & CEO of Flow Science.
Committed to user success, FLOW-3D products come with high-level support, video tutorials and access to an extensive set of example simulations. Customers can also take advantage of Flow Science’s CFD Services to augment their product experience, including customized training courses, HPC resources and flexible cloud computing options.
A FLOW-3D 2022R2 product release webinar focusing on how to optimize run times on workstations and an overview of performance gains will be held on October 6 at 1:00 pm ET. Online registration is available at: https://us06web.zoom.us/webinar/register/WN_pv5FN2mHSX6KmhPKeu9B5Q
A full description of what’s new in all products is available at https://www.flow3d.com.
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