[Nek5000-users] Failure with TORDER = 3 (P027)
nek5000-users at lists.mcs.anl.gov
nek5000-users at lists.mcs.anl.gov
Fri Dec 9 10:28:32 CST 2011
George,
Can you do a run using single 4 byte .fXXXXX file using just one
IO-node. Also, turn off the characteristics scheme (IFCHAR). Then try
to do a restart again.
Cheers,
Stefan
On 12/9/11, nek5000-users at lists.mcs.anl.gov
<nek5000-users at lists.mcs.anl.gov> wrote:
>
> Hi Stefan,
>
> Here is a part of a file I obtained from a run that failed with TORDER = 3.
>
> Regards
> George
>
> -------------------------------------------------------------------------------
> 118 Parameters from file:/
> 1 1.00000 P001: DENSITY
> 2 -9500. P002: VISCOS
> 7 1.00000 P007: RHOCP
> 8 1.00000 P008: CONDUCT
> 11 500.0 P011: NSTEPS
> 12 -5.000E-04 P012: DT
> 15 500.00 P015: IOSTEP
> 17 1.00000 P017:
> 18 0.500000E-01 P018: GRID < 0 --> # cells on screen
> 19 -1.00000 P019: INTYPE
> 20 10.0000 P020: NORDER
> 21 0.100000E-05 P021: DIVERGENCE
> 22 9.920000E-08 P022: HELMHOLTZ
> 24 0.100000E-01 P024: TOLREL
> 25 0.100000E-01 P025: TOLABS
> 26 1.00000 P026: COURANT/NTAU
> 27 3.00000 P027: TORDER
> 28 0.00000 P028: TORDER: mesh velocity (0: p28=p27)
> 54 -3.00000 P054: fixed flow rate dir: |p54|=1,2,3=x,y,z
> 55 1.00000 P055: vol.flow rate (p54>0) or Ubar (p54<0)
> 63 8.00000 P063: =8 --> force 8-byte output
> 65 6.00000 P065: #iofiles (eg, 0 or 64); <0 --> sep. dirs
> 66 6.00000 P066: output : <0=ascii, else binary
> 67 6.00000 P067: restart: <0=ascii, else binary
> 68 500.00 P068: iastep: freq for avg_all (0=iostep)
> 69 50000.0 P069: : : frequency of srf dump
> 93 20.0000 P093: Number of previous pressure solns saved
> 99 3.00000 P099: dealiasing: <0--> off/3--> old/4--> new
> 102 1.00000 P102: Dump out divergence at each time step
> 103 0.05000 P103: weight of stabilizing filter (.01)
>
> IFTRAN = T
> IFFLOW = T
> IFHEAT = F
> IFSPLIT = F
> IFLOMACH = F
> IFUSERVP = F
> IFUSERMV = F
> IFSTRS = F
> IFCHAR = T
> IFCYCLIC = F
> IFAXIS = F
> IFMVBD = F
> IFMELT = F
> IFMODEL = F
> IFKEPS = F
> IFMOAB = F
> IFNEKNEK = F
> IFSYNC = T
>
> IFVCOR = T
> IFINTQ = F
> IFCWUZ = F
> IFSWALL = F
> IFGEOM = F
> IFSURT = F
> IFWCNO = F
>
> IFTMSH for field 1 = F
> IFADVC for field 1 = T
> IFNONL for field 1 = F
>
> Dealiasing enabled, lxd= 12
>
> Estimated eigenvalues
> EIGAA = 1.650197855862139
> EIGGA = 71694413.86227663
> EIGAE = 1.5791367041742943E-002
> EIGAS = 7.9744816586921753E-004
> EIGGE = 71694413.86227663
> EIGGS = 2.000000000000000
>
> verify mesh topology
> -1.000000000000000 1.000000000000000 Xrange
> -1.000000000000000 1.000000000000000 Yrange
> 0.000000000000000 25.00000000000002 Zrange
> done :: verify mesh topology
>
> E-solver strategy: 1 itr
> mg_nx: 1 5 7
