kevinmoerman, 1 month ago to opensource So satisfying to finally reach 100% code coverage for testing! Hoping to publish paper on Comodo by the end of the year. If you are into #ComputationalMechanics #Biomechanics #GeometryProcessing #FiniteElementAnalysis help to contribute to Comodo.jl and FEBio.jl and you'll be one of the authors! https://github.com/COMODO-research/Comodo.jl #julialang #opensource #ContinuousIntegration #CodeCov A screenshot of a GitHub README showing GitHub badges which includes a badge for "code coverage" by testing. This code coverage badge, showing 100% coverage, is pulsating in this animation to draw attention to it.
So satisfying to finally reach 100% code coverage for testing!
Hoping to publish paper on Comodo by the end of the year. If you are into #ComputationalMechanics #Biomechanics #GeometryProcessing #FiniteElementAnalysis help to contribute to Comodo.jl and FEBio.jl and you'll be one of the authors!
https://github.com/COMODO-research/Comodo.jl
#julialang #opensource #ContinuousIntegration #CodeCov
A screenshot of a GitHub README showing GitHub badges which includes a badge for "code coverage" by testing. This code coverage badge, showing 100% coverage, is pulsating in this animation to draw attention to it.
jedbrown, 6 months ago to random Research associate/software engineer opening in computational mechanics at Bristol. This group is especially interested in functional large-deformation and inverse shape design with applications including wind turbines. https://www.bristol.ac.uk/jobs/find/details/?jobId=327398&jobTitle=Research%20Associate%20%2F%20Senior%20Research%20Associate%20in%20Computational%20Structural%20Mechanics%20and%20Software%20Development #jobs #FEA #ComputationalMechanics #RSE
Research associate/software engineer opening in computational mechanics at Bristol. This group is especially interested in functional large-deformation and inverse shape design with applications including wind turbines. https://www.bristol.ac.uk/jobs/find/details/?jobId=327398&jobTitle=Research%20Associate%20%2F%20Senior%20Research%20Associate%20in%20Computational%20Structural%20Mechanics%20and%20Software%20Development #jobs #FEA #ComputationalMechanics #RSE
villares, 8 months ago to python Portuguese #Processing #Python #py5
#Processing #Python #py5
adtzlr, 8 months ago Portuguese @villares Great! In FElupe, I eliminated one loop for performance reasons: First, I create a line-mesh and then expand it to a rectangle. import felupe as fem mesh = fem.Rectangle(a=(0, 0), b=(100, 100), n=(6, 6)) Here you'll find the rectangle-function https://github.com/adtzlr/felupe/blob/4369e0a3e2b5cdcc78930e11bfb4b7c8edd3cf93/src/felupe/mesh/_line_rectangle_cube.py#L33-L47 and here the expand-tool: https://github.com/adtzlr/felupe/blob/4369e0a3e2b5cdcc78930e11bfb4b7c8edd3cf93/src/felupe/mesh/_tools.py#L27-L87 #python #scientificcomputing #computationalmechanics #meshing #opensource
@villares Great! In FElupe, I eliminated one loop for performance reasons: First, I create a line-mesh and then expand it to a rectangle.
import felupe as fem
mesh = fem.Rectangle(a=(0, 0), b=(100, 100), n=(6, 6))
Here you'll find the rectangle-function
https://github.com/adtzlr/felupe/blob/4369e0a3e2b5cdcc78930e11bfb4b7c8edd3cf93/src/felupe/mesh/_line_rectangle_cube.py#L33-L47
and here the expand-tool:
https://github.com/adtzlr/felupe/blob/4369e0a3e2b5cdcc78930e11bfb4b7c8edd3cf93/src/felupe/mesh/_tools.py#L27-L87
#python #scientificcomputing #computationalmechanics #meshing #opensource