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Index: trunk/share/tests/ref-output-quad/qcdtest_1.ref
===================================================================
--- trunk/share/tests/ref-output-quad/qcdtest_1.ref (revision 5212)
+++ trunk/share/tests/ref-output-quad/qcdtest_1.ref (revision 5213)
@@ -1,54 +1,54 @@
?vis_history = false
$method = "omega"
| Process library 'qcdtest_1_lib': recorded process 'qcdtest_1_p1'
| Process library 'qcdtest_1_lib': compiling ...
| Process library 'qcdtest_1_lib': writing makefile
| Process library 'qcdtest_1_lib': removing old files
| Process library 'qcdtest_1_lib': writing driver
| Process library 'qcdtest_1_lib': creating source code
| Process library 'qcdtest_1_lib': compiling sources
| Process library 'qcdtest_1_lib': linking
| Process library 'qcdtest_1_lib': loading
| Process library 'qcdtest_1_lib': ... success.
$phs_method = "wood"
$integration_method = "vamp"
sqrts = 1.000000000000E+03
openmp_num_threads = 1
| RNG: Initializing tao random-number generator
| RNG: Setting seed for random-number generator to 0
| Initializing integration for process qcdtest_1_p1:
| Beam structure: [any particles]
| Beam data (collision):
| gl (mass = 0.0000000E+00 GeV)
| gl (mass = 0.0000000E+00 GeV)
| sqrts = 1.000000000000E+03 GeV
| Phase space: generating configuration ...
| Phase space: ... success.
| Phase space: writing configuration file 'qcdtest_1_p1_i1.phs'
| Phase space: 5 channels, 2 dimensions
| Phase space: found 5 channels, collected in 2 groves.
| Phase space: Using 9 equivalences between channels.
| Phase space: wood
| Applying user-defined cuts.
| Starting integration for process 'qcdtest_1_p1'
| Integrator: 2 chains, 5 channels, 2 dimensions
| Integrator: Using VAMP channel equivalences
| Integrator: 1000 initial calls, 20 bins, stratified = T
| Integrator: VAMP
|=============================================================================|
| It Calls Integral[fb] Error[fb] Err[%] Acc Eff[%] Chi2 N[It] |
|=============================================================================|
- 1 1000 1.6032382E+04 2.75E+02 1.71 0.54* 0.00
- 2 1000 1.6321529E+04 2.41E+02 1.48 0.47* 0.00
- 3 1000 1.6802945E+04 2.11E+02 1.25 0.40* 0.00
+ 1 1000 1.6032382E+04 2.75E+02 1.71 0.54* 26.61
+ 2 1000 1.6321529E+04 2.41E+02 1.48 0.47* 37.24
+ 3 1000 1.6802945E+04 2.11E+02 1.25 0.40* 37.25
|-----------------------------------------------------------------------------|
- 3 3000 1.6385618E+04 3.89E+02 2.38 1.30 0.00 0.00 3
+ 3 3000 1.6453880E+04 1.37E+02 0.83 0.46 37.25 2.70 3
|-----------------------------------------------------------------------------|
- 4 1000 1.6158650E+04 1.97E+02 1.22 0.39* 0.00
- 5 1000 1.5815766E+04 1.96E+02 1.24 0.39 0.00
- 6 1000 1.6306773E+04 1.86E+02 1.14 0.36* 0.00
+ 4 1000 1.6158650E+04 1.97E+02 1.22 0.39* 35.75
+ 5 1000 1.5815766E+04 1.96E+02 1.24 0.39 34.79
+ 6 1000 1.6306773E+04 1.86E+02 1.14 0.36* 35.83
|-----------------------------------------------------------------------------|
- 6 3000 1.6093730E+04 2.52E+02 1.56 0.86 0.00 0.00 3
+ 6 3000 1.6100942E+04 1.11E+02 0.69 0.38 35.83 1.72 3
|=============================================================================|
| WHIZARD run finished.
