PC for high-speed execution of collision and destruction analysis "Radioss"
PC for running 'Altair Radioss' to perform high-precision and high-speed analysis of collisions, falls, and destruction.
Altair Radioss is an impact analysis software that uses an explicit time integration method to accurately reproduce high-speed and large deformation phenomena such as collisions, drops, and destruction. By visualizing behaviors under extreme conditions that are difficult to replicate in experiments, it enables safety and reliability evaluations without relying on prototypes or actual tests, achieving reductions in development costs and improvements in product quality. ■ Main Features and Characteristics - Supports dynamic phenomenon analysis such as collisions, drops, destruction, and explosions using explicit methods - High-precision simulations considering structural deformation, contact, fracture, and material nonlinearity - Equipped with a wide range of material models including metals, plastics, and composites - Capable of analyzing complex physical phenomena including fluid-structure interaction (FSI) - Supports parallel computing with MPI/OpenMP for fast processing of large-scale models - Extensive implementation track record in automotive, aerospace, defense, electronics, and industrial machinery - Integrated with the HyperWorks platform for seamless collaboration in pre-processing and visualization - Applicable to a wide range of engineering uses including research and development, collision safety design, and impact resistance evaluation
basic information
- CERVO Grasta Type-ALIS25WC-W7 Xeon W7-2575X High Clock Model A collision and impact analysis model designed for Altair Radioss. Utilizing the high clock speed and 22-core performance of the Xeon W7-2575X, it executes large-scale collision analysis quickly and stably using explicit methods. Combined with large-capacity ECC memory, it supports long-duration and high-load analysis operations. - CERVO Ryzen Type-RT9PRO-9985WX Ryzen Threadripper PRO 9985WX High Clock Model A high-performance collision analysis model optimized for Altair Radioss. Leveraging the 64-core high clock performance of the Threadripper PRO 9985WX, it executes large-scale collision and impact analysis quickly and stably using explicit methods. Combined with large-capacity ECC memory, it strongly supports long-duration and high-load analysis operations.
Price range
Delivery Time
Applications/Examples of results
Altair Radioss is a shock analysis software that can accurately reproduce phenomena such as collisions, drops, destruction, and explosions, which involve significant deformation occurring over a short period. By using the explicit time integration method, it numerically visualizes material deformation and fracture, as well as the contact behavior between components, which are difficult to grasp in experiments, allowing for the evaluation of safety and reliability during the design phase. Main applications and implementation examples: - Vehicle collision safety analysis and airbag deployment analysis in the automotive field - Drop impact, bird strike, and shock resistance evaluation in the aerospace and defense sectors - Drop tests and casing damage analysis for electronic devices and home appliances - Examination of impact loads and fracture behavior on structures in the industrial machinery and energy sectors Radioss contributes to reducing the number of physical tests and prototypes, thereby shortening development costs and timelines. It also supports large-scale parallel computing with MPI/OpenMP, facilitating high-reliability design that balances lightweight construction and safety through analyses involving millions to tens of millions of elements.
catalog(3)
Download All Catalogs
Recommended products
Distributors
Applied Corporation is a computer manufacturing company based in Hakata-ku, Fukuoka City, Fukuoka Prefecture, with 65 locations nationwide. We provide the latest business proposals, from cutting-edge computers to the implementation of DX and solutions, for corporate clients across the country.