Título : Efficient tool path computing for Industry 5.0: Application to turning lathe machining |
Autor : Migallón-Gomis, Héctor Jimeno-Morenilla, Antonio Duta-Costache, Eduard Sánchez-Romero, José Luis |
Editor : Elsevier |
Departamento: Departamentos de la UMH::Ingeniería de Computadores |
Fecha de publicación: 2026 |
URI : https://hdl.handle.net/11000/40181 |
Resumen :
This paper presents an efficient approach to toolpath generation tailored to the needs of Industry 5.0,
with a focus on turning lathe machining. The study addresses the challenge of rapidly and accurately
generating helical toolpaths in personalized manufacturing, where traditional sequential methods often become
computational bottlenecks. To overcome this limitation, we propose efficient parallel implementations of the
Virtual Digitizing (VD) algorithm, specifically designed to accelerate the computation of machining trajectories
on both multicore and manycore architectures. The multicore implementation achieves notable speedups,
especially when execution is properly tuned. The manycore strategy explores both asynchronous (coarsegrained)
and synchronous (fine-grained) execution models. In the asynchronous method, independent trajectory
computations are assigned to separate CUDA threads, whereas the synchronous method further parallelizes the
internal processing of each trajectory point, providing finer computational granularity. Experimental evaluations
conducted on authentic industrial shoe last models reveal notable gains in computational efficiency. The
manycore implementation achieves up to 70𝑥 acceleration on low-end GPUs, over 80𝑥 on high-range devices
and over 270𝑥 on state-of-the-art GPU devices when compared to their respective CPU-based computations.
Although the synchronous method introduces additional complexity, it delivers the best performance on
powerful GPU platforms, whereas the asynchronous method is better suited for resource-constrained systems.
Therefore, the study concludes that the optimal parallelization strategy depends on the available hardware.
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Palabras clave/Materias: industry 5.0 customized manufacturing real time toolpath generation parallel computing multicore processing manycore processing |
Área de conocimiento : CDU: Generalidades.: Ciencia y tecnología de los ordenadores. Informática. |
Tipo de documento : info:eu-repo/semantics/article |
Derechos de acceso: info:eu-repo/semantics/openAccess Attribution-NonCommercial-NoDerivatives 4.0 Internacional |
DOI : https://doi.org/10.1016/j.array.2026.100701 |
Publicado en: Array - Vol. 29 (2026) |
Aparece en las colecciones: Artículos Ingeniería de computadores
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