|=============================================================================|
Index: trunk/share/tests/ref-output-quad/qcdtest_2.ref
===================================================================
--- trunk/share/tests/ref-output-quad/qcdtest_2.ref (revision 5212)
+++ trunk/share/tests/ref-output-quad/qcdtest_2.ref (revision 5213)
@@ -1,57 +1,57 @@
?vis_history = false
$method = "omega"
| Process library 'qcdtest_2_lib': recorded process 'qcdtest_2_p1'
| Process library 'qcdtest_2_lib': compiling ...
| Process library 'qcdtest_2_lib': writing makefile
| Process library 'qcdtest_2_lib': removing old files
| Process library 'qcdtest_2_lib': writing driver
| Process library 'qcdtest_2_lib': creating source code
| Process library 'qcdtest_2_lib': compiling sources
| Process library 'qcdtest_2_lib': linking
| Process library 'qcdtest_2_lib': loading
| Process library 'qcdtest_2_lib': ... success.
$phs_method = "wood"
$integration_method = "vamp"
sqrts = 1.000000000000E+03
openmp_num_threads = 1
| RNG: Initializing tao random-number generator
| RNG: Setting seed for random-number generator to 0
| Initializing integration for process qcdtest_2_p1:
| Beam structure: p, p => pdf_builtin
| Beam data (collision):
| p (mass = 0.0000000E+00 GeV)
| p (mass = 0.0000000E+00 GeV)
| sqrts = 1.000000000000E+03 GeV
| Initialized builtin PDF CTEQ6L
| Phase space: generating configuration ...
| Phase space: ... success.
| Phase space: writing configuration file 'qcdtest_2_p1_i1.phs'
| Phase space: 5 channels, 2 dimensions
| Phase space: found 5 channels, collected in 2 groves.
| Phase space: Using 9 equivalences between channels.
| Phase space: wood
| Beam structure: pdf_builtin, none => none, pdf_builtin
| Beam structure: 1 channels, 2 dimensions
| Applying user-defined cuts.
| Starting integration for process 'qcdtest_2_p1'
| Integrator: 2 chains, 5 channels, 4 dimensions
| Integrator: Using VAMP channel equivalences
| Integrator: 1000 initial calls, 20 bins, stratified = T
| Integrator: VAMP
|=============================================================================|
| It Calls Integral[fb] Error[fb] Err[%] Acc Eff[%] Chi2 N[It] |
|=============================================================================|
- 1 1000 3.2376811E+02 1.07E+02 33.18 10.49* 0.00
- 2 1000 2.6140971E+02 2.40E+01 9.19 2.91* 0.00
- 3 1000 3.2858713E+02 1.63E+01 4.97 1.57* 0.00
+ 1 1000 3.2376811E+02 1.07E+02 33.18 10.49* 1.11
+ 2 1000 2.6140971E+02 2.40E+01 9.19 2.91* 4.85
+ 3 1000 3.2858713E+02 1.63E+01 4.97 1.57* 10.38
|-----------------------------------------------------------------------------|
- 3 3000 3.0458832E+02 3.75E+01 12.30 6.74 0.00 0.00 3
+ 3 3000 3.0760554E+02 1.34E+01 4.36 2.39 10.38 2.68 3
|-----------------------------------------------------------------------------|
- 4 2000 3.1897725E+02 1.15E+01 3.59 1.61 0.00
- 5 2000 3.1169461E+02 1.16E+01 3.73 1.67 0.00
- 6 2000 3.4933292E+02 1.46E+01 4.19 1.87 0.00
+ 4 2000 3.1897725E+02 1.15E+01 3.59 1.61 7.93
+ 5 2000 3.1169461E+02 1.16E+01 3.73 1.67 5.93
+ 6 2000 3.4933292E+02 1.46E+01 4.19 1.87 4.92
|-----------------------------------------------------------------------------|
- 6 6000 3.2666826E+02 2.00E+01 6.11 4.73 0.00 0.00 3
+ 6 6000 3.2343323E+02 7.12E+00 2.20 1.71 4.92 2.15 3
|=============================================================================|
| WHIZARD run finished.
