AI Chat AI Image Generator AI Video Text to Speech

Optimal Heavy-Traffic Queue Length Scaling in an Incompletely Saturated Switch

11/02/2016

∙

by Siva Theja Maguluri, et al.

∙

∙

We consider an input queued switch operating under the MaxWeight scheduling algorithm. This system is interesting to study because it is a model for Internet routers and data center networks. Recently, it was shown that the MaxWeight algorithm has optimal heavy-traffic queue length scaling when all ports are uniformly saturated. Here we consider the case when an arbitrary number of ports are saturated (which we call the incompletely saturated case), and each port is allowed to saturate at a different rate. We use a recently developed drift technique to show that the heavy-traffic queue length under the MaxWeight scheduling algorithm has optimal scaling with respect to the switch size even in these cases.

Siva Theja Maguluri
23 publications
Sai Kiran Burle
1 publication
R. Srikant
50 publications

page 1

page 2

page 3

page 4

research

∙ 04/26/2020

Low-Complexity Switch Scheduling Algorithms: Delay Optimality in Heavy Traffic

Motivated by applications in data center networks, in this paper, we stu...

0 Prakirt Jhunjhunwala, et al. ∙

research

∙ 03/01/2019

Improved queue-size scaling for input-queued switches via graph factorization

This paper studies the scaling of the expected total queue size in an n×...

0 Jiaming Xu, et al. ∙

research

∙ 02/19/2020

Throughput Optimal Decentralized Scheduling with Single-bit State Feedback for a Class of Queueing Systems

Motivated by medium access control for resource-challenged wireless Inte...

0 Avinash Mohan, et al. ∙

research

∙ 02/09/2021

Stationary Distribution Convergence of the Offered Waiting Processes in Heavy Traffic under General Patience Time Scaling

We study a sequence of single server queues with customer abandonment (G...

0 Chihoon Lee, et al. ∙

research

∙ 10/19/2017

SERENADE: A Parallel Randomized Algorithm Suite for Crossbar Scheduling in Input-Queued Switches

Most of today's high-speed switches and routers adopt an input-queued cr...

0 Long Gong, et al. ∙

research

∙ 03/13/2020

A Note on Stein's Method for Heavy-Traffic Analysis

In this note, we apply Stein's method to analyze the steady-state distri...

0 Xingyu Zhou, et al. ∙

research

∙ 09/10/2019

Mobility can drastically improve the heavy traffic performance from 1/(1-rho) to -log(1-rho)

We study a model of wireless networks where users move at speed s, which...

0 Florian Simatos, et al. ∙