Total views : 200
Virtual Network Level of Application Composed IP Networks Connected with Systems - (NETS Peer-to- Peer)
Objectives: The objective is to analyze the foundation the Virtual Network Level of Application Composed IP Networks Connected with Systems. Methods/Statistical Analysis: In this research using the methodological foundation logical analysis attempts to give an overview of the state of the art in terms P2P and especially networks in the field of computer systems distributed along with several contributions that allow build systems High Throughput Computing. Findings: The network is virtual is application level made up connected to IP networks, in a nutshell systems P2P systems are distributed systems in which there are no any central control or hierarchical structure and can therefore go beyond the services offered by traditional centralized type systems Client Server at the cost of greater technical and theoretical complexity. In P2P systems, nodes that make up the system are connected together using IP networks forming a kind of virtual network application layer, also called “Overlay”, which is used to route messages between nodes in order to find information. Application/Improvements: The recent emergence of applications that exploit the network concept Peer to-Peer or P2P in which all members have the same role has made consider its possible applications to the world of distributed computing. Although there are already similar in this field, such as those that follow the paradigm of grid computing, this new concept may be the source systems massive computer wide open to anyone with an Internet connection could use for the benefit or for solutions others, sharing their surpluses recourses.
Massive Computing Systems, Sis Issues Connected to IP Networks, Technical Complexity, Virtual Application Level.
- Arzola R, La Cruz J. The use of new technologies in Organizations. Editorial Vanguardia. Buenos Aires, Argentina; 2013.
- Ty Baldwin Childs U. Universal neonatal hearing screening moving from evidence to practice. USA. New York; 2009.
- Bierly N, Scott H, Tuner H, Lanz J. The historical context of the evolution of information technologies. Editorial Review. Madrid Spain; 2000.
- CERA L. Vanguardia and use of technology in the world.Editorial Vid. Barcelona, Spain; 2010.
- Faloutsos M, Faloutsos P, Faloutsos C. On power-law.Relationships of the Internet Topology. SIGCOMM; 2009.
- Adar E, Huberman B. Free riding on Gnutella. First. Monday.2000 Oct; 5(10). Gnutella Protocol Specification v4.0.Available from: http://dss.clip2.com/GnutellaProtocol04.pdf
- DSS Group. Gnutella: To the bandwidth barrier and beyond. Available from: http://dss.clip2.com
- Hong T. Performance, in Peer-to-Peer: Harnessing the Power of Disruptive Technologies. A. Oram, editor. O’Reilly and Associates: Sebastopol, CA; 2001.
- Adamic L, Lukose R, Puniyani A, Huberman B. Search in Power-Law Networks; 2015.
- Ripeanu. Peer-to-peer architecture case study: Gnutella network. University of Chicago Technical Report TR-2026; 2016.
- Barabasi, Albert R. Emergence of scaling in random networks.Science. 2009; 286(509).
- Albert R, Jeong H, Barabási A. Attak and tolerance in complex networks. Nature. 2000; 406(378).
- Callan JP, Lu Z, Croft WB. Searching distributed collections with inference networks. In Proceedings of the 8th Annual International ACM SIGIR Conference on Research and Development in Information Retrieval; 1995. p. 21–8.
- Callan J, Powell AL, French JC, Connell M. The effects of query-based sampling on automatic database selection algorithms. 24th Annual International ACM SIGIR Conference on Research and Development in Information Retrieval.
- Carlin BP, Louis TA. Bayes and empirical bayes methods for data analysis. CRC Press; 2000.
- Cha E. E-power to the people. The Washington Post; 2000 May 18. p. A01.
- Clarke. Freenet - Front page. Available from: http://freenet.sourceforge.net/
- Clarke O, Sandberg B, Wiley, Hong TW. Freenet: A distributed anonymous information storage and retrieval system. ICSI Workshop on Design Issues in Anonymity and Unobservability. Berkeley, California; 2000 Jul 25-26.
- Viloria A. Validation of a model for productivity evaluation for microfinance institutions. Advanced Science Letters.2015; 21:1610–4. ISSN: 1936-6612 (Print): EISSN: 19367317 (Online).
- There are currently no refbacks.
This work is licensed under a Creative Commons Attribution 3.0 License.