> mg_ny: 1 5 7
> mg_nz: 1 5 7
> call usrsetvert
> done :: usrsetvert
>
> gs_setup: 277536 unique labels shared
> pairwise times (avg, min, max): 0.000236133 0.000198293 0.000261211
> crystal router : 0.000244021 0.000238085 0.00025022
> used all_to_all method: crystal router
> setupds time 2.1331E-02 seconds 1 2 875808 853632
> setvert3d: 4 16416864 23245920 16416864 16416864
> call usrsetvert
> done :: usrsetvert
>
> gs_setup: 2635744 unique labels shared
> pairwise times (avg, min, max): 0.0004331 0.000362206 0.000494504
> crystal router : 0.001126 0.0011049 0.00114682
> used all_to_all method: pairwise
> setupds time 1.9091E-01 seconds 2 4 16416864 853632
> setvert3d: 6 52620192 107252640 52620192 52620192
> call usrsetvert
> done :: usrsetvert
>
> gs_setup: 7399328 unique labels shared
> pairwise times (avg, min, max): 0.000524018 0.000427318 0.000591493
> crystal router : 0.00345075 0.0033884 0.0035347
> used all_to_all method: pairwise
> setupds time 5.6218E-01 seconds 3 6 52620192 853632
> setvert3d: 8 109485792 293870304 109485792 109485792
> call usrsetvert
> done :: usrsetvert
>
> gs_setup: 14568288 unique labels shared
> pairwise times (avg, min, max): 0.00098448 0.000790119 0.00117922
> crystal router : 0.00694697 0.00683801 0.00708301
> used all_to_all method: pairwise
> setupds time 1.4705E+00 seconds 4 8 109485792 853632
> setup h1 coarse grid, nx_crs= 2
> call usrsetvert
> done :: usrsetvert
>
> gs_setup: 277536 unique labels shared
> pairwise times (avg, min, max): 0.000271898 0.000193095 0.000345087
> crystal router : 0.000370127 0.000366497 0.000374007
> used all_to_all method: pairwise
> done :: setup h1 coarse grid 562.8824191093445 sec
>
> call usrdat3
> done :: usrdat3
>
> set initial conditions
> Checking restart options: pipe?.f00001
> Reading checkpoint data
> 0 0 OPEN: pipe0.f00001
> byte swap: F 6.543210 -2.9312772E+35
> 850 0 OPEN: pipe5.f00001
> 510 0 OPEN: pipe3.f00001
> 170 0 OPEN: pipe1.f00001
> 1020 0 OPEN: pipe6.f00001
> 680 0 OPEN: pipe4.f00001
> 340 0 OPEN: pipe2.f00001
>
> 0 1.6225E+02 done :: Read checkpoint data
> avg data-throughput = -65.6MBps
> io-nodes = 6
>
> xyz min -1.0000 -1.0000 0.0000
> uvwpt min -0.43349 -0.45564 -0.77820E-01 0.69058E+08 0.0000
> xyz max 1.0000 1.0000 25.000
> uvwpt max 0.44557 0.38210 1.4216 0.69058E+08 0.0000
> Restart: recompute geom. factors.
> regenerate geomerty data 1
> vol_t,vol_v: 78.53976641971477 78.53976641971477
> done :: regenerate geomerty data 1
>
> done :: set initial conditions
>
> call userchk
> done :: userchk
>
> gridpoints unique/tot: 293870304 437059584
> dofs: 291725280 184384512
>
> Initial time: 0.1622500E+03
> Initialization successfully completed 616.10 sec
>
> Starting time loop ...
