ExampleEEWW: whizard.log

|=============================================================================|
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|       WWWW   WWWW     WW   WW  WW   WW      WWWWWWWW   WW  WW   WW  WW      |
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|                 WWWWWwwwww   WW       WW                                    |
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|                 wWWWWWWWWWWwWWW       WW                                    |
|                wWWWWW       wW        WWWWWWW                               |
|                  WWWW       wW        WW  wWWWWWWWwww                       |
|                   WWWW                      wWWWWWWWwwww                    |
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|                               wWWWWwww       wWWWWW                         |
|                                     WwwwwwwwwWWW                            |
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|  by:   Wolfgang Kilian <kilian@hep.physik.uni-siegen.de>                    |
|        Thorsten Ohl    <ohl@physik.uni-wuerzburg.de>                        |
|        Juergen Reuter  <reuter@physik.uni-freiburg.de>                      |
|                                                                             |
|  if you use WHIZARD please cite:                                            |
|        W. Kilian, T. Ohl, J. Reuter,  arXiv: 0708.4233 [hep-ph]             |
|        M. Moretti, T. Ohl, J. Reuter, arXiv: hep-ph/0102195                 |
|                                                                             |
|=============================================================================|
|                               WHIZARD 2.0.3
|=============================================================================|
| Initializing process library 'processes'
| Reading model file '/Users/reuter/local/share/whizard/models/SM.mdl'
| Using model: SM
| Reading commands from file 'eeww_polarized.sin'
| Added process to library 'processes':
|  [O] eeww = e+, e- => W+, W-
| Generating code for process library 'processes'
| Calling O'Mega for process 'eeww'
| command: /Users/reuter/local/bin/omega_SM.opt -o eeww.f90 -target:whizard -target:parameter_module parameters_SM -target:module eeww -target:md5sum B1217FC3794CEA29EE9B7E5144C5D531 -fusion:progress -scatter 'e+ e- -> W+ W-'
| Writing interface code for process library 'processes'
| Compiling process library 'processes'
| Loading process library 'processes'
| Process 'eeww': updating configuration
sqrts =    200.00000000000000     
Beam data (collision):
 e+  (mass = 5.10997000E-04 GeV)
 e-  (mass = 5.10997000E-04 GeV)
 sqrts = 200.000000000000 GeV
n_events =       100000
| Polarization of particle 'W+' in model 'SM' will be retained.
| Polarization of particle 'W-' in model 'SM' will be retained.
[user variable] hel_ep =           -1
[user variable] hel_em =           -1
| polarization of incoming particle 1:
 diagonal_density (h1:f1)
    h1: -1 , f1: 1.0000000000000000
| polarization of incoming particle 2:
 diagonal_density (h1:f1)
    h1: -1 , f1: 1.0000000000000000
| Initializating integration for process eeww:
| Generating phase space configuration ...
| ... done.
| ... found 3 phase space channels, collected in 2 groves.
| Phase space: found 3 equivalences between channels.
| Wrote phase-space configuration file 'eeww.phs'.
| iterations = 3:1000, 3:10000
Warning: No cuts have been defined.
| Creating VAMP integration grids:
| Using phase-space channel equivalences.
| 1000 calls, 3 channels, 2 dimensions, 20 bins, stratified = T
| Integrating process 'eeww':
|=============================================================================|
| It      Calls  Integral[fb]  Error[fb]   Err[%]    Acc  Eff[%]   Chi2 N[It] |
|=============================================================================|
   1       1000  1.3546575E-06  8.81E-09    0.65    0.21*  35.71
   2       1000  1.3600192E-06  4.83E-09    0.36    0.11*  35.92
   3       1000  1.3555599E-06  5.58E-09    0.41    0.13   46.01
|-----------------------------------------------------------------------------|
   3       3000  1.3576021E-06  3.38E-09    0.25    0.14   46.01    0.25   3
|-----------------------------------------------------------------------------|
   4      10000  1.3622695E-06  9.74E-10    0.07    0.07*  43.53
   5      10000  1.3617326E-06  6.05E-10    0.04    0.04*  43.50
   6      10000  1.3622376E-06  4.46E-10    0.03    0.03*  43.55
|-----------------------------------------------------------------------------|
   6      30000  1.3620850E-06  3.37E-10    0.02    0.04   43.55    0.25   3
|-----------------------------------------------------------------------------|
|=============================================================================|
   6      30000  1.3620850E-06  3.37E-10    0.02    0.04   43.55    0.25   3
|=============================================================================|
| Process 'eeww':
|    time estimate for generating 10000 unweighted events: 2s
[user variable] $hist_mm = "cta-1_-1_-1_-1"
$title = "polarization: -1 -1 -1 -1"
[user variable] $hist_ml = "cta-1_-1_-1_0"
$title = "polarization: -1 -1 -1  0"
[user variable] $hist_mp = "cta-1_-1_-1_1"
$title = "polarization: -1 -1 -1  1"
[user variable] $hist_lm = "cta-1_-1_0_-1"
$title = "polarization: -1 -1  0 -1"
[user variable] $hist_ll = "cta-1_-1_0_0"
$title = "polarization: -1 -1  0  0"
[user variable] $hist_lp = "cta-1_-1_0_1"
$title = "polarization: -1 -1  0  1"
[user variable] $hist_pm = "cta-1_-1_1_-1"
$title = "polarization: -1 -1  1 -1"
[user variable] $hist_pl = "cta-1_-1_1_0"
$title = "polarization: -1 -1  1  0"
[user variable] $hist_pp = "cta-1_-1_1_1"
$title = "polarization: -1 -1  1  1"
?polarized_events = true
checkpoint =        10000
| Initializing simulation for processes eeww:
| Simulation mode = unweighted, event_normalization = '1', polarized events
| Requested number of events = 100000
| This corresponds to luminosity [fb-1] =   0.7342E+11
| Generating 100000 events ...
