We study the properties of the Barabasi model of queuing [A.-L. Barabasi, Nature (London) 435, 207 (2005); J. G. Oliveira and A.-L. Barabasi, Nature (London) 437, 1251 (2005)] in the hypothesis that the number of tasks grows with time steadily. Our analytical approach is based on two ingredients. First we map exactly this model into an invasion percolation dynamics on a Cayley tree. Second we use the theory of biased random walks. In this way we obtain the following results: the stationary-state dynamics is a sequence of causally and geometrically connected bursts of execution activities with scale-invariant size distribution. We recover the correct waiting-time distribution P(W)(tau)similar to tau(-3/2) at the stationary state (as observed in different realistic data). Finally we describe quantitatively the dynamics out of the stationary state quantifying the power-law slow approach to stationarity both in single dynamical realization and in average. These results can be generalized to the case of a stochastic increase in the queue length in time with limited fluctuations. As a limit case we recover the situation in which the queue length fluctuates around a constant average value.

Gabrielli, A., Caldarelli, G. (2009). Invasion percolation on a tree and queueing models. PHYSICAL REVIEW E, STATISTICAL, NONLINEAR, AND SOFT MATTER PHYSICS, 79(4), 041133 [10.1103/PhysRevE.79.041133].

Invasion percolation on a tree and queueing models

Gabrielli A.
;
2009-01-01

Abstract

We study the properties of the Barabasi model of queuing [A.-L. Barabasi, Nature (London) 435, 207 (2005); J. G. Oliveira and A.-L. Barabasi, Nature (London) 437, 1251 (2005)] in the hypothesis that the number of tasks grows with time steadily. Our analytical approach is based on two ingredients. First we map exactly this model into an invasion percolation dynamics on a Cayley tree. Second we use the theory of biased random walks. In this way we obtain the following results: the stationary-state dynamics is a sequence of causally and geometrically connected bursts of execution activities with scale-invariant size distribution. We recover the correct waiting-time distribution P(W)(tau)similar to tau(-3/2) at the stationary state (as observed in different realistic data). Finally we describe quantitatively the dynamics out of the stationary state quantifying the power-law slow approach to stationarity both in single dynamical realization and in average. These results can be generalized to the case of a stochastic increase in the queue length in time with limited fluctuations. As a limit case we recover the situation in which the queue length fluctuates around a constant average value.
2009
Gabrielli, A., Caldarelli, G. (2009). Invasion percolation on a tree and queueing models. PHYSICAL REVIEW E, STATISTICAL, NONLINEAR, AND SOFT MATTER PHYSICS, 79(4), 041133 [10.1103/PhysRevE.79.041133].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11590/358303
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