>
> DT/DTCFL/DTFS/DTINIT 0.500E-03 0.494-323 0.299-316 0.500E-03
> Step 1, t= 1.6225050E+02, DT= 5.0000000E-04, C= 0.251 0.0000E+00
> 0.0000E+00
> Solving for fluid
> 9.9200000000000002E-008 p22 1 1
> 1 1 Helmholtz VELX F: 1.0654E+00 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 2 Helmholtz VELX F: 1.5163E-02 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 3 Helmholtz VELX F: 1.6029E-03 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 4 Helmholtz VELX F: 3.9700E-04 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 5 Helmholtz VELX F: 1.4559E-04 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 6 Helmholtz VELX F: 4.8307E-05 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 7 Helmholtz VELX F: 1.5822E-05 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 8 Helmholtz VELX F: 4.7557E-06 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 9 Helmholtz VELX F: 1.4659E-06 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 10 Helmholtz VELX F: 5.6372E-07 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 11 Helmholtz VELX F: 1.6238E-07 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 12 Helmholtz VELX F: 4.9454E-08 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 Hmholtz VELX: 11 4.9454E-08 1.0654E+00 9.9200E-08
> 9.9200000000000002E-008 p22 1 1
> 1 1 Helmholtz VELY F: 1.0592E+00 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 2 Helmholtz VELY F: 1.5106E-02 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 3 Helmholtz VELY F: 1.6168E-03 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 4 Helmholtz VELY F: 3.9446E-04 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 5 Helmholtz VELY F: 1.4562E-04 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 6 Helmholtz VELY F: 4.9132E-05 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 7 Helmholtz VELY F: 1.5898E-05 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 8 Helmholtz VELY F: 4.7011E-06 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 9 Helmholtz VELY F: 1.4592E-06 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 10 Helmholtz VELY F: 5.6658E-07 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 11 Helmholtz VELY F: 1.6209E-07 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 12 Helmholtz VELY F: 4.8705E-08 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 Hmholtz VELY: 11 4.8705E-08 1.0592E+00 9.9200E-08
> 9.9200000000000002E-008 p22 1 1
> 1 1 Helmholtz VELZ F: 9.0867E-01 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 2 Helmholtz VELZ F: 1.5203E-02 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 3 Helmholtz VELZ F: 2.3594E-03 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 4 Helmholtz VELZ F: 5.4341E-04 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 5 Helmholtz VELZ F: 1.9420E-04 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 6 Helmholtz VELZ F: 6.9938E-05 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 7 Helmholtz VELZ F: 2.1336E-05 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 8 Helmholtz VELZ F: 6.4972E-06 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 9 Helmholtz VELZ F: 2.1068E-06 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 10 Helmholtz VELZ F: 7.2366E-07 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 11 Helmholtz VELZ F: 2.2873E-07 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 12 Helmholtz VELZ F: 6.6523E-08 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 Hmholtz VELZ: 11 6.6523E-08 9.0867E-01 9.9200E-08
