Abstract—Perfect difference networks (PDNs) that are based on the mathematical notion of perfect difference sets have been shown to comprise an asymptotically optimal method for connecting a number of nodes into a network with diameter 2. Justifications for, and mathematical underpinning of, PDNs appear in a companion paper. In this paper, we compare PDNs and some of their derivatives to interconnection networks with similar cost/performance, including certain generalized hypercubes and their hierarchical variants. Additionally, we discuss point-to-point and collective communication algorithms and derive a general emulation result that relates the performance of PDNs to that of complete networks as ideal benchmarks. We show that PDNs are qu...
In many computer communications network design problems, such as those faced by hospitals, universit...
The hypercube as a parallel interconnection network has been studied by many for tens of years due t...
AbstractThis paper is a survey of existing methods of communication in usual networks. We particular...
In this paper, we focus on deriving low-diameter networks, beginning with D = 2, the next best value...
Fast and efficient communications are essential to the success of large-scale multiprocessor paralle...
AbstractWe explore the communication properties of a family of networks, based on the incidence rela...
In this paper, the general problem of comparing the performance of two communication networks is exa...
Hypercube networks offer a feasible cost-effective solution to parallel computing. Here, a large num...
The paper proposes designs of interconnection networks (graphs) which can tolerate link failures. Th...
We propose three characterization theorems of t/t-diagnosable systems under the comparison model. By...
In this paper we study the fault--tolerant properties of the Supercube, a new interconnection networ...
The authors consider fault-tolerant circuit-switching networks under a random switch failure model. ...
In this paper, we consider designing "optimal" fault-tolerant topologies that preserve di...
Includes bibliographical references (p. 76-77)In this paper, I discuss the connection between the st...
The RAIN (Reliable Array of Independent Nodes) project at Caltech is focusing on creating highly r...
In many computer communications network design problems, such as those faced by hospitals, universit...
The hypercube as a parallel interconnection network has been studied by many for tens of years due t...
AbstractThis paper is a survey of existing methods of communication in usual networks. We particular...
In this paper, we focus on deriving low-diameter networks, beginning with D = 2, the next best value...
Fast and efficient communications are essential to the success of large-scale multiprocessor paralle...
AbstractWe explore the communication properties of a family of networks, based on the incidence rela...
In this paper, the general problem of comparing the performance of two communication networks is exa...
Hypercube networks offer a feasible cost-effective solution to parallel computing. Here, a large num...
The paper proposes designs of interconnection networks (graphs) which can tolerate link failures. Th...
We propose three characterization theorems of t/t-diagnosable systems under the comparison model. By...
In this paper we study the fault--tolerant properties of the Supercube, a new interconnection networ...
The authors consider fault-tolerant circuit-switching networks under a random switch failure model. ...
In this paper, we consider designing "optimal" fault-tolerant topologies that preserve di...
Includes bibliographical references (p. 76-77)In this paper, I discuss the connection between the st...
The RAIN (Reliable Array of Independent Nodes) project at Caltech is focusing on creating highly r...
In many computer communications network design problems, such as those faced by hospitals, universit...
The hypercube as a parallel interconnection network has been studied by many for tens of years due t...
AbstractThis paper is a survey of existing methods of communication in usual networks. We particular...