网络容错路由算法概率分析的一种新的方法

该文提出了一种新的概率分析方法来研究在给定结点错误概率的情况下超立方体网络强容错路由算法的容错性的概率。针对文中提出的基于新的局部连通性网络容错模型的高效的强容错路由算法犤1犦,该文首次严格证明了一个具有1024个结点的10维超立方体网络能够容许多达4.7%的错误结点而具有99%的概率确保找到正确结点组成的路径,而如果结点的错误概率不超过0.1%,则所有实际规模的超立方体网络能够具有99.9%的概率确保找到正确结点组成的路径。该算法的时间性能是最优的,且该算法构造的路径的长度不超过源结点和目的结点之间海明距离的两倍加上一个很小的常数。     

点对点网络容错路由算法的概率分析

基于网络中结点错误概率 ,提出一种新的概率分析方法 ,对网络中点对点的路由算法的容错性概率、路径长度、算法复杂性进行严格的推导 .以超立方体网络为分析的网络拓扑 ,提出在其上的一个路由算法 .分析表明 :在所有实际规模的超立方体网络中 (其结点数可以高达十亿个 ) ,在相当大的结点出错概率 (可高达 8% )的情况下 ,路由算法可达到 99.9%的成功概率     

星形网络的容错并行路由研究及概率分析

对具有错误结点的星形网络中的点与点之间的容错并行路由问题进行了研究,提出了一种新的具有容错能力的点对点的并行路由算法。严格证明了新算法的正确性,讨论了新算法的时间复杂度,并对新算法所找到的路径的长度进行了分析。用概率分析的方法对新算法的容错性概率进行了严格地推导,计算出概率的上下界。     

点对点网络容错路由算法的路径长度分析

用概率性分析方法 ,研究了在结点错误概率性分布的情形下超立方体网络点对点容错路由算法的路径长度 ,得出了算法的路径长度期望值 ,分析表明 :对于结点错误概率 p≤ 10时 ,源点 U到终点 V所在的 k维子立方体的路径长度期望值不超过 1.11* h,比以往通常的长度分析结果 2 * h小得多 .提出一种改进的算法并证明这一新算法所构造的路径长度的期望值不大于 1.11h- 0 .11k 2 ,这大大改进了以前的路径 2 h k 2 ,其中 h为 U与 V的 Ham ming距离 .     

具有大量错误结点的超立方体网络中并行路由算法

本文讨论具有大量错误结点的超立方体网络中的并行路由算法。假定Hn是一个局部k-维子立方体连通用的n-维超立方体网络,本文提出的并行路由算法能够找出至少K=min（Dk(u),Dk(v）条并行路径,其中每一条路径的长度不超过（dH(Uk,Vk）＋3）2^k。该算法的时间复杂度为O（Kn2^k）。这里,Dk(u）和Dk(v）分别代表源结点u和目的结点v的正确的邻结点个数（不考虑u和v所在的k－维子立方体内部的邻结点）,dH(Uk,Vk）代表源结点u和目的结点v所在的两个k－维子立方体Uk和Vk之间的海明距离。本文还考察了了k=3的特殊情况,在k=3并且有分别不超过12．5％和25％的错误结点的情况下,该算法的时间复杂度为O（Kn）,并且每一条路径的路径长度分别在大约1．5和2倍源结点和目的结点之间的海明距离之内。该算法只要求结点知道其邻结点的状态,而无需知道整个网络信息,也就是说,该算法是基于局部信息的,因而该算法具有很强的实际意义。     

具有混合故障广义超立方体中的容错路由

针对广义超立方体网络中的同时具有大量结点和链路故障模式,提出了两类新的局部连通性概念。在这两类局部连通性概念的基础上给出了两个广义超立方体网络的分布式容错路由算法。基于两类新的局部连通性概念的广义超立方体网络容错路由算法与基于局部连通性的广义超立方体网络容错路由容错路由算法相比较,新算法提高了容错能力。     

具有不连通子立方体的超立方体中广播路由

基于扩展的局部k—维子立方体连通的超立方体网络Hn,提出了超立方体网络Hn中新的广播容错路由算法。算法分析表明,基于扩展局部k—维子立方体连通的广播路由算法比基于局部k-子立方连通的广播路由算法提高了超立方体网络的容错性和通用性。     

