Θέματα Εργασιών - Δίκτυα Υψηλών Ταχυτήτων


Topics

NETWORKING IN THE DATA CENTERS AND THE CLOUD
PASSIVE OPTICAL NETWORKS (PONs)
ELASTIC OPTICAL NETWORKING
OPTICAL PACKETS SWITCHING
OPTICAL INTERCONNECTS ARCHITECTURES
TRAFFIC PROFILES FOR HPC AND DATA CENTERS
HIERARCHICAL ROUTING
MULTI-COST AND MULTI-CONSTRAINT ROUTING
OPTICAL BURST SWITCHING
ROUTING AND WAVELENGTH ASSIGNMENT (RWA)
GRID SCHEDULING
SWITCH ARCHITECTURES AND QUEUES
PCE, ABNO AND MULTILAYER OPTICAL NETWORKS
SOFTWARE DEFINED NETWORKS (SDN)

 


NETWORKING IN THE DATA CENTERS AND THE CLOUD

  1. Hitesh Ballani, Paolo Costa, Thomas Karagiannis , Ant Rowstron “Towards Predictable Datacenter Networks” (link)
  2. Ang Li, Xiaowei Yang, Srikanth Kandula , Ming Zhang “CloudCmp: Comparing Public Cloud Providers” (link)
  3. V. Shrivastava, P. Zerfos, L. Kang-won, H. Jamjoom, L. Yew-Huey, S. Banerjee, "Application-aware virtual machine migration in data centers", IEEE INFOCOM, , pp.66-70, 2011.
  4. X. Meng, V. Pappas, L. Zhang, "Improving the Scalability of Data Center Networks with Traffic-aware Virtual Machine Placement", IEEE INFOCOM, 2010.
  5. H. H. Bazzaz, M. Tewari, G. Wang, G. Porter, T. S. Eugene Ng, D. G. Andersen, M. Kaminsky, M. A. Kozuch, and A. Vahdat, “Switching the optical divide: fundamental challenges for hybrid electrical/optical datacenter networks”, ACM Symposium on Cloud Computing, 2011.
  6. V. Jalaparti, et. al. “Network-Aware Scheduling for Data-Parallel Jobs: Plan When You Can”, Sigcomm 2015, (link)
  7. J. Lee, et. al. “Application-Driven Bandwidth Guarantees in Datacenters”, Sigcomm 2014, ( link)

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PASSIVE OPTICAL NETWORKS (PONs)

  1. Effenberger, F.J.; , "The XG-PON System: Cost Effective 10 Gb/s Access," Lightwave Technology, Journal of , vol.29, no.4, pp.403-409, Feb.15, 2011 (link)
  2. Aurzada, F.; Scheutzow, M.; Reisslein, M.; Ghazisaidi, N.; Maier, M.; , "Capacity and Delay Analysis of Next-Generation Passive Optical Networks (NG-PONs)," Communications, IEEE Transactions on , vol.59, no.5, pp.1378-1388, May 2011 (link)
  3. Kanonakis, K.; Tomkos, I.; , "Improving the efficiency of online upstream scheduling and wavelength assignment in hybrid WDM/TDMA EPON networks," Selected Areas in Communications, IEEE Journal on , vol.28, no.6, pp.838-848, Aug. 2010 (link)
  4. McGarry, M.P.; Reisslein, M.; Colbourn, C.J.; Maier, M.; Aurzada, F.; Scheutzow, M.; , "Just-in-Time Scheduling for Multichannel EPONs," Lightwave Technology, Journal of , vol.26, no.10, pp.1204-1216, May15, 2008 (link)
  5. Yuanqiu Luo; Ansari, N.; , "Bandwidth allocation for multiservice access on EPONs," Communications Magazine, IEEE , vol.43, no.2, pp.S16-S21, Feb. 2005 (link)
  6. H. Song, B. Kim, B. Mukherjee, “Long-Reach Optical Access Networks: A Survey of Research hallenges, Demonstrations, and Bandwidth Assignment Mechanisms”, IEEE Communications Surveys and Tutorials, 2010 (link)
  7. M. Ruffini, et al. “DISCUS: an end-to-end solution for ubiquitous broadband optical access” IEEE Com. Mag., 52 (2), February 2014