|=============================================================================|
Index: trunk/share/tests/ref-output-quad/qcdtest_3.ref
===================================================================
--- trunk/share/tests/ref-output-quad/qcdtest_3.ref (revision 5212)
+++ trunk/share/tests/ref-output-quad/qcdtest_3.ref (revision 5213)
@@ -1,106 +1,106 @@
?openmp_logging = false
?vis_history = false
$method = "omega"
| Process library 'qcdtest_3_lib': recorded process 'qcdtest_3_p1'
| Process library 'qcdtest_3_lib': compiling ...
| Process library 'qcdtest_3_lib': writing makefile
| Process library 'qcdtest_3_lib': removing old files
| Process library 'qcdtest_3_lib': writing driver
| Process library 'qcdtest_3_lib': creating source code
| Process library 'qcdtest_3_lib': compiling sources
| Process library 'qcdtest_3_lib': linking
| Process library 'qcdtest_3_lib': loading
| Process library 'qcdtest_3_lib': ... success.
$phs_method = "wood"
$integration_method = "vamp"
sqrts = 1.000000000000E+03
openmp_num_threads = 1
| RNG: Initializing tao random-number generator
| RNG: Setting seed for random-number generator to 0
| Initializing integration for process qcdtest_3_p1:
| Beam structure: p, p => pdf_builtin
| Beam data (collision):
| p (mass = 0.0000000E+00 GeV)
| p (mass = 0.0000000E+00 GeV)
| sqrts = 1.000000000000E+03 GeV
| Initialized builtin PDF CTEQ6L
| Phase space: generating configuration ...
| Phase space: ... success.
| Phase space: writing configuration file 'qcdtest_3_p1_i1.phs'
| Phase space: 5 channels, 2 dimensions
| Phase space: found 5 channels, collected in 2 groves.
| Phase space: Using 9 equivalences between channels.
| Phase space: wood
| Beam structure: pdf_builtin, none => none, pdf_builtin
| Beam structure: 1 channels, 2 dimensions
| Applying user-defined cuts.
| Starting integration for process 'qcdtest_3_p1'
| Integrator: 2 chains, 5 channels, 4 dimensions
| Integrator: Using VAMP channel equivalences
| Integrator: 1000 initial calls, 20 bins, stratified = T
| Integrator: VAMP
|=============================================================================|
| It Calls Integral[fb] Error[fb] Err[%] Acc Eff[%] Chi2 N[It] |
|=============================================================================|
- 1 1000 3.2376811E+02 1.07E+02 33.18 10.49* 0.00
- 2 1000 2.6140971E+02 2.40E+01 9.19 2.91* 0.00
- 3 1000 3.2858713E+02 1.63E+01 4.97 1.57* 0.00
+ 1 1000 3.2376811E+02 1.07E+02 33.18 10.49* 1.11
+ 2 1000 2.6140971E+02 2.40E+01 9.19 2.91* 4.85
+ 3 1000 3.2858713E+02 1.63E+01 4.97 1.57* 10.38
|-----------------------------------------------------------------------------|
- 3 3000 3.0458832E+02 3.75E+01 12.30 6.74 0.00 0.00 3
+ 3 3000 3.0760554E+02 1.34E+01 4.36 2.39 10.38 2.68 3
|-----------------------------------------------------------------------------|
- 4 2000 3.1897725E+02 1.15E+01 3.59 1.61 0.00
- 5 2000 3.1169461E+02 1.16E+01 3.73 1.67 0.00
- 6 2000 3.4933292E+02 1.46E+01 4.19 1.87 0.00
+ 4 2000 3.1897725E+02 1.15E+01 3.59 1.61 7.93
+ 5 2000 3.1169461E+02 1.16E+01 3.73 1.67 5.93
+ 6 2000 3.4933292E+02 1.46E+01 4.19 1.87 4.92
|-----------------------------------------------------------------------------|
- 6 6000 3.2666826E+02 2.00E+01 6.11 4.73 0.00 0.00 3
+ 6 6000 3.2343323E+02 7.12E+00 2.20 1.71 4.92 2.15 3
|=============================================================================|
n_events = 1
?unweighted = true
?read_raw = false
$sample = "qcdtest_3a"
| Starting simulation for process 'qcdtest_3_p1'
| Simulate: using integration grids from file 'qcdtest_3_p1.vg'
| RNG: Initializing tao random-number generator
| RNG: Setting seed for random-number generator to 1
| Events: writing to weight stream file 'qcdtest_3a.weights.dat'
| Events: writing to raw file 'qcdtest_3a.evx'
| Generating 1 unweighted events ...
