Multiphysics Solution integrates HPC capabilities.
Press Release Summary:
ANSYS® v12.0 enables product development teams to increase simulation value by considering large, high-fidelity models in shorter turnaround times. Optimized parallel computing performance on multi-core processors, support for large simulations, and support for parallel file systems lend to High-Performance Computing (HPC) capabilities for multiphysics simulations. Solution can scale from multi-core desktop workstations to departmental clusters and large enterprise supercomputers.
Original Press Release:
Ansys 12.0 High-Performance Computing Capabilities Mean More Productive Use of Engineering Simulation
Major Advances in New Release Deliver Teraflop Performance
SOUTHPOINTE, PA - May 11, 2009 - ANSYS, Inc. (NASDAQ: ANSS), a global innovator of simulation software and technologies designed to optimize product development processes, today announced significant high-performance computing (HPC) milestones achieved with ANSYS® 12.0. The new release delivers impressive performance gains that enable product development teams to increase the value of simulation by considering large, high-fidelity models in shorter turnaround times. Key HPC achievements in the recent release include optimized parallel computing performance on multi-core processors, expanded support for large simulations, scaling breakthroughs, and support for parallel file systems. These product enhancements deliver best-in-class HPC capability for multiphysics simulations, engineered to scale from multi-core desktop workstations to departmental clusters and large enterprise supercomputers.
"Engineers today are including more geometric details in their analyses and looking for a more-realistic treatment of physical phenomena. Both of these factors drive the need for outstanding performance on the latest computing platforms," said Jim Cashman, president and CEO of ANSYS, Inc. "ANSYS 12.0 is our most HPC-capable release to date, and it delivers tremendous value to customers who need faster turnaround and the ability to consider high-fidelity multiphysics simulations. HPC is an important part of Simulation Driven Product Development(TM), since it delivers efficiency and productivity improvements to engineering organizations seeking to gain a competitive advantage in today's business climate."
ANSYS 12.0 technology incorporates optimization for the latest multi-core processors and benefits greatly from recent improvements in processor architecture, resulting in highly efficient use of parallel processing to reduce the turnaround time for simulation. Improved algorithms for model partitioning, combined with optimized communications and load balancing between processors, have yielded additional parallel scaling breakthroughs. For structural mechanics analyses, dramatically improved scaling is observed on desktop parallel systems, and a major performance milestone of over 1 teraflop has been achieved via cluster computing on 512 cores. Teraflop performance is well over 100 times faster than the fastest single-core performance currently observed, reducing run times from days to minutes on the most challenging simulations. For fluid dynamics simulations, nearly ideal linear speedup has been demonstrated out to 1,024 cores, roughly doubling the core count for ideal scaling compared to previous releases. At 2,048 cores, scaling remained at approximately 80 percent of ideal linear performance. ANSYS FLUENT® 12.0 software introduces parallel input and output (I/O) of files, dramatically reducing turnaround time for large simulations that involve extensive I/O and removing file handling as a bottleneck for scaling on large clusters. In addition, ANSYS 12.0 technology includes important enhancements that enable larger simulations than ever before, setting the stage for customers to consider highly detailed physical phenomena and full-assembly models in their fluids or structural simulations.
Recognizing that HPC deployment and management are key concerns, ANSYS 12.0 is pretested for interoperability with multiple hardware solutions, including registration under the Intel® Cluster Ready standard and support for Microsoft® Windows® HPC Server 2008, as well as Linux® and UNIX®-based clusters.
"In today's environment, product development teams are looking to bring their products to market faster with digital prototyping of large, high-fidelity models," said Kirk Skaugen, vice president and general manager of Intel's Server Platforms Group. "The performance of the Intel® Xeon® processor 5500 series with the tuned and optimized ANSYS products has delivered speedup of more than two times for ANSYS® Mechanical(TM) and ANSYS FLUENT applications. This kind of speed is key for today's mission-critical engineering simulations."
HPC performance data for the new release and supporting materials are available at www.ansys.com/corporate/partners/partners-hpc.asp.
About ANSYS, Inc.
ANSYS, Inc., founded in 1970, develops and globally markets engineering simulation software and technologies widely used by engineers and designers across a broad spectrum of industries. The Company focuses on the development of open and flexible solutions that enable users to analyze designs directly on the desktop, providing a common platform for fast, efficient and cost-conscious product development, from design concept to final-stage testing and validation. The Company and its global network of channel partners provide sales, support and training for customers. Headquartered in Canonsburg, Pennsylvania, U.S.A., with more than 60 strategic sales locations throughout the world, ANSYS, Inc. and its subsidiaries employ approximately 1,700 people and distribute ANSYS products through a network of channel partners in over 40 countries. Visit www.ansys.com for more information.
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