ssx.04.t3d read in np = 32316 ngmwo = 0 nc = 175688 ngmso = 0 hmin= 1.6488237E-02 hrms= 4.0126696E-02 hmax= 6.9330961E-02 mesh reflected np = 247023 ngmwo = 0 nc = 1405504 ngmso = 0 volume check 9.42284735609955 9.42284735609965 ne = 1670754 global edges nf = 2829236 global faces npc = 5622016 point neighbor cells nec = 8433024 edge neighbor cells nbp = 18230 nbe = 54684 nbc = 36144 nbf = 36456 npp = 3588531 point to point interactions nee = 27079194 edge to edge interactions found 34 CAD wireframe objects 5 100005 200005 300005 400005 500005 600005 700005 1000001 1000006 1000007 1000009 1000010 1100001 1100007 1100009 1200001 1200006 1200010 1300001 1400006 1400007 1400009 1400010 1500007 1500009 1600006 1600010 2000002 2000003 2000011 2100003 2200002 2400011 found 28 CAD surface objects 2 5 100002 100005 200002 200005 300002 300005 400002 400005 500002 500005 600002 600005 700002 700005 1000001 1000003 1000004 1100001 1100003 1200001 1200004 1300001 1400003 1400004 1500003 1600004 surface grounded at vertex 342 number of helicity injectors = 2 injector 1 cpc = 0.0000000E+00 0.0000000E+00 -0.6000000 injector 1 cpv = -5.000000 0.0000000E+00 0.0000000E+00 injector 2 cpc = 0.0000000E+00 0.0000000E+00 0.6000000 injector 2 cpv = 0.0000000E+00 -5.000000 0.0000000E+00 tetrahedral mesh geometry initialized mimetic operators initialized starting vacuum field calculation starting Poisson solver 567 -0.665073261303927 8.979342912779924E-019 F F Xinj inductance = 0.537807882397940 writing binary VTK cell data file ssx.04.Xinj.0000 starting Poisson solver 652 -0.620425146214592 1.453696535775220E-023 F F Yinj inductance = 0.536727501159821 writing binary VTK cell data file ssx.04.Yinj.0000 reading binary restart file ssx.04.hts.0001.rst starting Taylor state calculation 1 3.53819712425498 8.645313071159500E-017 2 3.53819712425498 2.848607740874795E-015 3 3.53819712425498 1.994981865410765E-014 4 3.53819712425498 5.518550131539246E-015 5 3.53819712425498 9.759648229257996E-013 6 3.53819712425497 1.245235722827190E-013 7 3.53819712425497 7.903385899704278E-014 8 3.53819712425497 3.722098040001921E-013 9 3.53819712425497 7.627944288973275E-013 10 3.53819712425495 1.359415258292413E-012 20 3.53819712425487 1.079642574900334E-012 30 3.53819712425485 8.191902851697303E-014 39 3.53819712425484 3.399734120946179E-014 starting Poisson solver 414 -2.349328820774159E-015 1.597380916102289E-047 F T writing binary VTK cell data file ssx.04.hts.0001 writing binary restart file ssx.04.hts.0001.rst mode 1 Lambda = 3.53819712425484 Tflux = 2.706676744670782E-007 reading binary restart file ssx.04.hts.0002.rst starting Taylor state calculation 1 3.53820166109621 7.982801820900791E-017 2 3.53820166109621 7.982630793483582E-017 3 3.53820166109621 7.983927202553255E-017 3 3.53820166109621 7.983927202553255E-017 starting Poisson solver 329 -1.174350788783104E-026 3.301096026593881E-052 F T writing binary VTK cell data file ssx.04.hts.0002 writing binary restart file ssx.04.hts.0002.rst mode 2 Lambda = 3.53820166109621 Tflux = 4.095117698078961E-009 reading binary restart file ssx.04.hts.0003.rst starting Taylor state calculation 1 3.97626662196029 1.152036669321925E-015 2 3.97626662196029 1.160259559840452E-015 2 3.97626662196029 1.160259559840452E-015 starting Poisson solver 225 -2.893483643834572E-023 4.602508471022539E-041 F F writing binary VTK cell data file ssx.04.hts.0003 writing binary restart file ssx.04.hts.0003.rst mode 3 Lambda = 3.97626662196029 Tflux = 0.565465096286610 reading binary restart file ssx.04.hts.0004.rst starting Taylor state calculation 1 4.37197152402734 