> 1 1.00000E-06 8.15804E-04 1.72021E-03 4.74246E-01 1 Divergence
> 2 1.00000E-06 4.25351E-04 1.72021E-03 2.47267E-01 1 Divergence
> 3 1.00000E-06 2.20250E-04 1.72021E-03 1.28037E-01 1 Divergence
> 4 1.00000E-06 1.10200E-04 1.72021E-03 6.40617E-02 1 Divergence
> 5 1.00000E-06 6.66356E-05 1.72021E-03 3.87369E-02 1 Divergence
> 6 1.00000E-06 4.55137E-05 1.72021E-03 2.64582E-02 1 Divergence
> 7 1.00000E-06 3.45979E-05 1.72021E-03 2.01126E-02 1 Divergence
> 8 1.00000E-06 2.74987E-05 1.72021E-03 1.59856E-02 1 Divergence
> 9 1.00000E-06 2.25703E-05 1.72021E-03 1.31207E-02 1 Divergence
> 10 1.00000E-06 1.84355E-05 1.72021E-03 1.07170E-02 1 Divergence
> 11 1.00000E-06 1.51102E-05 1.72021E-03 8.78394E-03 1 Divergence
> 12 1.00000E-06 1.23753E-05 1.72021E-03 7.19407E-03 1 Divergence
> 13 1.00000E-06 9.99015E-06 1.72021E-03 5.80751E-03 1 Divergence
> 14 1.00000E-06 7.91532E-06 1.72021E-03 4.60136E-03 1 Divergence
> 15 1.00000E-06 6.25368E-06 1.72021E-03 3.63541E-03 1 Divergence
> 16 1.00000E-06 4.91692E-06 1.72021E-03 2.85832E-03 1 Divergence
> 17 1.00000E-06 3.87115E-06 1.72021E-03 2.25039E-03 1 Divergence
> 18 1.00000E-06 3.04686E-06 1.72021E-03 1.77121E-03 1 Divergence
> 19 1.00000E-06 2.41971E-06 1.72021E-03 1.40663E-03 1 Divergence
> 20 1.00000E-06 1.93080E-06 1.72021E-03 1.12242E-03 1 Divergence
> 21 1.00000E-06 1.69768E-06 1.72021E-03 9.86902E-04 1 Divergence
> 22 1.00000E-06 1.48272E-06 1.72021E-03 8.61940E-04 1 Divergence
> 23 1.00000E-06 1.31245E-06 1.72021E-03 7.62959E-04 1 Divergence
> 24 1.00000E-06 1.15596E-06 1.72021E-03 6.71990E-04 1 Divergence
> 25 1.00000E-06 9.86100E-07 1.72021E-03 5.73243E-04 1 Divergence
> 1 U-PRES gmres: 25 9.8610E-07 1.0000E-06 1.7202E-03
> 9.0149E+00 1.6742E+01
> 1 DNORM, DIVEX 9.8609999662049055E-007
> 9.8609999670093433E-007
> 9.9200000000000002E-008 p22 1 1
> 1 1 Helmholtz VELX F: 0.0000E+00 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 Hmholtz VELX: 0 0.0000E+00 0.0000E+00 9.9200E-08
> 9.9200000000000002E-008 p22 1 1
> 1 1 Helmholtz VELY F: 0.0000E+00 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 Hmholtz VELY: 0 0.0000E+00 0.0000E+00 9.9200E-08
> 9.9200000000000002E-008 p22 1 1
> 1 1 Helmholtz VELZ F: 9.9993E-01 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 2 Helmholtz VELZ F: 3.4255E-02 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 3 Helmholtz VELZ F: 8.5689E-03 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 4 Helmholtz VELZ F: 2.0449E-03 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 5 Helmholtz VELZ F: 8.2452E-04 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 6 Helmholtz VELZ F: 2.5912E-04 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 7 Helmholtz VELZ F: 