The classical n-body problem in physics addresses the prediction of individual motions of a group of celestial bodies under gravitational forces and has been studied since Isaac Newton formulated his laws. Nowadays the n-body problem has been recognized in many more fields of science and engineering. Each problem of mutual interaction between objects forming a dynamic group is called as the n-body problem. The cost of the direct algorithm for the problem is O(n2) and is not acceptable from the practical point of view. For this reason cheaper algorithms have been developed successfully reducing the cost to O(nln(n)) or even O(n). Because further improvement of the algorithms is unlikely to happen it is the hardware solutions which can still ...
We report on an efficient adaptive N-body method which we have recently designed and implemented. Th...
We develop an algorithm that computes the gravitational potentials and forces on N point-masses int...
O(N) algorithms for N-body simulations enable the simulation of particle systems with up to 100 mill...
The classical n-body problem in physics addresses the prediction of individual motions of a group of...
The classical n-body problem in physics addresses the prediction of individual motions of a group of...
This work considers the organization and performance of computations on parallel computers of tree...
Abstract. The simulation of N particles interacting in a gravitational force field is useful in astr...
Direct-summation N-body algorithms compute the gravitational interaction between stars in an exact w...
feasible implementation of these algorithms. The execution codes have been written in NESL, a parall...
oped by 3 undergraduate students at McMas-ter University, demonstrates that computation-ally intensi...
We discuss the performance of direct summation codes used in the simulation of astrophysical stellar...
Dr. Henry Neeman, Director OU Supercomputing Center for Education & Research University of Oklahom...
We describe the design of several portable and efficient parallel implementations of adaptive N-body...
We present a performance analysis of different parallelization schemes for direct codes used in the ...
N-Body simulations are a common method of modeling the interacting behavior between objects from the...
We report on an efficient adaptive N-body method which we have recently designed and implemented. Th...
We develop an algorithm that computes the gravitational potentials and forces on N point-masses int...
O(N) algorithms for N-body simulations enable the simulation of particle systems with up to 100 mill...
The classical n-body problem in physics addresses the prediction of individual motions of a group of...
The classical n-body problem in physics addresses the prediction of individual motions of a group of...
This work considers the organization and performance of computations on parallel computers of tree...
Abstract. The simulation of N particles interacting in a gravitational force field is useful in astr...
Direct-summation N-body algorithms compute the gravitational interaction between stars in an exact w...
feasible implementation of these algorithms. The execution codes have been written in NESL, a parall...
oped by 3 undergraduate students at McMas-ter University, demonstrates that computation-ally intensi...
We discuss the performance of direct summation codes used in the simulation of astrophysical stellar...
Dr. Henry Neeman, Director OU Supercomputing Center for Education & Research University of Oklahom...
We describe the design of several portable and efficient parallel implementations of adaptive N-body...
We present a performance analysis of different parallelization schemes for direct codes used in the ...
N-Body simulations are a common method of modeling the interacting behavior between objects from the...
We report on an efficient adaptive N-body method which we have recently designed and implemented. Th...
We develop an algorithm that computes the gravitational potentials and forces on N point-masses int...
O(N) algorithms for N-body simulations enable the simulation of particle systems with up to 100 mill...