PPM -- a highly efficient parallel particle-mesh library for the simulation of continuum systems The Parallel Particle Mesh (PPM) library provides a transparent parallelization middleware for particle-mesh simulations. Please see http://www.ppm-library.org for more information, downloads, and documentation.

References in zbMATH (referenced in 58 articles , 1 standard article )

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  1. Giannopoulou, O.; Colagrossi, A.; Di Mascio, A.; Mascia, C.: Chorin’s approaches revisited: vortex particle method vs finite volume method (2019)
  2. Ji, Zhe; Fu, Lin; Hu, Xiangyu Y.; Adams, Nikolaus A.: A new multi-resolution parallel framework for SPH (2019)
  3. Papadakis, George; Voutsinas, Spyros G.: A strongly coupled Eulerian Lagrangian method verified in 2D external compressible flows (2019)
  4. Vázquez-Quesada, Adolfo; Español, Pep; Tanner, Roger I.; Ellero, Marco: Shear thickening of a non-colloidal suspension with a viscoelastic matrix (2019)
  5. Foti, Daniel; Duraisamy, Karthik: Multi-dimensional finite volume scheme for the vorticity transport equations (2018)
  6. Gillis, T.; Winckelmans, G.; Chatelain, P.: Fast immersed interface Poisson solver for 3D unbounded problems around arbitrary geometries (2018)
  7. Vuong, A.-T.; Rauch, A. D.; Wall, W. A.: A biochemo-mechano coupled, computational model combining membrane transport and pericellular proteolysis in tissue mechanics (2017)
  8. Zhang, C.; Hu, X. Y.; Adams, N. A.: A weakly compressible SPH method based on a low-dissipation Riemann solver (2017)
  9. Bourantas, George C.; Cheeseman, Bevan L.; Ramaswamy, Rajesh; Sbalzarini, Ivo F.: Using DC PSE operator discretization in Eulerian meshless collocation methods improves their robustness in complex geometries (2016)
  10. Gholami, Amir; Malhotra, Dhairya; Sundar, Hari; Biros, George: FFT, FMM, or multigrid? A comparative study of state-of-the-art Poisson solvers for uniform and nonuniform grids in the unit cube (2016)
  11. Malhotra, Dhairya; Biros, George: Algorithm 967: a distributed-memory fast multipole method for volume potentials (2016)
  12. Duncan, A. B.; Elliott, C. M.; Pavliotis, G. A.; Stuart, A. M.: A multiscale analysis of diffusions on rapidly varying surfaces (2015)
  13. Ramaswamy, Rajesh; Bourantas, George; Jülicher, Frank; Sbalzarini, Ivo F.: A hybrid particle-mesh method for incompressible active polar viscous gels (2015)
  14. Tang, Yu-Hang; Kudo, Shuhei; Bian, Xin; Li, Zhen; Karniadakis, George Em: Multiscale universal interface: a concurrent framework for coupling heterogeneous solvers (2015)
  15. Amritkar, Amit; Deb, Surya; Tafti, Danesh: Efficient parallel CFD-DEM simulations using OpenMP (2014)
  16. Awile, Omar; Sbalzarini, Ivo F.: A pthreads wrapper for Fortran 2003 (2014) ioport
  17. Balarac, G.; Cottet, G.-H.; Etancelin, J.-M.; Lagaert, J.-B.; Perignon, F.; Picard, C.: Multi-scale problems, high performance computing and hybrid numerical methods (2014)
  18. Cantwell, Chris D.; Yakovlev, Sergey; Kirby, Robert M.; Peters, Nicholas S.; Sherwin, Spencer J.: High-order spectral/(hp) element discretisation for reaction-diffusion problems on surfaces: application to cardiac electrophysiology (2014)
  19. Chun, Sehun: Method of moving frames to solve (an)isotropic diffusion equations on curved surfaces (2014)
  20. Joggerst, C. C.; Nelson, Anthony; Woodward, Paul; Lovekin, Catherine; Masser, Thomas; Fryer, Chris L.; Ramaprabhu, P.; Francois, Marianne; Rockefeller, Gabriel: Cross-code comparisons of mixing during the implosion of dense cylindrical and spherical shells (2014)

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