| Writing events in internal format to file 'eeww.evx'
| Applying user-defined analysis setup.
| 
| |===================================================================|
| | % complete | events generated | events remaining | time remaining
| |===================================================================|
|      0.0               0             100000            ???
|     10.0           10000              90000            40s
|     20.0           20000              80000            36s
|     30.0           30000              70000            31s
|     40.0           40000              60000            27s
|     50.0           50000              50000            22s
|     60.0           60000              40000            18s
|     70.0           70000              30000            13s
|     80.0           80000              20000            9s
|     90.0           90000              10000            4s
|    100.0          100000                  0            0s
| |===================================================================|
| 
| ... 100000 events generated. 100000 total.
| Simulation finished.
[user variable] hel_em =            1
| polarization of incoming particle 1:
 diagonal_density (h1:f1)
    h1: -1 , f1: 1.0000000000000000
| polarization of incoming particle 2:
 diagonal_density (h1:f1)
    h1: 1 , f1: 1.0000000000000000
| Initializating integration for process eeww:
| Generating phase space configuration ...
| ... done.
| ... found 3 phase space channels, collected in 2 groves.
| Phase space: found 3 equivalences between channels.
| Wrote phase-space configuration file 'eeww.phs'.
| iterations = 3:1000, 3:10000
Warning: No cuts have been defined.
| Creating VAMP integration grids:
| Using phase-space channel equivalences.
| 1000 calls, 3 channels, 2 dimensions, 20 bins, stratified = T
| Integrating process 'eeww':
|=============================================================================|
| It      Calls  Integral[fb]  Error[fb]   Err[%]    Acc  Eff[%]   Chi2 N[It] |
|=============================================================================|
   1       1000  7.3101538E+02  3.34E+00    0.46    0.14*  41.69
   2       1000  7.3023977E+02  2.50E+00    0.34    0.11*  34.49
   3       1000  7.3438215E+02  2.73E+00    0.37    0.12   58.79
|-----------------------------------------------------------------------------|
   3       3000  7.3186474E+02  1.61E+00    0.22    0.12   58.79    0.67   3
|-----------------------------------------------------------------------------|
   4      10000  7.3073173E+02  3.90E-01    0.05    0.05*  58.46
   5      10000  7.3073629E+02  2.92E-01    0.04    0.04*  38.30
   6      10000  7.3052329E+02  2.40E-01    0.03    0.03*  38.27
|-----------------------------------------------------------------------------|
   6      30000  7.3063179E+02  1.68E-01    0.02    0.04   38.27    0.20   3
|-----------------------------------------------------------------------------|
|=============================================================================|
   6      30000  7.3063179E+02  1.68E-01    0.02    0.04   38.27    0.20   3
|=============================================================================|
| Process 'eeww':
|    time estimate for generating 10000 unweighted events: 2s
[user variable] $hist_mm = "cta-1_1_-1_-1"
$title = "polarization: -1 1 -1 -1"
[user variable] $hist_ml = "cta-1_1_-1_0"
$title = "polarization: -1 1 -1  0"
[user variable] $hist_mp = "cta-1_1_-1_1"
$title = "polarization: -1 1 -1  1"
[user variable] $hist_lm = "cta-1_1_0_-1"
$title = "polarization: -1 1  0 -1"
[user variable] $hist_ll = "cta-1_1_0_0"
$title = "polarization: -1 1  0  0"
[user variable] $hist_lp = "cta-1_1_0_1"
$title = "polarization: -1 1  0  1"
[user variable] $hist_pm = "cta-1_1_1_-1"
$title = "polarization: -1 1  1 -1"
[user variable] $hist_pl = "cta-1_1_1_0"
$title = "polarization: -1 1  1  0"
[user variable] $hist_pp = "cta-1_1_1_1"
$title = "polarization: -1 1  1  1"
?polarized_events = true
checkpoint =        10000
| Initializing simulation for processes eeww:
| Simulation mode = unweighted, event_normalization = '1', polarized events
| Requested number of events = 100000
| This corresponds to luminosity [fb-1] =    136.9
| Generating 100000 events ...
