Stability of a frame-based maximal weight matching algorithm with transfer speedup

It has been shown that maximal size matching algorithms for input-queued switches are stable under any admissible traffic conditions with a scheduling speedup of 2. However, as link speeds increase, the computational complexity of these algorithms limits their applicability in high port-density swit...

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Vydáno v:IEEE communications letters Ročník 9; číslo 10; s. 942 - 944
Hlavní autoři: Xike Li, Elhanany, I.
Médium: Journal Article
Jazyk:angličtina
Vydáno: New York, NY IEEE 01.10.2005
Institute of Electrical and Electronics Engineers
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Témata:
Applied sciences
Computational complexity
Delay
Exact sciences and technology
Impedance matching
Packet switching
Processor scheduling
Scalability
Scheduling algorithm
Stability
Switches
Switching and signalling
Systems, networks and services of telecommunications
Telecommunications
Telecommunications and information theory
Teletraffic
Traffic control
Packet switching
Lyapunov stability analysis
High density
Lyapunov method
Teletraffic
switching architectures
Router
Scheduling
Stability criterion
Buffer system
Algorithm
Computational complexity
Packet scheduling algorithms
Simulation
Queueing system
Traffic management
Algorithm complexity
Traffic control
Lyapunov stability
Delay time
Selector switch
Timing
ISSN:1089-7798, 1558-2558
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Popis
Shrnutí:It has been shown that maximal size matching algorithms for input-queued switches are stable under any admissible traffic conditions with a scheduling speedup of 2. However, as link speeds increase, the computational complexity of these algorithms limits their applicability in high port-density switches and routers. In this letter we describe a Frame-Based Maximal Weight Matching (FMWM) algorithm in which a new scheduling decision is issued once every several cell times. Between scheduling decisions, the configuration of the crossbar switch remains unchanged. We prove that the FMWM algorithm is stable with an internal buffer transfer speedup of 2, thereby significantly relaxing the timing constraints on the scheduling process. Simulation results illustrate the impact of the algorithm on the average cell delay for different traffic scenarios.
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ISSN:1089-7798
1558-2558
DOI:10.1109/LCOMM.2005.10032