Title :
An Almost-Optimal Algorithm for the Assembly Line Scheduling Problem
Author :
Kaufman, Marc T.
Author_Institution :
Digital Systems Laboratory, Stanford University
Abstract :
This paper considers a solution to the multiprocessor scheduling problem for the case where the ordering relation between tasks can be represented as a tree. Assume that we have n identical processors, and a number of tasks to perform. Each task Tirequires an amount of time μito complete, 0 < μi≤ k, so that k is an upper bound on task time. Tasks are indivisible, so that a processor once assigned must remain assigned until the task completes (no preemption). Then the "longest path" scheduling method is almost-optimal in the following sense.
Keywords :
Assembly line problem, multiprocessing, optimal scheduling, parallel processing, tree graphs.; Arithmetic; Assembly; Contracts; Digital systems; Parallel processing; Processor scheduling; Real time systems; Scheduling algorithm; Tree graphs; Upper bound; Assembly line problem, multiprocessing, optimal scheduling, parallel processing, tree graphs.;
Journal_Title :
Computers, IEEE Transactions on
DOI :
10.1109/T-C.1974.223825
