Author:
Ma’arif F,Gao Z,Li F,Ghifarsyam H U
Abstract
Abstract
The discrete element method (DEM) is widely used to predict the motion over time of many particles, such as molecules or soil particles. The computational demands for DEM simulations are significant. Therefore, improved performance could address a spectrum of scientific and engineering applications. This paper proposes an accelerated implementation for the DEM using Advanced of Reduced Instruction Set Computing Machine. The method used in this research is to compare the results of the ARM versus x86 analysis. The case study refers to the investigation conducted by V. Ćmilauer using YADE programming. The results showed that the performance of ARM as a microprocessor was capable of DEM analysis. Furthermore, because the arm stands alone as a system, it runs both Ubuntu and Windows operating systems without affecting each other’s performance and capabilities. Finally, the study will focus on ARM processing as future works.
Reference22 articles.
1. Discrete Element Method to Simulate The Elastic Behavior of 3D Heterogeneous Continuous Media;Leclerc;Int’l J. of Solids and Struc.,2017
2. Discrete Element Method Simulations of Fracture In Concrete Under Uniaxial Compression Based on Its Real Internal Structure;Suchorzewski;Int’l J. of Damage Mech,2017
3. A Review of The Discrete Element Method Application on Concrete Materials;Ma’arif,2020
4. Modelling of Concrete Behaviour in Uniaxial Compression and Tension with DEM;Nitka;Granular Matter,2015
5. Application of the Discrete Element Method for The Simulation of Size Effects in Concrete Samples;Sinae;Int’l J. of Solids and Struc.,2017
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