We construct novel exact and approximate solutions for meanvalue analysis and probabilistic evaluation of closed queueing network models with limited load-dependent (LLD) nodes. In this setting, load-dependent functions are assumed to become constant after a finite queue-length threshold. For single-class models, we provide an explicit formula for the normalizing constant that applies to models with arbitrary LLD functions, whilst retaining constant complexity with respect to the total population size. From this result, we then derive corresponding closed-form solutions for the multiclass case and show that these yield a novel mean value analysis approach for LLD models. Significantly, this allows us to determine exactly the correction fact...
Often a multichain product form queueing network is used to model a complex computer system. In many...
In this paper, we present an approximate method for solution of load-dependent, closed queuing netwo...
tI~STRAC'r Because it is more intuitively understandable than the previously existing convoluti...
Load-dependent closed queueing networks are difficult toapproximate since their analysis requires to...
AbstractWorkload measurements in enterprise systems often lead to observe a dependence between the n...
We propose maximum likelihood (ML) estimators for service demands in closed queueing networks with l...
Normalizing constant recurrence equations play an important role in the exact analysis of load-indep...
Resource demand estimation is essential for the application of analyical models, such as queueing ne...
Workload measurements in enterprise systems often lead to observe a dependence between the number of...
We consider a general class of closed product-form queueing networks, consisting of single-server qu...
In this paper we propose a new analytical model to solve a class of closed queuing networks with gen...
We propose a new method for the performance evaluation of Open Queueing Networks with a Population C...
Recent years have seen a rapid growth of interest in exploiting monitoring data collected from enter...
AbstractMany queueing network models have a product-form solution for their steady-state probability...
Layered queueing networks (LQNs) are an extension of ordinary queueing networks to model simultaneou...
Often a multichain product form queueing network is used to model a complex computer system. In many...
In this paper, we present an approximate method for solution of load-dependent, closed queuing netwo...
tI~STRAC'r Because it is more intuitively understandable than the previously existing convoluti...
Load-dependent closed queueing networks are difficult toapproximate since their analysis requires to...
AbstractWorkload measurements in enterprise systems often lead to observe a dependence between the n...
We propose maximum likelihood (ML) estimators for service demands in closed queueing networks with l...
Normalizing constant recurrence equations play an important role in the exact analysis of load-indep...
Resource demand estimation is essential for the application of analyical models, such as queueing ne...
Workload measurements in enterprise systems often lead to observe a dependence between the number of...
We consider a general class of closed product-form queueing networks, consisting of single-server qu...
In this paper we propose a new analytical model to solve a class of closed queuing networks with gen...
We propose a new method for the performance evaluation of Open Queueing Networks with a Population C...
Recent years have seen a rapid growth of interest in exploiting monitoring data collected from enter...
AbstractMany queueing network models have a product-form solution for their steady-state probability...
Layered queueing networks (LQNs) are an extension of ordinary queueing networks to model simultaneou...
Often a multichain product form queueing network is used to model a complex computer system. In many...
In this paper, we present an approximate method for solution of load-dependent, closed queuing netwo...
tI~STRAC'r Because it is more intuitively understandable than the previously existing convoluti...