Abstract. The performance of contiguous allocation strategies can be significantly affected by the distribution of job execution times. In this paper, the performance of the existing contiguous allocation strategies for 3D mesh multicomputers is re-visited in the context of heavy-tailed distributions (e.g., a Bounded Pareto distribution). The strategies are evaluated and compared using simulation experiments for both First-Come-First-Served (FCFS) and Shortest-Service-Demand (SSD) scheduling strategies under a variety of system loads and system sizes. The results show that the performance of the allocation strategies degrades considerably when job execution times follow a heavytailed distribution. Moreover, SSD copes much better than FCFS s...
Efficient allocation of distinct subsets of processors to different jobs (i.e., space sharing) is cr...
A new approach for dynamic job scheduling in mesh-connected multiprocessor systems, which supports a...
In this paper, we evaluate strategies of domain decomposition in Grid environment to solve mesh-base...
The performance of contiguous allocation strategies can be significantly affected by the distributio...
Abstract. The performance of contiguous allocation strategies can be significantly affected by the d...
The performance of contiguous allocation strategies can be significantly affected by the type of the...
Two strategies are used for the allocation of jobs to processors connected by mesh topologies: conti...
Two strategies are used for the allocation of jobs to processors connected by mesh topologies: conti...
Two strategies are used for the allocation of jobs to processors connected by mesh topologies: conti...
Abstract Efficient processor allocation and job scheduling algorithms are critical if the full compu...
The performance of the existing non-contiguous processor allocation strategies has been traditionall...
Contiguous allocation of parallel jobs usually suffers from the degrading effects of fragmentation a...
Processor allocation and task scheduling are two important aspects of partitionable multiprocessor s...
Processor allocation and task scheduling are two important aspects of partitionable multiprocessor s...
Current processor allocation techniques for highly parallel systems are typically restricted to cont...
Efficient allocation of distinct subsets of processors to different jobs (i.e., space sharing) is cr...
A new approach for dynamic job scheduling in mesh-connected multiprocessor systems, which supports a...
In this paper, we evaluate strategies of domain decomposition in Grid environment to solve mesh-base...
The performance of contiguous allocation strategies can be significantly affected by the distributio...
Abstract. The performance of contiguous allocation strategies can be significantly affected by the d...
The performance of contiguous allocation strategies can be significantly affected by the type of the...
Two strategies are used for the allocation of jobs to processors connected by mesh topologies: conti...
Two strategies are used for the allocation of jobs to processors connected by mesh topologies: conti...
Two strategies are used for the allocation of jobs to processors connected by mesh topologies: conti...
Abstract Efficient processor allocation and job scheduling algorithms are critical if the full compu...
The performance of the existing non-contiguous processor allocation strategies has been traditionall...
Contiguous allocation of parallel jobs usually suffers from the degrading effects of fragmentation a...
Processor allocation and task scheduling are two important aspects of partitionable multiprocessor s...
Processor allocation and task scheduling are two important aspects of partitionable multiprocessor s...
Current processor allocation techniques for highly parallel systems are typically restricted to cont...
Efficient allocation of distinct subsets of processors to different jobs (i.e., space sharing) is cr...
A new approach for dynamic job scheduling in mesh-connected multiprocessor systems, which supports a...
In this paper, we evaluate strategies of domain decomposition in Grid environment to solve mesh-base...