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From: 王江涛 <wan...@16...> - 2015-03-05 05:06:42
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hi!
I was in mesa/star/work/inlist_project set
star_job
..........................
new_rotation_flag = .true.
change_rotation_flag = .false.
change_initial_rotation_flag = .true.
new_surface_rotation_v = 100
set_surface_rotation_v = .false.
set_initial_surface_rotation_v = .true
................................................
And
star_controls
!# rotation controls
.............
but it is show
read history_columns.list
read profile_columns.list
net name basic.net
rotation_flag = T
kappa_file_prefix gn93
kappa_lowT_prefix lowT_fa05_gs98
eos_file_prefix mesa
OMP_NUM_THREADS 4
hydro_newton_step returned ierr
retry cnt, step, log10(dt/yr), retry_factor 1 1 -5.602060 0.500000
1st model retry log10(dt/yr) -5.3010299956639804D+00
hydro_newton_step returned ierr
retry cnt, step, log10(dt/yr), retry_factor 2 1 -5.903090 0.500000
1st model retry log10(dt/yr) -5.6020599913279616D+00
have reached retry limit so now backup
1st model retry log10(dt/yr) -7.6020599913279616D+00
hydro_newton_step returned ierr
retry cnt, step, log10(dt/yr), retry_factor 1 1 -8.204120 0.500000
1st model retry log10(dt/yr) -7.9030899869919429D+00
first model is slow to converge: num tries 70
first model is slow to converge: num tries 80
hydro_newton_step returned ierr
retry cnt, step, log10(dt/yr), retry_factor 2 1 -8.505150 0.500000
1st model retry log10(dt/yr) -8.2041199826559232D+00
first model is slow to converge: num tries 90
first model is slow to converge: num tries 100
first model is slow to converge: num tries 110
have reached retry limit so now backup
1st model retry log10(dt/yr) -1.0806179973983886D+01
first model is slow to converge: num tries 120
first model is slow to converge: num tries 130
first model is slow to converge: num tries 140
first model is slow to converge: num tries 150
first model is slow to converge: num tries 160
hydro_newton_step returned ierr
retry cnt, step, log10(dt/yr), retry_factor 1 1 -11.408240 0.500000
1st model retry log10(dt/yr) -1.1107209969647867D+01
first model is slow to converge: num tries 170
first model is slow to converge: num tries 180
first model is slow to converge: num tries 190
hydro_newton_step returned ierr
retry cnt, step, log10(dt/yr), retry_factor 2 1 -11.709270 0.500000
1st model retry log10(dt/yr) -1.1408239965311848D+01
first model is slow to converge: num tries 200
first model is slow to converge: num tries 210
first model is slow to converge: num tries 220
first model is slow to converge: num tries 230
first model is slow to converge: num tries 240
have reached retry limit so now backup
1st model retry log10(dt/yr) -1.4612359947967773D+01
first model is slow to converge: num tries 250
first model is slow to converge: num tries 260
first model is slow to converge: num tries 270
first model is slow to converge: num tries 280
hydro_newton_step returned ierr
retry cnt, step, log10(dt/yr), retry_factor 1 1 -15.214420 0.500000
1st model retry log10(dt/yr) -1.4913389943631755D+01
first model is slow to converge: num tries 290
first model is slow to converge: num tries 300
first model is slow to converge: num tries 310
first model is slow to converge: num tries 320
first model is slow to converge: num tries 330
first model is slow to converge: num tries 340
hydro_newton_step returned ierr
retry cnt, step, log10(dt/yr), retry_factor 2 1 -15.515450 0.500000
1st model retry log10(dt/yr) -1.5214419939295736D+01
first model is slow to converge: num tries 350
first model is slow to converge: num tries 360
first model is slow to converge: num tries 370
first model is slow to converge: num tries 380
first model is slow to converge: num tries 390
have reached retry limit so now backup
1st model retry log10(dt/yr) -1.9020599913279622D+01
first model is slow to converge: num tries 400
first model is slow to converge: num tries 410
first model is slow to converge: num tries 420
first model is slow to converge: num tries 430
first model is slow to converge: num tries 440
hydro_newton_step returned ierr
retry cnt, step, log10(dt/yr), retry_factor 1 1 -19.622660 0.500000
1st model retry log10(dt/yr) -1.9321629908943603D+01
first model is slow to converge: num tries 450
first model is slow to converge: num tries 460
first model is slow to converge: num tries 470
first model is slow to converge: num tries 480
first model is slow to converge: num tries 490
hydro_newton_step returned ierr
retry cnt, step, log10(dt/yr), retry_factor 2 1 -19.923690 0.500000
1st model retry log10(dt/yr) -1.9622659904607584D+01
first model is slow to converge: num tries 500
first model is slow to converge: num tries 510
first model is slow to converge: num tries 520
first model is slow to converge: num tries 530
first model is slow to converge: num tries 540
first model is slow to converge: num tries 550
have reached retry limit so now backup
dt 2.9390817493200311D-17
min_timestep_limit 9.9999999999999998D-17
stopping because of convergence problems dt < min_timestep_limit
terminated evolution: convergence problems
termination code: min_timestep_limit
DATE: 2015-03-03
TIME: 12:46:54
[hfsong@localhost wangjt_star_work]$
I hope you help me!
wang J.T
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