| ... event sample complete.
| Events: closing weight stream file 'qcdtest_3a.weights.dat'
| Events: closing raw file 'qcdtest_3a.evx'
?write_raw = false
$sample = "qcdtest_3b"
QCD.alphas = 2.356000000000E-01
?update_sqme = true
| Starting simulation for process 'qcdtest_3_p1'
| RNG: Initializing tao random-number generator
| RNG: Setting seed for random-number generator to 2
| Recalculating observables
| Recalculating squared matrix elements
| Events: reading from raw file 'qcdtest_3a.evx'
| Events: writing to weight stream file 'qcdtest_3b.weights.dat'
| Rescanning unweighted events (process parameters updated) ...
| ... event file terminates after 1 events.
| Events: closing weight stream file 'qcdtest_3b.weights.dat'
| Events: closing raw file 'qcdtest_3a.evx'
$sample = "qcdtest_3c"
?update_weight = true
| Starting simulation for process 'qcdtest_3_p1'
| RNG: Initializing tao random-number generator
| RNG: Setting seed for random-number generator to 3
| Recalculating observables
| Recalculating squared matrix elements
| Events: reading from raw file 'qcdtest_3a.evx'
| Events: writing to weight stream file 'qcdtest_3c.weights.dat'
| Rescanning unweighted events (process parameters updated) ...
| ... event file terminates after 1 events.
| Events: closing weight stream file 'qcdtest_3c.weights.dat'
| Events: closing raw file 'qcdtest_3a.evx'
| WHIZARD run finished.
|=============================================================================|
Contents of qcdtest_3a.weights.dat
0 1.000000000000E+00 2.035968010312E-01 2.035968010312E-01 1 1 1
Contents of qcdtest_3b.weights.dat
0 1.000000000000E+00 8.143872041247E-01 2.035968010312E-01 1 1 1
Contents of qcdtest_3c.weights.dat
0 4.000000000000E+00 8.143872041247E-01 2.035968010312E-01 1 1 1
Index: trunk/share/tests/ref-output-quad/helicity.ref
===================================================================
--- trunk/share/tests/ref-output-quad/helicity.ref (revision 5212)
+++ trunk/share/tests/ref-output-quad/helicity.ref (revision 5213)
@@ -1,268 +1,268 @@
?vis_history = false
| Process library 'helicity_lib': recorded process 'helicity_ee_mm'
| Process library 'helicity_lib': recorded process 'helicity_aa_ww'
| Process library 'helicity_lib': compiling ...
| Process library 'helicity_lib': writing makefile
| Process library 'helicity_lib': removing old files
| Process library 'helicity_lib': writing driver
| Process library 'helicity_lib': creating source code
| Process library 'helicity_lib': compiling sources
| Process library 'helicity_lib': linking
| Process library 'helicity_lib': loading
| Process library 'helicity_lib': ... success.
SM.me = 0.000000000000E+00
SM.mmu = 0.000000000000E+00
sqrts = 5.000000000000E+02
openmp_num_threads = 1
?helicity_selection_active = false
seed = 0
| RNG: Initializing tao random-number generator
| RNG: Setting seed for random-number generator to 0
| Initializing integration for process helicity_ee_mm:
| Beam structure: e-, e+
| Beam data (collision):
| e- (mass = 0.0000000E+00 GeV)
| e+ (mass = 0.0000000E+00 GeV)
| sqrts = 5.000000000000E+02 GeV
| Phase space: generating configuration ...
| Phase space: ... success.
| Phase space: writing configuration file 'helicity_ee_mm_i1.phs'
| Phase space: 2 channels, 2 dimensions
| Phase space: found 2 channels, collected in 2 groves.