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ELASTIC OPTICAL NETWORKING

  1. O. Gerstel, M. Jinno, A. Lord, S. J. Ben Yoo, "Elastic Optical Networking: A New Dawn for the Optical Layer?", IEEE Communications Magazine, Feb, 2012 (link)
  2. M. Jinno et al., “Distance-Adaptive Spectrum Resource Allocation In Spectrum-sliced Elastic Optical Path Network,” IEEE Communications Magazine, pp. 138–45, 2010 (link)
  3. K. Christodoulopoulos, I. Tomkos, and E. A. Varvarigos, "Elastic Bandwidth Allocation in Flexible OFDM-Based Optical Networks", IEEE/OSA JLT, VOL. 29, NO. 9, 2011 (link)
  4. F. Cugini, G. Meloni, F. Paolucci, N. Sambo, M. Secondini, L. Gerardi, L. Poti, P. Castoldi "Demonstration of Flexible Optical Network Based on Path Computation Element", IEEE/OSA JLT, VOL. 30, NO. 5, 2012 (link)
  5. A. Napoli, et. al. “Next generation elastic optical networks: The vision of the European research project IDEALIST”, IEEE Communications Magazine, Vol. 53, No. 2, February 2015 (link)

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OPTICAL PACKETS SWITCHING

  1. D.J. Blumenthal et al (February 2003). Optical signal processing for optical packet switching networks. IEEE COMMUN MAG, pp. S23-S29.
  2. Dimitrios Klonidis, Christina T. Politi, Reza Nejabati, Mike J. O'Mahony, and Dimitra Simeonidou , OPSnet: Design and Demonstration of an Asynchronous High-Speed Optical Packet Switch, Journal of Lightwave Technology, Vol. 23, Issue 10, pp. 2914- (2005). (link)
  3. L. Dittmann, C. Develder, D. Chiaroni, F. Neri, F. Callegati, Member, IEEE, W. Koerber, A. Stavdas, M. Renaud, A. Rafel, J. Sole-Pareta, W. Cerroni, N. Leligou, Lars Dembeck, B. Mortensen, M. Pickavet, The European IST Project DAVID: A Viable Approach Toward Optical Packet Switching, IEEE JOURNAL ON SELECTED AREAS IN COMMUNICATIONS, VOL. 21, NO. 7, SEPTEMBER 2003. (link)
  4. David K. Hunter, Meow C. Chia, and Ivan Andonovic, Buffering in Optical Packet Switches, Journal of Lightwave technology , vol. 16,no. 12, Dec 1998 (link)
  5. D. K. Hunter, W. D. Cornwell, T. H. Gilfedder A. Franzen, and I. Andonovic, "SLOB: A switch with large optical buffers for packet switching," J. Lightwave Technol., vol. 16, pp. 1725-1736, Oct. 1998.(link)
  6. C. Guillemot, M. Renaud, P. Gambini, C. Janz, I. Andonovic, R. Bauknecht, B. Bostica, M. Burzio, F. Callegati, M. Casoni, D. Chiaroni, F. Clerot, S. L. Danielsen, F. &c. ;i. Dorgeuille, A. Dupas, A. Franzen, P. B. Hansen, D. K. Hunter, A. Kloch, R. Krahenbuhl, B. Lavigne, A. L. Corre, C. Raffaelli, M. Schilling, J. -C. Simon, and L. Zucchelli, "Transparent Optical Packet Switching: The European ACTS KEOPS Project Approach," J. Lightwave Technol. 16, 2117- ,1998 (link)
  7. W. D. Zhong and R. S. Tucker, "Wavelength routed based photonic packet buffers and their applications in photonic packet switching systems", J. Lightwave Technol., vol. 16, pp. 1737-1745, Oct. 1998 (link)
  8. Varvarigos, E.M. "The "packing" and the "scheduling packet" switch architectures for almost all-optical lossless networks", Journal of Lightwave Technology, Oct. 1998, vol.16, (no.10):1757-67 (link)

