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Social cloud computing

May 08, 2024

Social cloud computing, also peer-to-peer social cloud computing, is an area of computer science that generalizes cloud computing to include the sharing, bartering and renting of computing resources across peers whose owners and operators are verified through a social network or reputation system.[1][2] It expands cloud computing past the confines of formal commercial data centers operated by cloud providers to include anyone interested in participating within the cloud services sharing economy. This in turn leads to more options, greater economies of scale, while bearing additional advantages for hosting data and computing services closer to the edge where they may be needed most.[3][4]

Research edit

Peer-to-peer (P2P) computing and networking to enable decentralized cloud computing has been an area of research for sometime.[5] Social cloud computing intersects peer-to-peer cloud computing with social computing to verify peer and peer owner reputation thus providing security and quality of service assurances to users. On demand computing environments may be constructed and altered statically or dynamically across peers on the Internet based on their available resources and verified reputation to provide such assurances.

Applications edit

Social cloud computing has been highlighted as a potential benefit to large-scale computing, video gaming, and media streaming.[6] The tenets of social cloud computing has been most famously employed in the Berkeley Open Infrastructure for Network Computing (BOINC), making the service the largest computing grid in the world.[7] Another service that uses social cloud computing is Subutai. Subutai allows peer-to-peer sharing of computing resources globally or within a select permissioned network.[8]

Challenges edit

Many challenges arise when moving from a traditional cloud infrastructure, to a social cloud environment.[9]

Availability of computational resources edit

In the case of traditional cloud computing, availability on demand is essential for many cloud customers. Social Cloud Computing doesn't provide this availability guarantee because in a P2P environment, peers are mobile devices which may enter or leave the P2P network at any time, or PCs which have a primary purpose that can override the P2P computation at any time. The only relatively successful use cases as of recent years are those which do not require real time results, only computation power for a small subset or module of a larger algorithm or data set.

Trust and security edit

Unlike large scale data centers and company brand image, people may be less likely to trust peers vs. a large company like Google or Amazon. Running some sort of computation with sensitive information would then need to be encrypted properly and the overhead of that encryption may reduce the usefulness of the P2P offloading. When resources are distributed in small pieces to many peers for computations, inherent trust must be placed in the client, regardless of the encryption that may be promised to the client.

Reliability edit

Similar to availability, reliability of computations must be consistent and uniform. If computations offloaded to the client are continuously interrupted, some mechanism for detecting this must be in place such that the client may know the computation is tainted or needs to be completely re-run. In P2P social computing, reliable expected computation power is difficult to achieve because the speed of the client calculation may depend on how much the client is using the end device. Some ways of overcoming this may be to only allow computations to occur at night, or during specified times the client resources will not be in use.

See also edit

References edit

  1. ^ Gupta, Minaxi; Judge, Paul; Ammar, Mostafa (1 January 2003). "A reputation system for peer-to-peer networks". Proceedings of the 13th international workshop on Network and operating systems support for digital audio and video. ACM. pp. 144–152. CiteSeerX 10.1.1.13.5964. doi:10.1145/776322.776346. ISBN 978-1581136944. S2CID 5549841.
  2. ^ Chard, K.; Caton, S.; Rana, O.; Bubendorfer, K. (1 July 2010). "Social Cloud: Cloud Computing in Social Networks". 2010 IEEE 3rd International Conference on Cloud Computing. pp. 99–106. CiteSeerX 10.1.1.225.9508. doi:10.1109/CLOUD.2010.28. ISBN 978-1-4244-8207-8. S2CID 8431622.
  3. ^ Babaoglu, Ozalp (September 22, 2014). "Escape From the Data Center: The Promise of Peer-to-Peer Cloud Computing". IEEE Spectrum.
  4. ^ Anderson, David P.; Fedak, Gilles (1 January 2006). "The Computational and Storage Potential of Volunteer Computing". Sixth IEEE International Symposium on Cluster Computing and the Grid (CCGRID'06). IEEE Computer Society. pp. 73–80. arXiv:cs/0602061. CiteSeerX 10.1.1.115.8349. doi:10.1109/CCGRID.2006.101. ISBN 978-0-7695-2585-3. S2CID 2564.
  5. ^ Veiga, Luis; Rodrigues, Rodrigo; Ferreira, Paulo (1 January 2007). "GiGi: An Ocean of Gridlets on a "Grid-for-the-Masses"". Seventh IEEE International Symposium on Cluster Computing and the Grid (CCGrid '07). IEEE Computer Society. pp. 783–788. doi:10.1109/CCGRID.2007.54. ISBN 978-0-7695-2833-5. S2CID 6677458.
  6. ^ Babaoglu, Ozalp; Marzolla, Moreno; Tamburini, Michelle (March 2012). "Design and implementation of a P2P Cloud system". Proceedings of the 27th Annual ACM Symposium on Applied Computing (PDF). ACM. pp. 412–417. CiteSeerX 10.1.1.307.6956. doi:10.1145/2245276.2245357. ISBN 9781450308571. S2CID 3041583.
  7. ^ "Largest computing grid". Guinness World Records. Retrieved 28 March 2017.
  8. ^ "What is Subutai?". Subutai. Retrieved 28 March 2017.
  9. ^ "Peer-to-Peer Cloud Computing" (PDF). Retrieved 28 March 2017.