2.962292437940014E-016 2 4.37197152402734 3.003660760600586E-016 2 4.37197152402734 3.003660760600586E-016 starting Poisson solver 240 -7.911359556826638E-024 1.393796986708897E-042 F F writing binary VTK cell data file ssx.04.hts.0004 writing binary restart file ssx.04.hts.0004.rst mode 4 Lambda = 4.37197152402734 Tflux = 7.830181748608451E-008 reading binary restart file ssx.04.hts.0005.rst starting Taylor state calculation 1 4.42508757843082 1.777385072990759E-016 2 4.42508757843082 2.322099047849465E-016 3 4.42508757843082 3.092260334492099E-016 3 4.42508757843082 3.092260334492099E-016 starting Poisson solver 349 -4.763892986353992E-021 4.713201113828681E-048 F T writing binary VTK cell data file ssx.04.hts.0005 writing binary restart file ssx.04.hts.0005.rst mode 5 Lambda = 4.42508757843082 Tflux = 2.803462831033133E-009 reading binary restart file ssx.04.hts.0006.rst starting Taylor state calculation 1 4.42509599597935 5.103204571699918E-016 2 4.42509599597935 5.096292177351059E-016 3 4.42509599597935 5.111000725080315E-016 4 4.42509599597935 5.118221658351306E-016 5 4.42509599597935 5.121288904407636E-016 6 4.42509599597935 5.122952894684447E-016 6 4.42509599597935 5.122952894684447E-016 starting Poisson solver 218 -5.988941029599723E-022 7.458643882811195E-039 F F writing binary VTK cell data file ssx.04.hts.0006 writing binary restart file ssx.04.hts.0006.rst mode 6 Lambda = 4.42509599597935 Tflux = 1.439464734371090E-008 reading binary restart file ssx.04.hts.0007.rst starting Taylor state calculation 1 4.93291546693393 1.430943867600875E-017 2 4.93291546693393 4.911020656797127E-017 2 4.93291546693393 4.911020656797127E-017 starting Poisson solver 349 -1.626832845256692E-019 8.169385424609814E-047 F T writing binary VTK cell data file ssx.04.hts.0007 writing binary restart file ssx.04.hts.0007.rst mode 7 Lambda = 4.93291546693393 Tflux = 3.745286687760576E-008 reading binary restart file ssx.04.hts.0008.rst starting Taylor state calculation 1 4.93296262758101 1.062274875992844E-017 2 4.93296262758101 1.092169459377078E-017 2 4.93296262758101 1.092169459377078E-017 starting Poisson solver 294 -4.734032254638958E-026 1.139179037846194E-048 F T writing binary VTK cell data file ssx.04.hts.0008 writing binary restart file ssx.04.hts.0008.rst mode 8 Lambda = 4.93296262758101 Tflux = 6.389791251136417E-005 reading binary restart file ssx.04.hts.0009.rst starting Taylor state calculation 1 4.96238771446922 2.592081610578211E-018 2 4.96238771446922 2.584735538268220E-018 3 4.96238771446922 2.604960947908120E-018 3 4.96238771446922 2.604960947908120E-018 starting Poisson solver 223 -3.785017600817350E-023 2.241003868497525E-041 F F writing binary VTK cell data file ssx.04.hts.0009 writing binary restart file ssx.04.hts.0009.rst mode 9 Lambda = 4.96238771446922 Tflux = 0.188506137442969 reading binary restart file ssx.04.hts.0010.rst starting Taylor state calculation 1 5.21223387033952 3.408263682770922E-017 2 5.21223387033952 4.328962805558614E-017 2 5.21223387033952 4.328962805558614E-017 starting Poisson solver 226 -1.533842328622972E-020 2.598109392904843E-037 F F writing binary VTK cell data file ssx.04.hts.0010 writing binary restart file ssx.04.hts.0010.rst mode 10 Lambda = 5.21223387033952 Tflux = 1.026077453686605E-009 reading binary restart file ssx.04.hts.0011.rst starting Taylor state calculation 1 5.21226422948809 1.956660594305720E-017 2 5.21226422948809 1.957494686102325E-017 2 5.21226422948809 1.957494686102325E-017 starting Poisson solver 229 -2.192940810704329E-023 1.630587365346053E-041 F F writing binary VTK cell data file ssx.04.hts.0011 