This paper surveys topics that presently define the state of the art in parallel simulation. Included in the tutorial are discussions on new protocols, mathematical performance analysis, time parallelism, hardware support for parallel simulation, load balancing algorithms, and dynamic memory management for optimistic synchronization
A large number of variations for the efficient implementation of distributed simulation protocols on...
Parallel discrete event simulation (PDES), sometimes called distributed simulation, refers to the ex...
The field of parallel discrete event simulation is entering a period of self-assessment. Fifteen ye...
The simulation of parallel systems is an alternative approach to classical parallel system programmi...
Parallel computing has provided the opportunity to perform high speed simulation. However, no guidel...
: The article puts together simulation systems and parallel computing environment. It shows what can...
Simulation has become indispensable in the process of designing, verifying, and testing complex digi...
This paper describes the details of a hardware realization of a framework to support parallel discre...
During the recent years the study of new parallel architectures has intensified. The design of a new...
Abstract – Design verification via simulation is an im-portant component in the development of digit...
A state-of-the-art guide for the implementation of distributed simulation technology.The rapid expan...
AbstractAn introduction to the field of Parallel and Distributed Simulation (PADS) is given. The cap...
Multi-core design for CPU is the recent trend and we believe the trend will continue in near future....
Simulation is a powerful technique to represent the evolution of realworld phenomena or systems ove...
The benefits of parallel computation particularly the speed factor has brought about the increasing ...
A large number of variations for the efficient implementation of distributed simulation protocols on...
Parallel discrete event simulation (PDES), sometimes called distributed simulation, refers to the ex...
The field of parallel discrete event simulation is entering a period of self-assessment. Fifteen ye...
The simulation of parallel systems is an alternative approach to classical parallel system programmi...
Parallel computing has provided the opportunity to perform high speed simulation. However, no guidel...
: The article puts together simulation systems and parallel computing environment. It shows what can...
Simulation has become indispensable in the process of designing, verifying, and testing complex digi...
This paper describes the details of a hardware realization of a framework to support parallel discre...
During the recent years the study of new parallel architectures has intensified. The design of a new...
Abstract – Design verification via simulation is an im-portant component in the development of digit...
A state-of-the-art guide for the implementation of distributed simulation technology.The rapid expan...
AbstractAn introduction to the field of Parallel and Distributed Simulation (PADS) is given. The cap...
Multi-core design for CPU is the recent trend and we believe the trend will continue in near future....
Simulation is a powerful technique to represent the evolution of realworld phenomena or systems ove...
The benefits of parallel computation particularly the speed factor has brought about the increasing ...
A large number of variations for the efficient implementation of distributed simulation protocols on...
Parallel discrete event simulation (PDES), sometimes called distributed simulation, refers to the ex...
The field of parallel discrete event simulation is entering a period of self-assessment. Fifteen ye...