| Writing events in internal format to file 'eeww.evx'
| Applying user-defined analysis setup.
| 
| |===================================================================|
| | % complete | events generated | events remaining | time remaining
| |===================================================================|
|      0.0               0             100000            ???
|     10.0           10000              90000            43s
|     20.0           20000              80000            38s
|     30.0           30000              70000            34s
|     40.0           40000              60000            29s
|     50.0           50000              50000            24s
|     60.0           60000              40000            19s
|     70.0           70000              30000            14s
|     80.0           80000              20000            9s
|     90.0           90000              10000            4s
|    100.0          100000                  0            0s
| |===================================================================|
| 
| ... 100000 events generated. 100000 total.
| Simulation finished.
[user variable] hel_ep =            1
[user variable] hel_em =           -1
| polarization of incoming particle 1:
 diagonal_density (h1:f1)
    h1: 1 , f1: 1.0000000000000000
| polarization of incoming particle 2:
 diagonal_density (h1:f1)
    h1: -1 , f1: 1.0000000000000000
| Initializating integration for process eeww:
| Generating phase space configuration ...
| ... done.
| ... found 3 phase space channels, collected in 2 groves.
| Phase space: found 3 equivalences between channels.
| Wrote phase-space configuration file 'eeww.phs'.
| iterations = 3:1000, 3:10000
Warning: No cuts have been defined.
| Creating VAMP integration grids:
| Using phase-space channel equivalences.
| 1000 calls, 3 channels, 2 dimensions, 20 bins, stratified = T
| Integrating process 'eeww':
|=============================================================================|
| It      Calls  Integral[fb]  Error[fb]   Err[%]    Acc  Eff[%]   Chi2 N[It] |
|=============================================================================|
   1       1000  7.7306618E+04  4.90E+02    0.63    0.20*  34.79
   2       1000  7.6945944E+04  2.87E+02    0.37    0.12*  34.54
   3       1000  7.7529258E+04  3.40E+02    0.44    0.14   40.90
|-----------------------------------------------------------------------------|
   3       3000  7.7208311E+04  2.00E+02    0.26    0.14   40.90    0.89   3
|-----------------------------------------------------------------------------|
   4      10000  7.7042961E+04  5.28E+01    0.07    0.07*  42.28
   5      10000  7.7038509E+04  4.23E+01    0.05    0.05*  36.71
   6      10000  7.7052490E+04  3.45E+01    0.04    0.04*  36.73
|-----------------------------------------------------------------------------|
   6      30000  7.7046098E+04  2.38E+01    0.03    0.05   36.73    0.04   3
|-----------------------------------------------------------------------------|
|=============================================================================|
   6      30000  7.7046098E+04  2.38E+01    0.03    0.05   36.73    0.04   3
|=============================================================================|
| Process 'eeww':
|    time estimate for generating 10000 unweighted events: 3s
[user variable] $hist_mm = "cta1_-1_-1_-1"
$title = "polarization: 1 -1 -1 -1"
[user variable] $hist_ml = "cta1_-1_-1_0"
$title = "polarization: 1 -1 -1  0"
[user variable] $hist_mp = "cta1_-1_-1_1"
$title = "polarization: 1 -1 -1  1"
[user variable] $hist_lm = "cta1_-1_0_-1"
$title = "polarization: 1 -1  0 -1"
[user variable] $hist_ll = "cta1_-1_0_0"
$title = "polarization: 1 -1  0  0"
[user variable] $hist_lp = "cta1_-1_0_1"
$title = "polarization: 1 -1  0  1"
[user variable] $hist_pm = "cta1_-1_1_-1"
$title = "polarization: 1 -1  1 -1"
[user variable] $hist_pl = "cta1_-1_1_0"
$title = "polarization: 1 -1  1  0"
[user variable] $hist_pp = "cta1_-1_1_1"
$title = "polarization: 1 -1  1  1"
?polarized_events = true
checkpoint =        10000
| Initializing simulation for processes eeww:
| Simulation mode = unweighted, event_normalization = '1', polarized events
| Requested number of events = 100000
| This corresponds to luminosity [fb-1] =    1.298
| Generating 100000 events ...
| Writing events in internal format to file 'eeww.evx'
| Applying user-defined analysis setup.
| 
| |===================================================================|
| | % complete | events generated | events remaining | time remaining
| |===================================================================|
|      0.0               0             100000            ???
|     10.0           10000              90000            46s
|     20.0           20000              80000            40s
|     30.0           30000              70000            35s
|     40.0           40000              60000            30s
|     50.0           50000              50000            25s
|     60.0           60000              40000            20s
|     70.0           70000              30000            15s
|     80.0           80000              20000            10s
|     90.0           90000              10000            5s
|    100.0          100000                  0            0s
| |===================================================================|
| 
| ... 100000 events generated. 100000 total.
| Simulation finished.
