AbstractThe n-dimensional twisted cube, denoted by TQn, a variation of the hypercube, possesses some properties superior to the hypercube. In this paper, assuming that each vertex is incident with at least two fault-free links, we show that TQn can tolerate up to 2n−5 edge faults, while retaining a fault-free Hamiltonian cycle. The result is optimal with respect to the number of edge faults tolerated
AbstractIn this paper, we focus on a hypercube-like structure, the folded hypercube, which is basica...
AbstractTwisted hypercube-like networks (THLNs) are a large class of network topologies, which subsu...
AbstractThe conditional fault model imposes a constraint on the fault distribution. For example, the...
AbstractThe n-dimensional twisted cube, denoted by TQn, a variation of the hypercube, possesses some...
AbstractLet fe (respectively, fv) denote the number of faulty edges (respectively, vertices) of an n...
It has been known that an n-dimensional hypercube (n-cube for short) can always embed a Hamiltonian ...
The crossed cube is a prominent variant of the well known, highly regular-structured hypercube. In [...
[[abstract]]The crossed cube CQn is an important variant of the hypercube Qn and possesses many desi...
AbstractAn n-dimensional hypercube, or n-cube, denoted by Qn, is well known as bipartite and one of ...
[[abstract]]Hsieh and Yu (2007) first claimed that an injured n-dimensional hypercube Q n contains (...
The interconnection network considered in this paper is the k-ary n-cube that is an attractive varia...
The hypercube-like networks are a class of important generalization of the popular hypercube interco...
AbstractThe crossed cube CQn is an important variant of the hypercube Qn and possesses many desirabl...
AbstractThe n-dimensional hypercube network Qn is one of the most popular interconnection networks s...
Faults in a network may take various forms such as hardware/software errors, vertex/edge faults, etc...
AbstractIn this paper, we focus on a hypercube-like structure, the folded hypercube, which is basica...
AbstractTwisted hypercube-like networks (THLNs) are a large class of network topologies, which subsu...
AbstractThe conditional fault model imposes a constraint on the fault distribution. For example, the...
AbstractThe n-dimensional twisted cube, denoted by TQn, a variation of the hypercube, possesses some...
AbstractLet fe (respectively, fv) denote the number of faulty edges (respectively, vertices) of an n...
It has been known that an n-dimensional hypercube (n-cube for short) can always embed a Hamiltonian ...
The crossed cube is a prominent variant of the well known, highly regular-structured hypercube. In [...
[[abstract]]The crossed cube CQn is an important variant of the hypercube Qn and possesses many desi...
AbstractAn n-dimensional hypercube, or n-cube, denoted by Qn, is well known as bipartite and one of ...
[[abstract]]Hsieh and Yu (2007) first claimed that an injured n-dimensional hypercube Q n contains (...
The interconnection network considered in this paper is the k-ary n-cube that is an attractive varia...
The hypercube-like networks are a class of important generalization of the popular hypercube interco...
AbstractThe crossed cube CQn is an important variant of the hypercube Qn and possesses many desirabl...
AbstractThe n-dimensional hypercube network Qn is one of the most popular interconnection networks s...
Faults in a network may take various forms such as hardware/software errors, vertex/edge faults, etc...
AbstractIn this paper, we focus on a hypercube-like structure, the folded hypercube, which is basica...
AbstractTwisted hypercube-like networks (THLNs) are a large class of network topologies, which subsu...
AbstractThe conditional fault model imposes a constraint on the fault distribution. For example, the...