Tolerating Multiple Faults in Multistage Interconnection Networks with Minimal Extra Stages
IEEE Transactions on Computers
Interconnection Networks: An Engineering Approach
Interconnection Networks: An Engineering Approach
Principles and Practices of Interconnection Networks
Principles and Practices of Interconnection Networks
Designing A Disjoint Paths Interconnection Network with Fault Tolerance and Collision Solving
The Journal of Supercomputing
Comparative study of blocking mechanisms for packet switched Omega networks
EHAC'07 Proceedings of the 6th WSEAS International Conference on Electronics, Hardware, Wireless and Optical Communications
Journal of Discrete Algorithms
Performance and reliability analysis of new fault-tolerant advance omega network
WSEAS Transactions on Computers
The Journal of Supercomputing
Journal of Computer Systems, Networks, and Communications
Stochastic communication for application-specific Networks-on-Chip
The Journal of Supercomputing
The Journal of Supercomputing
A New Fault Tolerant Routing Algorithm for Advance Irregular Augmented Shuffle Exchange Network
UKSIM '12 Proceedings of the 2012 UKSim 14th International Conference on Modelling and Simulation
A New Fault Tolerant Routing Algorithm for IASEN-2
ICACC '12 Proceedings of the 2012 International Conference on Advances in Computing and Communications
A New Fault-Tolerant Routing Algorithm for IMABN-2
ICACC '12 Proceedings of the 2012 International Conference on Advances in Computing and Communications
Hi-index | 0.00 |
InterconnectionNetwork (IN) is a key element for all parallel processing applications. Multistage InterconnectionNetwork (MIN) is an efficient INfor these applications, as it has the quality of excellent performance at low cost with high reliability. MINs are effective medium for message broadcasting. Doing the same task in faulty situations is a critical challenge. In this paper, we have presented a new Fault Tolerant Interconnection Network named as Irregular Advance Omega Network (IAON); also we have presented its routing algorithm. IAON is the modified form of Advance Omega Network. The proposed MIN can endure multiple faults and provides a suitable path between every source to every destination. We have examined the fault tolerance capacity of IAON and compared its performance with other existing MINs. In order to check the performance of proposed MIN, message broadcasting was performed in three conditions as follows: (1) when network was fault free; (2) when network was Single Switch Faulty in every stage; (3) when network was Double Switch Faulty in every stage. Results showed that IAON performed better than the earlier proposed MINs.