Layered queueing networks are a useful tool for the performance modeling and prediction of software systems that exhibit complex characteristics such as multiple tiers of service, fork/join interactions, and asynchronous communication. These features generally result in nonproduct form behavior for which particularly efficient approximations based on mean value analysis (MVA) have been devised. This paper reconsiders the accuracy of such techniques by providing an interpretation of layered queueing networks as fluid models. Mediated by an automatic translation into a stochastic process algebra, PEPA, a network is associated with a set of ordinary differential equations (ODEs) whose size is insensitive to the population levels in the system ...
The dissertation is organized into two parts. In the first part we discuss a queueing network analyz...
Networks of queues which have a productform solution can be analyzed easily by the convolution metho...
Large distributed client-server systems often contain subsystems which are either identical to each ...
This paper presents a process-algebraic interpretation of the Layered Queueing Network model. The se...
Layered queueing networks (LQNs) are an extension of ordinary queueing networks to model simultaneou...
In the past decade, communication networks have experienced dramatic growth in all dimensions: size,...
This paper presents an analytical model for the performance prediction of queueing networks with bat...
This handbook aims to highlight fundamental, methodological and computational aspects of networks of...
grantor: University of TorontoAs distributed systems such as Internet and Integrated Servi...
AbstractDue to the growing size of modern IT systems, their performance analysis becomes an even mor...
The layered queueing network model has been very useful for solving performance models of distribute...
The performance modelling of large-scale systems using discrete-state approaches is fundamentally ha...
Layered Queueing Networks (LQN) have been used success-fully by numerous researchers to solve perfor...
We overview LN, a novel solver introduced in the LINE soft- ware package to analyze layered queueing...
The two primary issues in choosing a computing system model are credibility of the model and cost of...
The dissertation is organized into two parts. In the first part we discuss a queueing network analyz...
Networks of queues which have a productform solution can be analyzed easily by the convolution metho...
Large distributed client-server systems often contain subsystems which are either identical to each ...
This paper presents a process-algebraic interpretation of the Layered Queueing Network model. The se...
Layered queueing networks (LQNs) are an extension of ordinary queueing networks to model simultaneou...
In the past decade, communication networks have experienced dramatic growth in all dimensions: size,...
This paper presents an analytical model for the performance prediction of queueing networks with bat...
This handbook aims to highlight fundamental, methodological and computational aspects of networks of...
grantor: University of TorontoAs distributed systems such as Internet and Integrated Servi...
AbstractDue to the growing size of modern IT systems, their performance analysis becomes an even mor...
The layered queueing network model has been very useful for solving performance models of distribute...
The performance modelling of large-scale systems using discrete-state approaches is fundamentally ha...
Layered Queueing Networks (LQN) have been used success-fully by numerous researchers to solve perfor...
We overview LN, a novel solver introduced in the LINE soft- ware package to analyze layered queueing...
The two primary issues in choosing a computing system model are credibility of the model and cost of...
The dissertation is organized into two parts. In the first part we discuss a queueing network analyz...
Networks of queues which have a productform solution can be analyzed easily by the convolution metho...
Large distributed client-server systems often contain subsystems which are either identical to each ...