Search Results - "replication algorithm"
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Authors: et al.
Source: مجلة بغداد للعلوم, Vol 18, Iss 4(Suppl.) (2021)
Subject Terms: Cloud computing, Crucial File Selection, Data Replication, Replication Algorithm, Science
File Description: electronic resource
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2
Authors: et al.
Source: Dianzi Jishu Yingyong, Vol 44, Iss 10, Pp 122-126 (2018)
Subject Terms: p2p network, deficit bandwidth, popularity, replication algorithm, replacement algorithm, Electronics, TK7800-8360
File Description: electronic resource
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Authors: et al.
Contributors: et al.
Source: Proceedings-IEEE International Conference on Mobile Data Management
2009 10th International Conference on Mobile Data Management: Systems, Services and Middleware, MDM 2009Subject Terms: Field deployment, Sensor networks, Core nodes, Geographic regions, Data replication, Parallel algorithms, Mobile environments, 02 engineering and technology, Energy reduction, 0202 electrical engineering, electronic engineering, information engineering, Euclidean planes, Wireless networks, Middleware, Data replication algorithm, Distributed algorithm, Spatio-temporal events, Communication range, Communication complexity, Fault tolerance, Quality assurance, Sensing devices, Energy consumption, Data availability, Mobile sensor networks, Mobile sensors, Electric load forecasting, I120
File Description: application/pdf
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4
Authors: et al.
Contributors: et al.
Source: IEEE/ACM Transactions on Networking. 21:233-243
Subject Terms: replication algorithm, replication, demand models, Engineering, Computer Science, Theory & Methods, Computer Science, Telecommunications, 0202 electrical engineering, electronic engineering, information engineering, Engineering, Electrical & Electronic, scheduling, 02 engineering and technology, peer-to-peer assisted video-on-demand (P2P VoD), Computer Science, Hardware & Architecture
Access URL: https://hdl.handle.net/11541.2/121930
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5
Authors: et al.
Contributors: et al.
Source: Signal Processing: Image Communication. 27:484-495
Subject Terms: video-on-demand, replication algorithm, Engineering, uplink bandwidth, 0202 electrical engineering, electronic engineering, information engineering, Engineering, Electrical & Electronic, peer-to-peer, 02 engineering and technology, cache replacement algorithm
Access URL: https://hdl.handle.net/11541.2/121921
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Authors: et al.
Source: Procedia - Social and Behavioral Sciences. 28:127-132
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7
Authors: et al.
Contributors: et al.
Source: Distributed and Parallel Databases
Distrib Parallel DatabasesSubject Terms: Field deployment, Energy utilization, Sensor networks, Core nodes, Geographic regions, In-network aggregation, I115, Network management, Mobile environments, 02 engineering and technology, Data management, Information management, Energy reduction, 0202 electrical engineering, electronic engineering, information engineering, Euclidean planes, Wireless networks, Minimum bounding rectangle, Data replication algorithm, Distributed algorithm, Communication range, Communication complexity, Fault tolerance, Quality assurance, Sensing devices, Energy consumption, Approximate retrieval, Data availability, Mobile sensor networks, Mobile sensors, I120, I240, Algorithms
File Description: application/pdf
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8
Authors: et al.
Subject Terms: Computer Network, Fault Tolerance, Knowledge Management, Recovery Systems, Replication Algorithm, Peer-to-Peer
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9
Authors:
Contributors:
Subject Terms: Key words, Content Distribution Network (CDN, Dominating set, EDSON, EFFRA, optimal fast replica, tornado codes, adjacent vertices, latency, replication algorithm, taxonomy, hit ratio percentage
File Description: application/pdf
Relation: http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.684.6580; http://thescipub.com/PDF/jcssp.2011.1284.1294.pdf
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在分散式系統中以位元運算為基礎之負載平衡演算法 ; A Bitwise Load-Balanced Algorithm for High-Performance Distributed Systems
Authors: et al.
Contributors: et al.
Subject Terms: 點對點, 分散式系統, 負載平衡, peer-to-peer, distributed system, load-balance, replication algorithm
Time: 2
File Description: 155 bytes; text/html
