In this paper, we study data structures for use in N-body simulation. We concentrate on the spatial decomposition tree used in particle-cluster force evaluation algorithms such as the Barnes-Hut algorithm. We prove that a k-d tree is asymptotically inferior to a spatially balanced tree. We show that the worst case complexity of the force evaluation algorithm using a k-d tree is \Theta(n log 3 n log L) compared with \Theta(n log L) for an oct-tree. (L is the separation ratio of the set of points.) We also investigate improving the constant factor of the algorithm, and present several methods which improve over the standard oct-tree decomposition. Finally, we consider whether or not the bounding box of a point set should be "tight"...
We describe a hybrid technique for carrying out large N-Body simulations to study formation and evol...
N-body problems encompass a variety of fields such as electrostatics, molecularbiology and astrophys...
oped by 3 undergraduate students at McMas-ter University, demonstrates that computation-ally intensi...
AbstractWe consider the following force field computation problem: given a cluster of n particles in...
We develop an algorithm that computes the gravitational potentials and forces on N point-masses int...
We report on an efficient adaptive N-body method which we have recently designed and implemented. Th...
k dimensional trees are an important binary space partitioning data structure in computer science. T...
We describe in this paper an algorithm for solving the gravitational N-body problem using tree data ...
The classic N-body problem refers to determining the motion of N particles that interact via a long-...
Abstract We discuss the performance characteristics of using the modification of the tree code sugge...
We report on an efficient adaptive N-body method which u~e have recently designed and implemented. ...
AbstractWe consider the following force field computation problem: given a cluster of n particles in...
We present a detailed analysis of the error budget for the TreePM method for doing cosmological N-Bo...
Abstract. The simulation of N particles interacting in a gravitational force field is useful in astr...
AbstractSpecial high-accuracy direct force summation N-body algorithms and their relevance for the s...
We describe a hybrid technique for carrying out large N-Body simulations to study formation and evol...
N-body problems encompass a variety of fields such as electrostatics, molecularbiology and astrophys...
oped by 3 undergraduate students at McMas-ter University, demonstrates that computation-ally intensi...
AbstractWe consider the following force field computation problem: given a cluster of n particles in...
We develop an algorithm that computes the gravitational potentials and forces on N point-masses int...
We report on an efficient adaptive N-body method which we have recently designed and implemented. Th...
k dimensional trees are an important binary space partitioning data structure in computer science. T...
We describe in this paper an algorithm for solving the gravitational N-body problem using tree data ...
The classic N-body problem refers to determining the motion of N particles that interact via a long-...
Abstract We discuss the performance characteristics of using the modification of the tree code sugge...
We report on an efficient adaptive N-body method which u~e have recently designed and implemented. ...
AbstractWe consider the following force field computation problem: given a cluster of n particles in...
We present a detailed analysis of the error budget for the TreePM method for doing cosmological N-Bo...
Abstract. The simulation of N particles interacting in a gravitational force field is useful in astr...
AbstractSpecial high-accuracy direct force summation N-body algorithms and their relevance for the s...
We describe a hybrid technique for carrying out large N-Body simulations to study formation and evol...
N-body problems encompass a variety of fields such as electrostatics, molecularbiology and astrophys...
oped by 3 undergraduate students at McMas-ter University, demonstrates that computation-ally intensi...