Driving Higher Performance for Advanced Structural Analysis

Altair RADIOSS* and Intel® Xeon® Scalable processors combine to provide an advanced solution stack for improved crashworthiness, safety, and manufacturability of automotive structural designs.

RADIOSS is a leading structural analysis solver for highly non-linear problems under dynamic loadings. It is used across all industries worldwide to improve the crashworthiness, safety, and manufacturability of structural designs.

Hardware at-a-glance: Intel® Xeon® Gold 6148 processor

Platform features, software tools, and libraries at-a-glance: Intel® Advanced Vector Extensions 512 (Intel® AVX-512), Intel® MPI 2017

Enormous advances in auto safety over the past several decades are due in no small part to the ongoing efforts by car manufacturers to make structural improvements during the design process. While the most dramatic testing may involve crash-test dummies piloting actual cars to destruction, the bulk of structural analysis happens in computer simulations. A structural analysis solver depended on by automotive, aerospace, electronics, and defense companies for more than 30 years, RADIOSS, and its companion tools are the basis for sophisticated understanding and prediction of structural design behaviors under extreme conditions.

At the same time customers continue to build more complex and sophisticated simulation models, they also strive to tighten development windows, to speed time to market with ever-improving designs. RADIOSS draws on synergies with Intel® architecture to drive the performance that enables both those goals. Co-engineering by Altair and Intel for RADIOSS on the new Intel® Xeon® Scalable processors builds significantly on previous results.

Faster Completion of a Crash Simulation
Performance engineers at Altair found that a crash simulation ran with up to 2.1X greater performance on the Intel® Xeon® Gold 6148 processor, compared with a processor two generations old.1 That baseline processor was introduced in 2014, just three years earlier, making it a viable comparison to servers that may be in wide use by customers. Even compared to more recent hardware—the Intel® Xeon® processor E5-2699 v4, introduced in 2016—the new processor showed up to a 1.64X performance increase.

“The Intel® Xeon® Scalable processor platform offers great computing power to run Altair HyperWorks* solvers and especially RADIOSS*. We are very pleased it is now available to our customers.”

Eric Lequiniou, HPC director, Altair

View the infographic ›

RADIOSS customers in the automotive, aerospace, electronics, and defense industries now have the opportunity to dramatically improve their capabilities in structural analysis with just a simple hardware upgrade. Those who choose to can take a valuable step toward building higher-quality, lower-cost, more-competitive products.

Informações de produto e desempenho


RADIOSS*: RADIOSS 2017, Neon 1M 8ms benchmark workload.

Baseline: Altair RADIOSS 14 on Red Hat Enterprise Linux* 6.5, 2x Intel® Xeon® processor E5-2697 v3 @ 2.6GHz, Intel® Hyper-Threading Technology with 28 MPI x 2 OpenMP*, 64 GB DDR3-1833, regular DIMM, Intel® SSD DC S3700 Series (800 GB), 1Gb network, Source is Altair internal as of April 1, 2016.

Next generation: Altair RADIOSS 2017 on Red Hat Enterprise Linux* 6.5, 2x Intel® Xeon® processor E5-2699 v4 @ 2.2GHz, Intel Hyper-Threading Technology with 44 MPI x 2 OpenMP, 64 GB DDR3-1833, regular DIMM, Intel® SSD DC S3700 Series (800 GB), 1Gb network, BIOS SE5C620.86B.01.00.0412, Source is Altair internal as of April 1, 2017.

New: Altair RADIOSS 2017 on CentOS* Linux 7.2, 2 Intel® Xeon® Gold 6148 processor @ 2.4 GHz, Intel Hyper-Threading Technology with 40 MPI x 2 OpenMP, 192 GB DDR4-2666, regular DIMM, Intel® SSD DC S3700 Series (800 GB), 1Gb network, BIOS 0271.R00, Source is Altair internal as of April 11, 2017.



Os resultados de benchmark foram obtidos antes da implementação de patches de software e atualizações de firmware destinadas a solucionar violações referentes a "Spectre" e "Meltdown". A implementação dessas atualizações pode tornar estes resultados inaplicáveis para seu dispositivo ou sistema.

Talvez o software e as cargas de trabalho utilizados nos testes de desempenho tenham sido otimizados apenas para desempenho em microprocessadores Intel®. Testes de desempenho, como SYSmark* e MobileMark*, são medidos usando sistemas de computação, componentes, software, operações e funções específicos. Qualquer modificação em algum desses fatores pode provocar variação nos resultados. Consulte outras informações e outros testes de desempenho para ajudá-lo a avaliar melhor as suas compras, incluindo o desempenho desse produto quando combinado com outros produtos. Para obter informações mais completas, visite http://www.intel.com.br/benchmarks.