* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * Program: LaGriT V3.101 Linux m64 * * * date_compile: 2013/04/25 RH gf4.5 * * * Run Time: 2013/Jun 12 13:38:32 * * * Manual: http://lagrit.lanl.gov * * * * * * * * * * * * * * * * * * * * * * * * * * * * * -----oOo----- LaGriT V3 LACC-2012-084 LaGriT Copyright: This program was prepared by Los Alamos National Security, LLC at Los Alamos National Laboratory (LANL) under contract No. DE-AC52-06NA25396 with the U.S. Department of Energy (DOE). All rights in the program are reserved by the DOE and Los Alamos National Security, LLC. Permission is granted to the public to copy and use this software without charge, provided that this Notice and any statement of authorship are reproduced on all copies. Neither the U.S. Government nor LANS makes any warranty, express or implied, or assumes any liability or responsibility for the use of this software. -----oOo----- Output log file: outx3dgen Command log file: logx3dgen # Creates a 3D 3D 3D ice wedge # read the outer polygon points (no elements) # connect points into flat shape of triangles cmo/create/mo///triplane read/avs/poly_sim1.inp/mo cmo/status/brief The current-mesh-object(CMO) is: mo 1 Mesh Object name: mo number of nodes = 12 number of elements = 0 dimensions geometry = 2 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 16000000 status = active finish triangulate/counterclockwise filter/1,0,0 FILTER:Use internal epsilonl value = 0.689511373455E-11 FILTER:Dudding 2 duplicate points. finish rmpoint/compress 2 points removed and 0 elements removed. The new point count is 10. The new element count is 10. finish resetpts/itp geniee finish finish cmo/setatt/mo/imt/1,0,0/1 10 values reset for attribute imt1 cmo/setatt/mo/itetclr/1,0,0/1 10 values reset for attribute itetclr resetpts/itp geniee finish dump/tmp_poly_tri1.gmv/mo dump/gmv/tmp_poly_tri1.gmv/mo cmo/modatt/-def-/-def-/ioflag/x finish finish # check triangulation quality epsilonl, epsilonaspect: 6.8951137E-12 3.2781159E-34 -------------------------------------------- elements with aspect ratio < .01: 0 elements with aspect ratio b/w .01 and .02: 0 elements with aspect ratio b/w .02 and .05: 0 elements with aspect ratio b/w .05 and .1 : 0 elements with aspect ratio b/w .1 and .2 : 0 elements with aspect ratio b/w .2 and .5 : 7 elements with aspect ratio b/w .5 and 1. : 3 min aspect ratio = 0.7242E-01 max aspect ratio = 0.3451E+00 epsilonvol: 2.1411281E-10 --------------------------------------- element volumes b/w 0.4222E+01 and 0.5399E+01: 1 element volumes b/w 0.5399E+01 and 0.6903E+01: 2 element volumes b/w 0.6903E+01 and 0.8826E+01: 1 element volumes b/w 0.8826E+01 and 0.1129E+02: 2 element volumes b/w 0.1129E+02 and 0.1443E+02: 4 min volume = 4.2222652E+00 max volume = 1.4430319E+01 ----------------------------------------------------------- 10 total elements evaluated. # read the inner polygon points (no elements) # connect points into flat shape of triangles cmo/create/mo_inner///triplane read/avs/poly_sim2.inp/mo_inner cmo/status/brief The current-mesh-object(CMO) is: mo_inner 1 Mesh Object name: mo number of nodes = 10 number of elements = 10 dimensions geometry = 2 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 16000000 status = inactive 2 Mesh Object name: mo_inner number of nodes = 5 number of elements = 0 dimensions geometry = 2 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 16000000 status = active finish triangulate/counterclockwise filter/1,0,0 FILTER:Use internal epsilonl value = 0.587343947993E-11 FILTER:Dudding 0 duplicate points. finish rmpoint/compress 0 points removed and 0 elements removed. The new point count is 5. The new element count is 3. finish resetpts/itp geniee finish finish cmo/setatt/mo_inner/imt/1,0,0/2 5 values reset for attribute imt1 cmo/setatt/mo_inner/itetclr/1,0,0/2 3 values reset for attribute itetclr resetpts/itp geniee finish dump/gmv/tmp_poly_tri2.gmv/mo_inner cmo/modatt/-def-/-def-/ioflag/x finish ############### CHECK tri surfs ############# # the number of triangles is related to number of poly points cmo select mo quality epsilonl, epsilonaspect: 6.8951137E-12 3.2781159E-34 -------------------------------------------- elements with aspect ratio < .01: 0 elements with aspect ratio b/w .01 and .02: 0 elements with aspect ratio b/w .02 and .05: 0 elements with aspect ratio b/w .05 and .1 : 0 elements with aspect ratio b/w .1 and .2 : 0 elements with aspect ratio b/w .2 and .5 : 7 elements with aspect ratio b/w .5 and 1. : 3 min aspect ratio = 0.7242E-01 max aspect ratio = 0.3451E+00 epsilonvol: 2.1411281E-10 --------------------------------------- element volumes b/w 0.4222E+01 and 0.5399E+01: 1 element volumes b/w 0.5399E+01 and 0.6903E+01: 2 element volumes b/w 0.6903E+01 and 0.8826E+01: 1 element volumes b/w 0.8826E+01 and 0.1129E+02: 2 element volumes b/w 0.1129E+02 and 0.1443E+02: 4 min volume = 4.2222652E+00 max volume = 1.4430319E+01 ----------------------------------------------------------- 10 total elements evaluated. cmo select mo_inner quality epsilonl, epsilonaspect: 5.8734395E-12 2.0261775E-34 -------------------------------------------- elements with aspect ratio < .01: 0 elements with aspect ratio b/w .01 and .02: 0 elements with aspect ratio b/w .02 and .05: 0 elements with aspect ratio b/w .05 and .1 : 0 elements with aspect ratio b/w .1 and .2 : 0 elements with aspect ratio b/w .2 and .5 : 0 elements with aspect ratio b/w .5 and 1. : 3 min aspect ratio = 0.5630E+00 max aspect ratio = 0.9936E+00 epsilonvol: 1.5536199E-10 --------------------------------------- element volumes b/w 0.5009E+02 and 0.5852E+02: 2 element volumes b/w 0.5852E+02 and 0.6836E+02: 0 element volumes b/w 0.6836E+02 and 0.7985E+02: 0 element volumes b/w 0.7985E+02 and 0.9328E+02: 0 element volumes b/w 0.9328E+02 and 0.1090E+03: 1 min volume = 5.0092104E+01 max volume = 1.0896749E+02 ----------------------------------------------------------- 3 total elements evaluated. # Both shapes should be within same area, 2nd poly inside cmo printatt mo -xyz- minmax ATTRIBUTE NAME MIN MAX DIFFERENCE