PySPH

PySPH: Framework for Smoothed Particle Hydrodynamics in Python. PySPH is primarily developed at the Department of Aerospace Engineering, IIT Bombay by a group of students under the guidance of Prabhu Ramachandran. We are grateful to IIT Bombay for the generous support. Our primary goal is to build a powerful SPH based tool for both application and research. We hope that this makes it easy to perform reproducible computational research.


References in zbMATH (referenced in 14 articles )

Showing results 1 to 14 of 14.
Sorted by year (citations)

  1. Forbes, Lawrence K.; Turner, Ross J.; Walters, Stephen J.: An extended Boussinesq theory for interfacial fluid mechanics (2022)
  2. Long, Sifan; Fan, Xiaokang; Li, Chao; Liu, Yi; Fan, Sijiang; Guo, Xiao-Wei; Yang, Canqun: VecDualSPHysics: a vectorized implementation of smoothed particle hydrodynamics method for simulating fluid flows on multi-core processors (2022)
  3. Muta, Abhinav; Ramachandran, Prabhu: Efficient and accurate adaptive resolution for weakly-compressible SPH (2022)
  4. Chola, Kalale; Shintake, Tsumoru: Generalized entropically damped artificial compressibility for weakly compressible SPH (2021)
  5. Ramabathiran, Amuthan A.; Ramachandran, Prabhu: SPINN: sparse, physics-based, and partially interpretable neural networks for PDEs (2021)
  6. Ramachandran, Prabhu; Bhosale, Aditya; Puri, Kunal; Negi, Pawan; Muta, Abhinav; Dinesh, A.; Menon, Dileep; Govind, Rahul; Sanka, Suraj; Sebastian, Amal S.; Sen, Ananyo; Kaushik, Rohan; Kumar, Anshuman; Kurapati, Vikas; Patil, Mrinalgouda; Tavker, Deep; Pandey, Pankaj; Kaushik, Chandrashekhar; Dutt, Arkopal; Agarwal, Arpit: PySPH: a Python-based framework for smoothed particle hydrodynamics (2021)
  7. Ramachandran, Prabhu; Muta, Abhinav; Ramakrishna, M.: Dual-time smoothed particle hydrodynamics for incompressible fluid simulation (2021)
  8. Slak, Jure; Kosec, Gregor: Medusa. A C++ library for solving PDEs using strong form mesh-free methods (2021)
  9. Arai, Erin; Tartakovsky, Alexandre; Holt, R. Glynn; Grace, Sheryl; Ryan, Emily: Comparison of surface tension generation methods in smoothed particle hydrodynamics for dynamic systems (2020)
  10. Negi, Pawan; Ramachandran, Prabhu; Haftu, Asmelash: An improved non-reflecting outlet boundary condition for weakly-compressible SPH (2020)
  11. Ramachandran, Prabhu; Puri, Kunal: Entropically damped artificial compressibility for SPH (2019)
  12. Li, Ling; Shen, Luming; Nguyen, Giang D.; El-Zein, Abbas; Maggi, Federico: A smoothed particle hydrodynamics framework for modelling multiphase interactions at meso-scale (2018)
  13. Cercos-Pita, J. L.: AQUAgpusph, a new free 3D SPH solver accelerated with OpenCL (2015)
  14. Crespo, A. J. C.; Domínguez, J. M.; Rogers, B. D.; Gómez-Gesteira, M.; Longshaw, S.; Canelas, R.; Vacondio, R.; Barreiro, A.; García-Feal, O.: DualSPHysics: Open-source parallel CFD solver based on smoothed particle hydrodynamics (SPH) (2015)