具有大量错误结点的超立方体网络中的单播路由算法的设计与分析

本文讨论具有大量错误结点的超立方体网络中的单播路由算法，假定Hn是一个局部3－维子立方体连通的n-维超立方体网络并且每一个基本的3－维子立方体中分别最多有1个和2个错误结点，本文提出的单播路由算法能够在线性时间找到路径长度分别为源结点和目的结点之间大约1．5倍和2倍海明距离的次优路径，我们提出的单播路由算法只需要结点知道其邻结点的状态，而无需知道整个网络信息，也就是说，该算法是基于局部信息的，因而该算法具有很强的实际意义。     

超立方体网络连通性的概率分析

超立方体网络是大型多处理器并行计算机系统中极为重要的拓扑结构.本文使用概率分析的方法研究了在给定结点错误概率的情况下,具有子连通性的超立方体网络容错模型的连通性。理论分析和试验结果表明:在具有大量分布结点错误情况下,超立方体网络是子连通的概率非常高。     

Mesh网络路由算法容错性的概率分析

该文基于k-Mesh子网的概念提出了两个简单的基于局部信息和分布式的Mesh网络容错路由算法，并对其容错性进行概率分析；在每个结点具有独立的出错概率的假设条件下，推导出路由算法成功返回由正确结点组成的路径的概率．该文运用严格的数学推理，证明了Mesh网络结点出错概率只要控制在1．87％以内，则对于多达几十万个结点的Mesh网络，提出的路由算法具有99％的概率确保找到正确结点组成的路径．路由算法的时间复杂性是线性的．模拟结果表明路由算法所构造的路由路径长度非常接近于两结点之间的最优路径长度．     

FRoots: A Fault Tolerant and Topology-Flexible Routing Technique

Existing solutions for fault-tolerant routing in interconnection networks either work for only one given regular topology, or require slow and costly network reconfigurations that do not allow full and continuous network access. In this paper, we present FRroots, a routing method for fault tolerance in topology-flexible network technologies. Our method is based on redundant paths, and can handle single dynamic faults without sending control messages other than those that are needed to inform the source nodes of the failing component. Used in a modus with local rerouting, the source nodes need not be informed and no control messages are necessary for the network to stay connected despite of a single fault. In fault-free networks under nonuniform traffic our routing method performs comparable to, or even better than, topology specific routing algorithms in regular networks like meshes and tori. FRoots does not require any other features in the switches or end nodes than a flexible routing table, and a modest number of virtual channels. For that reason, it can be directly applied to several present day technologies like InfiniBand and Advanced Switching.     

Reliable multistage interconnection network design

High-performance supercomputers generally comprise millions of CPUs in which interconnection networks play an important role to achieve high performance. New design paradigms of dynamic on-chip interconnection network involve a) topology b) synthesis, modeling and evaluation c) quality of service, fault tolerance and reliability d) routing procedures. To construct a dynamic highly fault tolerant interconnection networks requires more disjoint paths from each source-destination node pair at each stage and dynamic rerouting capability to use the various available paths effectively. Fast routing and rerouting strategy is needed to provide reliable performance on switch/link failures. This paper proposes two new architecture designs of fault tolerant interconnection networks named as reliable interconnection networks (RIN-1 and RIN-2). The proposed layouts are multipath multi-stage interconnection networks providing four disjoint paths for all the source-destination node pairs with dynamic rerouting capability. The designs can withstand switch failures in all the stages (including input and output stages) and provide more reliability. Reliability analysis of various MIN architectures is evaluated. On comparing the results with some existing MINs it is evident that the proposed designs provides higher reliability values and fault tolerance.     

Mesh网络容错广播路由算法的概率分析

One-to-all or broadcast communication is one of the most important communication patterns and occurs in many important applications in parallel computing. This paper proposes a fault tolerant, local-irdormation-based, and distributed broadcast routing algorithm based on the concept of k-submesh-cormectivity in all-port mesh networks.The paper analyzes the fault tolerance of the algorithm in terms of node failure probability. Suppose that every nodehas independent failure probability, and deduce the success probability of the broadcast routing, which successfully routes a message from a source node to all non-faulty nodes in the networks. The paper strictly proves that the broadcast routing algorithm with the success probability of 99％ to route among all non-faulty nodes on mesh networks with forty thousand nodes, in case that the node failure probability is controlled within 0.12％ Simulation results show that the algorithm is practically efficient and effective, and the time steps of the algorithm are very closeto the optimum.     

