| Metric | AutoForm R10 | AutoForm R11 | Improvement | | :--- | :--- | :--- | :--- | | Mesh Generation Time | 22 minutes | 4 minutes | | | Forming Solve (Draw) | 18 minutes | 6 minutes | 66% faster | | Springback Solve | 15 minutes | 5 minutes | 66% faster | | Accuracy vs Tryout (FLC) | 92% | 96.5% | More predictive | | Memory Usage | 16 GB | 9 GB | 44% less RAM |
In the high-stakes world of automotive manufacturing, the margin between a flawless fender and a wrinkled door panel is measured in micrometers. For over two decades, AutoForm Engineering has been the gold standard for software solutions addressing the complexities of sheet metal forming. With the release of AutoForm R11 , the company has not just updated its platform; it has fundamentally redefined the workflow between die design, feasibility analysis, and production tryout.
Speed, Usability, and Material Science.
| Metric | AutoForm R10 | AutoForm R11 | Improvement | | :--- | :--- | :--- | :--- | | Mesh Generation Time | 22 minutes | 4 minutes | | | Forming Solve (Draw) | 18 minutes | 6 minutes | 66% faster | | Springback Solve | 15 minutes | 5 minutes | 66% faster | | Accuracy vs Tryout (FLC) | 92% | 96.5% | More predictive | | Memory Usage | 16 GB | 9 GB | 44% less RAM |
In the high-stakes world of automotive manufacturing, the margin between a flawless fender and a wrinkled door panel is measured in micrometers. For over two decades, AutoForm Engineering has been the gold standard for software solutions addressing the complexities of sheet metal forming. With the release of AutoForm R11 , the company has not just updated its platform; it has fundamentally redefined the workflow between die design, feasibility analysis, and production tryout. autoform r11
Speed, Usability, and Material Science.