AbstractIn this paper, we study the static behavior of distributed memory architecture with general tree structures. After defining and discussing the notion of average diameter, we first show that the average time it takes to send messages between any two arbitrary processors in a binary tree structure with n processors is θ(log n), through combinatorial analysis. We will also show that we can extend this result to general tree structures with n nodes, with a reasonable assumption, i.e., when m = o(n), where m is the maximum number of children any node could have.We believe that the results presented in this paper have captured some important inter-processor data transmission behavior of computers with distributed memory architectures, par...
We study the communication complexity of asynchronous distributed algorithms, such as the dis-tribut...
The problem of obtaining optimal processing time in a distributed computing system consisting of (N+...
In this chapter we learn a few basic algorithms on trees, and how to construct trees in the first pl...
AbstractIn this paper, we study the static behavior of distributed memory architecture with general ...
AbstractWe describe dense edge-disjoint embeddings of the complete binary tree with n leaves in the ...
invited paperInternational audienceWe present a new algorithm, which solves the problem of distribut...
We describe dense edge-disjoint embeddings of the complete binary tree with n leaves in the followin...
Building a spanning tree, minimum spanning tree (MST), and BFS tree in a distributed network are fun...
The general communication tree embedding problem is the problem of mapping a set of communicating te...
Cover title.Includes bibliographical references (p. 12).Supported by the National Science Foundation...
AbstractWe continue the study of communication costs of Consensus and Leader initiated in a previous...
The general communication tree embedding problem is the problem of mapping a set of communicating te...
A binary-tree algorithm, Bin(n), proceeds level-by-level from the leaves of a 2n-leaf balanced binar...
11 pagesInternational audienceWe present a new algorithm, which solves the problem of distributively...
We consider the task of comparing two rooted trees with port labelings. Roots of the trees are joine...
We study the communication complexity of asynchronous distributed algorithms, such as the dis-tribut...
The problem of obtaining optimal processing time in a distributed computing system consisting of (N+...
In this chapter we learn a few basic algorithms on trees, and how to construct trees in the first pl...
AbstractIn this paper, we study the static behavior of distributed memory architecture with general ...
AbstractWe describe dense edge-disjoint embeddings of the complete binary tree with n leaves in the ...
invited paperInternational audienceWe present a new algorithm, which solves the problem of distribut...
We describe dense edge-disjoint embeddings of the complete binary tree with n leaves in the followin...
Building a spanning tree, minimum spanning tree (MST), and BFS tree in a distributed network are fun...
The general communication tree embedding problem is the problem of mapping a set of communicating te...
Cover title.Includes bibliographical references (p. 12).Supported by the National Science Foundation...
AbstractWe continue the study of communication costs of Consensus and Leader initiated in a previous...
The general communication tree embedding problem is the problem of mapping a set of communicating te...
A binary-tree algorithm, Bin(n), proceeds level-by-level from the leaves of a 2n-leaf balanced binar...
11 pagesInternational audienceWe present a new algorithm, which solves the problem of distributively...
We consider the task of comparing two rooted trees with port labelings. Roots of the trees are joine...
We study the communication complexity of asynchronous distributed algorithms, such as the dis-tribut...
The problem of obtaining optimal processing time in a distributed computing system consisting of (N+...
In this chapter we learn a few basic algorithms on trees, and how to construct trees in the first pl...