* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * Program: LaGriT V3.330 Linux * * * date_compile: 2021/10/15 test * * * Run Time: 2021/Nov 9 11:03:14 * * * Manual: http://lagrit.lanl.gov * * * * * * * * * * * * * * * * * * * * * * * * * * * * * -----oOo----- LaGriT V3 LA-CC-15-069 https://github.com/lanl/LaGriT Copyright 2016. Triad National Security, LLC. All rights reserved. This program was produced under U.S. Government contract 89233218CNA000001 for Los Alamos National Laboratory (LANL), which is operated by Triad National Security, LLC for the U.S. Department of Energy/National Nuclear Security Administration. All rights in the program are reserved by Triad National Security, LLC, and the U.S. Department of Energy/National Nuclear Security Administration. The Government is granted for itself and others acting on its behalf a nonexclusive, paid-up, irrevocable worldwide license in this material to reproduce, prepare derivative works, distribute copies to the public, perform publicly and display publicly, and to permit others to do so. This software is open source and available under the BSD-3 License. -----oOo----- Output log file: outx3dgen Command log file: logx3dgen * Test setpts and settets and geometry * it makes a geometry with 10 regions cmo/create/abc * geometry made up of 6 bounding planes and one * interface planes to divide into 10 regions surface/pbot/reflect/plane/0,0,0/1,0,0/1,1,0/ The unit vector for pbot is 0.0000000i -0.0000000j 1.0000000k cmo/addatt//ncon50/INT/scalar/scalar/constant/permanent/l/0 finish cmo/addatt//nconbnd/INT/scalar/scalar/constant/permanent/l/0 finish cmo/addatt//icontab/VINT/scalar/ncon50/constant/permanent/l/0.0 finish surface/ptop/reflect/plane/0,0,1/1,0,1/1,1,1/ The unit vector for ptop is 0.0000000i -0.0000000j 1.0000000k surface/prgt/reflect/plane/1,0,0/1,1,0/1,1,1/ The unit vector for prgt is 1.0000000i -0.0000000j 0.0000000k surface/plft/reflect/plane/0,0,0/0,1,0/0,1,1/ The unit vector for plft is 1.0000000i -0.0000000j 0.0000000k surface/pfrt/reflect/plane/0,0,0/1,0,0/1,0,1/ The unit vector for pfrt is 0.0000000i -1.0000000j 0.0000000k surface/pbck/reflect/plane/0,1,0/1,1,0/1,1,1/ The unit vector for pbck is 0.0000000i -1.0000000j 0.0000000k surface/p5/intrface/plane/0,0,.5/1,0,.5/1,1,.5/ The unit vector for p5 is 0.0000000i -0.0000000j 1.0000000k surface/p1/intrface/plane/0,0,.1/1,0,.1/1,1,.1/ The unit vector for p1 is 0.0000000i -0.0000000j 1.0000000k surface/p2/intrface/plane/0,0,.2/1,0,.2/1,1,.2/ The unit vector for p2 is 0.0000000i -0.0000000j 1.0000000k surface/p3/intrface/plane/0,0,.3/1,0,.3/1,1,.3/ The unit vector for p3 is 0.0000000i -0.0000000j 1.0000000k surface/p4/intrface/plane/0,0,.4/1,0,.4/1,1,.4/ The unit vector for p4 is 0.0000000i -0.0000000j 1.0000000k surface/p6/intrface/plane/0,0,.6/1,0,.6/1,1,.6/ The unit vector for p6 is 0.0000000i -0.0000000j 1.0000000k surface/p7/intrface/plane/0,0,.7/1,0,.7/1,1,.7/ The unit vector for p7 is 0.0000000i -0.0000000j 1.0000000k