International audienceThis paper presents two Tabu Search type algorithms for solving the multiprocessor scheduling problem. This problem consists in finding a schedule for a general task graph to be executed on a multiprocessor system so that the schedule length can be minimized. The multiprocessor scheduling problem is known to be NP-hard, and to obtain optimal and suboptimal solutions, several heuristic based algorithms have been developed in [1, 2, 4, 6]. Our approaches are validated on 13 randomly generated instances. The numerical results show that our algorithms produce solutions closer to optimality and/or of better quality than the methods presented in [1]
Static scheduling of a program represented by a directed task graph on a multiprocessor system to mi...
Most of multiple criteria scheduling problems are NP-hard, so that exact procedures can only solve s...
The problem of scheduling tasks across distributed system has been approved to be NP-complete in its...
This paper presents two Tabu Search type algorithms for solving the multiprocessor scheduling proble...
Abstract. The problem of multiprocessor scheduling consists in finding a schedule for a general task...
In the multiprocessor open shop scheduling problem, jobs are to be processed on a set of processing ...
In the multiprocessor open shop scheduling problem, jobs are to be processed on a set of processing ...
In order to achieve the high performance, we need to have an efficient scheduling of a parallelprogr...
AbstractIn the classical scheduling theory it is widely assumed that any task requires for its proce...
Real-time task scheduling problems are generally considered to be NP-hard problems. Therefore it is ...
Efficient multiprocessor task scheduling is a long-studied and difficult problem that continues to b...
The multiprocessor task graph scheduling problem has been extensively studied asacademic optimizatio...
Scheduling problem in multiprocessor, parallel and distributed systems are placed in NP-hard problem...
Obtaining an optimal schedule for a set of precedence-constrained tasks is a well-known NP-complete ...
Static scheduling of a program represented by a directed task graph on a multiprocessor system to mi...
Static scheduling of a program represented by a directed task graph on a multiprocessor system to mi...
Most of multiple criteria scheduling problems are NP-hard, so that exact procedures can only solve s...
The problem of scheduling tasks across distributed system has been approved to be NP-complete in its...
This paper presents two Tabu Search type algorithms for solving the multiprocessor scheduling proble...
Abstract. The problem of multiprocessor scheduling consists in finding a schedule for a general task...
In the multiprocessor open shop scheduling problem, jobs are to be processed on a set of processing ...
In the multiprocessor open shop scheduling problem, jobs are to be processed on a set of processing ...
In order to achieve the high performance, we need to have an efficient scheduling of a parallelprogr...
AbstractIn the classical scheduling theory it is widely assumed that any task requires for its proce...
Real-time task scheduling problems are generally considered to be NP-hard problems. Therefore it is ...
Efficient multiprocessor task scheduling is a long-studied and difficult problem that continues to b...
The multiprocessor task graph scheduling problem has been extensively studied asacademic optimizatio...
Scheduling problem in multiprocessor, parallel and distributed systems are placed in NP-hard problem...
Obtaining an optimal schedule for a set of precedence-constrained tasks is a well-known NP-complete ...
Static scheduling of a program represented by a directed task graph on a multiprocessor system to mi...
Static scheduling of a program represented by a directed task graph on a multiprocessor system to mi...
Most of multiple criteria scheduling problems are NP-hard, so that exact procedures can only solve s...
The problem of scheduling tasks across distributed system has been approved to be NP-complete in its...