We consider a FIFO multiplexer fed by flows that are individually constrained by arrival curves, and look for the best possible arrival curve for every output flow. This problem arises in scenarios where aggregate multiplexing is performed, such as differentiated services or front ends to optical switches. We obtain an exact result for a fluid model and for piecewise linear concave arrival curves, which are common in practice and correspond to combinations of leaky buckets. Our results show that previous methods do not obtain tight bounds, unlike our finding here
We consider the problem of bounding the probability of buffer overflow in a network node receiving i...
In this paper we address the problem of finding end-to-end delay bounds for single leaky-bucket shap...
In a DiffServ architecture, packets with the same marking are treated as an aggregate at core router...
In this paper, we compute the actual worst-case end-to-end delay for a flow in a feed-forward networ...
As a means of supporting quality of service guarantees, aggregate multiplexing has attracted a lot o...
International audienceIn this paper we compute the actual worst-case end-to-end delay for a flow in ...
Abstract—This paper computes the actual worst-case end-to-end delay for a flow in a tandem of FIFO m...
This paper computes the actual worst-case end-to-end delay for a flow in a tandem of FIFO multiplexi...
First-In First-Out (FIFO) queues are widely used in packet switched communication networks and they ...
International audienceNetwork Calculus theory aims at evaluating worst-case performances in communic...
Network Calculus theory aims at evaluating worst-case performances in communication networks. It pro...
Abstract—Non-FIFO processing of flows by network nodes is not a rare phenomenon. Unfortunately, the ...
In this paper we address the problem of finding good end-to-end delay bounds for single leaky-bucket...
The goal of this paper is to examine the gains of partial upgrades to existing FIFO networks, to sup...
We consider the problem of bounding the probability of buffer overflow in a network node receiving i...
In this paper we address the problem of finding end-to-end delay bounds for single leaky-bucket shap...
In a DiffServ architecture, packets with the same marking are treated as an aggregate at core router...
In this paper, we compute the actual worst-case end-to-end delay for a flow in a feed-forward networ...
As a means of supporting quality of service guarantees, aggregate multiplexing has attracted a lot o...
International audienceIn this paper we compute the actual worst-case end-to-end delay for a flow in ...
Abstract—This paper computes the actual worst-case end-to-end delay for a flow in a tandem of FIFO m...
This paper computes the actual worst-case end-to-end delay for a flow in a tandem of FIFO multiplexi...
First-In First-Out (FIFO) queues are widely used in packet switched communication networks and they ...
International audienceNetwork Calculus theory aims at evaluating worst-case performances in communic...
Network Calculus theory aims at evaluating worst-case performances in communication networks. It pro...
Abstract—Non-FIFO processing of flows by network nodes is not a rare phenomenon. Unfortunately, the ...
In this paper we address the problem of finding good end-to-end delay bounds for single leaky-bucket...
The goal of this paper is to examine the gains of partial upgrades to existing FIFO networks, to sup...
We consider the problem of bounding the probability of buffer overflow in a network node receiving i...
In this paper we address the problem of finding end-to-end delay bounds for single leaky-bucket shap...
In a DiffServ architecture, packets with the same marking are treated as an aggregate at core router...