LENGTH xic 5.917234400E+01 8.207864200E+01 2.290629800E+01 10 yic 9.783683000E+01 1.188029900E+02 2.096616000E+01 10 zic 0.000000000E+00 0.000000000E+00 0.000000000E+00 10 cmo printatt mo_inner -xyz- minmax ATTRIBUTE NAME MIN MAX DIFFERENCE LENGTH xic 6.083419082E+01 8.042809109E+01 1.959390028E+01 5 yic 9.961972392E+01 1.173895654E+02 1.776984144E+01 5 zic 0.000000000E+00 0.000000000E+00 0.000000000E+00 5 # Write merged poly shapes addmesh/merge/mo_merge/mo/mo_inner dump/gmv/tmp_poly.gmv/mo_merge cmo/modatt/-def-/-def-/ioflag/x finish # There should be 2 materials cmo/printatt/mo_merge/imt/minmax ATTRIBUTE NAME MIN MAX DIFFERENCE LENGTH imt1 1 2 1 15 cmo/printatt/mo_merge/itetclr/minmax ATTRIBUTE NAME MIN MAX DIFFERENCE LENGTH itetclr 1 2 1 13 ############################################# # Break big triangles into smaller for better distribution cmo select mo_merge massage/5/1.e-5/1.e-5/strictmergelength nodes in point set = 15 recon/0/0.10000000E-04/ RECON2D reconnection loop2d: 1 Recon2d: iteration number= 1 number of flips= 3 RECON: done. finish nodes in point set = 15 SGD: 0 total relaxations on point set of 15 indept. nodes. nodes in point set = 15 Face iteration, number of faces: 1 4 Face iteration, number of faces: 1 5 Face iteration, number of faces: 1 10 Face iteration, number of faces: 1 13 Face iteration, number of faces: 1 11 Face iteration, number of faces: 1 10 Face iteration, number of faces: 1 9 Face iteration, number of faces: 1 5 Face iteration, number of faces: 1 5 Face iteration, number of faces: 1 1 recon/0/0.10000000E-04/ RECON2D reconnection loop2d: 1 Recon2d: iteration number= 1 number of flips= 14 Recon2d: iteration number= 2 number of flips= 8 Recon2d: iteration number= 3 number of flips= 1 Recon2d: iteration number= 4 number of flips= 1 RECON: done. finish smooth/position/esug/1,0,0 SMOOTH: position option nodes in point set = 88 SMOOTH: Smooth 2D triangular mesh using ESUG Min. area BEFORE smoothing= 0.4570927E-01 Max. area BEFORE smoothing= 0.7019140E+01 Iteration= 1; root mean square error= 0.3244997E+00 Iteration= 2; root mean square error= 0.2075132E+00 Iteration= 3; root mean square error= 0.8743631E-01 Iteration= 4; root mean square error= 0.2796174E-01 Iteration= 5; root mean square error= 0.1709574E-01 Iteration= 6; root mean square error= 0.1667889E-01 Iteration= 7; root mean square error= 0.1812533E-01 Iteration= 8; root mean square error= 0.2068191E-01 Iteration= 9; root mean square error= 0.2462828E-01 Iteration= 10; root mean square error= 0.3157469E-01 Iteration= 11; root mean square error= 0.1959381E-01 Iteration= 12; root mean square error= 0.6441146E-02 Iteration= 13; root mean square error= 0.7710125E-03 Min. area AFTER smoothing= 0.2264608E+00 Max. area AFTER smoothing= 0.6949279E+01 recon 0 RECON2D reconnection loop2d: 1 Recon2d: iteration number= 1 number of flips= 6 RECON: done. smooth/position/esug/1,0,0 SMOOTH: position option nodes in point set = 88 SMOOTH: Smooth 2D triangular mesh using ESUG Min. area BEFORE smoothing= 0.2264608E+00 Max. area BEFORE smoothing= 0.7549180E+01 Iteration= 1; root mean square error= 0.1901992E+00 Iteration= 2; root mean square error= 0.7419153E-01 Iteration= 3; root mean square error= 0.1257102E-01 Iteration= 4; root mean square error= 0.3843982E-02 Iteration= 5; root mean square error= 0.1453019E-02 Min. area AFTER smoothing= 0.2261678E+00 Max. area AFTER smoothing= 0.6954236E+01 recon 0 RECON2D reconnection loop2d: 1 RECON: done. smooth/position/esug/1,0,0 SMOOTH: position option nodes in point set = 88 SMOOTH: Smooth 2D triangular mesh using ESUG Min. area BEFORE smoothing= 0.2261678E+00 Max. area BEFORE smoothing= 0.6954236E+01 Iteration= 1; root mean square error= 0.6791649E-03 Iteration= 2; root mean square error= 0.3553069E-03 Iteration= 3; root mean square error= 0.1951138E-03 Iteration= 4; root mean square error= 0.1095705E-03 Iteration= 5; root mean square error= 0.6251013E-04 Iteration= 6; root mean square error= 0.3624852E-04 Iteration= 7; root mean square error= 0.2142842E-04 Iteration= 8; root mean square error= 0.1295176E-04 Iteration= 9; root mean square error= 0.8016090E-05 Iteration= 10; root mean square error= 0.5077128E-05 Min. area AFTER smoothing= 0.2261678E+00 Max. area AFTER smoothing= 0.6953197E+01 recon 0 RECON2D reconnection loop2d: 1 RECON: done. smooth/position/esug/1,0,0 SMOOTH: position option nodes in point set = 88 SMOOTH: Smooth 2D triangular mesh using ESUG Min. area BEFORE smoothing= 0.2261678E+00 Max. area BEFORE smoothing= 0.6953197E+01 Iteration= 1; root mean square error= 0.3282157E-05 Iteration= 2; root mean square error= 0.2157434E-05 Iteration= 3; root mean square error= 0.1436160E-05 Iteration= 4; root mean square error= 0.9647106E-06 Iteration= 5; root mean square error= 0.6520513E-06 Iteration= 6; root mean square error= 0.4425319E-06 Iteration= 7; root mean square error= 0.3011257E-06 Iteration= 8; root mean square error= 0.2052398E-06 Iteration= 9; root mean square error= 0.1400246E-06 Iteration= 10; root mean square error= 0.9558617E-07 Iteration= 11; root mean square error= 0.6527106E-07 Iteration= 12; root mean square error= 0.4457705E-07 Iteration= 13; root mean square error= 0.3044568E-07 Min. area AFTER smoothing= 0.2261678E+00 Max. area AFTER smoothing= 0.6953205E+01 recon 0 RECON2D reconnection loop2d: 1 RECON: done. smooth/position/esug/1,0,0 SMOOTH: position option nodes in point set = 88 SMOOTH: Smooth 2D triangular mesh using ESUG Min. area BEFORE smoothing= 0.2261678E+00 Max. area BEFORE smoothing= 0.6953205E+01 Iteration= 1; root mean square error= 0.2079409E-07 Iteration= 2; root mean square error= 0.1420174E-07 Iteration= 3; root mean square error= 0.9698940E-08 Iteration= 4; root mean square error= 0.6623481E-08 Iteration= 5; root mean square error= 0.4523014E-08 Iteration= 6; root mean square error= 0.3088524E-08 Iteration= 7; root mean square error= 0.2108906E-08 Iteration= 8; root mean square error= 0.1439947E-08 Iteration= 9; root mean square error= 0.9831599E-09 Iteration= 10; root mean square error= 0.6712586E-09 Iteration= 11; root