The complexity of flowshop and jobshop scheduling
MR Garey, DS Johnson, R Sethi - Mathematics of operations …, 1976 - pubsonline.informs.org
MR Garey, DS Johnson, R Sethi
Mathematics of operations research, 1976•pubsonline.informs.orgNP-complete problems form an extensive equivalence class of combinatorial problems for
which no nonenumerative algorithms are known. Our first result shows that determining a
shortest-length schedule in an m-machine flowshop is NP-complete for m≥ 3.(For m= 2,
there is an efficient algorithm for finding such schedules.) The second result shows that
determining a minimum mean-flow-time schedule in an m-machine flowshop is NP-complete
for every m≥ 2. Finally we show that the shortest-length schedule problem for an m …
which no nonenumerative algorithms are known. Our first result shows that determining a
shortest-length schedule in an m-machine flowshop is NP-complete for m≥ 3.(For m= 2,
there is an efficient algorithm for finding such schedules.) The second result shows that
determining a minimum mean-flow-time schedule in an m-machine flowshop is NP-complete
for every m≥ 2. Finally we show that the shortest-length schedule problem for an m …
NP-complete problems form an extensive equivalence class of combinatorial problems for which no nonenumerative algorithms are known. Our first result shows that determining a shortest-length schedule in an m-machine flowshop is NP-complete for m ≥ 3. (For m = 2, there is an efficient algorithm for finding such schedules.) The second result shows that determining a minimum mean-flow-time schedule in an m-machine flowshop is NP-complete for every m ≥ 2. Finally we show that the shortest-length schedule problem for an m-machine jobshop is NP-complete for every m ≥ 2. Our results are strong in that they hold whether the problem size is measured by number of tasks, number of bits required to express the task lengths, or by the sum of the task lengths.
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