HPRDG: A scalable framework hypercube-P2P-based for resource discovery in computational Grid

As Grids try to achieve optimal and balanced utilization of unused resources in a distributed system, efficient resource discovery mechanism is one of the fundamental requirement for Grid computing systems, as it aids in resource management and scheduling of applications. Resource discovery in Grid is a challenging issue because characteristics of its resources are heterogeneous, dynamic, various and autonomous. Supporting Range queries, preserving autonomous administrative and preserving locality in this environment is a hot topic in recent researches. This paper propose HPRDG a scalable and reliable framework that present essential characteristic for efficient range queries, performs explicit load balancing and preserving autonomous administrative and locality. Also this scheme is self-organized with capability of handling dynamic attributes such as CPU and memory load. Our proposal architecture eliminates centralized control by using a hybrid P2P structure with hypercube overlays. In addition, HPRDG takes the accounting and authorization concerns into the consideration.

[1]  Domenico Talia,et al.  Toward a Synergy Between P2P and Grids , 2003, IEEE Internet Comput..

[2]  Pedro A. Szekely,et al.  MAAN: A Multi-Attribute Addressable Network for Grid Information Services , 2003, Proceedings. First Latin American Web Congress.

[3]  R. V. van Nieuwpoort,et al.  The Grid 2: Blueprint for a New Computing Infrastructure , 2003 .

[4]  Nelson Da Fonseca,et al.  Peer-to-peer-based resource discovery in global grids: a tutorial , 2008, IEEE Communications Surveys & Tutorials.

[5]  Srinivasan Seshan,et al.  Mercury: supporting scalable multi-attribute range queries , 2004, SIGCOMM '04.

[6]  Sujata Banerjee,et al.  NodeWiz: peer-to-peer resource discovery for grids , 2005, CCGrid 2005. IEEE International Symposium on Cluster Computing and the Grid, 2005..

[7]  Hesham A. Ali,et al.  A framework for scalable autonomous P2P resource discovery for the grid implementation , 2012, Comput. Syst. Sci. Eng..

[8]  Mohammed Gharib,et al.  A Novel Method for Supporting Locality in Peer-to-Peer Overlays Using Hypercube Topology , 2010, 2010 International Conference on Intelligent Systems, Modelling and Simulation.

[9]  Domenico Talia,et al.  Peer-to-Peer resource discovery in Grids: Models and systems , 2007, Future Gener. Comput. Syst..

[10]  Timothy L. Harris,et al.  XenoSearch: distributed resource discovery in the XenoServer open platform , 2003, High Performance Distributed Computing, 2003. Proceedings. 12th IEEE International Symposium on.

[11]  Hector Garcia-Molina,et al.  Routing indices for peer-to-peer systems , 2002, Proceedings 22nd International Conference on Distributed Computing Systems.

[12]  Alaa E. Abdel-Hakim,et al.  A survey of resource discovery in computational grids , 2012 .

[13]  S. Arunkumar,et al.  Efficient broadcast using selective flooding , 1992, [Proceedings] IEEE INFOCOM '92: The Conference on Computer Communications.

[14]  Mark Handley,et al.  A scalable content-addressable network , 2001, SIGCOMM '01.

[15]  Amin Vahdat,et al.  Scalable Wide-Area Resource Discovery , 2004 .

[16]  Antony I. T. Rowstron,et al.  Pastry: Scalable, Decentralized Object Location, and Routing for Large-Scale Peer-to-Peer Systems , 2001, Middleware.

[17]  Edith Cohen,et al.  Search and replication in unstructured peer-to-peer networks , 2002, ICS '02.

[18]  Ben Y. Zhao,et al.  Tapestry: An Infrastructure for Fault-tolerant Wide-area Location and , 2001 .

[19]  Peter Druschel,et al.  Providing Administrative Control and Autonomy in Structured Peer-to-Peer Overlays , 2004, IPTPS.

[20]  Sandhya Dwarkadas,et al.  Peer-to-peer information retrieval using self-organizing semantic overlay networks , 2003, SIGCOMM '03.

[21]  Gade Krishna,et al.  A scalable peer-to-peer lookup protocol for Internet applications , 2012 .

[22]  Hector Garcia-Molina,et al.  Semantic Overlay Networks for P2P Systems , 2004, AP2PC.