English

A Reconfigurable High-Performance Optical Data Center Architecture

Networking and Internet Architecture 2019-01-23 v1

Abstract

Optical data center network architectures are becoming attractive because of their low energy consumption, large bandwidth, and low cabling complexity. In\cite{Xu1605:PODCA}, an AWGR-based passive optical data center architecture (PODCA) is presented. Compared with other optical data center architectures, e.g., DOS \cite{ye2010scalable}, Proteus \cite{singla2010proteus}, and Petabit \cite{xia2010petabit}, PODCA can save up to 90%\% on power consumption and 88%\% in cost. Also, average latency can be low as 9 μ\mus at close to 100%\% throughput. However, PODCA is not reconfigurable and cannot optimize the network topology to dynamic traffic. In this paper, we present a novel, scalable and flexible reconfigurable architecture called RODCA. RODCA is built on and augments PODCA with a flexible localized intra-cluster optical network. With the reconfigurable intra-cluster network, racks with mutually large traffic can be located within the same cluster, and share the large bandwidth of the intra-cluster network. We present an algorithm for DCN topology reconfiguration, and present simulation results to demonstrate the effectiveness of reconfiguration.

Keywords

Cite

@article{arxiv.1901.06451,
  title  = {A Reconfigurable High-Performance Optical Data Center Architecture},
  author = {Chong Liu and Maotong Xu and Suresh Subramaniam},
  journal= {arXiv preprint arXiv:1901.06451},
  year   = {2019}
}
R2 v1 2026-06-23T07:16:22.896Z