In this paper, a genetic algorithm (GA) for scheduling tasks onto dynamically reconfigurable devices is presented. The scheduling problem is NP-hard and more complicated than multiprocessor scheduling, because both the task allocation and the configurations need to be carefully managed. The approach has been validated with a number of random task graphs. The results show that the GA approach has good convergence and it is in average 8.6% better than a list-based scheduler for large task graphs of various sizes
Given a parallel program represented by a task graph, the objective of a scheduling algorithm is to ...
An algorithm has been developed to dynamically schedule heterogeneous tasks on to heterogeneous proc...
An algorithm has been developed to dynamically schedule heterogeneous tasks on heterogeneous process...
In this paper, a genetic algorithm (GA) for scheduling tasks onto dynamically reconfigurable devices...
Multiprocessors have evolved as powerful computing tools for executing dynamic real time tasks. The ...
. Computing the schedule on a configurable parallel system adds one dimension to the traditional sch...
We have developed a genetic algorithm (GA) approach to the problem of task scheduling for multiproce...
We have developed a genetic algorithm (GA) approach to the problem of task scheduling for multiproce...
Multiprocessors have emerged as a powerful computing means for running real-time applications, espec...
Several embedded application domains for reconfigurable systems tend to combine frequent changes wit...
Efficient multiprocessor task scheduling is a long-studied and difficult problem that continues to b...
The common problem of multiprocessor scheduling can be defined as allocating a task graph in a multi...
This paper presents the development of genetic algorithm approach to schedule tasks on a multiproces...
Abstract- A parallel genetic algorithm has been developed to dynamically schedule heterogeneous task...
In this paper, we present a task-scheduling heuristic, based on parallel genetic algorithm (PGA). Th...
Given a parallel program represented by a task graph, the objective of a scheduling algorithm is to ...
An algorithm has been developed to dynamically schedule heterogeneous tasks on to heterogeneous proc...
An algorithm has been developed to dynamically schedule heterogeneous tasks on heterogeneous process...
In this paper, a genetic algorithm (GA) for scheduling tasks onto dynamically reconfigurable devices...
Multiprocessors have evolved as powerful computing tools for executing dynamic real time tasks. The ...
. Computing the schedule on a configurable parallel system adds one dimension to the traditional sch...
We have developed a genetic algorithm (GA) approach to the problem of task scheduling for multiproce...
We have developed a genetic algorithm (GA) approach to the problem of task scheduling for multiproce...
Multiprocessors have emerged as a powerful computing means for running real-time applications, espec...
Several embedded application domains for reconfigurable systems tend to combine frequent changes wit...
Efficient multiprocessor task scheduling is a long-studied and difficult problem that continues to b...
The common problem of multiprocessor scheduling can be defined as allocating a task graph in a multi...
This paper presents the development of genetic algorithm approach to schedule tasks on a multiproces...
Abstract- A parallel genetic algorithm has been developed to dynamically schedule heterogeneous task...
In this paper, we present a task-scheduling heuristic, based on parallel genetic algorithm (PGA). Th...
Given a parallel program represented by a task graph, the objective of a scheduling algorithm is to ...
An algorithm has been developed to dynamically schedule heterogeneous tasks on to heterogeneous proc...
An algorithm has been developed to dynamically schedule heterogeneous tasks on heterogeneous process...