Special high-accuracy direct force summation N-body algorithms and their
relevance for the simulation of the dynamical evolution of star clusters and
other gravitating N-body systems in astrophysics are presented, explained and
compared with other methods. Other methods means here approximate physical
models based on the Fokker-Planck equation as well as other, approximate
algorithms to compute the gravitational potential in N-body systems. Questions
regarding the parallel implementation of direct ``brute force'' N-body codes
are discussed. The astrophysical application of the models to the theory of
relaxing rotating and non-rotating collisional star clusters is presented,
briefly mentioning the questions of the validity of the Fokker-Planck
approximation, the existence of gravothermal oscillations and of rotation and
primordial binaries.Comment: 32 pages, 13 figures, in press in Riffert, H., Werner K. (eds),
Computational Astrophysics, The Journal of Computational and Applied
Mathematics (JCAM), Elsevier Press, Amsterdam, 199