Altair Radioss is a highly regarded explicit finite element solver used for simulating rapid and highly non-linear dynamic events. A reference in the automotive, aerospace, and defense industries, it enables the modeling of complex scenarios such as crash tests, ballistic impacts, or electronic equipment drop tests—where the prediction of material failure and behavior is critical.
Radioss demonstrates near-linear scaling when distributing workloads across hundreds of cores. Qarnot clusters, equipped with high-frequency processors (such as AMD EPYC), drastically reduce the turnaround time for your most demanding crash simulations.
Explicit simulations are energy-intensive. By running your Radioss jobs on Qarnot, you reduce the carbon footprint of your computations (via reclaimed waste heat) while benefiting from competitive, transparent pricing with no hidden costs (no data transfer fees).
For sensitive industries (defense, aerospace) utilizing Radioss, Qarnot guarantees 100% French/European data hosting and processing, ensuring full compliance with security requirements.
Radioss demonstrates near-linear scaling when distributing workloads across hundreds of cores. Qarnot clusters, equipped with high-frequency processors (such as AMD EPYC), drastically reduce the turnaround time for your most demanding crash simulations.
Explicit simulations are energy-intensive. By running your Radioss jobs on Qarnot, you reduce the carbon footprint of your computations (via reclaimed waste heat) while benefiting from competitive, transparent pricing with no hidden costs (no data transfer fees).
For sensitive industries (defense, aerospace) utilizing Radioss, Qarnot guarantees 100% French/European data hosting and processing, ensuring full compliance with security requirements.
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