mean square error= 0.4582993E-09 Iteration= 12; root mean square error= 0.3128933E-09 Iteration= 13; root mean square error= 0.2136258E-09 Iteration= 14; root mean square error= 0.1458415E-09 Min. area AFTER smoothing= 0.2261678E+00 Max. area AFTER smoothing= 0.6953205E+01 recon 0 RECON2D reconnection loop2d: 1 RECON: done. smooth/position/esug/1,0,0 SMOOTH: position option nodes in point set = 88 SMOOTH: Smooth 2D triangular mesh using ESUG Min. area BEFORE smoothing= 0.2261678E+00 Max. area BEFORE smoothing= 0.6953205E+01 Iteration= 1; root mean square error= 0.9956942E-10 Iteration= 2; root mean square error= 0.6797309E-10 Iteration= 3; root mean square error= 0.4640835E-10 Iteration= 4; root mean square error= 0.3167972E-10 Iteration= 5; root mean square error= 0.2163014E-10 Iteration= 6; root mean square error= 0.1476783E-10 Iteration= 7; root mean square error= 0.1008484E-10 Iteration= 8; root mean square error= 0.6881734E-11 Iteration= 9; root mean square error= 0.4695371E-11 Iteration= 10; root mean square error= 0.3201334E-11 Iteration= 11; root mean square error= 0.2189750E-11 Iteration= 12; root mean square error= 0.1492612E-11 Iteration= 13; root mean square error= 0.1021584E-11 Iteration= 14; root mean square error= 0.6971960E-12 Min. area AFTER smoothing= 0.2261678E+00 Max. area AFTER smoothing= 0.6953205E+01 recon 0 RECON2D reconnection loop2d: 1 RECON: done. massage/1/1.e-5/1.e-5/strictmergelength nodes in point set = 88 recon/0/0.10000000E-04/ RECON2D reconnection loop2d: 1 RECON: done. finish nodes in point set = 88 SGD: 4 total relaxations on point set of 88 indept. nodes. rmpoint/compress 0 points removed and 0 elements removed. The new point count is 88. The new element count is 120. finish nodes in point set = 88 recon/0/0.10000000E-04/ RECON2D reconnection loop2d: 1 RECON: done. finish nodes in point set = 88 SGD: 0 total relaxations on point set of 88 indept. nodes. nodes in point set = 88 Face iteration, number of faces: 1 43 Face iteration, number of faces: 1 39 Face iteration, number of faces: 1 60 Face iteration, number of faces: 1 79 Face iteration, number of faces: 1 92 Face iteration, number of faces: 1 107 Face iteration, number of faces: 1 111 Face iteration, number of faces: 1 114 Face iteration, number of faces: 1 117 Face iteration, number of faces: 1 102 Face iteration, number of faces: 1 78 Face iteration, number of faces: 1 66 Face iteration, number of faces: 1 24 Face iteration, number of faces: 1 9 recon/0/0.10000000E-04/ RECON2D reconnection loop2d: 1 Recon2d: iteration number= 1 number of flips= 219 Recon2d: iteration number= 2 number of flips= 7 RECON: done. finish smooth/position/esug/1,0,0 SMOOTH: position option nodes in point set = 1129 SMOOTH: Smooth 2D triangular mesh using ESUG Min. area BEFORE smoothing= 0.3233073E-01 Max. area BEFORE smoothing= 0.4030034E+00 Iteration= 1; root mean square error= 0.7900920E-01 Iteration= 2; root mean square error= 0.3617923E-01 Iteration= 3; root mean square error= 0.2249343E-01 Iteration= 4; root mean square error= 0.1739078E-01 Iteration= 5; root mean square error= 0.1468005E-01 Iteration= 6; root mean square error= 0.1289397E-01 Iteration= 7; root mean square error= 0.1157620E-01 Iteration= 8; root mean square error= 0.1053748E-01 Iteration= 9; root mean square error= 0.9681653E-02 Iteration= 10; root mean square error= 0.8953792E-02 Iteration= 11; root mean square error= 0.8320141E-02 Iteration= 12; root mean square error= 0.7758857E-02 Iteration= 13; root mean square error= 0.7255197E-02 Iteration= 14; root mean square error= 0.6798835E-02 Iteration= 15; root mean square error= 0.6382280E-02 Iteration= 16; root mean square error= 0.5999918E-02 Iteration= 17; root mean square error= 0.5647417E-02 Iteration= 18; root mean square error= 0.5321338E-02 Iteration= 19; root mean square error= 0.5018885E-02 Iteration= 20; root mean square error= 0.4737735E-02 Iteration= 21; root mean square error= 0.4475922E-02 Iteration= 22; root mean square error= 0.4231755E-02 Iteration= 23; root mean square error= 0.4003763E-02 Iteration= 24; root mean square error= 0.3790649E-02 Iteration= 25; root mean square error= 0.3591259E-02 Min. area AFTER smoothing= 0.5764195E-01 Max. area AFTER smoothing= 0.3933818E+00 recon 0 RECON2D reconnection loop2d: 1 Recon2d: iteration number= 1 number of flips= 54 Recon2d: iteration number= 2 number of flips= 1 RECON: done. smooth/position/esug/1,0,0 SMOOTH: position option nodes in point set = 1129 SMOOTH: Smooth 2D triangular mesh using ESUG Min. area BEFORE smoothing= 0.3235582E-01 Max. area BEFORE smoothing= 0.3933818E+00 Iteration= 1; root mean square error= 0.3668343E-01 Iteration= 2; root mean square error= 0.1450415E-01 Iteration= 3; root mean square error= 0.6421117E-02 Iteration= 4; root mean square error= 0.4372646E-02 Iteration= 5; root mean square error= 0.3558509E-02 Iteration= 6; root mean square error= 0.3109592E-02 Iteration= 7; root mean square error= 0.2813361E-02 Iteration= 8; root mean square error= 0.2593374E-02 Iteration= 9; root mean square error= 0.2416752E-02 Iteration= 10; root mean square error= 0.2267528E-02 Iteration= 11; root mean square error= 0.2137183E-02 Iteration= 12; root mean square error= 0.2020808E-02 Iteration= 13; root mean square error= 0.1915376E-02 Iteration= 14; root mean square error= 0.1818897E-02 Iteration= 15; root mean square error= 0.1729988E-02 Iteration= 16; root mean square error= 0.1647638E-02 Iteration= 17; root mean square error= 0.1571072E-02 Iteration= 18; root mean square error= 0.1499676E-02 Iteration= 19; root mean square error= 0.1432949E-02 Iteration= 20; root mean square error= 0.1370466E-02 Iteration= 21; root mean square error= 0.1311867E-02 Iteration= 22; root mean square error= 0.1256835E-02 Iteration= 23; root mean square error= 0.1205091E-02 Iteration= 24; root mean square error= 0.1156387E-02 Iteration= 25; root mean square error= 0.1110499E-02 Min. area AFTER smoothing= 0.6072244E-01 Max. area AFTER smoothing= 0.3742361E+00 recon 0 RECON2D reconnection loop2d: 1 Recon2d: iteration number= 1 number of flips= 22 RECON: done. smooth/position/esug/1,0,0 SMOOTH: position option nodes in point set = 1129 SMOOTH: Smooth 2D triangular mesh using ESUG Min. area BEFORE smoothing= 0.3557871E-01 Max. area BEFORE smoothing= 0.3742361E+00 Iteration= 1; root mean square error= 0.2429257E-01 Iteration= 2; root mean square error= 0.9851168E-02 Iteration= 3; root mean square error= 0.4334655E-02 Iteration= 4; root mean square error= 0.2796071E-02 Iteration= 5; root mean square error= 0.2128282E-02 Iteration= 6; root mean square error= 0.1762440E-02 Iteration= 7; root mean square error= 0.1528880E-02 Iteration= 8; root mean square error= 0.1363540E-02 Iteration= 9; root mean square error= 0.1237972E-02 Iteration= 10; root mean square error= 0.1137812E-02 Iteration= 11; root mean square error= 0.1055054E-02 Iteration= 12; root mean square error= 0.9848739E-03 Iteration= 13; root mean square error= 0.9241775E-03 Iteration= 14; root mean square error= 0.8708741E-03 Iteration= 15; root mean square error= 0.8234905E-03 Iteration= 16; root mean square error= 0.7809517E-03 Iteration= 17; root mean square error= 0.7424499E-03 Iteration= 18; root mean square error= 0.7073627E-03 Iteration= 19; root mean square error= 0.6752012E-03 Iteration= 20; root mean square error= 0.6455736E-03 Iteration= 21; root mean square error= 0.6181618E-03 Iteration= 22; root mean square error= 0.5927037E-03 Iteration= 23; root mean square error= 0.5689808E-03 Iteration= 24; root mean square error= 0.5468094E-03 Iteration= 25; root mean square error= 0.5260330E-03 Min. area AFTER smoothing= 0.6242303E-01 Max. area AFTER smoothing= 0.3658100E+00 recon 0 RECON2D reconnection loop2d: 1 Recon2d: iteration number= 1 number of flips= 10 RECON: done. smooth/position/esug/1,0,0 SMOOTH: position option nodes in point set = 1129 SMOOTH: Smooth 2D triangular mesh using ESUG Min. area BEFORE smoothing= 0.6242303E-01 Max. area BEFORE smoothing= 0.3658100E+00 Iteration= 1; root mean square error= 0.1648393E-01 Iteration= 2; root mean square error= 0.6888862E-02 Iteration= 3; root mean square error= 0.3048187E-02 Iteration= 4; root mean square error= 0.1967477E-02 Iteration= 5; root mean square error= 0.1468933E-02 Iteration= 6; root mean square error= 0.1184767E-02 Iteration= 7; root mean square error= 0.1002735E-02 Iteration= 8; root mean square error= 0.8772281E-03 Iteration= 9; root mean square error= 0.7856781E-03 Iteration= 10; root mean square error= 0.7157331E-03 Iteration= 11; root mean square error= 0.6602093E-03 Iteration= 12; root mean square error= 0.6147239E-03 Iteration= 13; root mean square error= 0.5764895E-03 Iteration= 14; root mean square error= 0.5436662E-03 Iteration= 15; root mean square error= 0.5149989E-03 Iteration= 16; root mean square error= 0.4896062E-03 Iteration= 17; root mean square error= 0.4668522E-03 Iteration= 18; root mean square error= 0.4462667E-03 Iteration= 19; root mean square error= 0.4274940E-03 Iteration= 20; root mean square error= 0.4102600E-03 Iteration= 21; root mean square error= 0.3943488E-03 Iteration= 22; root mean square error= 0.3795879E-03 Iteration= 23; root mean square error= 0.3658371E-03 Iteration= 24; root mean square error= 0.3529812E-03 Iteration= 25; root mean square error= 0.3409240E-03 Min. area AFTER smoothing= 0.6243828E-01 Max. area AFTER smoothing= 0.3625525E+00 recon 0 RECON2D reconnection loop2d: 1 Recon2d: iteration number= 1 number of flips= 5 RECON: done. smooth/position/esug/1,0,0 SMOOTH: position option nodes in point set = 1129 SMOOTH: Smooth 2D triangular mesh using ESUG Min. area BEFORE smoothing= 0.6243828E-01 Max. area BEFORE smoothing= 0.3625525E+00 Iteration= 1; root mean square error= 0.1037067E-01 Iteration= 2; root mean square error= 0.4144387E-02 Iteration= 3; root mean square error= 0.1822196E-02 Iteration= 4; root mean square error= 0.1133321E-02 Iteration= 5; root mean square error= 0.8358350E-03 Iteration= 6; root mean square error= 0.6765466E-03 Iteration= 7; root mean square error= 0.5823797E-03 Iteration= 8; root mean square error= 0.5216414E-03 Iteration= 9; root mean square error= 0.4790211E-03 Iteration= 10; root mean square error= 0.4468051E-03 Iteration= 11; root mean square error= 0.4209778E-03 Iteration= 12; root mean square error= 0.3993510E-03 Iteration= 13; root mean square error= 0.3806641E-03 Iteration= 14; root mean square error= 0.3641474E-03 Iteration= 15; root mean square error= 0.3493037E-03 Iteration= 16; root mean square error= 0.3357953E-03 Iteration= 17; root mean square error= 0.3233832E-03 Iteration= 18; root mean square error= 0.3118914E-03 Iteration= 19; root mean square error= 0.3011868E-03 Iteration= 20; root mean square error= 0.2911659E-03 Iteration= 21; root mean square error= 0.2817466E-03 Iteration= 22; root mean square error= 0.2728623E-03 Iteration= 23; root mean square error= 0.2644582E-03 Iteration= 24; root mean square error= 0.2564887E-03 Iteration= 25; root mean square error= 0.2489149E-03 Min. area AFTER smoothing= 0.6243747E-01 Max. area AFTER smoothing= 0.3607979E+00 recon 0 RECON2D reconnection loop2d: 1 Recon2d: iteration number= 1 number of flips= 4 RECON: done. smooth/position/esug/1,0,0 SMOOTH: position option nodes in point set = 1129 SMOOTH: Smooth 2D triangular mesh using ESUG Min. area BEFORE smoothing= 0.6243747E-01 Max. area BEFORE smoothing= 0.3607979E+00 Iteration= 1; root mean square error= 0.1057569E-01 Iteration= 2; root mean square error= 0.3945114E-02 Iteration= 3; root mean square error= 0.1409608E-02 Iteration= 4; root mean square error= 0.8373807E-03 Iteration= 5; root mean square error= 0.6281982E-03 Iteration= 6; root mean square error= 0.5098348E-03 Iteration= 7; root mean square error= 0.4315292E-03 Iteration= 8; root mean square error= 0.3760329E-03 Iteration= 9; root mean square error= 0.3348575E-03 Iteration= 10; root mean square error= 0.3031698E-03 Iteration= 11; root mean square error= 0.2780228E-03 Iteration= 12; root mean square error= 0.2575378E-03 Iteration= 13; root mean square error= 0.2404746E-03 Iteration= 14; root mean square error= 0.2259897E-03 Iteration= 15; root mean square error= 0.2134941E-03 