Title :
Maximum size matching is unstable for any packet switch
Author :
Keslassy, Isaac ; Zhang-Shen, Rui ; McKeown, Nick
Author_Institution :
Comput. Syst. Lab., Stanford Univ., CA, USA
Abstract :
Input-queued packet switches use a matching algorithm to configure a nonblocking switch fabric (e.g., a crossbar). Ideally, the matching algorithm will guarantee 100% throughput for a broad class of traffic, so long as the switch is not oversubscribed. An intuitive choice is the maximum size matching (MSM) algorithm, which maximizes the instantaneous throughput. It was shown (McKeown et al. (1999)) that with MSM the throughput can be less than 100% when N /spl ges/ 3, even with Terms-Instability,benign Bernoulli i.i.d. arrivals. In this letter, we extend this result to N /spl ges/ 2, and hence show it to be true for switches of any size.
Keywords :
optimisation; packet switching; queueing theory; stability; telecommunication traffic; crossbar; input-queued packet switches; instability; instantaneous throughput; matching algorithm; maximum size matching; nonblocking switch fabric; packet switch; throughput; traffic; Equations; Fabrics; Impedance matching; Internet; Packet switching; Stability; Switches; Throughput; Traffic control;
Journal_Title :
Communications Letters, IEEE
DOI :
10.1109/LCOMM.2003.817330
