smesh/doc/examples/creating_parallel_mesh.py

# contains function to compute a mesh in parallel
import salome

salome.salome_init()
import salome_notebook
notebook = salome_notebook.NoteBook()

###
### GEOM component
###

import GEOM
from salome.geom import geomBuilder
from salome.smesh import smeshBuilder
import SALOMEDS

import numpy as np

geompy = geomBuilder.New()


nbox = 2
boxsize = 100
offset = 0
# Create 3D faces
boxes = []
# First creating all the boxes
for i in range(nbox):
    for j in range(nbox):
        for k in range(nbox):

            x_orig = i*(boxsize+offset)
            y_orig = j*(boxsize+offset)
            z_orig = k*(boxsize+offset)

            tmp_box = geompy.MakeBoxDXDYDZ(boxsize, boxsize, boxsize)

            if not i == j == k == 0:
                box = geompy.MakeTranslation(tmp_box, x_orig,
                                             y_orig, z_orig)
            else:
                box = tmp_box

            geompy.addToStudy(box, 'box_{}:{}:{}'.format(i, j, k))

            boxes.append(box)

# Create fuse of all boxes
all_boxes = geompy.MakeCompound(boxes)
geompy.addToStudy(all_boxes, 'Compound_1')

# Removing duplicates faces and edges
all_boxes = geompy.MakeGlueFaces(all_boxes, 1e-07)
geompy.addToStudy(all_boxes, 'Glued_Faces_1')

rubik_cube = geompy.MakeGlueEdges(all_boxes, 1e-07)
geompy.addToStudy(rubik_cube, 'rubik_cube')


smesh = smeshBuilder.New()
print("Creating Parallel Mesh")
par_mesh = smesh.ParallelMesh(rubik_cube, name="par_mesh")

print("Creating hypoehtesis for netgen")
NETGEN_3D_Parameters_1 = smesh.CreateHypothesisByAverageLength( 'NETGEN_Parameters',
                                         'NETGENEngine', 34.641, 0 )
print("Adding hypothesis")
par_mesh.AddGlobalHypothesis(NETGEN_3D_Parameters_1)

print("Setting parallelism method")
par_mesh.SetParallelismMethod(smeshBuilder.MULTITHREAD)

print("Setting parallelism options")
param = par_mesh.GetParallelismSettings()
param.SetNbThreads(6)

print("Starting parallel compute")
is_done = par_mesh.Compute()
if not is_done:
    raise Exception("Error when computing Mesh")

print("  Tetrahedron: ",  par_mesh.NbTetras())
print("  Triangle: ", par_mesh.NbTriangles())
print("  edge: ", par_mesh.NbEdges())

assert  par_mesh.NbTetras() > 0
assert  par_mesh.NbTriangles() > 0
assert  par_mesh.NbEdges() > 0
Adding parallel meshing (NETGEN only, Linux Only) See example test/SMESH_ParallelCompute.py for an example 2022-10-21 18:03:25 +05:00			`# contains function to compute a mesh in parallel`
			`import salome`

			`salome.salome_init()`
			`import salome_notebook`
			`notebook = salome_notebook.NoteBook()`

			`###`
			`### GEOM component`
			`###`

			`import GEOM`
			`from salome.geom import geomBuilder`
			`from salome.smesh import smeshBuilder`
			`import SALOMEDS`

			`import numpy as np`

			`geompy = geomBuilder.New()`


Adding Multinode method for smesh parallelism (with windows fixed) Adding walltime for multinode + keeping temporary folder activated with environement variable bos #37471: fix compilation on Windows operating system. Note that SMESH_Gen::send_mesh current implementation is vetoed on windows OS (system call) 2023-03-09 20:32:55 +05:00			`nbox = 2`
			`boxsize = 100`
			`offset = 0`
			`# Create 3D faces`
			`boxes = []`
			`# First creating all the boxes`
			`for i in range(nbox):`
			`for j in range(nbox):`
			`for k in range(nbox):`

			`x_orig = i*(boxsize+offset)`
			`y_orig = j*(boxsize+offset)`
			`z_orig = k*(boxsize+offset)`

			`tmp_box = geompy.MakeBoxDXDYDZ(boxsize, boxsize, boxsize)`

			`if not i == j == k == 0:`
			`box = geompy.MakeTranslation(tmp_box, x_orig,`
			`y_orig, z_orig)`
			`else:`
			`box = tmp_box`
Adding Multinode method for smesh parallelism + cleanup and doc 2023-03-09 20:32:55 +05:00
Adding Multinode method for smesh parallelism (with windows fixed) Adding walltime for multinode + keeping temporary folder activated with environement variable bos #37471: fix compilation on Windows operating system. Note that SMESH_Gen::send_mesh current implementation is vetoed on windows OS (system call) 2023-03-09 20:32:55 +05:00			`geompy.addToStudy(box, 'box_{}:{}:{}'.format(i, j, k))`
Adding Multinode method for smesh parallelism + cleanup and doc 2023-03-09 20:32:55 +05:00
Adding Multinode method for smesh parallelism (with windows fixed) Adding walltime for multinode + keeping temporary folder activated with environement variable bos #37471: fix compilation on Windows operating system. Note that SMESH_Gen::send_mesh current implementation is vetoed on windows OS (system call) 2023-03-09 20:32:55 +05:00			`boxes.append(box)`

			`# Create fuse of all boxes`
			`all_boxes = geompy.MakeCompound(boxes)`
			`geompy.addToStudy(all_boxes, 'Compound_1')`

			`# Removing duplicates faces and edges`
			`all_boxes = geompy.MakeGlueFaces(all_boxes, 1e-07)`
			`geompy.addToStudy(all_boxes, 'Glued_Faces_1')`

			`rubik_cube = geompy.MakeGlueEdges(all_boxes, 1e-07)`
Modifications to properly handle parallel compute for 2D 2024-01-02 18:58:58 +05:00			`geompy.addToStudy(rubik_cube, 'rubik_cube')`
Adding Multinode method for smesh parallelism (with windows fixed) Adding walltime for multinode + keeping temporary folder activated with environement variable bos #37471: fix compilation on Windows operating system. Note that SMESH_Gen::send_mesh current implementation is vetoed on windows OS (system call) 2023-03-09 20:32:55 +05:00

			`smesh = smeshBuilder.New()`
			`print("Creating Parallel Mesh")`
			`par_mesh = smesh.ParallelMesh(rubik_cube, name="par_mesh")`

			`print("Creating hypoehtesis for netgen")`
			`NETGEN_3D_Parameters_1 = smesh.CreateHypothesisByAverageLength( 'NETGEN_Parameters',`
			`'NETGENEngine', 34.641, 0 )`
			`print("Adding hypothesis")`
			`par_mesh.AddGlobalHypothesis(NETGEN_3D_Parameters_1)`

			`print("Setting parallelism method")`
			`par_mesh.SetParallelismMethod(smeshBuilder.MULTITHREAD)`

			`print("Setting parallelism options")`
			`param = par_mesh.GetParallelismSettings()`
			`param.SetNbThreads(6)`

			`print("Starting parallel compute")`
			`is_done = par_mesh.Compute()`
			`if not is_done:`
			`raise Exception("Error when computing Mesh")`

			`print(" Tetrahedron: ", par_mesh.NbTetras())`
			`print(" Triangle: ", par_mesh.NbTriangles())`
			`print(" edge: ", par_mesh.NbEdges())`

			`assert par_mesh.NbTetras() > 0`
			`assert par_mesh.NbTriangles() > 0`
			`assert par_mesh.NbEdges() > 0`