| Phase space: Using 2 equivalences between channels.
| Phase space: wood
Warning: No cuts have been defined.
| Starting integration for process 'helicity_ee_mm'
| Integrator: 2 chains, 2 channels, 2 dimensions
| Integrator: Using VAMP channel equivalences
| Integrator: 10000 initial calls, 20 bins, stratified = T
| Integrator: VAMP
|=============================================================================|
| It Calls Integral[fb] Error[fb] Err[%] Acc Eff[%] Chi2 N[It] |
|=============================================================================|
- 1 9216 4.2823234E+02 6.92E-02 0.02 0.02* 0.00
+ 1 9216 4.2823234E+02 6.92E-02 0.02 0.02* 40.29
|-----------------------------------------------------------------------------|
- 1 9216 4.2823234E+02 0.00E+00 0.00 0.00 0.00
+ 1 9216 4.2823234E+02 6.92E-02 0.02 0.02 40.29
|=============================================================================|
[user variable] without_helicity_selection = 4.282323386776E+02
?helicity_selection_active = true
helicity_selection_cutoff = 100
helicity_selection_threshold = 1.000000000000E+10
seed = 0
| RNG: Initializing tao random-number generator
| RNG: Setting seed for random-number generator to 0
| Initializing integration for process helicity_ee_mm:
| Beam structure: e-, e+
| Beam data (collision):
| e- (mass = 0.0000000E+00 GeV)
| e+ (mass = 0.0000000E+00 GeV)
| sqrts = 5.000000000000E+02 GeV
| Phase space: generating configuration ...
| Phase space: ... success.
| Phase space: writing configuration file 'helicity_ee_mm_i1.phs'
| Phase space: 2 channels, 2 dimensions
| Phase space: found 2 channels, collected in 2 groves.
| Phase space: Using 2 equivalences between channels.
| Phase space: wood
Warning: No cuts have been defined.
| Starting integration for process 'helicity_ee_mm'
| Integrator: 2 chains, 2 channels, 2 dimensions
| Integrator: Using VAMP channel equivalences
| Integrator: 10000 initial calls, 20 bins, stratified = T
| Integrator: VAMP
|=============================================================================|
| It Calls Integral[fb] Error[fb] Err[%] Acc Eff[%] Chi2 N[It] |
|=============================================================================|
- 1 9216 4.2823234E+02 6.92E-02 0.02 0.02* 0.00
+ 1 9216 4.2823234E+02 6.92E-02 0.02 0.02* 40.29
|-----------------------------------------------------------------------------|
- 1 9216 4.2823234E+02 0.00E+00 0.00 0.00 0.00
+ 1 9216 4.2823234E+02 6.92E-02 0.02 0.02 40.29
|=============================================================================|
[user variable] with____helicity_selection = 4.282323386776E+02
helicity_selection_threshold = 1.000000000000E+17
seed = 0
| RNG: Initializing tao random-number generator
| RNG: Setting seed for random-number generator to 0
| Initializing integration for process helicity_ee_mm:
| Beam structure: e-, e+
| Beam data (collision):
| e- (mass = 0.0000000E+00 GeV)
| e+ (mass = 0.0000000E+00 GeV)
| sqrts = 5.000000000000E+02 GeV
| Phase space: generating configuration ...
| Phase space: ... success.
| Phase space: writing configuration file 'helicity_ee_mm_i1.phs'
| Phase space: 2 channels, 2 dimensions
| Phase space: found 2 channels, collected in 2 groves.
| Phase space: Using 2 equivalences between channels.
| Phase space: wood
Warning: No cuts have been defined.
