PlanetLab: an overlay testbed for broad-coverage services. PlanetLab is a global overlay network for developing and accessing broad-coverage network services. Our goal is to grow to 1000 geographically distributed nodes, connected by a disverse collection of links. PlanetLab allows multiple service to run concurrently and continuously, each in its own slice of PlanetLab. This paper discribes our initial implementation of PlanetLab, including the mechanisms used to impelment virtualization, and the collection of core services used to manage PlanetLab.

References in zbMATH (referenced in 35 articles , 1 standard article )

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  1. Ferrucci, L.; Ricci, L.; Albano, M.; Baraglia, R.; Mordacchini, M.: Multidimensional range queries on hierarchical Voronoi overlays (2016)
  2. Khan, Amin M.; Büyükşahin, Ümit C.; Freitag, Felix: Incentive-based resource assignment and regulation for collaborative cloud services in community networks (2015)
  3. Qi, Ping; Li, Longshu; Li, Xuejun: Cloud resource scheduling algorithm with failure recovery mechanism (2015)
  4. Suriarachchi, I., Zhou, Q., Plale, B.: Komadu: A Capture and Visualization System for Scientific Data Provenance (2015) not zbMATH
  5. Guerraoui, Rachid; Huguenin, Kévin; Kermarrec, Anne-Marie; Monod, Maxime; Vigfússon, Ýmir: Decentralized polling with respectable participants (2012)
  6. Salehi, Mohsen Amini; Javadi, Bahman; Buyya, Rajkumar: QoS and preemption aware scheduling in federated and virtualized grid computing environments (2012) ioport
  7. Burkhart, Martin: Enabling collaborative network security with privacy-preserving data aggregation (2011)
  8. Zhang, Hui; Zhou, Jin; Li, Jun: Minimising delay for video conference with network coding (2011)
  9. Berl, Andreas; Fischer, Andreas; De Meer, Hermann: Virtualisierung im Future Internet. Virtualisierungsmethoden und Anwendungen (2010) ioport
  10. Fischer, Stefan; Müller, Paul: Experimentalforschung für das Future Internet - deutsche und europäische Initiativen (2010) ioport
  11. Ilić, Aleksandar; Urošević, Dragan; Brimberg, Jack; Mladenović, Nenad: A general variable neighborhood search for solving the uncapacitated single allocation (p)-hub median problem (2010)
  12. Juste, Pierre St.; Wolinsky, David; Boykin, P. Oscar; Covington, Michael J.; Figueiredo, Renato J.: SocialVPN: enabling wide-area collaboration with integrated social and overlay networks (2010)
  13. Laki, S.; Mátray, P.; Hága, P.; Csabai, I.; Vattay, G.: A model based approach for improving router geolocation (2010)
  14. Neumann, Dirk (ed.); Baker, Mark (ed.); Altmann, Jörn (ed.); Rana, Omer F. (ed.): Economic models and algorithms for distributed systems (2010)
  15. Padhye, Jaideep D.; Kothari, Kush; Venkateshaiah, Madhu; Wright, Matthew: Evading stepping-stone detection under the cloak of streaming media with SNEAK (2010)
  16. Wang, Huijuan; van Mieghem, Piet: Sampling networks by the union of (m) shortest path trees (2010)
  17. Wu, Di; Liang, Chao; Liu, Yong; Ross, Keith W.: Redesigning multi-channel P2P live video systems with view-upload decoupling (2010)
  18. Ganguly, Arijit; Boykin, P. Oscar; Wolinsky, David I.; Figueiredo, Renato J.: Improving peer connectivity in wide-area overlays of virtual workstations (2009) ioport
  19. Patel, Jay A.; Rivière, étienne; Gupta, Indranil; Kermarrec, Anne-Marie: Rappel: exploiting interest and network locality to improve fairness in publish-subscribe systems (2009)
  20. Sbai, Mohamed Karim; Barakat, Chadi: Experiences on enhancing data collection in large networks (2009)

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