The total-exchange is one of the most dense communication patterns and is at the heart of numerous applications and programming models in parallel computing. In this paper we present a simple randomized algorithm to efficiently schedule the total-exchange on.a toroidal mesh with wormhole switching. This algorithm is based on an important property of the wormhole networks that reach high performance under uniform traffic using adaptive routing. The experimental results, conducted on a 256 nodes bi-dimensional torus, show that this algorithm reaches a very high level of performance, around 90% of the optimal bound, and is more efficient than other algorithms presented in the literature
[[abstract]]A new approach to broadcast in wormhole-routed two- and three-dimensional torus networks...
2D-mesh and torus networks have often been proposed as the interconnection pattern for parallel comp...
Virtual channels have been introduced to enhance the performance of wormhole-switched networks. They...
The total-exchange is one of the most dense communication patterns and is at the heart of nume...
[[abstract]]In this paper, we propose new routing schemes to perform all-to-all personalized communi...
In this paper, we present a randomized algorithm for the multipacket (i.e., k - k) routing problem o...
[[abstract]]Barrier is an important synchronization operation. On scalable parallel computers, it is...
The complete exchange (or all-to-all personalized) communication pattern occurs frequently in many i...
[[abstract]]Barrier is an important synchronization operation. On scalable parallel computers, it is...
This paper presents an analytical evaluation of the performance of wormhole switching with adaptive ...
This paper presents an analytical evaluation of the performance of adaptive wormhole routing in a tw...
A deadlock-free fully adaptive routing algorithm for 2D meshes which is optimal in the number of vir...
In this paper, we propose a uniform adaptive routing strategy for wormhole-routed hypercube networks...
Both adaptive unicast routing and efficient multicast communication have been shown to be important ...
Several analytical models of fully adaptive routing have recently been proposed for k-ary n-cubes an...
[[abstract]]A new approach to broadcast in wormhole-routed two- and three-dimensional torus networks...
2D-mesh and torus networks have often been proposed as the interconnection pattern for parallel comp...
Virtual channels have been introduced to enhance the performance of wormhole-switched networks. They...
The total-exchange is one of the most dense communication patterns and is at the heart of nume...
[[abstract]]In this paper, we propose new routing schemes to perform all-to-all personalized communi...
In this paper, we present a randomized algorithm for the multipacket (i.e., k - k) routing problem o...
[[abstract]]Barrier is an important synchronization operation. On scalable parallel computers, it is...
The complete exchange (or all-to-all personalized) communication pattern occurs frequently in many i...
[[abstract]]Barrier is an important synchronization operation. On scalable parallel computers, it is...
This paper presents an analytical evaluation of the performance of wormhole switching with adaptive ...
This paper presents an analytical evaluation of the performance of adaptive wormhole routing in a tw...
A deadlock-free fully adaptive routing algorithm for 2D meshes which is optimal in the number of vir...
In this paper, we propose a uniform adaptive routing strategy for wormhole-routed hypercube networks...
Both adaptive unicast routing and efficient multicast communication have been shown to be important ...
Several analytical models of fully adaptive routing have recently been proposed for k-ary n-cubes an...
[[abstract]]A new approach to broadcast in wormhole-routed two- and three-dimensional torus networks...
2D-mesh and torus networks have often been proposed as the interconnection pattern for parallel comp...
Virtual channels have been introduced to enhance the performance of wormhole-switched networks. They...