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On the best search strategy in parallel branch‐and‐bound:Best‐First Search versus Lazy Depth‐First Search

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  • J. Clausen
  • M. Perregaard

Abstract

The Best‐First Search strategy (BeFS) and the Depth‐First Search strategy (DFS) areregarded as the prime strategies when solving combinatorial optimization problems by parallelBranch‐and‐Bound (B&B) ‐ BeFS because of efficiency with respect to the number of nodesexplored, and DFS for reasons of space efficiency. We investigate the efficiency of both strategies experimentally, and two versions of eachstrategy are tested: In the first, a B&B iteration for a node consists of bounding followed bybranching on the node if necessary. For the second, the order is reversed ‐ first branchingtakes place, and then each child of the node is bounded and possibly fathomed. The first iscalled lazy, the second eager. The strategies are tested on the Quadratic Assignment Problem and the Job Shop SchedulingProblem. We use parallel codes developed specifically for the solution of the problem inquestion, and hence containing different heuristic rules and tests to speed up computation.In both cases, we start with an initial solution close to but not equal to the optimal solution. Surprisingly, the BeFS‐based strategies turn out to be inferior to the DFS‐based strategies,both in terms of running times and in terms of bound calculations performed. Furthermore,when tested in a sequential setting, DFS turns out to be still superior because pruning andevaluation tests are more effective in DFS due to the presence of better incumbents. Copyright Kluwer Academic Publishers 1999

Suggested Citation

  • J. Clausen & M. Perregaard, 1999. "On the best search strategy in parallel branch‐and‐bound:Best‐First Search versus Lazy Depth‐First Search," Annals of Operations Research, Springer, vol. 90(0), pages 1-17, January.
    • Handle: RePEc:spr:annopr:v:90:y:1999:i:0:p:1-17:10.1023/a:1018952429396
    DOI: 10.1023/A:1018952429396
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    Cited by:

    1. Van den Broeke, Maud & Boute, Robert & Cardoen, Brecht & Samii, Behzad, 2017. "An efficient solution method to design the cost-minimizing platform portfolio," European Journal of Operational Research, Elsevier, vol. 259(1), pages 236-250.
    2. Shouvanik Chakrabarti & Pierre Minssen & Romina Yalovetzky & Marco Pistoia, 2022. "Universal Quantum Speedup for Branch-and-Bound, Branch-and-Cut, and Tree-Search Algorithms," Papers 2210.03210, arXiv.org.
    3. Bettinelli, Andrea & Santini, Alberto & Vigo, Daniele, 2017. "A real-time conflict solution algorithm for the train rescheduling problem," Transportation Research Part B: Methodological, Elsevier, vol. 106(C), pages 237-265.
    4. Zhe Zhang & Xiaoling Song & Huijun Huang & Yong Yin & Benjamin Lev, 2022. "Scheduling problem in seru production system considering DeJong’s learning effect and job splitting," Annals of Operations Research, Springer, vol. 312(2), pages 1119-1141, May.

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