} }, "families": "wall", # --------------------------- # Grid Parameters # --------------------------- "N": NpExtrude, "s0": yWall, "marchDist": marchDist, # --------------------------- # Pseudo Grid Parameters # --------------------------- "ps0": -1, "pGridRatio": -1, "cMax": 1.0, # --------------------------- # Smoothing parameters # --------------------------- "epsE": 2.0, "epsI": 4.0, "theta": 2.0, "volCoef": 0.20, "volBlend": 0.0005, "volSmoothIter": 20, } hyp = pyHyp(options=options) hyp.run() # hyp.writeCGNS('volumeMesh.cgns') hyp.writePlot3D("volumeMesh.xyz")
# --------------------------- 'epsE': 1.0, 'epsI': 2.0, 'theta': 3.0, 'volCoef': .2, 'volBlend': 0.0005, 'volSmoothIter': 20, # --------------------------- # Solution Parameters # --------------------------- 'kspRelTol': 1e-10, 'kspMaxIts': 1500, 'kspSubspaceSize': 50 } hyp = pyHyp(options=options_front) hyp.run() hyp.writeCGNS('wing_vol_front.cgns') #rst front_end # Back wing vol mesh options_back = { # --------------------------- # General options # --------------------------- 'inputFile': 'wing.cgns', 'fileType': 'cgns', 'unattachedEdgesAreSymmetry': True, 'outerFaceBC': 'overset', 'autoConnect': 'True',