Accuracy, computation speed, and user-friendliness are the three major concerns of industrial computer-aided engineering (CAE) software users. True 3D simulation satisfies those concerns while offering more accuracy than older mesh technologies. This would include improved accuracy, minimized model simplification, etc. However, true 3D simulation also increases computation time and demands more memory
This is where Highly Efficient Auto-optimizing Boundary 3D Mesh comes in. This high-performance finite volume method outperforms other 3D software mesh engines by combining many different types of 3D elements. It further excels by using your computer’s parallel computing technology to enhance computation performance, performing faster analyses even on the most complex models with larger element counts.
As for its parallel computing technology, it supports multi-CPU platforms and PC clusters.
The more physical cores your computer has, the faster your analysis will run.
Types of Elements used
Boundary Layers
Auto Mesh Sizing
Hundreds to thousands of megabytes of data pass between processors during a typical run. As such, the parallel computing capabilities of this software suite require distributed systems with high-performance interconnects. For your reference, the basic Moldex3D system requirements are as follows:
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