Iteration= 16; root mean square error= 0.2025662E-03 Iteration= 17; root mean square error= 0.1928974E-03 Iteration= 18; root mean square error= 0.1842567E-03 Iteration= 19; root mean square error= 0.1764683E-03 Iteration= 20; root mean square error= 0.1693951E-03 Iteration= 21; root mean square error= 0.1629293E-03 Iteration= 22; root mean square error= 0.1569840E-03 Iteration= 23; root mean square error= 0.1514891E-03 Iteration= 24; root mean square error= 0.1463866E-03 Iteration= 25; root mean square error= 0.1416285E-03 Min. area AFTER smoothing= 0.6243746E-01 Max. area AFTER smoothing= 0.3595414E+00 recon 0 RECON2D reconnection loop2d: 1 Recon2d: iteration number= 1 number of flips= 1 RECON: done. filter/1,0,0 FILTER:Use internal epsilonl value = 0.689511373455E-11 FILTER:Dudding 80 duplicate points. rmpoint/compress 80 points removed and 0 elements removed. The new point count is 1049. The new element count is 1968. # Flatten input elevations and interpolate to poly shape read/gmv/lidar_site3.gmv/mo_lidar Reading GMV binary file gmvinputieee no geometry for mesh object geniee finish Nodes: 1000000 Elements: 1996002 Done reading GMV binary total bytes: 542181544 file: lidar_site3.gmv #read / gmv / poly40_topo.gmv / mo_lidar cmo/copyatt/mo_lidar/mo_lidar/z_val/zic CMO_COPYATT WARNING: attribute does not exist: attribute now created: z_val cmo/addatt/mo_lidar/z_val/VDOUBLE/scalar/nnodes/linear/permanent/l finish 1000000 copied from mo_lidar zic to -> mo_lidar z_val cmo/setatt/mo_lidar/zic/1,0,0/0. 1000000 values reset for attribute zic cmo/addatt/mo_merge/z_val/vdouble/scalar/nnodes intrp/continuous/mo_merge z_val/1,0,0/mo_lidar z_val/linear nodes in indexed point set = 1049 INTRP METHOD: continuous FUNCTION: linear TIEBREAKER: maxtie FLAG: plus1 0.610480022430E+01 cmo select mo_lidar finish cmo kdtree build cmo/addatt//v2/INT/scalar/scalar/constant/temporary//2.0 finish cmo/addatt//linkt/VINT/v2/nelements//temporary/x/0.0 finish cmo/addatt//v12/INT/scalar/scalar/constant/temporary//12.0 finish cmo/addatt//sbox/VDOUBLE/v12/nelements/linear/temporary/x/0.0 finish finish Sink point Elems Searched Elements Found Percent Done 22 22 22 2 % 43 43 43 4 % 64 64 64 6 % 85 85 85 8 % 106 106 106 10 % 127 127 127 12 % 148 148 148 14 % 169 169 169 16 % 190 190 190 18 % 211 211 211 20 % 232 232 232 22 % 253 253 253 24 % 274 274 274 26 % 295 295 295 28 % 316 316 316 30 % 337 337 337 32 % 358 358 358 34 % 379 379 379 36 % 400 400 400 38 % 421 421 421 40 % 442 442 442 42 % 463 463 463 44 % 484 484 484 46 % 505 505 505 48 % 526 526 526 50 % 547 547 547 52 % 568 568 568 54 % 589 589 589 56 % 610 610 610 58 % 631 631 631 60 % 652 652 652 62 % 673 673 673 64 % 694 694 694 66 % 715 715 715 68 % 736 736 736 70 % 757 757 757 72 % 778 778 778 74 % 799 799 799 76 % 820 820 820 78 % 841 841 841 80 % 862 862 862 82 % 883 883 883 84 % 904 904 904 86 % 925 925 925 88 % 946 946 946 90 % 967 967 967 92 % 988 988 988 94 % 1009 1009 1009 96 % 1030 1030 1030 98 % 1049 1049 1049 Total cmo select mo_merge finish intrp/continuous done. cmo kdtree release cmo/DELATT/mo_lidar/sbox finish cmo/DELATT/mo_lidar/v12 finish cmo/DELATT/mo_lidar/linkt finish cmo/DELATT/mo_lidar/v2 finish finish cmo/copyatt/mo_merge/mo_merge/zic/z_val 1049 copied from mo_merge z_val to -> mo_merge zic dump/gmv/tmp_poly_massage.gmv/mo_merge cmo/modatt/-def-/-def-/ioflag/x finish cmo/printatt/mo_merge/zic/minmax ATTRIBUTE NAME MIN MAX DIFFERENCE LENGTH zic 4.489600182E+00 4.887079043E+00 3.974788610E-01 1049 # REFINE - Depends on Parameter for horizontal spacing (edge lengths) cmo/copy/mo_poly_tri/mo_merge cmo/select/mo_poly_tri cmo/setatt/mo_poly_tri/imt/1 1049 values reset for attribute imt1 cmo/setatt/mo_poly_tri/itetclr/1 1968 values reset for attribute itetclr cmo/setatt/mo_poly_tri/itp/0 1049 values reset for attribute itp1 resetpts/itp geniee finish # each call to refine2d will split edges into smaller triangles refine2d Edge iteration refine2db: 0 0 Edge-refined tris: before= 1968 after= 7872 refine2d Edge iteration refine2db: 0 0 Edge-refined tris: before= 7872 after= 31488 #refine2d dump/tmp_poly_refine.inp/mo_poly_tri dump/avs/tmp_poly_refine.inp/mo_poly_tri cmo/modatt/-def-/-def-/ioflag/x finish finish resetpts itp geniee finish cmo delete mo_poly_tri Released Mesh Object: mo_poly_tri # Extract the edge lines around the polygon read/avs/tmp_poly_refine.inp/mo_poly_tri cmo/addatt/mo_poly_tri/z_val/VDOUBLE/scalar/nnodes/linear/permanent/gxaf/0.0 finish geniee finish cmo/status/brief The current-mesh-object(CMO) is: mo_poly_tri 1 Mesh Object name: mo number of nodes = 10 number of elements = 10 dimensions geometry = 2 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 16000000 status = inactive 2 Mesh Object name: mo_inner number of nodes = 5 number of elements = 3 dimensions geometry = 2 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 16000000 status = inactive 3 Mesh Object name: mo_merge number of nodes = 1049 number of elements = 1968 dimensions geometry = 2 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 16000000 status = inactive 4 Mesh Object name: mo_lidar number of nodes = 1000000 number of elements = 1996002 dimensions geometry = 3 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 36000000 status = inactive 5 Mesh Object name: mo_poly_tri number of nodes = 16001 number of elements = 31488 dimensions geometry = 3 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 16000000 status = active finish extract/surfmesh/1,0,0/mo_line_work/mo_poly_tri cmo/addatt/mo_line_work/itetclr0/vint/scalar/nelements////0 finish cmo/addatt/mo_line_work/itetclr1/vint/scalar/nelements////0 finish cmo/addatt/mo_line_work/idnode0/vint/scalar/nnodes////0 finish cmo/addatt/mo_line_work/idelem0/vint/scalar/nelements////0 finish cmo/addatt/mo_line_work/idelem1/vint/scalar/nelements////0 finish cmo/addatt/mo_line_work/facecol/vint/scalar/nelements////0 finish cmo/addatt/mo_line_work/idface0/vint/scalar/nelements////0 finish cmo/addatt/mo_line_work/idface1/vint/scalar/nelements////0 finish cmo/addatt/mo_line_work/z_val/VDOUBLE/scalar/nnodes/linear/permanent/gxaf