Advanced search
1 file | 3.17 MB

Scalable impairment-aware anycast routing in multi-domain optical grid networks

Chris Develder (UGent) , Marc De Leenheer (UGent) , Tim Stevens (UGent) , Bart Dhoedt (UGent) , G Markidis and A Tzanakaki
Author
Organization
Abstract
In optical Grid networks, the main challenge is to account for not only network parameters, but also for resource availability. Anycast routing has previously been proposed as an effective Solution to provide job scheduling services in optical Grids, offering a generic interface to access Grid resources and services. The main weakness of this approach is its limited scalability, especially in a Multi-domain scenario. This paper proposes a novel anycast proxy architecture, which extends the anycast principle to a multi-domain scenario. The main purpose of the architecture Is to perform aggregation of resource and network states, and as Such improve Computational scalability and reduce control plane traffic. Furthermore, the architecture has the desirable properties of allowing Grid domains to maintain their autonomy and hide internal configuration details from other domains. Finally, we propose an impairment-aware anycast routing algorithm that incorporates the main physical layer characteristics of large-scale optical networks into its path computation process. By integrating the proposed routing scheme into the introduced architecture we demonstrate significant network performance improvements.
Keywords
routing algorithms, grid computing, optical networks, physical impairments, anycast routing

Downloads

  • (...).PDF
    • full text
    • |
    • UGent only
    • |
    • PDF
    • |
    • 3.17 MB

Citation

Please use this url to cite or link to this publication:

Chicago
Develder, Chris, Marc De Leenheer, Tim Stevens, Bart Dhoedt, G Markidis, and A Tzanakaki. 2008. “Scalable Impairment-aware Anycast Routing in Multi-domain Optical Grid Networks.” In ICTON 2008: PROCEEDINGS OF 2008 10TH ANNIVERSARY INTERNATIONAL CONFERENCE ON TRANSPARENT OPTICAL NETWORKS, VOL 3, ed. M Marciniak, 150–153. New York, NY, USA: IEEE.
APA
Develder, C., De Leenheer, M., Stevens, T., Dhoedt, B., Markidis, G., & Tzanakaki, A. (2008). Scalable impairment-aware anycast routing in multi-domain optical grid networks. In M. Marciniak (Ed.), ICTON 2008: PROCEEDINGS OF 2008 10TH ANNIVERSARY INTERNATIONAL CONFERENCE ON TRANSPARENT OPTICAL NETWORKS, VOL 3 (pp. 150–153). Presented at the 10th International Conference on Transparent Optical Networks, New York, NY, USA: IEEE.
Vancouver
1.
Develder C, De Leenheer M, Stevens T, Dhoedt B, Markidis G, Tzanakaki A. Scalable impairment-aware anycast routing in multi-domain optical grid networks. In: Marciniak M, editor. ICTON 2008: PROCEEDINGS OF 2008 10TH ANNIVERSARY INTERNATIONAL CONFERENCE ON TRANSPARENT OPTICAL NETWORKS, VOL 3. New York, NY, USA: IEEE; 2008. p. 150–3.
MLA
Develder, Chris, Marc De Leenheer, Tim Stevens, et al. “Scalable Impairment-aware Anycast Routing in Multi-domain Optical Grid Networks.” ICTON 2008: PROCEEDINGS OF 2008 10TH ANNIVERSARY INTERNATIONAL CONFERENCE ON TRANSPARENT OPTICAL NETWORKS, VOL 3. Ed. M Marciniak. New York, NY, USA: IEEE, 2008. 150–153. Print.
@inproceedings{430832,
  abstract     = {In optical Grid networks, the main challenge is to account for not only network parameters, but also for resource availability. Anycast routing has previously been proposed as an effective Solution to provide job scheduling services in optical Grids, offering a generic interface to access Grid resources and services. The main weakness of this approach is its limited scalability, especially in a Multi-domain scenario. This paper proposes a novel anycast proxy architecture, which extends the anycast principle to a multi-domain scenario. The main purpose of the architecture Is to perform aggregation of resource and network states, and as Such improve Computational scalability and reduce control plane traffic. Furthermore, the architecture has the desirable properties of allowing Grid domains to maintain their autonomy and hide internal configuration details from other domains. Finally, we propose an impairment-aware anycast routing algorithm that incorporates the main physical layer characteristics of large-scale optical networks into its path computation process. By integrating the proposed routing scheme into the introduced architecture we demonstrate significant network performance improvements.},
  author       = {Develder, Chris and De Leenheer, Marc and Stevens, Tim and Dhoedt, Bart and Markidis, G and Tzanakaki, A},
  booktitle    = {ICTON 2008: PROCEEDINGS OF 2008 10TH ANNIVERSARY INTERNATIONAL CONFERENCE ON TRANSPARENT OPTICAL NETWORKS, VOL 3},
  editor       = {Marciniak, M},
  isbn         = {978-1-4244-2625-6},
  language     = {eng},
  location     = {Athens, Greece},
  pages        = {150--153},
  publisher    = {IEEE},
  title        = {Scalable impairment-aware anycast routing in multi-domain optical grid networks},
  year         = {2008},
}

Web of Science
Times cited: