This paper provides an overview of the main recommendations and approaches of the methodology on parallel computation application development for hybrid structures. This methodology was developed within the master's ...This paper provides an overview of the main recommendations and approaches of the methodology on parallel computation application development for hybrid structures. This methodology was developed within the master's thesis project "Optimization of complex tasks' computation on hybrid distributed computational structures" accomplished by Orekhov during which the main research objective was the determination of" patterns of the behavior of scaling efficiency and other parameters which define performance of different algorithms' implementations executed on hybrid distributed computational structures. Major outcomes and dependencies obtained within the master's thesis project were formed into a methodology which covers the problems of applications based on parallel computations and describes the process of its development in details, offering easy ways of avoiding potentially crucial problems. The paper is backed by the real-life examples such as clustering algorithms instead of artificial benchmarks.展开更多
文摘This paper provides an overview of the main recommendations and approaches of the methodology on parallel computation application development for hybrid structures. This methodology was developed within the master's thesis project "Optimization of complex tasks' computation on hybrid distributed computational structures" accomplished by Orekhov during which the main research objective was the determination of" patterns of the behavior of scaling efficiency and other parameters which define performance of different algorithms' implementations executed on hybrid distributed computational structures. Major outcomes and dependencies obtained within the master's thesis project were formed into a methodology which covers the problems of applications based on parallel computations and describes the process of its development in details, offering easy ways of avoiding potentially crucial problems. The paper is backed by the real-life examples such as clustering algorithms instead of artificial benchmarks.
