The authors implement a GPU-accelerated total Lagrangian FE framework for multibody dynamics with implicit backward-Euler stepping, augmented Lagrangian constraints, and a two-stage parallelization strategy, reporting up to 10x speedup over CPU for large meshes and validating frictional contact.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
years
2026 2verdicts
UNVERDICTED 2representative citing papers
multisphere is a Python package that approximates complex particle shapes as overlapping spheres for use in discrete element method simulations.
citing papers explorer
-
A Total Lagrangian Finite Element Framework for Multibody Dynamics: Part II -- GPU Implementation and Numerical Experiments
The authors implement a GPU-accelerated total Lagrangian FE framework for multibody dynamics with implicit backward-Euler stepping, augmented Lagrangian constraints, and a two-stage parallelization strategy, reporting up to 10x speedup over CPU for large meshes and validating frictional contact.
-
multisphere: a Python implementation of the Multi Sphere Shape generator (MSS) for DEM simulations
multisphere is a Python package that approximates complex particle shapes as overlapping spheres for use in discrete element method simulations.