Optimization of an Octree-based 3-D Parallel Meshing Algorithm for the Simulation of Small-Feature Semiconductor Devices

Juan J. Pombo, M. Aldegunde, A. J. García-Loureiro. Optimization of an Octree-based 3-D Parallel Meshing Algorithm for the Simulation of Small-Feature Semiconductor Devices. In Gerhard R. Joubert, Wolfgang E. Nagel, Frans J. Peters, Oscar G. Plata, P. Tirado, Emilio L. Zapata, editors, Parallel Computing: Current & Future Issues of High-End Computing, Proceedings of the International Conference ParCo 2005, 13-16 September 2005, Department of Computer Architecture, University of Malaga, Spain. Volume 33 of John von Neumann Institute for Computing Series, pages 439-446, Central Institute for Applied Mathematics, Jülich, Germany, 2005.

@inproceedings{PomboAG05,
  title = {Optimization of an Octree-based 3-D Parallel Meshing Algorithm for the Simulation of Small-Feature Semiconductor Devices},
  author = {Juan J. Pombo and M. Aldegunde and A. J. García-Loureiro},
  year = {2005},
  tags = {optimization, rule-based},
  researchr = {https://researchr.org/publication/PomboAG05},
  cites = {0},
  citedby = {0},
  pages = {439-446},
  booktitle = {Parallel Computing: Current & Future Issues of High-End Computing, Proceedings of the International Conference ParCo 2005, 13-16 September 2005, Department of Computer Architecture, University of Malaga, Spain},
  editor = {Gerhard R. Joubert and Wolfgang E. Nagel and Frans J. Peters and Oscar G. Plata and P. Tirado and Emilio L. Zapata},
  volume = {33},
  series = {John von Neumann Institute for Computing Series},
  publisher = {Central Institute for Applied Mathematics, Jülich, Germany},
  isbn = {3-00-017352-8},
}