A New Cost Effective and Reliable Interconnection Topology for Parallel Computing Systems

Abstract: Topology of the of interconnection network is one of the most important considerations in the design of parallel systems as it is the backbone network over which the different components of the computer communicate with each other. The properties of the topology such as connectivity, reliability, cost, fault tolerance, diameter and bisection width determine the flawless-less data transmission between the source and the sink nodes. In this paper, we propose a new hybrid interconnection network topology called T… Show more

“…Figure 20 exposes a three-dimensional BCDC topology where switches are shown as squares and hosts are circles and with all switches having three ports and all servers having two. The eighth design is P-Cube, also labeled as parallel cubes; it is a duplicate structure with a highly scalable and efficient network structure that outperforms Fat Tree, BCube and DCell in terms of network throughput and latency [50]. Figure 21 shows a P-Cube network topology where n = 4 and switches are represented by squares and servers are shown as circles.…”

Arithmetic Study about Efficiency in Network Topologies for Data Centers

“…Figure 20 exposes a three-dimensional BCDC topology where switches are shown as squares and hosts are circles and with all switches having three ports and all servers having two. The eighth design is P-Cube, also labeled as parallel cubes; it is a duplicate structure with a highly scalable and efficient network structure that outperforms Fat Tree, BCube and DCell in terms of network throughput and latency [50]. Figure 21 shows a P-Cube network topology where n = 4 and switches are represented by squares and servers are shown as circles.…”

Arithmetic Study about Efficiency in Network Topologies for Data Centers