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CCR
2004
2004
Distributed scheduling policies in networks of input-queued packet switches
Scheduling algorithms for input-queued packet switches have been widely researched. It has been shown that various classes of scheduling algorithms provide guarantees on stability and on average delay for single switches. However, recent research has demonstrated that most of these scheduling algorithms do not guarantee stability for networks of switches. Most of the research that treats networks of switches proposes switching policies that require coordination among the single switches. The problem to find distributed scheduling policies that guarantee the stability of a network of switches has so far only been investigated for a policy based on a computationally very complex maximum weight matching algorithm. In this paper, we investigate distributed scheduling algorithms of low complexity that belong to the classes of maximal weight matching algorithms, p-maximal weight matching algorithms for switch architectures based on a space-division multiplexing extension, and MNCM algorithms...
Real-time Traffic| Added | 16 Dec 2010 |
| Updated | 16 Dec 2010 |
| Type | Journal |
| Year | 2004 |
| Where | CCR |
| Authors | Claus Bauer |
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