Rectangular mesh and torus are the mostly used topologies in
network-on-chip (NoC) based systems. In this paper، we
quantitatively illustrate that the honeycomb topology is an
advantageous design alternative in terms of network cost which is
one of the most important parameters that reflects both network
performance and implementation cost.
The most important characteristic of Massively Parallel Computing systems is the topology of the network that means how
to connect the processors with each other so that provides fast data transfer and low cost.
In this research, we will find new l
ink networks that provide speed
in the transport and low cost compared with other traditional
networks for connecting processors.
Interconnection networks are divided to be static networks so that
fixed links between processors, while dynamic networks so that
every communication between two processors owns more than one path.
Each network differs from the other in cost which express the
number of links within this network, and speed which express the
network diameter and bisection. The network is best whenever the
cost is less and diameter is less but bisection is larger.
In this research I compared between these networks and then look
for new networks through hybridization between core networks.
After that I studied the specification of hybrid interconnections
compared with its constituent core networks.