8.5857E-05 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 8 Helmholtz VELZ F: 2.4937E-05 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 9 Helmholtz VELZ F: 8.7854E-06 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 10 Helmholtz VELZ F: 3.0249E-06 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 11 Helmholtz VELZ F: 9.2479E-07 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 12 Helmholtz VELZ F: 3.0301E-07 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 13 Helmholtz VELZ F: 1.0306E-07 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 14 Helmholtz VELZ F: 3.4387E-08 9.9200E-08 1.0526E-04
> 2.0000E+03
> 1 Hmholtz VELZ: 13 3.4387E-08 9.9993E-01 9.9200E-08
> 1 1.00000E-04 8.48221E-11 1.31021E-10 6.47394E-01 0 Divergence
> 0 U-PRES gmres: 1 8.4822E-11 1.0000E-04 1.3102E-10
> 3.6466E-01 6.1275E-01
> 1 1.57007E-03 2.50000E+01 1.00000E+00 basflow Z
> 1 0.1622505E+03 6.74973E-03 1.05976E-05 3.14158E+00
> 3.14159E+00 volflow Z
> 1 1.6225E+02 2.5581E+01 Fluid done
> filt amp 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0500
> filt trn 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 0.9500
> schfile:
> /cfs/klemming/nobackup/g/georgeek/Pipe_550/pipe.sch
> Step 2, t= 1.6225100E+02, DT= 5.0000000E-04, C= 0.252 2.9590E+01
> 2.9590E+01
> Solving for fluid
> 9.9200000000000002E-008 p22 2 1
> 2 Hmholtz VELX: 10 2.6583E-08 1.5981E+00 9.9200E-08
> 9.9200000000000002E-008 p22 2 1
> 2 Hmholtz VELY: 10 2.6270E-08 1.5887E+00 9.9200E-08
> 9.9200000000000002E-008 p22 2 1
> 2 Hmholtz VELZ: 10 3.7961E-08 1.3628E+00 9.9200E-08
> 2 U-PRES gmres: 26 8.8941E-07 1.0000E-06 8.7570E-04
> 9.3625E+00 1.7342E+01
> 2 DNORM, DIVEX 8.8940552367860238E-007
> 8.8940552232510758E-007
> 9.9200000000000002E-008 p22 2 1
> 2 Hmholtz VELX: 0 0.0000E+00 0.0000E+00 9.9200E-08
> 9.9200000000000002E-008 p22 2 1
> 2 Hmholtz VELY: 0 0.0000E+00 0.0000E+00 9.9200E-08
> 9.9200000000000002E-008 p22 2 1
> 2 Hmholtz VELZ: 11 2.9548E-08 9.9993E-01 9.9200E-08
> 0 U-PRES gmres: 1 5.0819E-11 1.0000E-04 7.6670E-11
> 3.6476E-01 6.1121E-01
> 2 1.04680E-03 2.50000E+01 1.00000E+00 basflow Z
> 2 0.1622510E+03 6.74912E-03 7.06497E-06 3.14158E+00
> 3.14159E+00 volflow Z
> 2 1.6225E+02 2.5493E+01 Fluid done
> Step 3, t= 1.6225150E+02, DT= 5.0000000E-04, C= 0.253 6.2005E+01
> 3.2415E+01
> Solving for fluid
> 9.9200000000000002E-008 p22 3 1
> 3 Hmholtz VELX: 9 5.9973E-08 1.9551E+00 9.9200E-08
> 9.9200000000000002E-008 p22 3 1
> 3 Hmholtz VELY: 9 5.9734E-08 1.9436E+00 9.9200E-08
> 9.9200000000000002E-008 p22 3 1
> 3 Hmholtz VELZ: 9 6.7060E-08 1.6769E+00 9.9200E-08
> 3 U-PRES gmres: 43 9.7341E-07 1.0000E-06 5.8253E-03
> 1.5480E+01 2.9163E+01
> 3 DNORM, DIVEX 9.7340773053122238E-007
> 9.7340773046898007E-007
> 9.9200000000000002E-008 p22 3 1
> 3 Hmholtz VELX: 0 0.0000E+00 0.0000E+00 9.9200E-08
> 9.9200000000000002E-008 p22 3 1
> 3 Hmholtz VELY: 0 0.0000E+00 0.0000E+00 9.9200E-08
> 9.9200000000000002E-008 p22 3 1
> 3 Hmholtz VELZ: 10 3.2545E-08 9.9993E-01 9.9200E-08
> 0 U-PRES gmres: 1 3.1707E-11 1.0000E-04 3.8884E-11
> 3.6436E-01 6.1134E-01
> 3 8.56501E-04 2.50000E+01 1.00000E+00 basflow Z