| Starting integration for process 'helicity_ee_mm'
| Integrator: 2 chains, 2 channels, 2 dimensions
| Integrator: Using VAMP channel equivalences
| Integrator: 10000 initial calls, 20 bins, stratified = T
| Integrator: VAMP
|=============================================================================|
| It Calls Integral[fb] Error[fb] Err[%] Acc Eff[%] Chi2 N[It] |
|=============================================================================|
- 1 9216 4.2823234E+02 6.92E-02 0.02 0.02* 0.00
+ 1 9216 4.2823234E+02 6.92E-02 0.02 0.02* 40.29
|-----------------------------------------------------------------------------|
- 1 9216 4.2823234E+02 0.00E+00 0.00 0.00 0.00
+ 1 9216 4.2823234E+02 6.92E-02 0.02 0.02 40.29
|=============================================================================|
[user variable] crazy___helicity_selection = 4.282323386776E+02
Comparing results:
tolerance = 1.000000000000E-12
[user variable] without_helicity_selection = 4.282323386776E+02
[user variable] with____helicity_selection = 4.282323386776E+02
| expect: success
[user variable] crazy___helicity_selection = 4.282323386776E+02
********************************************************
* A A => W+ W- @ 5 TeV, w/o cuts, but w/ higher cutoff *
********************************************************
sqrts = 5.000000000000E+03
?helicity_selection_active = false
seed = 0
| RNG: Initializing tao random-number generator
| RNG: Setting seed for random-number generator to 0
| Initializing integration for process helicity_aa_ww:
| Beam structure: A, A
| Beam data (collision):
| A (mass = 0.0000000E+00 GeV)
| A (mass = 0.0000000E+00 GeV)
| sqrts = 5.000000000000E+03 GeV
| Phase space: generating configuration ...
| Phase space: ... success.
| Phase space: writing configuration file 'helicity_aa_ww_i1.phs'
| Phase space: 4 channels, 2 dimensions
| Phase space: found 4 channels, collected in 1 grove.
| Phase space: Using 8 equivalences between channels.
| Phase space: wood
Warning: No cuts have been defined.
| Starting integration for process 'helicity_aa_ww'
| Integrator: 1 chains, 4 channels, 2 dimensions
| Integrator: Using VAMP channel equivalences
| Integrator: 10000 initial calls, 20 bins, stratified = T
| Integrator: VAMP
|=============================================================================|
| It Calls Integral[fb] Error[fb] Err[%] Acc Eff[%] Chi2 N[It] |
|=============================================================================|
- 1 8192 8.5843811E+04 1.04E+02 0.12 0.11* 0.00
+ 1 8192 8.5843811E+04 1.04E+02 0.12 0.11* 24.14
|-----------------------------------------------------------------------------|
- 1 8192 8.5843811E+04 0.00E+00 0.00 0.00 0.00
+ 1 8192 8.5843811E+04 1.04E+02 0.12 0.11 24.14
|=============================================================================|
[user variable] without_helicity_selection = 8.584381148084E+04
?helicity_selection_active = true
helicity_selection_cutoff = 1000
helicity_selection_threshold = 1.000000000000E+10
seed = 0
| RNG: Initializing tao random-number generator
| RNG: Setting seed for random-number generator to 0
| Initializing integration for process helicity_aa_ww:
| Beam structure: A, A
| Beam data (collision):
| A (mass = 0.0000000E+00 GeV)
| A (mass = 0.0000000E+00 GeV)
| sqrts = 5.000000000000E+03 GeV
| Phase space: generating configuration ...
| Phase space: ... success.
| Phase space: writing configuration file 'helicity_aa_ww_i1.phs'
| Phase space: 4 channels, 2 dimensions
| Phase space: found 4 channels, collected in 1 grove.
| Phase space: Using 8 equivalences between channels.
| Phase space: wood
Warning: No cuts have been defined.
