Warehouse optimization using a trapped-ion quantum processor

Warehouse optimization using a trapped-ion quantum processor

Warehouse optimization stands as a critical component for enhancing operational efficiency within the industrial sector. By strategically streamlining warehouse operations, organizations can achieve significant reductions in logistical costs such as the necessary footprint or traveled path, and mark...

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Veröffentlicht in:arXiv.org 2024-11
Hauptverfasser: Ricardo, Alexandre C, Gabriel P L M Fernandes, Valério, Amanda G, Tiago de S Farias, Matheus da S Fonseca, Carpio, Nicolás A C, Bezerra, Paulo C C, Maier, Christine, Ulmanis, Juris, Monz, Thomas, Villas-Boas, Celso J
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Computing time
Critical components
Microprocessors
Optimization
Quantum computers
Warehouses
Workflow
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Zusammenfassung:Warehouse optimization stands as a critical component for enhancing operational efficiency within the industrial sector. By strategically streamlining warehouse operations, organizations can achieve significant reductions in logistical costs such as the necessary footprint or traveled path, and markedly improve overall workflow efficiency including retrieval times or storage time. Despite the availability of numerous algorithms designed to identify optimal solutions for such optimization challenges, certain scenarios demand computational resources that exceed the capacities of conventional computing systems. In this context, we adapt a formulation of a warehouse optimization problem specifically tailored as a binary optimization problem and implement it in a trapped-ion quantum computer.
ISSN:2331-8422