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1.
最近Star网络和Pancake网络作为超立方体(并行计算机中多处理机互连的一种著名拓扑结构)的替代品而被许多作者研究.这两种网络的一个好的特点是:与超立方体相比较,它们有较小的直径和顶点度.尤其Star网络,更是受到研究人员的极大关注.在本文中:(a)我们提出了一种在这两种网络中找Hamilton圈的新方法.(b)证明了关于Star网络S_n的一个猜想在n=5时是正确的,即给出了S_5的两个边不交的Hamilton圈,且S_5是这两个Hamilton圈的并.  相似文献   

2.
r-分支连通度(边连通度)是衡量大型互连网络可靠性和容错性的一个重要参数.设G是连通图且r是非负整数,如果G中存在某种点子集(边子集)使得G删除这种点子集(边子集)后得到的图至少有r个连通分支.则所有这种点子集(边子集)中基数最小的点子集(边子集)的基数称为图G的r-分支连通度(边连通度).n-维折叠交叉立方体FCQn是由交叉立方体CQn增加2n-1条边后所得.该文利用r-分支边连通度作为可靠性的重要度量,对折叠交叉立方体网络的可靠性进行分析,得到了折叠交叉立方体网络的2-分支边连通度,3-分支边连通度,4分支边连通度.确定了折叠交叉立方体FCQn的r-分支边连通度.  相似文献   

3.
图的连通度、超连通性和限制连通度是度量互连网络容错性的重要参数 .该文考虑n维M bius立方体网络MQn,证明了它的点和边连通度都为n ,当n是任何正整数时它是超连通的 ,当n≠ 2时它是超边连通的 ,当n≥ 3时它的限制点连通度和当n≥ 2时的限制边连通度都为 2n- 2 .  相似文献   

4.
折叠立方体网络的最小反馈点集   总被引:1,自引:0,他引:1  
对简单图G=(V,E),顶点子集F V,如果由V\F导出的子图不含圈,则称F是G的反馈点集。点数最小的反馈点集称图的最小反馈点集,最小的点数称为反馈数。一个k维折叠立方体是由一个k维超立方体加上所有的互补边构成的图。本文证明了k维折叠立方体网络的反馈数f(k)=c.2k-1(k 2),其中c∈k-1  相似文献   

5.
本文研究了含故障点的n-维加强超立方体Q_(n,k)中的路和圈嵌入的问题.充分分析了加强超立方体网络的潜在特性,利用了构造的方法.得到了含2n-4个故障点的加强超立方体Q_(n,k)中含长为2~n-2f的容错圈的结论,推广了折叠超立方体网络中1-点容错圈嵌入的结果.其中折叠超立方体网络为加强超立方体网络的一种特殊情况.  相似文献   

6.
超立方体网络是目前在超级计算机处理器结构中应用得最广泛的拓扑结构,M(o)bius立方体是超立方体的一种变形,已经被证明它在某些方面具有优于超立方体的拓扑性质.本文指出了n维M(o)bius立方体递归结构的一些重要拓扑性质.  相似文献   

7.
超立方体网络是目前在超级计算机处理器结构中应用得最广泛的拓扑结构,M(o)bius立方体是超立方体的一种变形,已经被证明它在某些方面具有优于超立方体的拓扑性质.本文指出了n维M(o)bius立方体递归结构的一些重要拓扑性质.  相似文献   

8.
完全对换网络是基于 Cayley 图模型的一类重要互连网络. 一个图 G 的 k-限制点(边)连通度是使得 G-F 不连通且每个分支至少有 k 个顶点的最小点(边)子集 F 的基数, 记作 \kappa_{k}(\lambda_{k}). 它是衡量网络可靠性的重要参数之一, 也是图的容错性的一种精化了的度量. 一般地, 网络的 k-限制点(边)连通度越大, 它的连通性就越好. 证明了完全对换网络 CT_{n} 的 2-限制点(边)连通度和 3-限制点(边)连通度, 具体来说: 当 n\geq4 时, \kappa_{2}(CT_{n})=n(n-1)-2, \kappa_{3}(CT_{n})=\frac{3n(n-1)}{2}-6; 当 n\geq3 时, \lambda_{2}(CT_{n})=n(n-1)-2, \lambda_{3}(CT_{n})=\frac{3n(n-1)}{2}-4.  相似文献   

9.
对于简单图G=(V,E),顶点子集F■V,如果由V\F导出的子图G′= (V\F,E′)是不含圈的,则称F是图G的一个反馈点集.点数最少的反馈点集称图的最小反馈点集,最小的点数称为反馈数.文章给出了交叉立方体网络的一个等价定义,用递归的方法构造出交叉立方体网络的诱导树,证明了诱导树的阶数Fibonacci数,进而得到叉立方体网络反馈数的上下界.  相似文献   

