Abstract- In this paper, we propose an optimal fault tolerant broadcasting algorithm which requires only n + 1 steps for an SIMD hypercube with up to n-1 faulty nodes. The basic idea of the proposed algorithm is first to find a fault-free subcube (CS) which contains the source node (S) such that each neighboring subcube of the subcube CS contains at least one fault. N e d, the message is broad-cast along the internal dimensions followed b y external dimensions of the subcube CS. This process requires n steps. Since this process does not guarantee that all the fault-free nodes receive the message, an extra step may be needed. We prove that there exists an internal dimension of the subcube Cs such that all the nodes which did not receive th...
© 2002 IEEE. This paper describes a fault-tolerant broadcast algorithm for wormhole-routed torus net...
A new broadcasting method is presented for hypercubes with wormhole routing mechanism. The communica...
In real-time computing applications, it is important to have parallel computing systems that not onl...
This paper presents an optimal broadcast algorithm for the hypercube networks. The main focus of the...
We examine the issue of running algorithms on a hypercube which has both node and edge faults, and w...
Reliable communication in injured hypercubes with faulty links/nodes using directed safety levels is...
AbstractWe consider a broadcasting problem in the n-dimensional hypercube in the shouting communicat...
In this papel; by utilizing the circuit-switched communi-cation modules of the hypercube nodes, we p...
AbstractWe construct a family of n spanning trees of the n-cube, called Dn, with the following prope...
Multicast is an important interprocessor communication pattern existing in various parallel applicat...
AbstractWe consider the problem of determining the minimum number of faulty processors, K(n, m), and...
This thesis addresses the design of hypercube or hypercube-like message-passing computers that combi...
We consider the problem of determining the minimum number of faulty processors, K(n, m), and of faul...
We propose a new, low-cost fault-tolerant structure for the hypercube that employs spare processors ...
Abstract: In this study, we‘ve analyzed and implemented three different algorithms developed for fau...
© 2002 IEEE. This paper describes a fault-tolerant broadcast algorithm for wormhole-routed torus net...
A new broadcasting method is presented for hypercubes with wormhole routing mechanism. The communica...
In real-time computing applications, it is important to have parallel computing systems that not onl...
This paper presents an optimal broadcast algorithm for the hypercube networks. The main focus of the...
We examine the issue of running algorithms on a hypercube which has both node and edge faults, and w...
Reliable communication in injured hypercubes with faulty links/nodes using directed safety levels is...
AbstractWe consider a broadcasting problem in the n-dimensional hypercube in the shouting communicat...
In this papel; by utilizing the circuit-switched communi-cation modules of the hypercube nodes, we p...
AbstractWe construct a family of n spanning trees of the n-cube, called Dn, with the following prope...
Multicast is an important interprocessor communication pattern existing in various parallel applicat...
AbstractWe consider the problem of determining the minimum number of faulty processors, K(n, m), and...
This thesis addresses the design of hypercube or hypercube-like message-passing computers that combi...
We consider the problem of determining the minimum number of faulty processors, K(n, m), and of faul...
We propose a new, low-cost fault-tolerant structure for the hypercube that employs spare processors ...
Abstract: In this study, we‘ve analyzed and implemented three different algorithms developed for fau...
© 2002 IEEE. This paper describes a fault-tolerant broadcast algorithm for wormhole-routed torus net...
A new broadcasting method is presented for hypercubes with wormhole routing mechanism. The communica...
In real-time computing applications, it is important to have parallel computing systems that not onl...