Poly-Exp Bounds in Tandem Queues
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When the arrival processes are Poisson, queueing networks are well-understood in terms of the product-form structure of the number of jobs N_i at the individual queues; much less is known about the waiting time W across the whole network. In turn, for non-Poisson arrivals, little is known about either N_i's or W. This paper considers a tandem network GI/G/1→·/G/1→…→·/G/1 with general arrivals and light-tailed service times. The main result is that the tail (W>x) has a polynomial-exponential (Poly-Exp) structure by constructing upper bounds of the form (a_Ix^I+…+a_1x+a_0)e^-θ x . The degree I of the polynomial depends on the number of bottleneck queues, their positions in the tandem, and also on the `light-tailedness' of the service times. The bounds hold in non-asymptotic regimes (i.e., for finite x), are shown to be sharp, and improve upon alternative results based on large deviations by (many) orders of magnitude. The overall technique is also particularly robust as it immediately extends, for instance, to non-renewal arrivals.
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