ISCA '86 Proceedings of the 13th annual international symposium on Computer architecture
The PM221 Interconnection Network
IEEE Transactions on Computers
Destination Tag Routing Techniques Based on a State Model for the IADM Network
IEEE Transactions on Computers
Using a Multipath Network for Reducing the Effects of Hot Spots
IEEE Transactions on Parallel and Distributed Systems
CGIN: A Modified Gamman Interconnection Network with Multiple Disjoint Paths
Proceedings of the 1994 International Conference on Parallel and Distributed Systems
Tolerating Multiple Faults in Multistage Interconnection Networks with Minimal Extra Stages
IEEE Transactions on Computers
3-disjoint gamma interconnection networks
Journal of Systems and Software
Designing A Disjoint Paths Interconnection Network with Fault Tolerance and Collision Solving
The Journal of Supercomputing
The Journal of Supercomputing
ISPA'05 Proceedings of the Third international conference on Parallel and Distributed Processing and Applications
ISPA'04 Proceedings of the Second international conference on Parallel and Distributed Processing and Applications
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To improve the terminal reliability of the Gamma interconnection network (GIN), we consider altering its connecting patterns between stages to attain multiple disjoint paths between any source and destination pair. The new modified GIN, referred to as a CGIN with connecting patterns between stages exhibiting a cyclic feature, is able to tolerate any arbitrary single fault and to lift up terminal reliability accordingly. If several rows of switching elements are fabricated in one chip using the VLSI technology, a CGIN could lead to reduced cost because the pin count per chip decreases and the layout area taken by connections shrinks. To make routing and rerouting in the CGIN more efficient and simpler to implement, destination tag routing and rerouting is also provided.