The exact performance analysis of large-scale software systems with discrete-state approaches is difficult because of the well-known problem of state-space explosion. This paper considers this problem with regard to the stochastic process algebra PEPA, presenting a deterministic approximation to the underlying Markov chain model based on ordinary differential equations. The accuracy of the approximation is assessed by means of a substantial case study of a distributed multithreaded application
Quantitative analysis by means of discrete-state stochastic processes is hindered by the well-known ...
AbstractIn this paper we examine a Langevin interpretation of the stochastic process algebra PEPA. W...
The stochastic process algebra PEPA is a powerful modelling formalism for concurrent systems, which...
The exact performance analysis of large-scale software systems with discrete-state approaches is dif...
This tutorial is concerned with the performance evaluation of hardware/software systems using ordina...
The performance modelling of large-scale systems using discrete-state approaches is fundamentally ha...
AbstractMarkovian process algebras, such as PEPA and stochastic π-calculus, bring a powerful composi...
Reasoning about the performance of models of software systems typically entails the derivation of me...
Abstract Fluid or mean-field methods are approximate analytical techniques which have proven effecti...
Stochastic process algebras have become an accepted part of performance modelling over recent years....
In order to circumvent the problem of state-space explosion of large-scale Markovian models, the sto...
In order to circumvent the problem of state-space explosion of large-scale Markovian models, the sto...
. We introduce a Stochastic Process Algebra called PEPA 1 ph , based on Hillston's PEPA. PEPA...
In this tutorial we give an introduction to stochastic process algebras and their use in performance...
Stochastic process algebras have become an accepted part of performance modelling over recent years....
Quantitative analysis by means of discrete-state stochastic processes is hindered by the well-known ...
AbstractIn this paper we examine a Langevin interpretation of the stochastic process algebra PEPA. W...
The stochastic process algebra PEPA is a powerful modelling formalism for concurrent systems, which...
The exact performance analysis of large-scale software systems with discrete-state approaches is dif...
This tutorial is concerned with the performance evaluation of hardware/software systems using ordina...
The performance modelling of large-scale systems using discrete-state approaches is fundamentally ha...
AbstractMarkovian process algebras, such as PEPA and stochastic π-calculus, bring a powerful composi...
Reasoning about the performance of models of software systems typically entails the derivation of me...
Abstract Fluid or mean-field methods are approximate analytical techniques which have proven effecti...
Stochastic process algebras have become an accepted part of performance modelling over recent years....
In order to circumvent the problem of state-space explosion of large-scale Markovian models, the sto...
In order to circumvent the problem of state-space explosion of large-scale Markovian models, the sto...
. We introduce a Stochastic Process Algebra called PEPA 1 ph , based on Hillston's PEPA. PEPA...
In this tutorial we give an introduction to stochastic process algebras and their use in performance...
Stochastic process algebras have become an accepted part of performance modelling over recent years....
Quantitative analysis by means of discrete-state stochastic processes is hindered by the well-known ...
AbstractIn this paper we examine a Langevin interpretation of the stochastic process algebra PEPA. W...
The stochastic process algebra PEPA is a powerful modelling formalism for concurrent systems, which...