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Порівняльний аналіз ефективності використання дрібнозернистого та вкладеного паралелізму для збільшення пришвидшення паралельних обчислень у багатоядерних комп’ютерних системах

The article presents a comparative analysis of the effectiveness of using parallelism of varying granularity degrees in modern multicore computer systems using the most popular programming languages and libraries (such as C#, Java, C++, and OpenMP). Based on the performed comparison, the possibiliti...

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Bibliographische Detailangaben
Datum:2022
Hauptverfasser: Martell, Valerii, Korochkin, Aleksandr, Rusanova, Olga
Format: Artikel
Sprache:Englisch
Veröffentlicht: The National Technical University of Ukraine "Igor Sikorsky Kyiv Polytechnic Institute" 2022
Schlagworte:
багатоядерна комп’ютерна система
ядро
потік
завдання
паралелізм
зернистість
fork-join
коефіцієнт пришвидшення
дрібнозернистий паралелізм
вкладений паралелізм
комбінований паралелізм
Online Zugang:http://journal.iasa.kpi.ua/article/view/251975
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Назва журналу:System research and information technologies

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System research and information technologies
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Zusammenfassung:The article presents a comparative analysis of the effectiveness of using parallelism of varying granularity degrees in modern multicore computer systems using the most popular programming languages and libraries (such as C#, Java, C++, and OpenMP). Based on the performed comparison, the possibilities of increasing the efficiency of computations in multicore computer systems by using combinations of medium- and fine-grained parallelism were also investigated. The results demonstrate the high potential efficiency of fine-grained parallelism when organizing intensive parallel computations. Based on these results, it can be argued that, in comparison with more traditional parallelization methods that use medium-grain parallelism, the use of separately fine-grained parallelism can reduce the computation time of a large mathematical problem by an average of 4%. The use of combined parallelism can reduce the computation time of such a problem to 5,5%. This reduction in execution time can be significant when performing very large computations.

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