International audienceThis paper revisits distributed termination detection algorithms in the context of High-Performance Computing (HPC) applications. We introduce an efficient variant of the Credit Distribution Algorithm (CDA) and compare it to the original algorithm (HCDA) as well as to its two primary competitors: the Four Counters algorithm (4C) and the Efficient Delay-Optimal Distributed algorithm (EDOD). We analyze the behavior of each algorithm for some simplified task-based kernels and show the superiority of CDA in terms of the number of control messages
The Tiered Algorithm is presented for time-efficient and message-efficient detection of process term...
Distributed termination detection (DTD) algorithms are important since they detect globally stable s...
Distributed termination detection (DTD) algorithms are important since they detect globally stable s...
International audienceThis paper revisits distributed termination detection algorithms in the contex...
This paper revisits distributed termination detection algorithms in the context of High-Performance ...
International audienceThis paper revisits distributed termination detection algorithms in the contex...
This paper revisits distributed termination detection algorithms in the context of high-perf...
AbstractThis paper evaluates the execution characteristics of two high-capability software-based app...
Abstract. The detection of termination of a distributed computation is an important problem in distr...
This paper looks at algorithms for the detection of termination in a distributed system and analyzes...
Termination detection constitutes one of the basic problems of distributed computing and many distri...
An important problem in distributed systems is to detect termination of a distributed computation. A...
Facing the different approaches to process activation and global termination detection on distribute...
The Tiered Algorithm is presented for time- efficient and message- efficient detection of process te...
Facing the different approaches to process activation and global termination detection on distribute...
The Tiered Algorithm is presented for time-efficient and message-efficient detection of process term...
Distributed termination detection (DTD) algorithms are important since they detect globally stable s...
Distributed termination detection (DTD) algorithms are important since they detect globally stable s...
International audienceThis paper revisits distributed termination detection algorithms in the contex...
This paper revisits distributed termination detection algorithms in the context of High-Performance ...
International audienceThis paper revisits distributed termination detection algorithms in the contex...
This paper revisits distributed termination detection algorithms in the context of high-perf...
AbstractThis paper evaluates the execution characteristics of two high-capability software-based app...
Abstract. The detection of termination of a distributed computation is an important problem in distr...
This paper looks at algorithms for the detection of termination in a distributed system and analyzes...
Termination detection constitutes one of the basic problems of distributed computing and many distri...
An important problem in distributed systems is to detect termination of a distributed computation. A...
Facing the different approaches to process activation and global termination detection on distribute...
The Tiered Algorithm is presented for time- efficient and message- efficient detection of process te...
Facing the different approaches to process activation and global termination detection on distribute...
The Tiered Algorithm is presented for time-efficient and message-efficient detection of process term...
Distributed termination detection (DTD) algorithms are important since they detect globally stable s...
Distributed termination detection (DTD) algorithms are important since they detect globally stable s...