Abstract
It is known widely that an interconnection network can be denoted by a graph G = ( V , E ) , where V denotes the vertex set and E denotes the edge set. Investigating structures of G is necessary to design a suitable topological structure of interconnection network. One of the critical issues in evaluating an interconnection network is graph embedding, which concerns whether a host graph contains a guest graph as its subgraph. Linear arrays (i.e., paths) and rings (i.e., cycles) are two ordinary guest graphs (or basic networks) for parallel and distributed computation. In the process of large-scale interconnection network operation, it is inevitable that various errors may occur at nodes and edges. It is significant to find an embedding of a guest graph into a host graph where all faulty nodes and edges have been removed. This is named as fault-tolerant embedding. The twisted hypercube-like networks ( T H L N s ) contain several important hypercube variants. This paper is concerned with the fault-tolerant path-embedding of n-dimensional (n-D) T H L N s . Let G n be an n-D T H L N and F be a subset of V ( G n ) ∪ E ( G n ) with | F | ≤ n - 2 . We show that for two different arbitrary correct vertices u and v, there is a faultless path P u v of every length l with 2 n - 1 - 1 ≤ l ≤ 2 n - f v - 1 - α , where α = 0 if vertices u and v form a normal vertex-pair and α = 1 if vertices u and v form a weak vertex-pair in G n - F ( n ≥ 5 ).
Highlights
As the infrastructure of cloud computing and the innovation platform of generation network technology, the research of data center networks has become a hot topic in the academic and industrial circles in recent years
This paper improved the previous result of Hamiltonian connectivity in twisted hypercube-like networks (THLNs) with n − 2 fault elements and extended the path-embedding in an n-D THLN
The lower bound of the path length cannot be uniformly improved in THLNs
Summary
As the infrastructure of cloud computing and the innovation platform of generation network technology, the research of data center networks has become a hot topic in the academic and industrial circles in recent years. Afterward we improved the fault-tolerant Hamiltonian path embedding with n − 2 fault elements, excluding only the weak vertex-pair in twisted hypercube-like networks (THLNs). We studied the path-embedding in a THLN with n − 2 faulty elements and showed that if F ⊂ V ( Gn ) ∪ E( Gn ) and | F | ≤ n − 2, for arbitrary two different correct vertices u and v, there is a fault-free path Puv of every length l with 2n−1 − 1 ≤ l ≤ 2n − f v − 1 − α, where α = 0 if vertices u and v form a normal vertex-pair and α = 1 if vertices u and v form a weak vertex-pair in.
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