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OPTICAL INTERCONNECTS ARCHITECTURES

  1. N. Farrington, G. Porter, S. Radhakrishnan, H. H. Bazzaz, V. Subramanya, Y. Fainman, G. Papen, and A. Vahdat, “Helios: a hybrid electrical/optical switch architecture for modular data centers,” in Proceedings of the ACM SIGCOMM 2010, 2010, pp. 339–350.  (link)
  2. A. K. Kodi and A. Louri, "Design of a High-Speed Optical Interconnect for Scalable Shared-Memory Multiprocessors", IEEE Micro, 25(1):41–49, 2005.  (link)
  3. O. Liboiron-Ladouceur, A. Shacham, B. A. Small, B. G. Lee, H. Wang, C. P. Lai, A. Biberman, and K. Bergman, “The data vortex optical packet switched interconnection network”, J. Lightwave Technol., vol. 26,no. 13, pp. 1777–1789, Jul 2008.  (link)
  4. A. Singla, A. Singh, K. Ramachandran, L. Xu, and Y. Zhang, “Proteus: a topology malleable data center network”, in Proceedings of the Nineth ACM SIGCOMM Workshop on Hot Topics in Networks, ser. Hotnets ’10, 2010, pp. 8:1–8:6.  (link)
  5. H. H. Bazzaz, M. Tewari, G. Wang, G. Porter, T. S. Eugene Ng, D. G. Andersen, M. Kaminsky, M. A. Kozuch, and A. Vahdat, "Switching the optical divide: fundamental challenges for hybrid electrical/optical datacenter networks", ACM Symposium on Cloud Computing, 2011.
  6. S. Peng, “Multi-Tenant Software-Defined Hybrid Optical Switched Data Centre”, IEEE Journal of Lightwave Technology, 2015

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TRAFFIC PROFILES FOR HPC AND DATA CENTERS

  1. Kamil, S., Oliker, L., Pinar, A., Shalf, J.: "Communication Requirements and Interconnect Optimization for High-End Scientific Applications", IEEE Transactions on Parallel and Distributed Systems, 2009.  (link)
  2. T. Benson, A. Akella, and D. A. Maltz, “Network traffic characteristics of data centers in the wild,” in Proceedings of the 10th annual conference on Internet measurement (IMC), 2010, pp. 267–280.  (link)
  3. S. Kandula, S. Sengupta, A. Greenberg, P. Patel, and R. Chaiken, “The nature of data center traffic: measurements & analysis,” in Proceedings of the 9th ACM SIGCOMM conference on Internet measurement conference, ser. IMC ’09, 2009, pp. 202–208.  (link)
  4. A. Roy, et. al. “Inside the Social Network’s (Datacenter) Network”, Sigcomm 2015 (link)

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HIERARCHICAL ROUTING

  1. L. Kleinrock and E Kamoun, Hierarchical routing for large networks, Computer Networks, pp. 155-74 (1977) (link)
  2. W. Lee. Topology Aggregation for Hierarchical Routing in ATM Networks. ACM Computer Communication Review, 25(2):82–92, 1995. (link)
  3. Rajesh Krishnan, Ram Ramanathan, Martha Steenstrup, Optimization Algorithms for Large Self-Structuring Networks, Proceedings INFOCOM (1999) (link)
  4. Fukushima, Y. Harai, H. Arakawa, S. Murata, M. Distributed Clustering Method for Large-Scaled Wavelength Routed Networks, High Performance Switching and Routing, 2005. (link)
  5. Piet Van Mieghem , Topology information condensation in hierarchical networks (2000) (link)

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MULTI-COST AND MULTI-CONSTRAINT ROUTING

