Simulating binary trees on hypercubes
VLSI Algorithms and Architectures
Introduction to parallel algorithms and architectures: array, trees, hypercubes
Introduction to parallel algorithms and architectures: array, trees, hypercubes
Efficient embeddings of trees in hypercubes
SIAM Journal on Computing
A Routing and Broadcasting Scheme on Faulty Star Graphs
IEEE Transactions on Computers
Near Embeddings of Hypercubes into Cayley Graphs on the Symmetric Group
IEEE Transactions on Computers
Longest Fault-Free Paths in Star Graphs with Edge Faults
IEEE Transactions on Computers
Embedding Full Ternary Trees into Recursive Circulants
EurAsia-ICT '02 Proceedings of the First EurAsian Conference on Information and Communication Technology
A faster algorithm for solving linear algebraic equations on the star graph
Journal of Parallel and Distributed Computing
Hyper hamiltonian laceability on edge fault star graph
Information Sciences: an International Journal
Embedding longest fault-free paths onto star graphs with more vertex faults
Theoretical Computer Science
A study of fault tolerance in star graph
Information Processing Letters
Perfect load balancing on the star interconnection network
The Journal of Supercomputing
Robustness of star graph network under link failure
Information Sciences: an International Journal
Substar Reliability Analysis in Star Networks
Information Sciences: an International Journal
Improving bounds on link failure tolerance of the star graph
Information Sciences: an International Journal
A combinatorial study of substar reliability of the star network
International Journal of High Performance Systems Architecture
| Hi-index | 14.99 |
Binary tree structures have been very useful in solving divide-and-conquer type of problems. Embedding binary trees into another network驴the host network驴helps in designing solutions for the host network using the known solutions on binary trees. Embedding arbitrary binary trees into networks, in particular into the hypercube, has been addressed in the literature. The latter was achieved with load 1 and constant dilation.The n-star graph is a recently introduced interconnection network for massively parallel systems. It enjoys symmetry and fault tolerance properties that make it a viable alternative to the hypercube. In this paper, we address the problem of embedding arbitrary binary trees into the n-star graph. This work is the first to present such an embedding. The tree has $\lfloor e(n - 1)!\rfloor$ or fewer vertices. The embedding leads to load 1 and constant dilation for all values of n. It therefore enables the star graph to efficiently simulate an arbitrary binary tree with only a constant factor of communication delay.