AbstractThe problem of scheduling a set of n unit execution time (UET) tasks subject to precedence constraints on m identical parallel processors is known to be NP-hard in the strong sense. However, polynomial time algorithms exist for some classes of precedence graphs. In this paper, we consider a class of divide-and-conquer graphs that naturally models the execution of the recursive control abstraction of divide-and-conquer algorithms. We prove that the Highest Level First (HLF) strategy minimizes the schedule length for this class, thus settling a conjecture of Rayward-Smith and Clark
The final publication is available at link.springer.comPeer ReviewedPostprint (author's final draft
This paper presents a distributed algorithm for the partial precedence constrained scheduling proble...
We consider the classical problem of scheduling n tasks with given processing time on m identical ...
The scheduling of task graphs on two identical processors is considered. It is assumed that tasks ha...
We present a polynomial time algorithm for precedence-constrained scheduling problems in which the t...
AbstractWe present a polynomial time algorithm for precedence-constrained scheduling problems in whi...
: Problems with unit execution time (UET) tasks and two identical parallel processors have received ...
AbstractThe scheduling of task graphs on two identical processors is considered. It is assumed that ...
Problems with unit execution time (UET) tasks and two identical parallel processors have received a ...
We consider the problem of scheduling unit-length jobs on identical machines subject to precedence c...
The main problem studied in this thesis is that of parallel machine scheduling with precedence const...
This paper improves lower bounds on the minimum number of processors and minimum time to execute a g...
This paper improves lower bounds on the minimum number of processors and minimum time to execute a g...
Consider a set of n jobs to be processed on a set of μ unrelated parallel machines subject to preced...
We show a close connection between structural hardness for k-partite graphs and tight inapproximabil...
The final publication is available at link.springer.comPeer ReviewedPostprint (author's final draft
This paper presents a distributed algorithm for the partial precedence constrained scheduling proble...
We consider the classical problem of scheduling n tasks with given processing time on m identical ...
The scheduling of task graphs on two identical processors is considered. It is assumed that tasks ha...
We present a polynomial time algorithm for precedence-constrained scheduling problems in which the t...
AbstractWe present a polynomial time algorithm for precedence-constrained scheduling problems in whi...
: Problems with unit execution time (UET) tasks and two identical parallel processors have received ...
AbstractThe scheduling of task graphs on two identical processors is considered. It is assumed that ...
Problems with unit execution time (UET) tasks and two identical parallel processors have received a ...
We consider the problem of scheduling unit-length jobs on identical machines subject to precedence c...
The main problem studied in this thesis is that of parallel machine scheduling with precedence const...
This paper improves lower bounds on the minimum number of processors and minimum time to execute a g...
This paper improves lower bounds on the minimum number of processors and minimum time to execute a g...
Consider a set of n jobs to be processed on a set of μ unrelated parallel machines subject to preced...
We show a close connection between structural hardness for k-partite graphs and tight inapproximabil...
The final publication is available at link.springer.comPeer ReviewedPostprint (author's final draft
This paper presents a distributed algorithm for the partial precedence constrained scheduling proble...
We consider the classical problem of scheduling n tasks with given processing time on m identical ...