A parallel contact detection algorithm for transient solid dynamics simulations using PRONTO3D An efficient, scalable, parallel algorithm for treating material surface contacts in solid mechanics finite element programs has been implemented in a modular way for multiple-instruction multiple-data parallel computers. The serial contact detection algorithm that was developed previously for the transient dynamics finite element code PRONTO3D has been extended for use in parallel computation by utilizing a dynamic (adaptive) load balancing algorithm. This approach is scalable to thousands of computational nodes.

References in zbMATH (referenced in 48 articles , 2 standard articles )

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  1. Cangiani, A.; Manzini, G.; Russo, A.; Sukumar, N.: Hourglass stabilization and the virtual element method (2015)
  2. Aragón, Alejandro M.; Molinari, Jean-François: A hierarchical detection framework for computational contact mechanics (2014)
  3. Chen, Hu; Lei, Zhou; Zang, Mengyan: LC-grid: a linear global contact search algorithm for finite element analysis (2014)
  4. Danielson, Kent T.: Fifteen node tetrahedral elements for explicit methods in nonlinear solid dynamics (2014)
  5. Jia, Zupeng; Gong, Xiangfei; Zhang, Shudao; Liu, Jun: Two new three-dimensional contact algorithms for staggered Lagrangian hydrodynamics (2014)
  6. Aragón, Alejandro M.; Yastrebov, Vladislav A.; Molinari, Jean-François: A constrained-optimization methodology for the detection phase in contact mechanics simulations (2013)
  7. Bravo, R.; Pérez-Aparicio, J. L.; Laursen, T. A.: An energy consistent frictional dissipating algorithm for particle contact problems (2012)
  8. Wu, Shen R.; Gu, Lei: Introduction to the explicit finite element method for nonlinear transient dynamics. (2012)
  9. Danielson, Kent T.; O’Daniel, James L.: Reliable second-order hexahedral elements for explicit methods in nonlinear solid dynamics (2011)
  10. Rider, W. J.; Love, E.; Wong, M. K.; Strack, O. E.; Petney, S. V.; Labreche, D. A.: Adaptive methods for multi-material ALE hydrodynamics (2011)
  11. Christon, Mark A.: The consistency of pressure-gradient approximations used in multi-dimensional shock hydrodynamics (2010)
  12. Després, Bruno: Weak consistency of the cell-centered Lagrangian GLACE scheme on general meshes in any dimension (2010)
  13. Lahiri, Sudeep K.; Bonet, Javier; Peraire, Jaume: A variationally consistent mesh adaptation method for triangular elements in explicit Lagrangian dynamics (2010)
  14. Liu, M. B.; Liu, G. R.: Smoothed particle hydrodynamics (SPH): an overview and recent developments (2010)
  15. Vorobiev, Oleg: Discrete and continuum methods for numerical simulations of non linear wave propagation in discontinuous media (2010)
  16. Bishop, Joseph E.: Simulating the pervasive fracture of materials and structures using randomly close packed Voronoi tessellations (2009)
  17. Carré, G.; Del Pino, S.; Després, B.; Labourasse, E.: A cell-centered Lagrangian hydrodynamics scheme on general unstructured meshes in arbitrary dimension (2009)
  18. Panchadhar, Rohan; Gonthier, Keith A.: Energy partitioning within a micro-particle cluster due to impact with a rigid planar wall (2009)
  19. Warren, Thomas L.; Silling, Stewart A.; Askari, Abe; Weckner, Olaf; Epton, Michael A.; Xu, Jifeng: A non-ordinary state-based peridynamic method to model solid material deformation and fracture (2009)
  20. Frenning, Göran: An efficient finite/discrete element procedure for simulating compression of 3D particle assemblies (2008)

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