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Exploitation of wavelength, hardware, and path redundancies in fault-tolerant all-optical DCNs

Akbari Rokn Abadi, S ; Sharif University of Technology | 2019

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  1. Type of Document: Article
  2. DOI: 10.1016/j.yofte.2019.03.008
  3. Publisher: Academic Press Inc , 2019
  4. Abstract:
  5. Data center performance is affected by three main factors; bandwidth, latency, and reliability of intra-data center interconnection network. Bandwidth and latency are definitely improved by adopting optical technology for intra-data center communication, but fault tolerance of the corresponding optical networks has been raised less. Recently, we introduced two Torus-based, all-optical, and non-blocking networks, i.e. O-TF and O-FTF, addressing reliability of optical networks, and now, in this paper, to address the scalability problem, we propose a novel Optical Clos-based architecture which reduces minimum number of required wavelength channels, as well as, the switch size in each node. Moreover, we examine three different types of redundancies; including (a) wavelength (adopted in O-TF network), (b) hardware (adopted in O-FTF network), and (c) path (adopted Optical Clos)) redundancies, in terms of throughput drop under failures, implementation cost, optical power loss, electrical power, latency, topology, and wiring complexity. In addition to simulating networks utilizing generated traffic based on Microsoft data, realistic traffic has also been considered. Our simulation results confirm that in addition to improving power consumption and latency, O-TF, O-FTF, and O-Clos architectures lead to throughput increment up to 80%, 90%, and 70%, respectively, comparing to WaveCube at the presence of network failure, as result of adopting our proposed fault-tolerant method, named as RAOP. © 2019 Elsevier Inc
  6. Keywords:
  7. Data center ; Fault-tolerant ; Non-blocking ; Optical interconnection network ; Bandwidth ; Fault tolerance ; Fiber optic networks ; Network architecture ; Optical communication ; Optical interconnects ; Redundancy ; Data centers ; Fault-tolerant method ; High-performance ; Non-blocking network ; Scalability problems ; Wavelength channels ; Interconnection networks (circuit switching)
  8. Source: Optical Fiber Technology ; Volume 51 , 2019 , Pages 77-89 ; 10685200 (ISSN)
  9. URL: https://www.sciencedirect.com/science/article/pii/S106852001930046X