LS-DYNA A combined Implicit/Explicit solver. One scalable code for solving highly nonlinear transient problems enabling the solution of coupled multi-physics and multi-stage problems. Reduces customer costs by enabling massively parallel processing. Multicore processors have resulted in a drastic reduction in computer hardware costs and a huge increase in LS-DYNA licenses worldwide. LS-DYNA affords increased computation speed thereby improving scalability. The developer of LS-DYNA, LSTC, continuously recodes existing algorithms and develops more efficient methodologies

References in zbMATH (referenced in 244 articles , 1 standard article )

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  1. Cho, Kyu Nam: A study on the collision analysis of wave power generating device (2017)
  2. Arregui-Mena, José David; Margetts, Lee; Mummery, Paul M.: Practical application of the stochastic finite element method (2016)
  3. Cho, Kyu Nam; Kim, Yong Dae; Bae, Jae Hyeong; Lee, Ho Jun; Lee, Han Sol; Kim, Hwan Soo; Shin, Seung-Ho: Practical collision analysis of floating wave power generating device (2016)
  4. Fehr, Jörg; Holzwarth, Philip; Eberhard, Peter: Interface and model reduction for efficient explicit simulations -- a case study with nonlinear vehicle crash models (2016)
  5. Gambirasio, Luca; Chiantoni, Guido; Rizzi, Egidio: On the consequences of the adoption of the Zaremba-Jaumann objective stress rate in FEM codes (2016)
  6. Gupta, Varun; Duarte, C.Armando: On the enrichment zone size for optimal convergence rate of the generalized/extended finite element method (2016)
  7. Kisho, A.Ajin; Kumar, G.Dinesh; Mathai, John; Vickram, Vickram: Effect of bird strike on compressor blade (2016)
  8. Wang, Haibo; Liu, Ruirui; Yang, Jialing; Liu, Hua; Sun, Yuxin: Theoretical model for elliptical tube laterally impacted by two parallel rigid plates (2016)
  9. Wu, C.T.; Hu, W.; Koishi, M.: A smoothed particle Galerkin formulation for extreme material flow analysis in bulk forming applications (2016)
  10. Cangiani, A.; Manzini, G.; Russo, A.; Sukumar, N.: Hourglass stabilization and the virtual element method (2015)
  11. Chen, Goong; Gu, Cong; Morris, Philip J.; Paterson, Eric G.; Sergeev, Alexey; Wang, Yi-Ching; Wierzbicki, Tomasz: Malaysia Airlines flight MH370: water entry of an airliner (2015)
  12. Cocchetti, G.; Pagani, M.; Perego, U.: Selective mass scaling for distorted solid-shell elements in explicit dynamics: optimal scaling factor and stable time step estimate (2015)
  13. Elhaddad, M.; Zander, N.; Kollmannsberger, S.; Shadavakhsh, A.; Nübel, V.; Rank, E.: Finite cell method: high-order structural dynamics for complex geometries (2015)
  14. Han, Wei; Huang, Yiyong; Chen, Xiaoqian: Research of impact dynamic modeling of flexible probe-cone docking mechanism based on Kane method (2015) ioport
  15. Hartmann, Stefan; Benson, David J.: Mass scaling and stable time step estimates for isogeometric analysis (2015)
  16. Lin, J.; Naceur, H.; Coutellier, D.; Abrate, S.: Numerical modeling of the low-velocity impact of composite plates using a shell-based SPH method (2015)
  17. Moosavi, M.R.; Khelil, A.: Isogeometric meshless finite volume method in nonlinear elasticity (2015)
  18. Schillinger, Dominik; Evans, John A.; Frischmann, Felix; Hiemstra, René R.; Hsu, Ming-Chen; Hughes, Thomas J.R.: A collocated $C^0$ finite element method: reduced quadrature perspective, cost comparison with standard finite elements, and explicit structural dynamics (2015)
  19. Shen, Yunian: Painlevé paradox and dynamic jam of a three-dimensional elastic rod (2015) ioport
  20. Wang, Jielong: Implementation of geometrically exact beam element for nonlinear dynamics modeling (2015)

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