Open AccessDEFINING PARAMETERS FOR THE OSCILLATION MODEL OF LOAD FLOW OF GLOBAL ACTIVITIES IN A FULLY DISTRIBUTED EXASCALE SYSTEM
Author(s) -
Ulphat Bakhishov,
Azerbaijan State Oil
Publication year - 2021
Publication title -
azerbaijan journal of high performance computing
Language(s) - English
Resource type - Journals
eISSN - 2617-4383
pISSN - 2616-6127
DOI - 10.32010/26166127.2021.4.1.126.131
Subject(s) - computer science , distributed computing , exascale computing , oscillation (cell signaling) , node (physics) , flow (mathematics) , feature (linguistics) , load distribution , load balancing (electrical power) , distribution (mathematics) , parallel computing , supercomputer , grid , engineering , geology , mathematical analysis , linguistics , philosophy , genetics , geometry , mathematics , structural engineering , biology , geodesy
Distributed exascale computing systems are the idea of the HPC systems, that capable to perform one exaflop operations per second in dynamic and interactive nature without central managers. In such environment, each node should manage its own load itself and it should be found the basic rules of load distribution for all nodes because of being able to optimize the load distribution without central managers. In this paper proposed oscillation model for load distribution in fully distributed exascale systems and defined some parameters for this model and mentioned about feature works.