In this paper, we study a scheduling problem with unreliable jobs. Each job is characterized by a success probability and by a reward earned in case of success. In case of failure, the job blocks the machine that is processing it, and the jobs subsequently sequenced on that machine cannot be performed. The objective function is to maximize the expected reward. We address the problem in the case of two parallel machines, and analyze the worst-case performance of a simple list scheduling algorithm. We show that the algorithm provides an approximation ratio of (2+2)/4~0,853, and that the bound is tight. We also provide a complexity result concerning the related Total Weighted Discounted Completion Time Problem on parallel machines
In this paper, we provide a new class of randomized approximation algorithms for scheduling problems...
AbstractA fixed number n of jobs has to be selected from a set of possible jobs; then the chosen job...
AbstractWe investigate the problems of scheduling n weighted jobs to m parallel machines with availa...
In this paper, we study a scheduling problem with unreliable jobs. Each job is characterized by a su...
This paper addresses an allocation and sequencing problem motivated by an application in unsupervis...
We consider the NP-hard problem of scheduling parallel jobs with release dates on identical parallel...
AbstractIn a recent paper [Discrete Appl. Math. 130 (2003) 449–467], Yang, Ye, and Zhang investigate...
In this paper we analyze the worst-case performance of a greedy algorithm called Largest-Z-ratio-Fir...
AbstractWe consider several parallel-machine scheduling problems in which the processing time of a j...
We consider the NP-hard problem of scheduling parallel jobs with release dates on identical parallel...
AbstractWe consider parallel-machine scheduling problems in which the processing time of a job is a ...
We consider the parallel-machine scheduling problem in which the machines have availability constrai...
AbstractWe consider the problem of scheduling n independent jobs on two identical parallel machines,...
We consider the problem of sequencing m copies of unreliable jobs (i.e., jobs that have a certain pr...
This paper focuses on the resilient scheduling of parallel jobs on highperformance computing (HPC) p...
In this paper, we provide a new class of randomized approximation algorithms for scheduling problems...
AbstractA fixed number n of jobs has to be selected from a set of possible jobs; then the chosen job...
AbstractWe investigate the problems of scheduling n weighted jobs to m parallel machines with availa...
In this paper, we study a scheduling problem with unreliable jobs. Each job is characterized by a su...
This paper addresses an allocation and sequencing problem motivated by an application in unsupervis...
We consider the NP-hard problem of scheduling parallel jobs with release dates on identical parallel...
AbstractIn a recent paper [Discrete Appl. Math. 130 (2003) 449–467], Yang, Ye, and Zhang investigate...
In this paper we analyze the worst-case performance of a greedy algorithm called Largest-Z-ratio-Fir...
AbstractWe consider several parallel-machine scheduling problems in which the processing time of a j...
We consider the NP-hard problem of scheduling parallel jobs with release dates on identical parallel...
AbstractWe consider parallel-machine scheduling problems in which the processing time of a job is a ...
We consider the parallel-machine scheduling problem in which the machines have availability constrai...
AbstractWe consider the problem of scheduling n independent jobs on two identical parallel machines,...
We consider the problem of sequencing m copies of unreliable jobs (i.e., jobs that have a certain pr...
This paper focuses on the resilient scheduling of parallel jobs on highperformance computing (HPC) p...
In this paper, we provide a new class of randomized approximation algorithms for scheduling problems...
AbstractA fixed number n of jobs has to be selected from a set of possible jobs; then the chosen job...
AbstractWe investigate the problems of scheduling n weighted jobs to m parallel machines with availa...