finish cmo/addatt/mo_line_work/ncon50/int/scalar/scalar/constant/permanent/x/0 finish cmo/addatt/mo_line_work/nconbnd/int/scalar/scalar/constant/permanent/x/0 finish cmo/addatt/mo_line_work/icontab/vint/scalar/ncon50/constant/permanent/x/0 finish resetpts/itp geniee finish finish cmo/status/brief The current-mesh-object(CMO) is: mo_line_work 1 Mesh Object name: mo number of nodes = 10 number of elements = 10 dimensions geometry = 2 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 16000000 status = inactive 2 Mesh Object name: mo_inner number of nodes = 5 number of elements = 3 dimensions geometry = 2 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 16000000 status = inactive 3 Mesh Object name: mo_merge number of nodes = 1049 number of elements = 1968 dimensions geometry = 2 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 16000000 status = inactive 4 Mesh Object name: mo_lidar number of nodes = 1000000 number of elements = 1996002 dimensions geometry = 3 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 36000000 status = inactive 5 Mesh Object name: mo_poly_tri number of nodes = 16001 number of elements = 31488 dimensions geometry = 3 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 16000000 status = inactive 6 Mesh Object name: mo_line_work number of nodes = 512 number of elements = 512 dimensions geometry = 3 element type = lin dimensions topology = 1 2 nodes 2 faces 1 edges boundary flag = 16000000 status = active dump/gmv/tmp_line.gmv/mo_line_work cmo/modatt/-def-/-def-/ioflag/x finish # Create distance attibute from outer polygon edge compute/distance_field/mo_merge/mo_line_work/dfield cmo/addatt/mo_merge/temp_tmp_var/VDOUBLE/scalar/nnodes/linear/temporary//-1.0 finish cmo/addatt/mo_merge/xobj_tmp_var/VDOUBLE/scalar/nnodes/linear/temporary//-1.0 finish cmo/addatt/mo_merge/yobj_tmp_var/VDOUBLE/scalar/nnodes/linear/temporary//-1.0 finish cmo/addatt/mo_merge/zobj_tmp_var/VDOUBLE/scalar/nnodes/linear/temporary//-1.0 finish cmo/addatt/mo_merge/dfield/VDOUBLE/scalar/nnodes/linear/permanent//-1.0 finish interpolate/voronoi/mo_merge/xobj_tmp_var/1 0 0/mo_line_work/xic/keepatt nodes in indexed point set = 1049 cmo/addatt/mo_merge/pt_gtg/VINT/scalar/nnodes//permanent/agfx/0 finish INTRP METHOD: voronoi FUNCTION: linear TIEBREAKER: maxtie FLAG: plus1 0.830786420000E+02 pt_gtg attribute will be added and kept. Sink point Points searched Points Found Percent Done 263 263 263 25 % 525 525 525 50 % 787 787 787 75 % 1049 1049 1049 Total cmo select mo_merge finish intrp/voronoi done. cmo kdtree release finish finish interpolate/voronoi/mo_merge/yobj_tmp_var/1 0 0/mo_line_work/yic/keepatt nodes in indexed point set = 1049 INTRP METHOD: voronoi FUNCTION: linear TIEBREAKER: maxtie FLAG: plus1 0.119802990000E+03 SKIPPING POINT SEARCH... using lookup attribute pt_gtg Sink point Points searched Points Found Percent Done 263 263 263 25 % 525 525 525 50 % 787 787 787 75 % 1049 1049 1049 Total cmo select mo_merge finish intrp/voronoi done. cmo kdtree release finish finish interpolate/voronoi/mo_merge/zobj_tmp_var/1 0 0/mo_line_work/zic nodes in indexed point set = 1049 INTRP METHOD: voronoi FUNCTION: linear TIEBREAKER: maxtie FLAG: plus1 0.570095277750E+01 SKIPPING POINT SEARCH... using lookup attribute pt_gtg Sink point Points searched Points Found Percent Done 263 263 263 25 % 525 525 525 50 % 787 787 787 75 % 1049 1049 1049 Total cmo DELATT mo_merge/pt_gtg finish cmo select mo_merge finish intrp/voronoi done. cmo kdtree release finish finish math/sub/mo_merge/temp_tmp_var/1,0,0/mo_merge/xic/mo_merge/xobj_tmp_var finish math/power/mo_merge/dfield/1,0,0/mo_merge/temp_tmp_var/2.0 finish math/sub/mo_merge/temp_tmp_var/1,0,0/mo_merge/yic/mo_merge/yobj_tmp_var finish math/power/mo_merge/temp_tmp_var/1,0,0/mo_merge/temp_tmp_var/2.0 finish math/add/mo_merge/dfield/1 0 0/mo_merge/dfield/mo_merge/temp_tmp_var finish math/sub/mo_merge/temp_tmp_var/1,0,0/mo_merge/zic/mo_merge/zobj_tmp_var finish math/power/mo_merge/temp_tmp_var/1,0,0/mo_merge/temp_tmp_var/2.0 finish math/add/mo_merge/dfield/1 0 0/mo_merge/dfield/mo_merge/temp_tmp_var finish math/power/mo_merge/dfield/1,0,0/mo_merge/dfield/0.5 finish cmo/delatt/mo_merge/temp_tmp_var finish cmo/delatt/mo_merge/xobj_tmp_var finish cmo/delatt/mo_merge/yobj_tmp_var finish cmo/delatt/mo_merge/zobj_tmp_var finish COMPUTE distance_field: Done. cmo printatt mo_merge dfield minmax ATTRIBUTE NAME MIN MAX DIFFERENCE LENGTH dfield 1.464821376E-14 7.566279979E+00 7.566279979E+00 1049 dump/tmp_poly_refine.gmv/mo_merge dump/gmv/tmp_poly_refine.gmv/mo_merge cmo/modatt/-def-/-def-/ioflag/x finish finish # Sizes for ice wedge used in math routines to define shape define/HALF_WIDTH/1.4 define/DEPTH/2.8 define/SLOPE/2.0 define/L1/0.02 define/L2/0.24 define/L3/0.1 define/L4/0.05 # Create top and bottom layer of ice wedge mesh object # top of ice wedge is translated to requested layer # to put top under a specified layer # These distances are same as defined for full mesh define/L1/0.02 # this is all material 2 define/L2/0.24 # this is all material 3 define/L3/0.24 # this is all material 4 define/L4/0.5 # this is all material 5 define/L5/5 # subtract each previous layer until ice top is positioned correctly # CHECK Starting elevation is same as top elevation cmo printatt mo_merge zic minmax ATTRIBUTE NAME MIN MAX DIFFERENCE LENGTH zic 4.489600182E+00 4.887079043E+00 3.974788610E-01 1049 math/sub/mo_merge/zic/1,0,0/mo_merge/zic/L1 #dump / avs / tmp_poly40_1.inp / mo_merge math/sub/mo_merge/zic/1,0,0/mo_merge/zic/L2 #dump / avs / tmp_poly40_2.inp / mo_merge math/sub/mo_merge/zic/1,0,0/mo_merge/zic/L3 #dump / avs / tmp_poly40_3.inp / mo_merge #math / sub / mo_merge / zic / 1,0,0 / mo_merge / zic / L4 #math / sub / mo_merge / zic / 1,0,0 / mo_merge / zic / L5 #dump / avs / tmp_poly40_4.inp / mo_merge # top file for stack routine dump/avs/tmp_top.inp/mo_merge cmo/modatt/-def-/-def-/ioflag/x finish # CHECK top elevation should be located at intended layer cmo printatt mo_merge zic minmax ATTRIBUTE NAME MIN MAX DIFFERENCE LENGTH zic 3.989600182E+00 