May 08, 2024
social, cloud, computing, also, peer, peer, social, cloud, computing, area, computer, science, that, generalizes, cloud, computing, include, sharing, bartering, renting, computing, resources, across, peers, whose, owners, operators, verified, through, social, . Social cloud computing also peer to peer social cloud computing is an area of computer science that generalizes cloud computing to include the sharing bartering and renting of computing resources across peers whose owners and operators are verified through a social network or reputation system 1 2 It expands cloud computing past the confines of formal commercial data centers operated by cloud providers to include anyone interested in participating within the cloud services sharing economy This in turn leads to more options greater economies of scale while bearing additional advantages for hosting data and computing services closer to the edge where they may be needed most 3 4 Contents 1 Research 2 Applications 3 Challenges 3 1 Availability of computational resources 3 2 Trust and security 3 3 Reliability 4 See also 5 ReferencesResearch editPeer to peer P2P computing and networking to enable decentralized cloud computing has been an area of research for sometime 5 Social cloud computing intersects peer to peer cloud computing with social computing to verify peer and peer owner reputation thus providing security and quality of service assurances to users On demand computing environments may be constructed and altered statically or dynamically across peers on the Internet based on their available resources and verified reputation to provide such assurances Applications editSocial cloud computing has been highlighted as a potential benefit to large scale computing video gaming and media streaming 6 The tenets of social cloud computing has been most famously employed in the Berkeley Open Infrastructure for Network Computing BOINC making the service the largest computing grid in the world 7 Another service that uses social cloud computing is Subutai Subutai allows peer to peer sharing of computing resources globally or within a select permissioned network 8 Challenges editMany challenges arise when moving from a traditional cloud infrastructure to a social cloud environment 9 Availability of computational resources edit In the case of traditional cloud computing availability on demand is essential for many cloud customers Social Cloud Computing doesn t provide this availability guarantee because in a P2P environment peers are mobile devices which may enter or leave the P2P network at any time or PCs which have a primary purpose that can override the P2P computation at any time The only relatively successful use cases as of recent years are those which do not require real time results only computation power for a small subset or module of a larger algorithm or data set Trust and security edit Unlike large scale data centers and company brand image people may be less likely to trust peers vs a large company like Google or Amazon Running some sort of computation with sensitive information would then need to be encrypted properly and the overhead of that encryption may reduce the usefulness of the P2P offloading When resources are distributed in small pieces to many peers for computations inherent trust must be placed in the client regardless of the encryption that may be promised to the client Reliability edit Similar to availability reliability of computations must be consistent and uniform If computations offloaded to the client are continuously interrupted some mechanism for detecting this must be in place such that the client may know the computation is tainted or needs to be completely re run In P2P social computing reliable expected computation power is difficult to achieve because the speed of the client calculation may depend on how much the client is using the end device Some ways of overcoming this may be to only allow computations to occur at night or during specified times the client resources will not be in use See also editBerkeley Open Infrastructure for Network Computing Subutai P2P Edge Cloud PlatformReferences edit Gupta Minaxi Judge Paul Ammar Mostafa 1 January 2003 A reputation system for peer to peer networks Proceedings of the 13th international workshop on Network and operating systems support for digital audio and video ACM pp 144 152 CiteSeerX 10 1 1 13 5964 doi 10 1145 776322 776346 ISBN 978 1581136944 S2CID 5549841 Chard K Caton S Rana O Bubendorfer K 1 July 2010 Social Cloud Cloud Computing in Social Networks 2010 IEEE 3rd International Conference on Cloud Computing pp 99 106 CiteSeerX 10 1 1 225 9508 doi 10 1109 CLOUD 2010 28 ISBN 978 1 4244 8207 8 S2CID 8431622 Babaoglu Ozalp September 22 2014 Escape From the Data Center The Promise of Peer to Peer Cloud Computing IEEE Spectrum Anderson David P Fedak Gilles 1 January 2006 The Computational and Storage Potential of Volunteer Computing Sixth IEEE International Symposium on Cluster Computing and the Grid CCGRID 06 IEEE Computer Society pp 73 80 arXiv cs 0602061 CiteSeerX 10 1 1 115 8349 doi 10 1109 CCGRID 2006 101 ISBN 978 0 7695 2585 3 S2CID 2564 Veiga Luis Rodrigues Rodrigo Ferreira Paulo 1 January 2007 GiGi An Ocean of Gridlets on a Grid for the Masses Seventh IEEE International Symposium on Cluster Computing and the Grid CCGrid 07 IEEE Computer Society pp 783 788 doi 10 1109 CCGRID 2007 54 ISBN 978 0 7695 2833 5 S2CID 6677458 Babaoglu Ozalp Marzolla Moreno Tamburini Michelle March 2012 Design and implementation of a P2P Cloud system Proceedings of the 27th Annual ACM Symposium on Applied Computing PDF ACM pp 412 417 CiteSeerX 10 1 1 307 6956 doi 10 1145 2245276 2245357 ISBN 9781450308571 S2CID 3041583 Largest computing grid Guinness World Records Retrieved 28 March 2017 What is Subutai Subutai Retrieved 28 March 2017 Peer to Peer Cloud Computing PDF Retrieved 28 March 2017 Retrieved from https en wikipedia org w index php title Social cloud computing amp oldid 1169423514, wikipedia, wiki, book, books, library,

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