writing binary restart file ssx.04.hts.0011.rst mode 11 Lambda = 5.21226422948809 Tflux = 5.082786060016128E-010 reading binary restart file ssx.04.hts.0012.rst starting Taylor state calculation 1 5.47402068178752 2.543753240511450E-016 2 5.47402068178752 8.641895458536784E-015 2 5.47402068178752 8.641895458536784E-015 starting Poisson solver 326 -3.559239919540325E-023 4.634919405323641E-047 F T writing binary VTK cell data file ssx.04.hts.0012 writing binary restart file ssx.04.hts.0012.rst mode 12 Lambda = 5.47402068178752 Tflux = 8.741745367636722E-006 reading binary restart file ssx.04.hts.0013.rst starting Taylor state calculation 1 5.47403180945203 2.483321360122279E-016 2 5.47403180945203 2.483383136618101E-016 2 5.47403180945203 2.483383136618101E-016 starting Poisson solver 306 -4.899597775508106E-026 1.065062408127529E-048 F T writing binary VTK cell data file ssx.04.hts.0013 writing binary restart file ssx.04.hts.0013.rst mode 13 Lambda = 5.47403180945203 Tflux = 1.105581816521463E-007 reading binary restart file ssx.04.hts.0014.rst starting Taylor state calculation 1 5.68796836391616 9.467326522397184E-018 2 5.68796836391616 9.468651345741574E-018 2 5.68796836391616 9.468651345741574E-018 starting Poisson solver 243 -6.545457026905726E-025 1.602246171448011E-043 F F writing binary VTK cell data file ssx.04.hts.0014 writing binary restart file ssx.04.hts.0014.rst mode 14 Lambda = 5.68796836391616 Tflux = 1.978809417837162E-009 reading binary restart file ssx.04.hts.0015.rst starting Taylor state calculation 1 5.90918867751399 7.602302006024415E-017 2 5.90918867751399 2.172941160697566E-015 2 5.90918867751399 2.172941160697566E-015 starting Poisson solver 444 -1.116288215587085E-023 2.331173943372608E-056 F T writing binary VTK cell data file ssx.04.hts.0015 writing binary restart file ssx.04.hts.0015.rst mode 15 Lambda = 5.90918867751399 Tflux = 2.232036844471967E-010 reading binary restart file ssx.04.hts.0016.rst starting Taylor state calculation 1 5.90920714241500 1.494471454978815E-017 2 5.90920714241500 1.494239673290264E-017 3 5.90920714241500 1.494618427504122E-017 3 5.90920714241500 1.494618427504122E-017 starting Poisson solver 361 -9.987806746589589E-027 1.567113006493737E-054 F T writing binary VTK cell data file ssx.04.hts.0016 writing binary restart file ssx.04.hts.0016.rst mode 16 Lambda = 5.90920714241500 Tflux = 3.510709343021374E-010 reading binary restart file ssx.04.hts.0017.rst starting Taylor state calculation 1 6.12402204648073 1.127397725483348E-016 2 6.12402204648072 1.955947760795513E-015 3 6.12402204648072 4.321376628376601E-015 4 6.12402204648072 9.762069799900287E-015 4 6.12402204648072 9.762069799900287E-015 starting Poisson solver 353 -1.593226591799059E-021 1.920002298530292E-047 F T writing binary VTK cell data file ssx.04.hts.0017 writing binary restart file ssx.04.hts.0017.rst mode 17 Lambda = 6.12402204648072 Tflux = 1.351682251088033E-005 reading binary restart file ssx.04.hts.0018.rst starting Taylor state calculation 1 6.12407798430892 6.352852327253755E-017 2 6.12407798430892 6.352857683768302E-017 2 6.12407798430892 6.352857683768302E-017 starting Poisson solver 274 -3.416256228279550E-026 6.345152637942658E-047 F T writing binary VTK cell data file ssx.04.hts.0018 writing binary restart file ssx.04.hts.0018.rst mode 18 Lambda = 6.12407798430892 Tflux = 2.040308263217760E-008 reading binary restart file ssx.04.hts.0019.rst starting Taylor state calculation 1 6.24477029056102 7.968980958622163E-017 2 6.24477029056102 3.920458453930445E-015 2 6.24477029056102 3.920458453930445E-015 starting Poisson