Pareto front based realistic soft real-time task scheduling with multi-objective genetic algorithm in unstructured heterogeneous distributed system
نویسنده:
, , , ,سال
: 2010
چکیده: Task scheduling is an essential aspect of parallel processing system. This problem assumes fully connected processors and ignores contention on the communication links. However, as arbitrary processor network (APN), communication contention has a strong influence on the execution time of a parallel application. In this paper, we propose multi-objective genetic algorithm to solve task scheduling problem with time constraints in unstructured heterogeneous processors to find the scheduling with minimum makespan and total tardiness. To optimize objectives, we use Pareto front based technique, vector based method. In this problem, just like tasks, we schedule messages on suitable links during the minimization of the makespan and total tardiness. To find a path for transferring a message between processors we use classic routing algorithm. We compare our method with BSA method that is a well known algorithm. Experimental results show our method is better than BSA and yield better makespan and total tardiness.
کلیدواژه(گان): DAG - Distributed system - Edge scheduling - Genetic algorithm - Heterogeneous system - Link contention - Multi-objective Optimization - Precedence constraint - Real time system - Routing - Soft real time - Task scheduling
کالکشن
:
-
آمار بازدید
Pareto front based realistic soft real-time task scheduling with multi-objective genetic algorithm in unstructured heterogeneous distributed system
Show full item record
contributor author | Sedaghat, N. | en |
contributor author | حمید طباطبائی یزدی | en |
contributor author | محمدرضا اکبرزاده توتونچی | en |
contributor author | hamid tabatabaee | fa |
contributor author | Mohammad Reza Akbarzadeh Totonchi | fa |
date accessioned | 2020-06-06T14:00:58Z | |
date available | 2020-06-06T14:00:58Z | |
date copyright | 5/10/2010 | |
date issued | 2010 | |
identifier uri | https://libsearch.um.ac.ir:443/fum/handle/fum/3378920 | |
description abstract | Task scheduling is an essential aspect of parallel processing system. This problem assumes fully connected processors and ignores contention on the communication links. However, as arbitrary processor network (APN), communication contention has a strong influence on the execution time of a parallel application. In this paper, we propose multi-objective genetic algorithm to solve task scheduling problem with time constraints in unstructured heterogeneous processors to find the scheduling with minimum makespan and total tardiness. To optimize objectives, we use Pareto front based technique, vector based method. In this problem, just like tasks, we schedule messages on suitable links during the minimization of the makespan and total tardiness. To find a path for transferring a message between processors we use classic routing algorithm. We compare our method with BSA method that is a well known algorithm. Experimental results show our method is better than BSA and yield better makespan and total tardiness. | en |
language | English | |
title | Pareto front based realistic soft real-time task scheduling with multi-objective genetic algorithm in unstructured heterogeneous distributed system | en |
type | Conference Paper | |
contenttype | External Fulltext | |
subject keywords | DAG - Distributed system - Edge scheduling - Genetic algorithm - Heterogeneous system - Link contention - Multi-objective Optimization - Precedence constraint - Real time system - Routing - Soft real time - Task scheduling | en |
identifier link | https://profdoc.um.ac.ir/paper-abstract-1020643.html | |
conference title | Advances in Grid and Pervasive Computing: 5th International Conference, CPC 2010, | en |
conference location | Hualien | fa |
identifier articleid | 1020643 |