The three major concerns of industrial CAE users are accuracy, computation speed and user-friendliness. True 3D simulation not only satisfies those concerns, but offers more advantages that conventional 2.5D cannot reach, such as CAD integration, accuracy, minimized model simplification…etc. However, true 3D simulation inevitably increases computation time and requests more memory. Although the High-Performance Finite Volume Method, HPFVM, employed by Moldex3D eDesign has already outperformed other 3D software, but users are still eagerly expecting significant improvements.
Moldex3D eDesign takes the lead in parallel computing to enhance the computation performance and perform analyses in less time on more complex model with larger element count than ever. The high-performance parallelized kernel is equipped integrated analyses of Flow, Pack, Cool, Warp, Fiber Orientation and RIM (Reactive Injection Molding). Furthermore, Moldex3D eDesign parallel computing technology supports both Multi-CPU platform and PC-Cluster.
For optical parts, fiber-reinforced automobile components, connectors, gears…etc., the demand for high accuracy and high speed computation can never be underestimated. Computation speed can be improved by newer and more powerful CPU. However, improvement from CPU clock rate alone cannot satisfy industrial users in speed nor accuracy. Utilization of multiple CPU is therefore the most effective approach. |
