Bounding delays in packet-routing networks
STOC '95 Proceedings of the twenty-seventh annual ACM symposium on Theory of computing
Dynamic routing on networks with fixed-size buffers
SODA '03 Proceedings of the fourteenth annual ACM-SIAM symposium on Discrete algorithms
Packet-mode emulation of output-queued switches
Proceedings of the eighteenth annual ACM symposium on Parallelism in algorithms and architectures
Scheduling policies for CIOQ switches
Journal of Algorithms
Network calculus: a theory of deterministic queuing systems for the internet
Network calculus: a theory of deterministic queuing systems for the internet
The drop from front strategy in TCP and in TCP over ATM
INFOCOM'96 Proceedings of the Fifteenth annual joint conference of the IEEE computer and communications societies conference on The conference on computer communications - Volume 3
Matching output queueing with a combined input/output-queued switch
IEEE Journal on Selected Areas in Communications
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We study the emulation of Output Queuing (OQ) using Combined Input-Output Queuing (CIOQ) switches in the setting where the emulated OQ switch and the CIOQ switch have buffer capacity B茂戮驴 1 packets at every output. We analyze the resource requirements of CIOQ policies in terms of the required fabric speedup and the additional buffer capacity needed at the CIOQ inputs.For the family of work-conserving scheduling algorithms, we find that whereas every greedy CIOQ policy is valid for OQ emulation at speedup B, no CIOQ policy is valid at speedup $s when preemption is allowed. We also find that CCF in particular is not valid at any speedup sB. We then introduce a CIOQ policy, CEH, that is valid at speedup $s \geq \sqrt{2(B-1)}$. Under CEH, the buffer occupancy at any input never exceeds $1+\lfloor\frac{B-1}{s-1}\rfloor$.For non-preemptive scheduling algorithms, we characterize a trade-off between the CIOQ speedup and the input buffer occupancy. Specifically, we show that for any greedypolicy that is valid at speedup s 2, the input buffer occupancy cannot exceed $1+\lceil{\frac{B-1}{s-2}}\rceil$. We also show that at speedup 2, a greedy variant of the CCF policy requires input buffer capacity of only Bpackets for the emulation of non-preemptive OQ algorithms with PIFO service disciplines.