基于子网的E-2DMesh网络容错单播路由算法

基于k-E-2DMesh子网连通概念和局部信息,提出分布式E-2DMesh网络容错单播路由算法。对算法容错性进行概率分析,假设每个节点具有独立的出错概率,推导出路由算法成功返回由正确节点组成路径的概率。推理结果表明,对于规模较大的E-2DMesh网络,当k值为3而节点出错概率小于0．03％时,该算法找到正确节点所组成路径的概率大于等于99％。其具有线性时间复杂性,构造的路由路径长度接近2点间最优路径长度。     

A Kind of Multistage Interconnection Networks with Multiple Paths

1ThisworkwassupportedbytheNationalNaturalScienceFoundationofChina,GralltNo.69473024.1IntroductionMultiprocessorsystemsoftenuseinterconnectionnetworkstoconnectproces-sorsormemorymodules-Atime-sharedbusisthesimplestformofinterconnectionnetworks,butitcannotprovidetheperformancerequiredinmultiprocessorsystemstoday.Acrossbarswitchnetworkisanalternativeusedintheearliersystemstoimplementinterconnection.Theonlydelaytoconnectinputstooutputsisthatofasingleswitchinggate,butacrossbarswitchnetworkisver…     

在3D-Mesh网络中的两种路由研究

在研究并行计算机系统容错时,路由算法是一个极为重要的研究课题。主要研究的是自适应路由算法和确定性路由算法在3D-Mesh网络上的性能。在每个结点具有独立的出错概率的模型下,提出的方法使得能够严格地推导出路由算法的成功概率,从而能够对算法进行分析和比较。研究结果表明,自适应路由算法具有明显的优势。一方面,自适应路由算法基于局部信息而变得高效;另一方面,自适应路由算法对于结点出错和网络规模具有更好的健壮性,而使其具有更高的成功概率。     

Fault-tolerant routing over shortest node-disjoint paths in hypercubes

This paper presented a routing algorithm that finds n disjoint shortest paths from the source node s to target node d in the n-dimensional hypercube. Fault-tolerant routing over all shortest node-disjoint paths has been investigated to overcome the failure encountered during routing in hypercube networks. In this paper, we proposed an efficient approach to provide fault-tolerant routing which has been investigated on hypercube networks. The proposed approach is based on all shortest node-disjoint paths concept in order to find a fault-free shortest path among several paths provided. The proposed algorithm is a simple uniform distributed algorithm that can tolerate a large number of process failures, while delivering all n messages over optimal-length disjoint paths. However, no distributed algorithm uses acknowledgement messages (acks) for fault tolerance. So, for dealing the faults, acknowledgement messages (acks) are included in the proposed algorithm for routing messages over node-disjoint paths in a hypercube network.     

A simple fault-tolerant adaptive and minimal routing approach in 3-D meshes

In this paper we propose a sufficient codition for minimal routing in 3-dimensional (3-D) meshes with faulty nodes,It is based on an early work of the author on minial routing in 2-dimensional(2-D) meshes,Unlike many traditional models that assume all the nodes know global fault distribution or just adjacent fault information,our approach is based on the concept of limited global fault information,First,we propose a fault model called faulty cube in which all faulty nodes in the system are contained in a set of faulty cubes.Fault information is then distributed to limited number of nodes while it is still sufficeint to support minimal routing.The limited fault information collcted at each node is represented by a vector caaled extended safety level.The extended safety level associated with a node can be used to determine the existence of a minimal path from this node to a given destination .Specifically,we study the existence of minimal paths at a given source node,limited distribution of fault information,minimal routing,and deadlock-free and livelock-free routing.our results show that any minimal routing that is partially adaptive can be applied in our model as long as the dstination node meets a certain conditon.We also propose a dynamic planar-adaptive routing scheme that offers better fault tolerance and adaptivity than the planar-adaptive routing scheme in 3-D meshes.Our approach is the first attempt to address adaptive and minimal routing is 3-D meshes with faulty nodes using limited fault information.