| Starting integration for process 'helicity_aa_ww'
| Integrator: 1 chains, 4 channels, 2 dimensions
| Integrator: Using VAMP channel equivalences
| Integrator: 10000 initial calls, 20 bins, stratified = T
| Integrator: VAMP
|=============================================================================|
| It Calls Integral[fb] Error[fb] Err[%] Acc Eff[%] Chi2 N[It] |
|=============================================================================|
- 1 8192 8.5843811E+04 1.04E+02 0.12 0.11* 0.00
+ 1 8192 8.5843811E+04 1.04E+02 0.12 0.11* 24.14
|-----------------------------------------------------------------------------|
- 1 8192 8.5843811E+04 0.00E+00 0.00 0.00 0.00
+ 1 8192 8.5843811E+04 1.04E+02 0.12 0.11 24.14
|=============================================================================|
[user variable] with____helicity_selection = 8.584381148084E+04
Comparing results:
tolerance = 1.000000000000E-12
[user variable] without_helicity_selection = 8.584381148084E+04
[user variable] with____helicity_selection = 8.584381148084E+04
| expect: success
**************************************************
* A A => W+ W- @ 5 TeV, w/ cuts and lower cutoff *
**************************************************
sqrts = 5.000000000000E+03
?helicity_selection_active = false
seed = 0
| RNG: Initializing tao random-number generator
| RNG: Setting seed for random-number generator to 0
| Initializing integration for process helicity_aa_ww:
| Beam structure: A, A
| Beam data (collision):
| A (mass = 0.0000000E+00 GeV)
| A (mass = 0.0000000E+00 GeV)
| sqrts = 5.000000000000E+03 GeV
| Phase space: generating configuration ...
| Phase space: ... success.
| Phase space: writing configuration file 'helicity_aa_ww_i1.phs'
| Phase space: 4 channels, 2 dimensions
| Phase space: found 4 channels, collected in 1 grove.
| Phase space: Using 8 equivalences between channels.
| Phase space: wood
| Applying user-defined cuts.
| Starting integration for process 'helicity_aa_ww'
| Integrator: 1 chains, 4 channels, 2 dimensions
| Integrator: Using VAMP channel equivalences
| Integrator: 10000 initial calls, 20 bins, stratified = T
| Integrator: VAMP
|=============================================================================|
| It Calls Integral[fb] Error[fb] Err[%] Acc Eff[%] Chi2 N[It] |
|=============================================================================|
- 1 8192 3.4087979E+04 2.77E+02 0.81 0.74* 0.00
+ 1 8192 3.4087979E+04 2.77E+02 0.81 0.74* 15.22
|-----------------------------------------------------------------------------|
- 1 8192 3.4087979E+04 0.00E+00 0.00 0.00 0.00
+ 1 8192 3.4087979E+04 2.77E+02 0.81 0.74 15.22
|=============================================================================|
[user variable] without_helicity_selection = 3.408797900700E+04
?helicity_selection_active = true
helicity_selection_cutoff = 100
helicity_selection_threshold = 1.000000000000E+10
seed = 0
| RNG: Initializing tao random-number generator
| RNG: Setting seed for random-number generator to 0
| Initializing integration for process helicity_aa_ww:
| Beam structure: A, A
| Beam data (collision):
| A (mass = 0.0000000E+00 GeV)
| A (mass = 0.0000000E+00 GeV)
| sqrts = 5.000000000000E+03 GeV
| Phase space: generating configuration ...
| Phase space: ... success.
| Phase space: writing configuration file 'helicity_aa_ww_i1.phs'
| Phase space: 4 channels, 2 dimensions
| Phase space: found 4 channels, collected in 1 grove.
| Phase space: Using 8 equivalences between channels.
| Phase space: wood
| Applying user-defined cuts.
| Starting integration for process 'helicity_aa_ww'
| Integrator: 1 chains, 4 channels, 2 dimensions
| Integrator: Using VAMP channel equivalences
| Integrator: 10000 initial calls, 20 bins, stratified = T
| Integrator: VAMP
|=============================================================================|
| It Calls Integral[fb] Error[fb] Err[%] Acc Eff[%] Chi2 N[It] |
|=============================================================================|
- 1 8192 3.4087979E+04 2.77E+02 0.81 0.74* 0.00
+ 1 8192 3.4087979E+04 2.77E+02 0.81 0.74* 15.22
|-----------------------------------------------------------------------------|
- 1 8192 3.4087979E+04 0.00E+00 0.00 0.00 0.00
+ 1 8192 3.4087979E+04 2.77E+02 0.81 0.74 15.22
|=============================================================================|
[user variable] with____helicity_selection = 3.408797900700E+04
Comparing results:
tolerance = 1.000000000000E-10
[user variable] without_helicity_selection = 3.408797900700E+04
[user variable] with____helicity_selection = 3.408797900700E+04
| expect: success
| Summary of value checks:
| Failures: 0 / Total: 3
| There were no errors and 5 warning(s).