> 3 0.1622515E+03 6.74739E-03 5.77915E-06 3.14158E+00
> 3.14159E+00 volflow Z
> 3 1.6225E+02 3.6833E+01 Fluid done
> Step 4, t= 1.6225200E+02, DT= 5.0000000E-04, C= 0.253 1.0909E+02
> 4.7088E+01
> Solving for fluid
> 9.9200000000000002E-008 p22 4 1
> 4 Hmholtz VELX: 9 5.1382E-08 1.9533E+00 9.9200E-08
> 9.9200000000000002E-008 p22 4 1
> 4 Hmholtz VELY: 9 5.1245E-08 1.9419E+00 9.9200E-08
> 9.9200000000000002E-008 p22 4 1
> 4 Hmholtz VELZ: 9 5.8121E-08 1.6656E+00 9.9200E-08
> 4 U-PRES gmres: 20 9.8736E-07 1.0000E-06 5.8401E-04
> 7.2002E+00 1.3507E+01
> 4 DNORM, DIVEX 9.8735913161531008E-007
> 9.8735912866392627E-007
> 4 0.1622520E+03 6.74462E-03 5.77677E-06 3.14158E+00
> 3.14159E+00 volflow Z
> 4 1.6225E+02 1.8072E+01 Fluid done
> Step 5, t= 1.6225250E+02, DT= 5.0000000E-04, C= 0.254 1.3731E+02
> 2.8220E+01
> Solving for fluid
> 9.9200000000000002E-008 p22 5 1
> 5 Hmholtz VELX: 9 5.5907E-08 1.9533E+00 9.9200E-08
> 9.9200000000000002E-008 p22 5 1
> 5 Hmholtz VELY: 9 5.5659E-08 1.9419E+00 9.9200E-08
> 9.9200000000000002E-008 p22 5 1
> 5 Hmholtz VELZ: 9 5.9684E-08 1.6655E+00 9.9200E-08
> 5 U-PRES gmres: 16 9.2427E-07 1.0000E-06 1.5556E-04
> 5.7643E+00 1.0499E+01
> 5 DNORM, DIVEX 9.2426901539348950E-007
> 9.2426901307669303E-007
> 5 0.1622525E+03 6.74218E-03 5.77469E-06 3.14158E+00
> 3.14159E+00 volflow Z
> 5 1.6225E+02 1.5064E+01 Fluid done
> Step 6, t= 1.6225300E+02, DT= 5.0000000E-04, C= 0.255 1.6256E+02
> 2.5244E+01
> Solving for fluid
> 9.9200000000000002E-008 p22 6 1
> 6 Hmholtz VELX: 9 6.0915E-08 1.9533E+00 9.9200E-08
> 9.9200000000000002E-008 p22 6 1
> 6 Hmholtz VELY: 9 6.0642E-08 1.9418E+00 9.9200E-08
> 9.9200000000000002E-008 p22 6 1
> 6 Hmholtz VELZ: 9 5.9861E-08 1.6655E+00 9.9200E-08
> 6 U-PRES gmres: 14 8.6298E-07 1.0000E-06 1.2403E-04
> 5.0438E+00 9.0451E+00
> 6 DNORM, DIVEX 8.6297683366363408E-007
> 8.6297681628504936E-007
> 6 0.1622530E+03 6.73975E-03 5.77261E-06 3.14158E+00
> 3.14159E+00 volflow Z
> 6 1.6225E+02 1.3610E+01 Fluid done
> Step 7, t= 1.6225350E+02, DT= 5.0000000E-04, C= 0.255 1.8632E+02
> 2.3767E+01
> Solving for fluid
> 9.9200000000000002E-008 p22 7 1
> 7 Hmholtz VELX: 9 7.2389E-08 1.9533E+00 9.9200E-08
> 9.9200000000000002E-008 p22 7 1
> 7 Hmholtz VELY: 9 7.1978E-08 1.9418E+00 9.9200E-08
> 9.9200000000000002E-008 p22 7 1
> 7 Hmholtz VELZ: 9 6.0336E-08 1.6654E+00 9.9200E-08
> 7 U-PRES gmres: 14 7.8284E-07 1.0000E-06 1.2790E-04
> 5.0456E+00 9.0568E+00
> 7 DNORM, DIVEX 7.8284171959673956E-007
> 7.8284171260985997E-007
> 7 0.1622535E+03 6.73731E-03 5.77052E-06 3.14158E+00
> 3.14159E+00 volflow Z
> 7 1.6225E+02 1.3620E+01 Fluid done
> Step 8, t= 1.6225400E+02, DT= 5.0000000E-04, C= 0.256 2.1010E+02
> 2.3780E+01
> Solving for fluid
> 9.9200000000000002E-008 p22 8 1
> 8 Hmholtz VELX: 9 8.0530E-08 1.9533E+00 9.9200E-08
> 9.9200000000000002E-008 p22 8 1
> 8 Hmholtz VELY: 9 8.0474E-08 1.9418E+00 9.9200E-08
> 9.9200000000000002E-008 p22 8 1
> 8 Hmholtz VELZ: 9 6.1838E-08 1.6654E+00 9.9200E-08
> 8 U-PRES gmres: 13 9.3871E-07 1.0000E-06 8.2637E-05
> 4.6862E+00 8.3450E+00
> 8 DNORM, DIVEX 9.3870751505892285E-007