10.
几族3-优图     
一个图 G中含有的三个结点的导出连通子图的个数 S3( G)在网络可靠性中起着重要作用 .在同点数同边数图类中具有最大 S3( G)的图称为 3-优图 ,它所代表的网络是点故障概率接近 1时的最可靠网络 .本文在已有的结果上进一步证明补图为 a K3∪ b K2 ∪ K1和 a K3-x的图分别是各自图类中唯一的 3-优图 ;补图为 a K3∪ ( b-1 ) K2 ∪ 2 K1和 ( a-1 ) K3∪ b K2 ∪ P3的图是该图类中仅有的两个 3-优图 .  相似文献   

11.
The double loop network (DLN) is a circulant digraph with n nodes and outdegree 2. DLN has been widely used in the designing of local area networks and distributed systems. In this paper, a new method for constructing infinite families of k-tight optimal DLN is presented. For k = 0,1,…,40, the infinite families of k-tight optimal DLN can be constructed by the new method, where the number nk(t,a) of their nodes is a polynomial of degree 2 in t and contains a parameter a. And a conjecture is proposed.  相似文献   

12.
群G关于S的有向Cayley图X=Cay(G,S)称为pk阶有向循环图,若G是pk阶循环群.利用有限群论和图论的较深刻的结果,对p2阶弧传递(有向)循环图的正规性条件进行了讨论,证明了任一p2阶弧传递(有向)循环图是正规的当且仅当(|Aut(G,S)|,p)=1.  相似文献   

13.
The double loop network (DLN) is a circulant digraph with n nodes and outdegree 2. It is an important topological structure of computer interconnection networks and has been widely used in the designing of local area networks and distributed systems. Given the number n of nodes, how to construct a DLN which has minimum diameter? This problem has attracted great attention. A related and longtime unsolved problem is: for any given non-negative integer k, is there an infinite family of k-tight optimal DLN? In this paper, two main results are obtained: (1) for any k ≥ 0, the infinite families of k-tight optimal DLN can be constructed, where the number n(k,e,c) of their nodes is a polynomial of degree 2 in e with integral coefficients containing a parameter c. (2) for any k ≥ 0,an infinite family of singular k-tight optimal DLN can be constructed.  相似文献   

14.
The paper addresses the optimization problem for circulant networks of maximizing the number of vertices given the degree and diameter of a graph. For the graphs in the best available extremal family of circulant networks, we improve the estimate for diameter, which together with previous results for multiplicative circulant networks enables us to improve the lower bounds for the attainable number of vertices of circulant networks of all dimensions k ≥ 4.  相似文献   

15.
The double loop network (DLN) is a circulant digraph with n nodes and outdegree 2. DLN has been widely used in the designing of local area networks and distributed systems. In this paper, a new method for constructing infinite families of k-tight optimal DLN is presented. For k = 0, 1, ..., 40, the infinite families of k-tight optimal DLN can be constructed by the new method, where the number n k (t, a) of their nodes is a polynomial of degree 2 in t and contains a parameter a. And a conjecture is proposed.  相似文献   

16.
The spectrum of a digraph in general contains real and complex eigenvalues. A digraph is called a Gaussian integral digraph if it has a Gaussian integral spectrum that is all eigenvalues are Gaussian integers. In this paper, we consider Gaussian integral digraphs among circulant digraphs.  相似文献   

17.
《Journal of Graph Theory》2018,88(2):302-311
The entropy of a digraph is a fundamental measure that relates network coding, information theory, and fixed points of finite dynamical systems. In this article, we focus on the entropy of undirected graphs. We prove any bounded interval only contains finitely many possible values of the entropy of an undirected graph. We also determine all the possible values for the entropy of an undirected graph up to the value of four.  相似文献   

18.
A Cayley graph F = Cay(G, S) of a group G with respect to S is called a circulant digraph of order pk if G is a cyclic group of the same order. Investigated in this paper are the normality conditions for arc-transitive circulant (di)graphs of order p^2 and the classification of all such graphs. It is proved that any connected arc-transitive circulant digraph of order p^2 is, up to a graph isomorphism, either Kp2, G(p^2,r), or G(p,r)[pK1], where r|p- 1.  相似文献   

19.
This paper deals with Hamiltonicity of connected loopless circulant digraphs of outdegree three with connection set of the form {a,ka,c}, where k is an integer. In particular, we prove that if k=−1 or k=2 such a circulant digraph is Hamiltonian if and only if it is not isomorphic to the circulant digraph on 12 vertices with connection set {3,6,4}.  相似文献   

20.
The diameter of a graph measures the maximal distance between any pair of vertices. The diameters of many small-world networks, as well as a variety of other random graph models, grow logarithmically in the number of nodes. In contrast, the worst connected networks are cycles whose diameters increase linearly in the number of nodes. In the present study we consider an intermediate class of examples: Cayley graphs of cyclic groups, also known as circulant graphs or multi-loop networks. We show that the diameter of a random circulant 2k-regular graph with n vertices scales as n 1/k , and establish a limit theorem for the distribution of their diameters. We obtain analogous results for the distribution of the average distance and higher moments.  相似文献   

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