  1. Roch A. Guerin, , and Ariel Orda, QoS Routing in Networks with Inaccurate Information: Theory and Algorithms, IEEE/ACM TRANSACTIONS ON NETWORKING, VOL. 7, NO. 3, JUNE 1999 (link)
  2. Piet Van Mieghem, Fernando A. Kuipers: Concepts of exact QoS routing algorithms. IEEE/ACM Trans. Netw. 12(5): 851-864 (2004) (link)
  3. F. A. Kuipers, T. Korkmaz, M. Krunz, and P. Van Mieghem, “An overview of constraint-based path selection algorithms for QoS routing,” IEEE Commun. Mag., vol. 40, pp. 50–55, Dec. 2002. (link)
  4. F. Gutierrez, E.A. Varvarigos, S. Vassiliadis, "Multicost Routing in Max-Min Fair Networks", 38th Allerton Conf. on Communicating, Control and Computing, 2000. (link)

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OPTICAL BURST SWITCHING

  1. J. Turner. Terabit burst switching. Journal of High Speed Networks, 8(1):3-16, 1999. (link)
  2. Lisong Xu, Harry G. Perros, and George Rouskas, Techniques for Optical Packet Switching and Optical Burst Switching. (link)
  3. M. Yoo, C. Qiao, S. Dixit, “QoS performance of optical burst switching in IP-over-WDM networks”, Journal on Selected Areas in Communication, vl. 18, Oct. 2000. (link)
  4. P. Pavon-Marino, F. Neri, “On the Myths of Optical Burst Switching”, IEEE Transactions on Communications, Volume 59, Issue 9, 2011

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ROUTING AND WAVELENGTH ASSIGNMENT (RWA)

  1. Zang, Jue, Mukherjee, A review of routing and wavelength assignment approaches for wavelength-routed optical WDM networks, SPIE Optical Networks Magazine, vol. 1, no. 1, Jan. 2000. (link)
  2. Asuman E. Ozdaglar, Dimitri P. Bertsekas, Routing and wavelength assignment in optical networks, IEEE/ACM Transactions on Networking (TON),Volume 11 , Issue 2 (April 2003) (link)
  3. Tomkos, D. Vogiatzis, C. Mas, I. Zacharopoulos, A. Tzanakaki, and E. Varvarigos, “Performance Engineering of Metropolitan Area Optical Networks through Impairment Constraint Routing”, IEEE Communications Magazine, pp. 40-47, Volume: 42, Issue: 8, Aug. 2004. (link)
  4. R. M. Krishnaswamy and K. N. Sivarajan: ”Design of Logical Topologies: A Linear Formulation for Wavelength Routed Optical Networks with no Wavelength Changers”, IEEE/ACM Transactions on Networking, vol. 9, no. 2, pp. 186-198, 2001. (link)
  5. Konstantinos Christodoulopoulos, Konstantinos Manousakis, Emmanouel Varvarigos, Marianna Angelou Considering physical layer impairments in offline RWA, IEEE Network, Volume 23 , Issue 3 (May/June 2009) Special issue on protocols and algorithms for future cross-layer and hybrid optical networks, Pages: 26-33 , 2009

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GRID SCHEDULING

  1. K. Krauter, R. Buyya, and M. Maheswaran, A Taxonomy and Survey of Grid Resource Management Systems, Software Practice and Experiance, Vol. 32, No. 2, Feb. 2002, pp. 135-164. (link)
  2. Olivier Beaumont, Arnaud Legrand, Yves Robert, "Scheduling divisible workloads on heterogeneous platforms", Parallel Computing, Volume 29, Issue 9 , September 2003, Pages 1121-1152. (link)
  3. P. Kokkinos, K Christodoulopoulos, E. Varvarigos, Efficient Data Consolidation in Grid Networks and Performance Analysis, Future Generation Computer Systems, 27 (2), pp. 182-194 (link)
  4. K. Christodoulopoulos, N. Doulamis, E. Varvarigos, Joint Communication and Computation Scheduling in Grids, 8th IEEE International Symposium on Cluster Computing and the Grid (CCGrid 2008), May 2008, Lyon, France (link)
  5. T. Stevens, M. De Leenheer, C. Develder, B. Dhoedt, K. Christodoulopoulos, P. Kokkinos, E. Varvarigos, Multi-Cost Job Routing and Scheduling in Optical Grid Networks, Future Generation Computer Systems, Elsevier, Vol. 25, issue 8, pp. 912-925 2009 special issue on networks for Gris applications, 2008 (link)
  6. Andrei, D. Tornatore, M. Ghosal, D. Martel, C.U. Mukherjee, B. On-Demand Provisioning of Data-Aggregation Sessions Over WDM Optical Networks, Journal of Lightwave Technology, June 2009 (link)
  7. Zhenyu Sun, Wei Guo, Zhengyu Wang, Yaohui Jin, Weiqiang Sun, Weisheng Hu and Chunming Qiao Scheduling Algorithm for Work?ow-Based Applications in Optical Grid. Journal of Lightwave Technology, vol 26 , September 2008 (link)
  8. Yan Wang, Yaohui Jin, Wei Guo, Weiqiang Sun, and Weisheng Hu, Joint scheduling for optical grid Applications, Journal of Optical Networking, Vol. 6, No. 3 , March 2007 (link)