[user variable] hel_em =            1
| polarization of incoming particle 1:
 diagonal_density (h1:f1)
    h1: 1 , f1: 1.0000000000000000
| polarization of incoming particle 2:
 diagonal_density (h1:f1)
    h1: 1 , f1: 1.0000000000000000
| Initializating integration for process eeww:
| Generating phase space configuration ...
| ... done.
| ... found 3 phase space channels, collected in 2 groves.
| Phase space: found 3 equivalences between channels.
| Wrote phase-space configuration file 'eeww.phs'.
| iterations = 3:1000, 3:10000
Warning: No cuts have been defined.
| Creating VAMP integration grids:
| Using phase-space channel equivalences.
| 1000 calls, 3 channels, 2 dimensions, 20 bins, stratified = T
| Integrating process 'eeww':
|=============================================================================|
| It      Calls  Integral[fb]  Error[fb]   Err[%]    Acc  Eff[%]   Chi2 N[It] |
|=============================================================================|
   1       1000  1.3680513E-06  8.23E-09    0.60    0.19*  36.07
   2       1000  1.3614674E-06  4.90E-09    0.36    0.11*  35.80
   3       1000  1.3780236E-06  7.55E-09    0.55    0.17   41.13
|-----------------------------------------------------------------------------|
   3       3000  1.3667085E-06  3.68E-09    0.27    0.15   41.13    1.71   3
|-----------------------------------------------------------------------------|
   4      10000  1.3625268E-06  8.16E-10    0.06    0.06*  48.55
   5      10000  1.3626764E-06  5.69E-10    0.04    0.04*  45.67
   6      10000  1.3623223E-06  4.44E-10    0.03    0.03*  45.63
|-----------------------------------------------------------------------------|
   6      30000  1.3624675E-06  3.22E-10    0.02    0.04   45.63    0.12   3
|-----------------------------------------------------------------------------|
|=============================================================================|
   6      30000  1.3624675E-06  3.22E-10    0.02    0.04   45.63    0.12   3
|=============================================================================|
| Process 'eeww':
|    time estimate for generating 10000 unweighted events: 2s
[user variable] $hist_mm = "cta1_1_-1_-1"
$title = "polarization: 1 1 -1 -1"
[user variable] $hist_ml = "cta1_1_-1_0"
$title = "polarization: 1 1 -1  0"
[user variable] $hist_mp = "cta1_1_-1_1"
$title = "polarization: 1 1 -1  1"
[user variable] $hist_lm = "cta1_1_0_-1"
$title = "polarization: 1 1  0 -1"
[user variable] $hist_ll = "cta1_1_0_0"
$title = "polarization: 1 1  0  0"
[user variable] $hist_lp = "cta1_1_0_1"
$title = "polarization: 1 1  0  1"
[user variable] $hist_pm = "cta1_1_1_-1"
$title = "polarization: 1 1  1 -1"
[user variable] $hist_pl = "cta1_1_1_0"
$title = "polarization: 1 1  1  0"
[user variable] $hist_pp = "cta1_1_1_1"
$title = "polarization: 1 1  1  1"
?polarized_events = true
checkpoint =        10000
| Initializing simulation for processes eeww:
| Simulation mode = unweighted, event_normalization = '1', polarized events
| Requested number of events = 100000
| This corresponds to luminosity [fb-1] =   0.7340E+11
| Generating 100000 events ...
| Writing events in internal format to file 'eeww.evx'
| Applying user-defined analysis setup.
| 
| |===================================================================|
| | % complete | events generated | events remaining | time remaining
| |===================================================================|
|      0.0               0             100000            ???
|     10.0           10000              90000            40s
|     20.0           20000              80000            36s
|     30.0           30000              70000            31s
|     40.0           40000              60000            27s
|     50.0           50000              50000            22s
|     60.0           60000              40000            18s
|     70.0           70000              30000            13s
|     80.0           80000              20000            9s
|     90.0           90000              10000            4s
|    100.0          100000                  0            0s
| |===================================================================|
| 
| ... 100000 events generated. 100000 total.
| Simulation finished.
$analysis_filename = "eeww_polarized"
| Writing analysis results to 'eeww_polarized.dat'
| Writing analysis results display to 'eeww_polarized.tex'
| Compiling analysis results display in 'eeww_polarized.tex'
| There were no errors and    4 warning(s).
| WHIZARD run finished.
|=============================================================================|