Parallel programming in OpenMP
Parallel programming in OpenMP
A parallelized meshfree method with boundary enrichment for large-scale CFD
Journal of Computational Physics
Review: Meshless methods: A review and computer implementation aspects
Mathematics and Computers in Simulation
Computational complexity and parallelization of the meshless local Petrov-Galerkin method
Computers and Structures
Meshfree explicit local radial basis function collocation method for diffusion problems
Computers & Mathematics with Applications
Anatomy-based face reconstruction for animation using multi-layer deformation
Journal of Visual Languages and Computing
Programming Massively Parallel Processors: A Hands-on Approach
Programming Massively Parallel Processors: A Hands-on Approach
An Introduction to Meshfree Methods and Their Programming
An Introduction to Meshfree Methods and Their Programming
An Introduction to Parallel Programming
An Introduction to Parallel Programming
Direct Meshless Local Petrov-Galerkin (DMLPG) method: A generalized MLS approximation
Applied Numerical Mathematics
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The performance of the parallel implementation of the local meshless numerical method in solving system of coupled partial differential equations is explored. Presented numerical approach makes the computation convenient for parallel implementation using OpenMP based parallelisation. The numerical experiments are performed on the de Vahl Davis natural convection case, with superlinear computational speedup regime identified. The phenomenon is further investigated through measurements of the central processing unit cache hit rates. It is demonstrated that the accumulation of L3 caches governs the superlinear speedup. Considering the presented analyses, basic rules for effective computation strategy regarding the multicore computations are suggested.