surface/p8/intrface/plane/0,0,.8/1,0,.8/1,1,.8/ The unit vector for p8 is 0.0000000i -0.0000000j 1.0000000k surface/p9/intrface/plane/0,0,.9/1,0,.9/1,1,.9/ The unit vector for p9 is 0.0000000i -0.0000000j 1.0000000k *define geometric regions region/top/le ptop and ge plft and le prgt and ge pbck and le pfrt and ge p9/ region/bot/ge pbot and ge plft and le prgt and ge pbck and le pfrt and lt p1/ region/r2/ge p1 and ge plft and le prgt and ge pbck and le pfrt and lt p2/ region/r3/ge p2 and ge plft and le prgt and ge pbck and le pfrt and lt p3/ region/r4/ge p3 and ge plft and le prgt and ge pbck and le pfrt and lt p4/ region/r5/ge p4 and ge plft and le prgt and ge pbck and le pfrt and lt p5/ region/r6/ge p5 and ge plft and le prgt and ge pbck and le pfrt and lt p6/ region/r7/ge p6 and ge plft and le prgt and ge pbck and le pfrt and lt p7/ region/r8/ge p7 and ge plft and le prgt and ge pbck and le pfrt and lt p8/ region/r9/ge p8 and ge plft and le prgt and ge pbck and le pfrt and lt p9/ * define material regions mregion/mtop/le ptop and ge plft and le prgt and ge pbck and le pfrt and gt p9/ mregion/mbot/ge pbot and ge plft and le prgt and ge pbck and le pfrt and lt p1/ mregion/mr2/gt p1 and ge plft and le prgt and ge pbck and le pfrt and lt p2/ mregion/mr3/gt p2 and ge plft and le prgt and ge pbck and le pfrt and lt p3/ mregion/mr4/gt p3 and ge plft and le prgt and ge pbck and le pfrt and lt p4/ mregion/mr5/gt p4 and ge plft and le prgt and ge pbck and le pfrt and lt p5/ mregion/mr6/gt p5 and ge plft and le prgt and ge pbck and le pfrt and lt p6/ mregion/mr7/gt p6 and ge plft and le prgt and ge pbck and le pfrt and lt p7/ mregion/mr8/gt p7 and ge plft and le prgt and ge pbck and le pfrt and lt p8/ mregion/mr9/gt p8 and ge plft and le prgt and ge pbck and le pfrt and lt p9/ createpts/xyz/6,6,41/0,0,0/1,1,1/1,1,1 RZ GENERATED POINTS 1 TO 1476 setpts FOR icr 1 TYPE surface 1 0 0 THERE ARE 16 POINTS FOR icr 2 TYPE surface 2 0 0 THERE ARE 16 POINTS FOR icr 3 TYPE surface 3 0 0 THERE ARE 156 POINTS FOR icr 4 TYPE surface 4 0 0 THERE ARE 156 POINTS FOR icr 5 TYPE surface 5 0 0 THERE ARE 156 POINTS FOR icr 6 TYPE surface 6 0 0 THERE ARE 156 POINTS FOR icr 7 TYPE line 1 3 0 THERE ARE 4 POINTS FOR icr 8 TYPE line 2 3 0 THERE ARE 4 POINTS FOR icr 9 TYPE line 1 4 0 THERE ARE 4 POINTS FOR icr 10 TYPE line 2 4 0 THERE ARE 4 POINTS FOR icr 11 TYPE point 1 4 5 THERE ARE 1 POINTS FOR icr 12 TYPE line 1 5 0 THERE ARE 4 POINTS FOR icr 13 TYPE point 1 3 5 THERE ARE 1 POINTS FOR icr 14 TYPE line 4 5 0 THERE ARE 39 POINTS FOR icr 15 TYPE line 3 5 0 THERE ARE 39 POINTS FOR icr 16 TYPE point 2 4 5 THERE ARE 1 POINTS FOR icr 17 TYPE line 2 5 0 THERE ARE 4 POINTS FOR icr 18 TYPE point 2 3 5 THERE ARE 1 POINTS FOR icr 19 TYPE point 1 4 6 THERE ARE 1 POINTS FOR icr 20 TYPE line 1 6 0 THERE ARE 4 POINTS FOR icr 21 TYPE point 1 3 6 THERE ARE 1 POINTS FOR icr 22 TYPE line 4 6 0 THERE ARE 39 POINTS FOR icr 23 TYPE line 3 6 0 THERE ARE 39 POINTS FOR icr 24 TYPE point 2 4 6 THERE ARE 1 POINTS FOR icr 25 TYPE