AbstractIn this paper we show that for each n, the order-n shuffle-exchange network can be emulated by an n-node linear processor array or an n2-node mesh in a work-preserving manner. An emulation of a computation on a guest network G is work-preserving on a host network H, if the time-processor products are equal to within a constant factor. To achieve this result we demonstrate a uniform many-to-one embedding of the nodes of a shuffle-exchange network into a linear array. We then give a simple, deterministic routing algorithm on the linear array which schedules the communication of messages necessary to achieve the emulation within the required time bounds. The analysis of the algorithm relies on certain statistical properties of the comp...
Parallel algorithms are normally designed for execution on networks of N processors, with N dependin...
Abstract. Rearrangeable networks can realize each and every permutation in one pass through the netw...
AbstractWe describe dense edge-disjoint embeddings of the complete binary tree with n leaves in the ...
AbstractIn this paper we show that for each n, the order-n shuffle-exchange network can be emulated ...
In this paper, we study the problem of emulating TG steps of an NG-node guest network, G, on an NH-n...
Parallel algorithms are normally designed for execution on networks of N processors, with N dependi...
The shuffle-exchange network is among the most interesting interconnection networks. However, one of...
The traditional routing algorithm for the shuffle-exchange network is optimal for the worst case (s...
AbstractThe shuffle—exchange graph is one of the best structures known for parallel computation. Amo...
A mesh connected array of size N = two to the Kth power, K an integer, can be augmented by adding at...
[[abstract]]This paper presents an efficient routing algorithm for realizing any permutation in LIN ...
AbstractWe study product-shuffle (PS) networks, which are direct products of de Bruijn networks, as ...
In this work an efficient model for parallel computing, called Shuffled Mesh (SM), is introduced. Th...
The algorithms which control network routing are specific to the network because the algorithms are ...
Design of interconnection networks is an important integral part of the parallel processing or distr...
Parallel algorithms are normally designed for execution on networks of N processors, with N dependin...
Abstract. Rearrangeable networks can realize each and every permutation in one pass through the netw...
AbstractWe describe dense edge-disjoint embeddings of the complete binary tree with n leaves in the ...
AbstractIn this paper we show that for each n, the order-n shuffle-exchange network can be emulated ...
In this paper, we study the problem of emulating TG steps of an NG-node guest network, G, on an NH-n...
Parallel algorithms are normally designed for execution on networks of N processors, with N dependi...
The shuffle-exchange network is among the most interesting interconnection networks. However, one of...
The traditional routing algorithm for the shuffle-exchange network is optimal for the worst case (s...
AbstractThe shuffle—exchange graph is one of the best structures known for parallel computation. Amo...
A mesh connected array of size N = two to the Kth power, K an integer, can be augmented by adding at...
[[abstract]]This paper presents an efficient routing algorithm for realizing any permutation in LIN ...
AbstractWe study product-shuffle (PS) networks, which are direct products of de Bruijn networks, as ...
In this work an efficient model for parallel computing, called Shuffled Mesh (SM), is introduced. Th...
The algorithms which control network routing are specific to the network because the algorithms are ...
Design of interconnection networks is an important integral part of the parallel processing or distr...
Parallel algorithms are normally designed for execution on networks of N processors, with N dependin...
Abstract. Rearrangeable networks can realize each and every permutation in one pass through the netw...
AbstractWe describe dense edge-disjoint embeddings of the complete binary tree with n leaves in the ...