Relation: [1] AllPeers. http://www.allpeers.com/. [2] Gnutella. http://www.gnutella.com/. [3] KaZaA. http://www.kazaa.com/us/index.htm. [4] Napster. http://www.napster.com/. [5] SETI@Home. http://setiathome.ssl.berkeley.edu/. [6] Y. Chen, R. H. Katz, and J. D. Kubiatowicz. SCAN: A Dynamic, Scalable, and E±cient Content Distribution Network. In International Conference on Pervasive Computing (Pervasive 2002), pages 282-296, August 2002. [7] Jerry C.Y. Chou, Tai Yi Huang, and Kuang Li Huang. SCALLOP: A Scalable and Load-balanced Peer-to-Peer Lookup Protocol for High-performance Distributed Systems. In Proceedings of the 4th IEEE/ACM International Symposium on Cluster Computing and the Grid, April 2004. [8] I. Clarke, O. Sandberg, B. Wiley, and T. W. Hong. Freenet: A Distributed Anonymous Information Storage and Retrieval System. Lecture Notes in Computer Science, 2009:46+, 2001. [9] P. Druschel and A. Rowstron. PAST: A Large-scale, Persistent Peer-to-Peer Storage Utility. The 8th Workshop on Hot Topics in Operating Systems, May 2001. [10] A. Fiat and J. Saia. Censorship Resistant Peer-to-Peer Content Addressable Networks. In Proceedings of Symposium on Discrete Algorithms, 2002. [11] C. Gkantsidis, M. Mihail, and A. Saberi. Random Walks in Peer-to-Peer Networks. In Infocom, March 2004. [12] J. Kangasharju, J. Roberts, and K. W. Ross. Object Replication Strategies in Content Distribution Networks. In Proceedings of the 6th International Web Caching Workshop and Content Delivery Workshop, pages 376-383, June 2001. [13] J. Kubiatowicz, D. Bindel, Y. Chen, P. Eaton, D. Geels, R. Gummadi, S. Rhea, H. Weatherspoon, W. Weimer, C. Wells, and B. Zhao. OceanStore: An Architecture for Global-scale Persistent Storage. In Proceedings of ACM Architectural Support for Programming Languages and Operating Systems, pages 190-201, November 2000. [14] A. Kumar, S. Merugu, J. Xu, and X. Yu. Ulysses: A Robust, Low-Dimeter, Low-Latency Peer-to-Peer Network. In Proceedings of the 11th IEEE International Conference on Network Protocols, pages 258-267, November 2003. [15] G. Kwon and K. D. Ryu. An E±cient Peer{to{Peer File Sharing Exploiting Hierarchy and Asymmetry. In Proceedings of the 2003 Symposium on Applications and the Internet, pages 226-233, January 2003. [16] J. Li, J. Jannotti, D. De Couto, D. Karger, and R. Morris. A Scalable Location Service for Geographic Ad-hoc Routing. In Proceedings of the 6th ACM International Conference on Mobile Computing and Networking, pages 120u-130, August 2000. [17] D. Loguinov, A. Kumar, V. Rai, and S. Ganesh. Graph-theoretic Analysis of Structured Peer-to-Peer Systems: Routing Distances and Fault Resilience. In Proceedings of ACM SIGCOMM, August 2003. [18] Q. Lv, P. Cao, E. Cohen, K. Li, and S. Shenker. Search and Replication in Unstructured Peer-to-Peer Networks. In Proceedings of the 16th International Conference on Supercomputing, pages 84-95, June 2002. [19] D. Malkhi, M. Naor, and D. Ratajczak. Viceroy: A Scalable and Dynamic Emulation of the Butterfly. In Proceedings of the 21nd Annual ACM Symposium on Principles of Distributed Computing, pages 183-192, July 2002. [20] W. S. Ng, B. C. Ooi, K. L. Tan, and A. Zhou. PeerDB { a Peer-to-Peer Based System for Distributed Data Sharing. In Proceedings of the 19th International Conference on Data Engineering, pages 633-644, May 2003. [21] G. On, J. Schmitt, and R. Steinmetz. The E®ectiveness of Realistic Replication Strategies on Quality of Availability for Peer-to-Peer Systems. In Proceedings of the Third International Conference on Peer-to-Peer Computing, pages 57-65, September 2003. [22] C. Greg Plaxton, R. Rajaraman, and A. W. Richa. Accessing Nearby Copies of Replicated Objects in a Distributed Environment. In ACM Symposium on Parallel Algorithms and Architectures, pages 311-320, June 1997. [23] K. Ranganathan, A. Iamnitchi, and I. Foster. Improving Data Availability through Dynamic Model-Driven Replication in Large Peer-to-Peer Communities. In Proceedings of the 2nd IEEE/ACM International Symposium on Cluster Computing and the Grid, pages 376-381, May 2002. [24] S. Ratnasamy, P. Francis, M. Handley, R. Karp, and S. Shenker. A Scalable Content Addressable Network. In Proceedings of ACM SIGCOMM, pages 161-172, August 2001. [25] A. Rowstron and P. Druschel. Pastry: Scalable, Decentralized Object Location and Routing for Large-scale Peer-to-Peer Systems. Lecture Notes in Computer Science, pages 329-340, 2001. [26] A. Rowstron and P. Druschel. Storage management and Caching in PAST, a Large-scale, Persistent Peer-to-Peer Storage Utility. In Proceedings of the 18th ACM Symposium on Operating Systems Principles, pages 188{201, October 2001. [27] I. Stoica, R. Morris, D. Karger, F. Kaashoek, and H. Balakrishnan. Chord: A Scalable Peer-to-Peer Lookup Service for Internet Applications. In Proceedings of ACM SIGCOMM, pages 149-160, August 2001. [28] M Theimer and M.B Jones. Overlook: Scalable Name Service on an Overlay Network. In Proceedings of the 22nd International Conference on Distributed Computing Systems, pages 52-61, July 2002. [29] T. Wauters, J. Coppens, T. Lambrecht, B. Dhoedt, and P. Demeester. Distributed Replica Placement Algorithms for Peer-to-Peer Content Distribution Networks. In Proceedings of the 29th EUROMICRO Conference "New Waves in System Architecture", pages 181-188, September 2003. [30] Z. Xu and Y. Hu. SBARC: A Supernode Based Peer-to-Peer File Sharing System. In Proceedings of the Eighth IEEE International Symposium on Computers and Communication, pages 1053-1058, June 2003. [31] B. Y. Zhao, L. Huang, J. Stribling, S. C. Rhea, A. D. Joseph, and J. D. Kubiatowicz. Tapestry: A Global-scale Overlay for Rapid Service Deployment. In IEEE Journal on Selected Areas in Communications, pages 41-53, January 2004. [32] S. Q. Zhuang, B. Y. Zhao, A. D. Joseph, R. H. Katz, and J. D. Kubiatowicz. Bayeux: An Architecture for Scalable and Fault-tolerant Wide-area Data Dissemination. In Proceedings of NOSSDAV, pages 11-20, June 2001.; http://nthur.lib.nthu.edu.tw/dspace/handle/987654321/33050
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