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Message #29275
Re: [Question #706306]: How can interact spheres with the moving facet when using MPI?
Question #706306 on Yade changed:
https://answers.launchpad.net/yade/+question/706306
Description changed to:
Hello, everyone. I always appreciate your kind support.
I am trying to apply overburden pressure using a downward-moving topcap
(or facet) in an MPI environment. However, the moving facet does not
interact with the spheres (although it does interact when using O.run).
I have found a previous related question
(https://answers.launchpad.net/yade/+question/700164) and an example
(https://gitlab.com/yade-
dev/trunk/-/tree/master/examples/DEM2020Benchmark), but I am unable to
figure out the correct way to make the facet interact with the spheres.
Could you please let me know the correct way to achieve this?
Thank you in advance.
Regards.
Ubuntu (22.10)
YADE (2022.01a)
=== MWE ===
from yade import pack, plot
from yade import mpy as mp
O.materials.append(FrictMat(young=20e6, poisson=0.17, density=2700, frictionAngle=0.523, label='frictmat'))
O.materials.append(FrictMat(young=20e6, poisson = 0.5, frictionAngle = 0.523, density =2600, label='wallMat'))
O.bodies.append(geom.facetBox((0.0, 0.0, 0.0), (.03, .03, .06), wallMask=31, material='wallMat'))
#radius_mean = .002
# create topcap
width = 0.06
height = 0.17
dx = width/10.0
dy = width/10.0
p5t = (-width/2-dx,-width/2-dy,0.06)
p6t = (-width/2-dx,width/2+dy,0.06)
p7t = (width/2+dx,width/2+dy,0.06)
p8t = (width/2+dx,-width/2-dy,0.06)
topcap1 = utils.facet(vertices=[p5t,p6t,p7t], wire=True, highlight=False)
topcap2 = utils.facet(vertices=[p5t,p8t,p7t], wire=True, highlight=False)
O.bodies.append(topcap1)
O.bodies.append(topcap2)
O.bodies[10].state.vel=(0.0,0.0,-0.5)
O.bodies[11].state.vel=(0.0,0.0,-0.5)
mn,mx=Vector3(-.03,-.03,-.06),Vector3(.03,.03,.05)
pred = pack.inAlignedBox(mn,mx)
O.bodies.append(pack.regularHexa(pred,radius=0.002,gap=0, material='frictmat'))
O.engines = [
ForceResetter(),
InsertionSortCollider([Bo1_Sphere_Aabb(), Bo1_Facet_Aabb()], label='collider'), # always add label
InteractionLoop(
[Ig2_Sphere_Sphere_ScGeom(), Ig2_Facet_Sphere_ScGeom()], # collision geometry
[Ip2_FrictMat_FrictMat_FrictPhys()], # collision "physics"
[Law2_ScGeom_FrictPhys_CundallStrack()] # contact law -- apply forces
),
NewtonIntegrator(gravity=(0, 0, -9.81), damping=0.08),
# VTKRecorder(fileName='mpi/3d-vtk-', recorders=['spheres', 'intr', 'facets', 'colors'], parallelMode=True, iterPeriod=100), #use .pvtu to open spheres, .pvtp for ints, and .vtu for boxes.
PyRunner(command='addData()', iterPeriod=1000),
PyRunner(command='control_run()', iterPeriod=100),
DomainLimiter(lo=(-.1,-.1,-.20), hi=(.1,.1,.20), iterPeriod = 100, label = 'Domain') # destroy balls outside domain in every 100 steps
]
def addData():
for b in O.bodies:
b.shape.color=scalarOnColorScale(b.state.vel.norm())
def control_run():
print ("Current step is ", O.iter, end='\r')
collider.verletDist = -.5
O.dt=0.5*PWaveTimeStep()
O.resetTime()
print("Number of bodies = ", len(O.bodies))
# w/o MPI
#O.run(nSteps= 10000, wait=False)
# MPI
mp.VERBOSE_OUTPUT = False
mp.REALLOCATE_FREQUENCY = 5
mp.ACCUMULATE_FORCES = False
mp.MAX_RANK_OUTPUT = 4
mp.DOMAIN_DECOMPOSITION = True
mp.MERGE_W_INTERACTIONS = False
mp.mpirun(nSteps=10000, np = 5, withMerge=True) # interactive run, numThreads is the number of workers to be initialized, see below for withMerge explanation.
mp.mergeScene()
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