[[abstract]]The technique of parallel loop self-scheduling has been successfully applied to auto-parallelize rule-based expert systems previously. In a heterogeneous system, different compute nodes have different computer powers. Therefore, we have to choose a node to run the master process before running an application. In this paper, we focus on how different master nodes influence the performances of different self-scheduling schemes. In addition, we will investigate how the file system influences the performance. Experimental results give users the good guidelines on how to choose the master node, the self-scheduling scheme, and the file system for storing the results
Priority dispatching rules are heuristic methods for scheduling problems that have been studied for ...
Scientific applications are often complex, irregular, and computationally-intensive. To accommodate ...
The article of record as published may be found at https://doi.org/10.1007/BF02577870In this paper w...
[[abstract]]In this paper we propose a knowledge-based approach to solving loop-scheduling problems....
Part 4: Applications of Parallel and Distributed ComputingInternational audienceOrdinary programs co...
Computationally-intensive loops are the primary source of parallelism in scientific applications. Su...
The work presented in this thesis focuses on the design and implementation of parallel algorithms fo...
This paper discusses a load balancing heuristic in a general-purpose distributed computer system. We...
[[abstract]]Recently, more and more studies investigated the is-sue of dealing with the heterogeneit...
Parallel applications are highly irregular and high performance computing (HPC) infrastructures are ...
Parallel applications are highly irregular and high performance computing (HPC) infrastructures are ...
Scheduling problems are essential for decision making in many academic disciplines, including operat...
Due to the character of the original source materials and the nature of batch digitization, quality ...
This dissertation studies the issues raised by the parallel execution of rules in a pattern-matching...
AbstractWe here present ATLS, a self scheduling scheme designed for execution of parallel loops in d...
Priority dispatching rules are heuristic methods for scheduling problems that have been studied for ...
Scientific applications are often complex, irregular, and computationally-intensive. To accommodate ...
The article of record as published may be found at https://doi.org/10.1007/BF02577870In this paper w...
[[abstract]]In this paper we propose a knowledge-based approach to solving loop-scheduling problems....
Part 4: Applications of Parallel and Distributed ComputingInternational audienceOrdinary programs co...
Computationally-intensive loops are the primary source of parallelism in scientific applications. Su...
The work presented in this thesis focuses on the design and implementation of parallel algorithms fo...
This paper discusses a load balancing heuristic in a general-purpose distributed computer system. We...
[[abstract]]Recently, more and more studies investigated the is-sue of dealing with the heterogeneit...
Parallel applications are highly irregular and high performance computing (HPC) infrastructures are ...
Parallel applications are highly irregular and high performance computing (HPC) infrastructures are ...
Scheduling problems are essential for decision making in many academic disciplines, including operat...
Due to the character of the original source materials and the nature of batch digitization, quality ...
This dissertation studies the issues raised by the parallel execution of rules in a pattern-matching...
AbstractWe here present ATLS, a self scheduling scheme designed for execution of parallel loops in d...
Priority dispatching rules are heuristic methods for scheduling problems that have been studied for ...
Scientific applications are often complex, irregular, and computationally-intensive. To accommodate ...
The article of record as published may be found at https://doi.org/10.1007/BF02577870In this paper w...