line 2 6 0 THERE ARE 4 POINTS FOR icr 26 TYPE point 2 3 6 THERE ARE 1 POINTS FOR imt= 1 NAME= mtop THERE ARE 144 POINTS FOR imt= 2 NAME= mbot THERE ARE 144 POINTS FOR imt= 3 NAME= mr2 THERE ARE 108 POINTS FOR imt= 4 NAME= mr3 THERE ARE 108 POINTS FOR imt= 5 NAME= mr4 THERE ARE 108 POINTS FOR imt= 6 NAME= mr5 THERE ARE 108 POINTS FOR imt= 7 NAME= mr6 THERE ARE 108 POINTS FOR imt= 8 NAME= mr7 THERE ARE 108 POINTS FOR imt= 9 NAME= mr8 THERE ARE 108 POINTS FOR imt= 10 NAME= mr9 THERE ARE 108 POINTS FOR imt= 11 NAME= intrface THERE ARE 324 POINTS connect Coordinates of enclosing tetrahedron are: -0.20000D+01 -0.75000D+00 -0.75000D+00 0.50000D+00 -0.75000D+00 0.42500D+01 0.30000D+01 -0.75000D+00 -0.75000D+00 0.50000D+00 0.42500D+01 0.50000D+00 Successfully eliminated all multimaterial connections. The mesh is now complete! LaGriT FINISH: connect settets Adding 648 interface-coupled points. dump/avs/output.inp/abc cmo/modatt/-def-/-def-/ioflag/x finish * begin compare here cmo/status/abc The current-mesh-object(CMO) is: abc 1 Mesh Object name: abc number of nodes = 2124 number of elements = 5940 dimensions geometry = 3 element type = tet dimensions topology = 3 4 nodes 4 faces 6 edges boundary flag = 16000000 status = active NAME TYPE RANK LENGTH INTER PERSI IO VALUE 1 -def- VDOU scalar nnodes linea tempo x 0.000E+00 2 scalar INT scalar scalar const perma l 1.000E+00 3 vector INT scalar scalar const perma l 3.000E+00 4 nnodes INT scalar scalar const perma l 2.124E+03 5 nedges INT scalar scalar const perma l 0.000E+00 6 nfaces INT scalar scalar const perma l 0.000E+00 7 nelements INT scalar scalar const perma l 5.940E+03 8 mbndry INT scalar scalar const perma l 1.600E+07 9 ndimensions_top INT scalar scalar const perma l 3.000E+00 10 ndimensions_geo INT scalar scalar const perma l 3.000E+00 11 nodes_per_eleme INT scalar scalar const perma l 4.000E+00 12 edges_per_eleme INT scalar scalar const perma l 6.000E+00 13 faces_per_eleme INT scalar scalar const perma l 4.000E+00 14 isetwd VDOU scalar nnodes or perma l 0.000E+00 15 ialias VINT scalar nnodes seque perma l 0.000E+00 16 imt1 VINT scalar nnodes max perma gal 0.000E+00 17 itp1 VINT scalar nnodes min perma gal 0.000E+00 18 icr1 VINT scalar nnodes min perma gal 0.000E+00 19 isn1 VINT scalar nnodes user perma gal 0.000E+00 20 xic VDOU scalar nnodes linea perma l 0.000E+00 21 yic VDOU scalar nnodes linea perma l 0.000E+00 22 zic VDOU scalar nnodes linea perma l 0.000E+00 23 xtetwd VDOU scalar nelements or perma l 0.000E+00 24 itetclr VINT scalar nelements user perma l 0.000E+00 25 itettyp VINT scalar nelements user perma l 0.000E+00 26 itetoff VINT scalar nelements user perma l 0.000E+00 27 jtetoff VINT scalar nelements user perma l 0.000E+00 28 itet VINT nodes_per_ nelements user perma l 0.000E+00 29 jtet VINT faces_per_ nelements user perma l 0.000E+00 30 ipolydat CHAR scalar scalar const perma l no 31 vor2d CHAR scalar scalar const perma l yes 32 vor3d CHAR scalar scalar const perma l no 33 epsilon REAL scalar