Parallel simulation has presented the possibility of performing high-speed simulation. However, when attempting to make a link between the requirements of parallel simulation and discrete event simulation used in commercial areas such as manufacturing, a major problem arises. This lies in the decomposition of the simulation into a series of concurrently executing objects. Using the activity cycle diagram simulation technique as an illustrative example, this paper suggests a solution to this decomposition problem. This is discussed within the context of providing a conceptually seamless methodology for translating simulation models into a form which can exploit the benefits of parallel computing
This thesis is concerned with the experimental development of parallel simulation tools that not onl...
This book offers readers a set of new approaches and tools a set of tools and techniques for facing ...
This paper describes the application of parallel simulation techniques to represent structured funct...
Parallel computing has provided the opportunity to perform high speed simulation. However, no guidel...
One of the main reasons why parallel discrete event simulationhas not been adopted more widely in in...
In simulating applications for execution on specific computing systems, the simulation perfor-mance ...
In simulating applications for execution on specific computing systems, the simulation performance f...
The field of parallel discrete event simulation is entering a period of self-assessment. Fifteen ye...
The design of efficient parallel discrete-event simulation (PDES) models often appears to be a myste...
Parallel discrete event simulation (PDES) applications encompass a broad range of analyti-cal simula...
Simulation has long been used as a decision making tool in manufacturing environment. It enables man...
This paper describes an object oriented simulator model for parallel computer systems that is design...
Parallel discrete event simulation (PDES) is concerned with the distributed execution of large-scale...
this paper, we will present a method to automatically translate a sequential DES program into an equ...
With traditional event list techniques, evaluating a detailed discrete event simulation model can of...
This thesis is concerned with the experimental development of parallel simulation tools that not onl...
This book offers readers a set of new approaches and tools a set of tools and techniques for facing ...
This paper describes the application of parallel simulation techniques to represent structured funct...
Parallel computing has provided the opportunity to perform high speed simulation. However, no guidel...
One of the main reasons why parallel discrete event simulationhas not been adopted more widely in in...
In simulating applications for execution on specific computing systems, the simulation perfor-mance ...
In simulating applications for execution on specific computing systems, the simulation performance f...
The field of parallel discrete event simulation is entering a period of self-assessment. Fifteen ye...
The design of efficient parallel discrete-event simulation (PDES) models often appears to be a myste...
Parallel discrete event simulation (PDES) applications encompass a broad range of analyti-cal simula...
Simulation has long been used as a decision making tool in manufacturing environment. It enables man...
This paper describes an object oriented simulator model for parallel computer systems that is design...
Parallel discrete event simulation (PDES) is concerned with the distributed execution of large-scale...
this paper, we will present a method to automatically translate a sequential DES program into an equ...
With traditional event list techniques, evaluating a detailed discrete event simulation model can of...
This thesis is concerned with the experimental development of parallel simulation tools that not onl...
This book offers readers a set of new approaches and tools a set of tools and techniques for facing ...
This paper describes the application of parallel simulation techniques to represent structured funct...