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INFOCOM
2010
IEEE
2010
IEEE
Analyzing Nonblocking Switching Networks using Linear Programming (Duality)
Abstract—The main task in analyzing a switching network design (including circuit-, multirate-, and photonic-switching) is to determine the minimum number of some switching components so that the design is non-blocking in some sense (e.g., strictor wide-sense). We show that, in many cases, this task can be accomplished with a simple two-step strategy: (1) formulate a linear program whose optimum value is a bound for the minimum number we are seeking, and (2) specify a solution to the dual program, whose objective value by weak duality immediately yields a sufficient condition for the design to be non-blocking. We illustrate this technique through a variety of examples, ranging from circuit to multirate to photonic switching, from unicast to f-cast and multicast, and from strict- to wide-sense non-blocking. The switching architectures in the examples are of Clos-type and Banyan-type, which are the two most popular architectural choices for designing non-blocking switching networks. T...
Real-time TrafficCommunications | INFOCOM 2010 | Minimum Number | Non-blocking Switching Networks | Switching Networks |
| Added | 28 Jan 2011 |
| Updated | 28 Jan 2011 |
| Type | Journal |
| Year | 2010 |
| Where | INFOCOM |
| Authors | Hung Q. Ngo, Atri Rudra, Anh N. Le, Thanh-Nhan Nguyen |
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