scalar const perma l 1.000E-15 34 epsilonl REAL scalar scalar const perma l 3.846E-13 35 epsilona REAL scalar scalar const perma l 6.661E-13 36 epsilonv REAL scalar scalar const perma l 2.220E-13 37 ipointi INT scalar scalar const perma l 1.477E+03 38 ipointj INT scalar scalar const perma l 2.124E+03 39 idebug INT scalar scalar const perma l 0.000E+00 40 itypconv_sm INT scalar scalar const perma l 1.000E+00 41 maxiter_sm INT scalar scalar const perma l 2.500E+01 42 tolconv_sm REAL scalar scalar const perma l 1.000E+00 43 nnfreq INT scalar scalar const perma l 1.000E+00 44 ivoronoi INT scalar scalar const perma l 1.000E+00 45 iopt2to2 INT scalar scalar const perma l 2.000E+00 46 dumptype CHAR scalar scalar const perma l binary 47 velname CHAR scalar scalar const perma l vels 48 densname CHAR scalar scalar const perma l ric 49 presname CHAR scalar scalar const perma l pic 50 enername CHAR scalar scalar const perma l eic 51 xmin REAL scalar scalar const perma l 0.000E+00 52 ymin REAL scalar scalar const perma l 0.000E+00 53 zmin REAL scalar scalar const perma l 0.000E+00 54 xmax REAL scalar scalar const perma l 1.000E+00 55 ymax REAL scalar scalar const perma l 1.000E+00 56 zmax REAL scalar scalar const perma l 1.000E+00 57 kdtree_level INT scalar scalar const perma l 0.000E+00 58 max_number_sets INT scalar scalar const perma l 6.400E+01 59 number_of_psets INT scalar scalar const perma l 0.000E+00 60 number_of_eltse INT scalar scalar const perma l 0.000E+00 61 psetnames VCHA scalar max_number_sets const perma l 62 eltsetnames VCHA scalar max_number_sets const perma l 63 geom_name CHAR scalar max_number_sets const perma l -defaultge 64 fsetnames VCHA scalar max_number_sets const perma l 65 number_of_fsets INT scalar scalar const perma l 0.000E+00 66 ncon50 INT scalar scalar const perma l 2.500E+03 67 nconbnd INT scalar scalar const perma l 2.600E+01 68 icontab VINT scalar ncon50 const perma l 0.000E+00 pset/p1/attribute/imt1/1,0,0/1 eq THE PSET p1 HAS 194 POINTS pset/p2/attribute/imt1/1,0,0/2 eq THE PSET p2 HAS 202 POINTS pset/p3/attribute/imt1/1,0,0/3 eq THE PSET p3 HAS 217 POINTS pset/p4/attribute/imt1/1,0,0/4 eq THE PSET p4 HAS 217 POINTS pset/p5/attribute/imt1/1,0,0/5 eq THE PSET p5 HAS 216 POINTS pset/p6/attribute/imt1/1,0,0/6 eq THE PSET p6 HAS 213 POINTS pset/p7/attribute/imt1/1,0,0/7 eq THE PSET p7 HAS 213 POINTS pset/p8/attribute/imt1/1,0,0/8 eq THE PSET p8 HAS 220 POINTS pset/p9/attribute/imt1/1,0,0/9 eq THE PSET p9 HAS 214 POINTS quality volume epsilonvol: 2.2204460E-13 --------------------------------------- element volumes b/w 0.1667E-03 and 0.1914E-03: 5880 element volumes b/w 0.1914E-03 and 0.2199E-03: 0 element volumes b/w 0.2199E-03 and 0.2526E-03: 0 element volumes b/w 0.2526E-03 and 0.2902E-03: 0 element volumes b/w 0.2902E-03 and 0.3333E-03: 60 min volume = 1.6666667E-04 max volume = 3.3333333E-04 ----------------------------------------------------------- 5940 total elements evaluated. * end compare * END finish LaGriT successfully completed