> 9.3870750972531774E-007
> 8 0.1622540E+03 6.73487E-03 5.76843E-06 3.14158E+00
> 3.14159E+00 volflow Z
> 8 1.6225E+02 1.2911E+01 Fluid done
> Step 9, t= 1.6225450E+02, DT= 5.0000000E-04, C= 0.257 2.3318E+02
> 2.3081E+01
> Solving for fluid
> 9.9200000000000002E-008 p22 9 1
> 9 Hmholtz VELX: 9 8.5197E-08 1.9533E+00 9.9200E-08
> 9.9200000000000002E-008 p22 9 1
> 9 Hmholtz VELY: 9 8.4881E-08 1.9418E+00 9.9200E-08
> 9.9200000000000002E-008 p22 9 1
> 9 Hmholtz VELZ: 9 6.3849E-08 1.6654E+00 9.9200E-08
> 9 U-PRES gmres: 10 8.0419E-07 1.0000E-06 5.5243E-05
> 3.6054E+00 6.2748E+00
> 9 DNORM, DIVEX 8.0418938467388352E-007
> 8.0418939044644440E-007
> 9 0.1622545E+03 6.73242E-03 5.76633E-06 3.14158E+00
> 3.14159E+00 volflow Z
> 9 1.6225E+02 1.0838E+01 Fluid done
> Step 10, t= 1.6225500E+02, DT= 5.0000000E-04, C= 0.257 2.5418E+02
> 2.0995E+01
> Solving for fluid
> 9.9200000000000002E-008 p22 10 1
> 10 Hmholtz VELX: 9 8.7316E-08 1.9533E+00 9.9200E-08
> 9.9200000000000002E-008 p22 10 1
> 10 Hmholtz VELY: 9 8.7257E-08 1.9418E+00 9.9200E-08
> 9.9200000000000002E-008 p22 10 1
> 10 Hmholtz VELZ: 9 6.5276E-08 1.6654E+00 9.9200E-08
> 10 U-PRES gmres: 14 7.9070E-07 1.0000E-06 5.7631E-05
> 5.0451E+00 9.0540E+00
> 10 DNORM, DIVEX 7.9069874056473697E-007
> 7.9069875187583686E-007
> 10 0.1622550E+03 6.72998E-03 5.76424E-06 3.14158E+00
> 3.14159E+00 volflow Z
> 10 1.6225E+02 1.3620E+01 Fluid done
> Step 11, t= 1.6225550E+02, DT= 5.0000000E-04, C= 0.258 2.7885E+02
> 2.4675E+01
> Solving for fluid
> 11 100 **ERROR**: Failed in HMHOLTZ: VELX 7.9521E+07
> 1.9533E+00 9.9200E-08
> 11 100 **ERROR**: Failed in HMHOLTZ: VELY 2.8223E+03
> 1.9418E+00 9.9200E-08
> 11 Hmholtz VELZ: 9 6.6283E-08 1.6654E+00 9.9200E-08
> 11 U-PRES gmres: 100 1.6296E+02 1.0000E-06 2.6253E+12
> 3.6002E+01 6.8265E+01
> 11 DNORM, DIVEX 54998323.86255041 162.9642641112922
> 11 0.1622555E+03 4.32525E-03 3.70458E-06 3.14159E+00
> 3.14159E+00 volflow Z
> 11 1.6226E+02 9.4526E+01 Fluid done
> CFL, Ctarg! 11083557069312.66 1.000000000000000
> call outfld: ifpsco: F
>
> 12 1.6226E+02 Write checkpoint:
>
> call outfld: ifpsco: F
>
> 12 1.6226E+02 Write checkpoint:
> 0 12 OPEN: pipe0.f00001
> 850 12 OPEN: pipe5.f00001
> 510 12 OPEN: pipe3.f00001
> 170 12 OPEN: pipe1.f00001
> 1020 12 OPEN: pipe6.f00001
> 680 12 OPEN: pipe4.f00001
> 340 12 OPEN: pipe2.f00001
>
> 12 1.6226E+02 done :: Write checkpoint
> file size = 234.E+02MB
>
> 899 Emergency exit: 12 time = 162.2554999999999
>
> 512 Emergency exit: 12 time = 162.2554999999999
>
> 459 Emergency exit: 12 time = 162.2554999999999
> Latest solution and data are dumped for post-processing.
> *** STOP ***
> 461 Emergency exit: 12 time = 162.2554999999999
> Latest solution and data are dumped for post-processing.
> *** STOP ***
>
> -------------------------------------------------------------------------------
>
> Quoting nek5000-users at lists.mcs.anl.gov:
>
>> Geroge,
>>
>> Can you provide more details. A logfile would be helpful.
>>
>> Cheers,
>> Stefan
>
>
> ----------------------------------------------------------------
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