solver 408 -3.156730611614072E-023 8.131933640672800E-054 F T writing binary VTK cell data file ssx.04.hts.0019 writing binary restart file ssx.04.hts.0019.rst mode 19 Lambda = 6.24477029056102 Tflux = 3.954397881698099E-010 reading binary restart file ssx.04.hts.0020.rst starting Taylor state calculation 1 6.24478287081751 6.320187610737286E-017 2 6.24478287081751 6.320104040171941E-017 3 6.24478287081751 6.320661254205824E-017 3 6.24478287081751 6.320661254205824E-017 starting Poisson solver 225 -8.495991420868731E-024 1.140095154827257E-041 F F writing binary VTK cell data file ssx.04.hts.0020 writing binary restart file ssx.04.hts.0020.rst mode 20 Lambda = 6.24478287081751 Tflux = 7.203628242855613E-010 reading binary restart file ssx.04.hts.0021.rst starting Taylor state calculation 1 6.37304688530387 4.988756359388590E-017 2 6.37304688530387 1.520583906831165E-015 2 6.37304688530387 1.520583906831165E-015 starting Poisson solver 373 -8.587770231711624E-024 1.518992035185446E-051 F T writing binary VTK cell data file ssx.04.hts.0021 writing binary restart file ssx.04.hts.0021.rst mode 21 Lambda = 6.37304688530387 Tflux = 2.024465242711094E-008 reading binary restart file ssx.04.hts.0022.rst starting Taylor state calculation 1 6.37305419586143 3.025714925730934E-017 2 6.37305419586143 2.976569724344695E-017 3 6.37305419586143 3.117872020372915E-017 3 6.37305419586143 3.117872020372915E-017 starting Poisson solver 216 -2.129953858793857E-022 4.841326192697747E-039 F F writing binary VTK cell data file ssx.04.hts.0022 writing binary restart file ssx.04.hts.0022.rst mode 22 Lambda = 6.37305419586143 Tflux = 2.028152704589764E-009 reading binary restart file ssx.04.hts.0023.rst starting Taylor state calculation 1 6.50450949353513 1.124879465565648E-017 2 6.50450949353513 1.109092449263794E-017 3 6.50450949353513 1.211194046855472E-017 3 6.50450949353513 1.211194046855472E-017 starting Poisson solver 336 -1.848693667505069E-022 2.803158042902043E-049 F T writing binary VTK cell data file ssx.04.hts.0023 writing binary restart file ssx.04.hts.0023.rst mode 23 Lambda = 6.50450949353513 Tflux = 0.113208323684469 reading binary restart file ssx.04.hts.0024.rst starting Taylor state calculation 1 6.62118071079213 6.148007962983962E-017 2 6.62118071079213 2.153592724494458E-015 2 6.62118071079213 2.153592724494458E-015 starting Poisson solver 396 -1.138168041429846E-023 2.493289018703056E-053 F T writing binary VTK cell data file ssx.04.hts.0024 writing binary restart file ssx.04.hts.0024.rst mode 24 Lambda = 6.62118071079213 Tflux = 1.731527740826846E-009 reading binary restart file ssx.04.hts.0025.rst starting Taylor state calculation 1 6.62118072939281 4.801291505658817E-018 2 6.62118072939281 4.780059351976871E-018 3 6.62118072939281 4.850014483456505E-018 3 6.62118072939281 4.850014483456505E-018 starting Poisson solver 342 -1.477746490342176E-027 6.709372801617930E-054 F T writing binary VTK cell data file ssx.04.hts.0025 writing binary restart file ssx.04.hts.0025.rst mode 25 Lambda = 6.62118072939281 Tflux = 7.268951857768377E-010 starting Poisson solver 522 -1922.53898587632 5.563928938953671E-039 T F starting Taylor state calculation 1 415.464957426916 3.092214219403028E-002 2 292.862382417037 4.345443162783510E-002 3 246.926979661960 7.638523618102908E-002 4 219.437118150349 9.919127707671607E-002 5 199.939264557314 0.105306685358024 6 183.912935680773 0.104773645179858 7 168.842439318826 0.108344455437513 8 152.634665433009 0.121287689898356 9 133.392737500581 0.135934526337037 10 110.094648749347 0.127615143845270 20 66.1148206771914 0.154972173070458