NBODY6

NBODY6: My research into numerical simulations of many-body (N-body) gravitational interactions spans over 40 years, and is reported in several publications and my book. I have developed a set of FORTRAN codes which describe the dynamics very closely, and these are regarded by many as the de facto standard. I have explained below how you can download these codes for execution on your local computer system.

Keywords for this software

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References in zbMATH (referenced in 8 articles )

Showing results 1 to 8 of 8.
Sorted by year (citations)

  1. David A. Hubber, Giovanni P. Rosotti, Richard A. Booth: GANDALF - Graphical Astrophysics code for N-body Dynamics And Lagrangian Fluids (2017) arXiv
  2. Sousbie, Thierry; Colombi, Stéphane: \textttColDICE: A parallel Vlasov-Poisson solver using moving adaptive simplicial tessellation (2016)
  3. Benacquista, Matthew J.; Downing, Jonathan M. B.: Relativistic binaries in globular clusters (2013)
  4. Kostek, Robert: Direct numerical methods dedicated to second-order ordinary differential equations (2013)
  5. Dorband, Ernst Nils; Hemsendorf, Marc; Merritt, David: Systolic and hyper-systolic algorithms for the gravitational (N)-body problem, with an application to Brownian motion (2003)
  6. Mikkola, Seppo; Aarseth, Sverre: A time-transformed leapfrog scheme. Integration of few-body systems with large mass ratios (2002)
  7. Spinnato, P. F.; van Albada, G. D.; Sloot, P. M. A.: Performance prediction of (N)-body simulations on a hybrid architecture (2001)
  8. Aarseth, Sverre J.: Star cluster simulations: The state of the art (1999)