We propose and implement a priority queue suitable for use in event driven molecular dynamics simulations. All operations on the queue take on average O(1) time per collision. In comparison, previously studied queues for event driven molecular dynamics simulations require O(log $N$) time per collision for systems of $N$ particles
Event-based models find frequent usage in fields such as computational physics and biology as they m...
We develop an efficient algorithm for detecting collisions among a large number of particles moving ...
summary:In the first part of the paper we survey some algorithms which describe time evolution of in...
During the simulation of physical systems based on many moving objects, the efficiency of the algori...
Abstract: Molecular dynamics simulation based on discrete event simulation (DMD) is emerging as an a...
Although event-driven algorithms have been shown to be far more efficient than time-driven methods s...
Event-driven molecular dynamics is a valuable tool in condensed and soft matter physics when particl...
Event-driven molecular dynamics is a valuable tool in condensed and soft matter physics when particl...
A simple and efficient algorithm of the molecular-dynamics simulation of the hard disk system based ...
Abstract—Molecular dynamics simulation based on discrete event simulation (DMD) is emerging as an al...
Molecular dynamics algorithms for systems of particles interacting through discrete or "hard" potent...
Discrete-event simulation, which is a major tool for analysis, prediction, and training, has been de...
We present in a unifying way the main components of three examples of asynchronous event-driven algo...
We develop an efficient algorithm for detecting collisions among a large number of particles moving ...
Molecular dynamics simulations require supercomputers. A specific class of supercomputers is that of...
Event-based models find frequent usage in fields such as computational physics and biology as they m...
We develop an efficient algorithm for detecting collisions among a large number of particles moving ...
summary:In the first part of the paper we survey some algorithms which describe time evolution of in...
During the simulation of physical systems based on many moving objects, the efficiency of the algori...
Abstract: Molecular dynamics simulation based on discrete event simulation (DMD) is emerging as an a...
Although event-driven algorithms have been shown to be far more efficient than time-driven methods s...
Event-driven molecular dynamics is a valuable tool in condensed and soft matter physics when particl...
Event-driven molecular dynamics is a valuable tool in condensed and soft matter physics when particl...
A simple and efficient algorithm of the molecular-dynamics simulation of the hard disk system based ...
Abstract—Molecular dynamics simulation based on discrete event simulation (DMD) is emerging as an al...
Molecular dynamics algorithms for systems of particles interacting through discrete or "hard" potent...
Discrete-event simulation, which is a major tool for analysis, prediction, and training, has been de...
We present in a unifying way the main components of three examples of asynchronous event-driven algo...
We develop an efficient algorithm for detecting collisions among a large number of particles moving ...
Molecular dynamics simulations require supercomputers. A specific class of supercomputers is that of...
Event-based models find frequent usage in fields such as computational physics and biology as they m...
We develop an efficient algorithm for detecting collisions among a large number of particles moving ...
summary:In the first part of the paper we survey some algorithms which describe time evolution of in...