Title :
TreeP: A Tree Based P2P Network Architecture
Author :
Hudzia, Benoit ; Kechadi, M-Tahar ; Ottewill, Adrian
Author_Institution :
Dept. of Comput. Sci., Univ. Coll., Dublin
Abstract :
In this paper we proposed a hierarchical P2P network based on a dynamic partitioning on a 1-D space. This hierarchy is created and maintained dynamically and provides a grid middleware (like DGET) a P2P basic functionality for resource discovery and load-balancing. This network architecture is called TreeP (Tree based P2P network architecture) and is based on a tessellation of a 1-D space. We show that this topology exploits in an efficient way the heterogeneity feature of the network while limiting the overhead introduced by the overlay maintenance. Experimental results show that this topology is highly resilient to a large number of network failures
Keywords :
grid computing; middleware; peer-to-peer computing; resource allocation; tree data structures; B-tree; P2P network architecture; TreeP; distributed system; dynamic partitioning; grid middleware; heterogeneous systems; hierarchy topology; load balancing; overlay maintenance; resource discovery; routing strategy; tessellation; Computer architecture; Computer science; Delay; Distributed computing; Educational institutions; Middleware; Network topology; Peer to peer computing; Routing; Space technology; B-tree; Distributed System; Grid; Heterogeneous Systems; Hierarchy topologies; Lookup; P2P; Routing strategies;
Conference_Titel :
Cluster Computing, 2005. IEEE International
Conference_Location :
Burlington, MA
Print_ISBN :
0-7803-9486-0
Electronic_ISBN :
1552-5244
DOI :
10.1109/CLUSTR.2005.347022