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SWITCH ARCHITECTURES AND QUEUES

  1. Andrej Brodnik, Svante Carlsson, Mikael Degermark, and Stephen Pink Small Forwarding Tables for Fast Routing Lookups, ACM SIGCOMM 97. (link)
  2. Pankaj Gupta, Steven Lin, and Nick McKeown. Routing Lookups in Hardware at Memory Access Speeds. Proceedings of the IEEE Infocom 98, April 1998. (link)
  3. N. McKeown, Scheduling Algorithms for Input-Queued Cell Switches, Ph.D. Thesis, University of California at Berkeley, 1995. (link)
  4. Sundar Iyer, Nick McKeown , Making Parallel Packet Switches Practical, INFOCOM 2001. (link)
  5. Prabhakar and N. McKeown, On the Speedup Required for Combined Input and Output Queued Switching, Automatica, vol. 35, December 1999(link)

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PCE, ABNO AND MULTILAYER OPTICAL NETWORKS

  1. F. Paolucci et. al., "A Survey on the Path Computation Element (PCE) Architecture", IEEE Communications Surveys & Tutorials, 2013.
  2. R. Munoz, et. al. “PCE: What is It, How Does It Work and What are Its Limitations?”, Journal of Lightwave Technology, Volume 32, Issue 4, 2013
  3. R. Casellas, et. al. “SDN orchestration of OpenFlow and GMPLS flexi-grid networks with a stateful hierarchical PCE”, IEEE/OSA Journal of Optical Communications and Networking, Volume 7, Issue 1, 2015
  4. A. Aguado, et. al. “ABNO: a feasible SDN approach for multivendor IP and optical networks”, IEEE/OSA Journal of Optical Communications and Networking, Volume 7 , Issue 2, 2015
  5. M. Bahnasy, et. al. “OpenFlow and GMPLS unified control planes: Testbed implementation and comparative study”, IEEE/OSA Journal of Optical Communications and Networking, Volume 7 , Issue 4, 2015
  6. A. Martinez, et. al. “Network Management Challenges and Trends in Multi-Layer and Multi-Vendor Settings for Carrier-Grade Networks”, IEEE Communications Surveys & Tutorials, VOL. 16, NO. 4 2014
  7. O. Gerstel, et. al. “Multi-layer capacity planning for IP-optical networks”, IEEE Communications Magazine, Volume 52 , Issue 1, 2014

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SOFTWARE DEFINED NETWORKS (SDN)

  1. N. McKeown, et al. “OpenFlow: enabling innovation in campus networks”, ACM SIGCOMM Comput. Commun. Rev., 38 (2), April 2008
  2. B. Nunes, et. al. “A Survey of Software-Defined Networking: Past, Present, and Future of Programmable Networks”, IEEE Communications Surveys & Tutorials, Volume:16, Issue: 3, 2014
  3. D. Kruetz, et. al. “Software-Defined Networking: A Comprehensive Survey”, Proceedings of IEEE, 2015 (link)
  4. S. Gringeri, N. Bitar, T. J. Xia, “Extending software defined network principles to include optical transport”, IEEE Communications Magazine, Volume 51 , Issue 3, 2013. (link)
  5. A. Mercian, M. P. McGarry, M. Reisslein, W. Kellerer, “Software Defined Optical Access Networks (SDOANs): A Comprehensive Survey”, (link)