While few of the Abaqus explicit enhancements in 2020x have been discussed in previous blogs on contact, this particular blog article specifically focuses on many more enhancements in explicit, with or without contact.
- DT based element deletion: While explicit jobs never exit with fatal errors due to lack of convergence, they can still give fatal errors because of severe element distortion. An element deletion criterion has been introduced that allows user to set a trigger for element deletions based on element area, element volume, stable time increment and characteristic length. These triggers can be defined either as absolute or as ratios.
- Linear Kinematic conversion: This is yet another approach to avoid fatal errors because of severe element distortion. In this approach, the elements are transformed to linear elements based on certain trigger threshold on distortion. It is applicable to most of continuum tetrahedral and hexahedral elements.
Enhanced CEL approach: Conventional CEL approach is good for solids only. When applied to liquids and gases, it may cause leakage especially when fluids create high pressure gradient, when fluids have large tangential velocity or at the location of sharp corners. The enhanced CEL contact formulation fixes this problem and is applicable to both solid and shell meshes. However, this enhanced formulation is more expensive in memory and computation.
Hybrid message parsing (HMP): This is an enhancement in parallel processing that can combine MPI (DMP) based parallelization and Threads (SMP) based parallelization. The solution can utilize thread based parallelism within a node as well as MPI to communicate between the nodes. It results in fine grained dynamic load balancing because when a thread completes its own elements computation work, it helps other threads within the same MPI rank.
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