4.387079043E+00 3.974788610E-01 1049 # math routines to pinchout ice wedge at the bottom cmo/addatt/mo_merge/z_ele/vdouble/scalar/nnodes cmo/copyatt/mo_merge/mo_merge/z_save/zic CMO_COPYATT WARNING: attribute does not exist: attribute now created: z_save cmo/addatt/mo_merge/z_save/VDOUBLE/scalar/nnodes/linear/permanent/l finish 1049 copied from mo_merge zic to -> mo_merge z_save cmo/printatt/mo_merge/zic/minmax ATTRIBUTE NAME MIN MAX DIFFERENCE LENGTH zic 3.989600182E+00 4.387079043E+00 3.974788610E-01 1049 cmo/addatt/mo_merge/depth/vdouble/scalar/nnodes cmo/setatt/mo_merge/depth/1,0,0/DEPTH 1049 values reset for attribute depth cmo/printatt/mo_merge/imt/minmax ATTRIBUTE NAME MIN MAX DIFFERENCE LENGTH imt1 1 2 1 1049 #eltset / e2 / itetclr / eq / 2 #pset / p2 / eltset / e2 #cmo / setatt / mo_merge / imt / pset get p2 / 2 pset/pdown/attribute/dfield/1,0,0/lt/HALF_WIDTH THE PSET pdown HAS 384 POINTS #pset / pdown / attribute / imt / 1,0,0 / eq / 1 #math / divide / mo_merge / slope / pset get pdown / mo_merge / depth / mo_merge math/multiply/mo_merge/z_ele/pset get pdown/mo_merge/dfield/SLOPE math/sub/mo_merge/z_ele/pset get pdown/mo_merge/z_ele/DEPTH math/add/mo_merge/z_ele/1,0,0/mo_merge/z_ele/mo_merge/z_save #math / ceiling / mo_merge / z_save / 1,0,0 / mo_merge / z_save / 0. cmo/printatt/mo_merge/z_ele/minmax ATTRIBUTE NAME MIN MAX DIFFERENCE LENGTH z_ele 1.189600182E+00 4.387079043E+00 3.197478861E+00 1049 cmo/copyatt/mo_merge/mo_merge/zic/z_ele 1049 copied from mo_merge z_ele to -> mo_merge zic # bottom layer for stack routine dump/avs/tmp_bot.inp/mo_merge cmo/modatt/-def-/-def-/ioflag/x finish # CHECK bottom elevation should be DEPTH below top layer cmo printatt mo_merge zic minmax ATTRIBUTE NAME MIN MAX DIFFERENCE LENGTH zic 1.189600182E+00 4.387079043E+00 3.197478861E+00 1049 # stack top and bottom into a prism mesh ice wedge object cmo/create/mo_stack stack/layers/avs/tmp_bot.inp 1 tmp_top.inp 1/flip Layers to create: 2 Max material number: 1 Reading 2 surface files... cmo/addatt/mo_stack/layertyp/VINT/scalar/nnodes//permanent/agfx finish Read first surface: tmp_bot.inp read/avs/tmp_bot.inp/def1 cmo/addatt/def1/z_val/VDOUBLE/scalar/nnodes/linear/permanent/gxaf/0.0 finish cmo/addatt/def1/dfield/VDOUBLE/scalar/nnodes/linear/permanent/gxaf/0.0 finish cmo/addatt/def1/z_ele/VDOUBLE/scalar/nnodes/linear/permanent/gxaf/0.0 finish cmo/addatt/def1/depth/VDOUBLE/scalar/nnodes/linear/permanent/gxaf/0.0 finish geniee finish cmo/status/brief The current-mesh-object(CMO) is: def1 1 Mesh Object name: mo number of nodes = 10 number of elements = 10 dimensions geometry = 2 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 16000000 status = inactive 2 Mesh Object name: mo_inner number of nodes = 5 number of elements = 3 dimensions geometry = 2 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 16000000 status = inactive 3 Mesh Object name: mo_merge number of nodes = 1049 number of elements = 1968 dimensions geometry = 2 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 16000000 status = inactive 4 Mesh Object name: mo_lidar number of nodes = 1000000 number of elements = 1996002 dimensions geometry = 3 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 36000000 status = inactive 5 Mesh Object name: mo_poly_tri number of nodes = 16001 number of elements = 31488 dimensions geometry = 3 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 16000000 status = inactive 6 Mesh Object name: mo_line_work number of nodes = 512 number of elements = 512 dimensions geometry = 3 element type = lin dimensions topology = 1 2 nodes 2 faces 1 edges boundary flag = 16000000 status = inactive 7 Mesh Object name: mo_stack number of nodes = 0 number of elements = 0 dimensions geometry = 3 element type = tet dimensions topology = 3 4 nodes 4 faces 6 edges boundary flag = 16000000 status = inactive 8 Mesh Object name: def1 number of nodes = 1049 number of elements = 1968 dimensions geometry = 3 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 16000000 status = active finish finish 1968 of 1968 downward elements flipped up Read surface: tmp_top.inp read/avs/tmp_top.inp/def2 cmo/addatt/def2/z_val/VDOUBLE/scalar/nnodes/linear/permanent/gxaf/0.0 finish cmo/addatt/def2/dfield/VDOUBLE/scalar/nnodes/linear/permanent/gxaf/0.0 finish geniee finish cmo/status/brief The current-mesh-object(CMO) is: def2 1 Mesh Object name: mo number of nodes = 10 number of elements = 10 dimensions geometry = 2 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 16000000 status = inactive 2 Mesh Object name: mo_inner number of nodes = 5 number of elements = 3 dimensions geometry = 2 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 16000000 status = inactive 3 Mesh Object name: mo_merge number of nodes = 1049 number of elements = 1968 dimensions geometry = 2 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 16000000 status = inactive 4 Mesh Object name: mo_lidar number of nodes = 1000000 number of elements = 1996002 dimensions geometry = 3 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 36000000 status = inactive 5 Mesh Object name: mo_poly_tri number of nodes = 16001 number of elements = 31488 dimensions geometry = 3 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 16000000 status = inactive 6 Mesh Object name: mo_line_work number of nodes = 512 number of elements = 512 dimensions geometry = 3 element type = lin dimensions topology = 1 2 nodes 2 faces 1 edges boundary flag = 16000000 status = inactive 7 Mesh Object name: mo_stack number of nodes = 0 number of elements = 0 dimensions geometry = 3 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 16000000 status = inactive 8 Mesh Object name: def1 number of nodes = 1049 number of elements = 1968 dimensions geometry = 3 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 16000000 status = inactive 9 Mesh Object name: cmoprev number of nodes = 1049 number of elements = 1968 dimensions geometry = 3 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 16000000 status = inactive 10 Mesh Object name: def2 number of nodes = 1049 number of elements = 1968 dimensions geometry = 3 element type = tri dimensions topology = 2 3 nodes 3 faces 3 edges boundary flag = 16000000 status = active finish finish cmo/delete/def2/ Released Mesh Object: def2 finish 1968 of 1968 downward elements flipped up Total equal elevations: 665 of 1049 Layers compared: tmp_bot.inp and tmp_top.inp cmo/delete/cmoprev/ Released Mesh Object: cmoprev finish cmo/copy/cmoprev/cmonxt/ finish addmesh/merge/mo_stack/def1/cmonxt/ searching for mo_stack attributes in cmonxt attribute not found: 66 layertyp ADDMESH: 1 attributes not copied from cmonxt to mo_stack finish warning: Column has 0 height. column, node: 6 1055 Warning: Column has 0 height: 6 warning: Column has 0 height. column, node: 7 1056 Warning: Column has 0 height: 7 warning: Column has 0 height. column, node: 8 1057 Warning: Column has 0 height: 8 warning: Column has 0 height. column, node: 9 1058 Warning: Column has 0 height: 9 warning: Column has 0 height. column, node: 10 1059 Warning: Column has 0 height: 10 warning: Column has 0 height. column, node: 15 1064 Warning: Column has 0 height: 15 warning: Column has 0 height. column, node: 19 1068 Warning: Column has 0 height: 19 warning: Column has 0 height. column, node: 20 1069 Warning: Column has 0 height: 20 warning: Column has 0 height. column, node: 27 1076 Warning: Column has 0 height: 27 warning: Column has 0 height. column, node: 30 1079 Total warnings for flat columns: 1330 ................................................................ surface name layer color type llcorner zic tmp_bot.inp 1 1 -1 1) 1.277471E+00 tmp_top.inp 2 1 -2 1050) 4.077471E+00 Elements per layer: 1968 stacked total: 3936 Nodes per layer: 1049 stacked total: 2098 No Truncating layer specified. files read: 2 from total: 2 ................................................................ cmo/addatt/mo_stack/nlayers/INT/scalar/scalar/constant// finish cmo/addatt/mo_stack/nnperlayer/INT/scalar/scalar/constant// finish cmo/addatt/mo_stack/neperlayer/INT/scalar/scalar/constant// finish cmo/setatt/mo_stack/nlayers 2 1 values reset for attribute nlayers finish cmo/setatt/mo_stack/nnperlayer 1049 1 values reset for attribute nnperlayer finish cmo/setatt/mo_stack/neperlayer 1968 1 values reset for attribute neperlayer finish Released Mesh Object: def1 Released Mesh Object: cmonxt Released Mesh Object: cmoprev stack done. stack/fill/mo_prism/mo_stack cmo/copy/mo_prism/mo_stack/ finish geniee finish filter/1,0,0 FILTER:Use internal epsilonl value = 0.999999993923E-08 FILTER:Dudding 665 duplicate points. rmpoint/compress 665 points removed and 0 elements removed. The new point count is 1433. The new element count is 1968. rmpoint/zero_volume/1.e-12 Dudded 0 points plus parents, plus 1248 elements removed. # Final output file to be used later dump/gmv/tmp_ice_wedge.gmv/mo_prism cmo/modatt/-def-/-def-/ioflag/x finish ############# CHECK FINAL WORK ##################### # write surface triangulation sizes cmo select mo_poly_tri quality epsilonl, epsilonaspect: 6.8956786E-12 3.2789216E-34 -------------------------------------------- elements with aspect ratio < .01: 0 elements with aspect ratio b/w .01 and .02: 0 elements with aspect ratio b/w .02 and .05: 0 elements with aspect ratio b/w .05 and .1 : 0 elements with aspect ratio b/w .1 and .2 : 0 elements with aspect ratio b/w .2 and .5 : 80 elements with aspect ratio b/w .5 and 1. : 31408 min aspect ratio = 0.4012E+00 max aspect ratio = 0.9999E+00 epsilonvol: 4.2386550E-11 --------------------------------------- element volumes b/w 0.3915E-02 and 0.5561E-02: 688 element volumes b/w 0.5561E-02 and 0.7899E-02: 6496 element volumes b/w 0.7899E-02 and 0.1122E-01: 16432 element volumes b/w 0.1122E-01 and 0.1594E-01: 7280 element volumes b/w 0.1594E-01 and 0.2263E-01: 592 min volume = 3.9150947E-03 max volume = 2.2633982E-02 ----------------------------------------------------------- 31488 total elements evaluated. quality/edge_min epsilonl, epsilonaspect: 6.8956786E-12 3.2789216E-34 -------------------------------------------- element norm min edge length < .01: 0 element norm edge length b/w .01 and .02: 0 element norm edge length b/w .02 and .05: 0 element norm edge length b/w .05 and .1 : 0 element norm edge length b/w .1 and .2 : 0 element norm edge length b/w .2 and .5 : 4304 element norm edge length b/w .5 and 1. : 27184 min min edge length = 0.7090E-01 max min edge length = 0.2112E+00 ----------------------------------------------------------- 31488 total elements evaluated. quality/edge_max epsilonl, epsilonaspect: 6.8956786E-12 3.2789216E-34 -------------------------------------------- element norm max edge length < .01: 0 element norm edge length b/w .01 and .02: 0 element norm edge length b/w .02 and .05: 0 element norm edge length b/w .05 and .1 : 0 element norm edge length b/w .1 and .2 : 0 element norm edge length b/w .2 and .5 : 1104 element norm edge length b/w .5 and 1. : 30384 min max edge length = 0.1082E+00 max max edge length = 0.2711E+00 ----------------------------------------------------------- 31488 total elements evaluated. # coordinates for polygon surface (top elevations) cmo printatt mo_poly_tri -xyz- minmax ATTRIBUTE NAME MIN MAX DIFFERENCE LENGTH xic 5.917234400E+01 8.207864200E+01 2.290629800E+01 16001 yic 9.783683000E+01 1.188029900E+02 2.096616000E+01 16001 zic 4.489600182E+00 4.887079043E+00 3.974788610E-01 16001 # coordinates for stacked ice mesh object cmo printatt mo_prism -xyz- minmax ATTRIBUTE NAME MIN MAX DIFFERENCE LENGTH xic 5.917234400E+01 8.207864200E+01 2.290629800E+01 1433 yic 9.783683000E+01 1.188029900E+02 2.096616000E+01 1433 zic 1.189600182E+00 4.334994511E+00 3.145394329E+00 1433 # there should be one material for ice mesh object cmo printatt mo_prism imt minmax ATTRIBUTE NAME MIN MAX DIFFERENCE LENGTH imt1 1 1 0 1433 cmo printatt mo_prism itetclr minmax ATTRIBUTE NAME MIN MAX DIFFERENCE LENGTH itetclr 1 1 0 720 ################################################## # DONE # file tmp_poly40_refine.inp surface for full mesh layers # file tmp_ice_wedge.gmv 3D ice wedge mesh for interpolation finish LaGriT successfully completed