| WHIZARD run finished.
|=============================================================================|
Index: trunk/share/tests/ref-output-quad/simulations_4.ref
===================================================================
--- trunk/share/tests/ref-output-quad/simulations_4.ref (revision 5212)
+++ trunk/share/tests/ref-output-quad/simulations_4.ref (revision 5213)
@@ -1,222 +1,222 @@
* Test output: simulations_4
* Purpose: generate events for a single process with structure functions
* Initialize processes
* Integrate
* Initialize event generation
Event sample properties:
MD5 sum (proc) = 'B88A275F2B403BA5A6D8C5159988A14F'
MD5 sum (config) = '44E771953A932F0A29DF5CDDC0332BDF'
unweighted = F
negative weights = F
number of beams = 2
PDG = 25 25
Energy = 5.000000000000E+02 5.000000000000E+02
total cross sec. = 8.200737758747E+03
num of processes = 1
Process #1
CSec = 8.200737758747E+03
- Error = 0.000000000000E+00
+ Error = 2.218271966722E+02
* Generate three events
========================================================================
Event sample: 'simulations4'
Processes = 1
Unweighted = F
Integral = 8.200737758747E+03
- Error = 0.000000000000E+00
+ Error = 2.218271966722E+02
MD5 sum (proc) = 'B88A275F2B403BA5A6D8C5159988A14F'
MD5 sum (config) = '44E771953A932F0A29DF5CDDC0332BDF'
Events requested = 3
Events total = 3
generated = 3
read = 0
positive weight = 3
negative weight = 0
zero weight = 0
excess weight = 0
------------------------------------------------------------------------
Current event:
Process #1: simulation_4p
MCI set #1
Weight = 7.353781137712E+03
------------------------------------------------------------------------
TAO random-number generator:
seed = 65536
calls = 0
========================================================================
Process #1:
Process = 'simulation_4p'
Library = 'simulation_4a'
Run = 'r1'
Integral = 8.200737758747E+03
- Error = 0.000000000000E+00
+ Error = 2.218271966722E+02
Weight = 1.0000000000
MCI sets = 1
Events total = 3
generated = 3
read = 0
positive weight = 3
negative weight = 0
zero weight = 0
excess weight = 0
MCI set #1:
Components:
1: 'simulation_4p_i1'
Integral = 8.200737758747E+03
- Error = 0.000000000000E+00
+ Error = 2.218271966722E+02
Weight = 1.0000000000
Events total = 3
generated = 3
read = 0
positive weight = 3
negative weight = 0
zero weight = 0
excess weight = 0
========================================================================
* Write the event record for the last event
========================================================================
Event
------------------------------------------------------------------------
Unweighted = F
Helicity handling = drop
Keep correlations = F
------------------------------------------------------------------------
Squared matrix el. = 1.964149990115E-01
Event weight = 7.353781137712E+03
------------------------------------------------------------------------
Selected MCI group = 1
Selected term = 1
Selected channel = 4
------------------------------------------------------------------------
Passed selection = T
Reweighting factor = 1.000000000000E+00
Analysis flag = T
========================================================================
Process instance [scattering]: 'simulation_4p'
Run ID = 'r1'
Process components:
* 1: 'simulation_4p_i1': s, s => s, s [unit_test]
status = event complete
------------------------------------------------------------------------
sqme = 1.964149990115E-01
weight = 7.353781137712E+03
------------------------------------------------------------------------
Active MCI instance #1 =
0.24874 0.78964 | 0.92644 0.36389
Integrand = 7.746462203555E+03
Weight = 9.700556857103E-01
VAMP wgt = 7.353781137712E+03
adapt grids = F
adapt weights = F
VAMP grids: defined
n_it = 0
it = 0
pass complete = F
n_calls = 0
calls = 3
it complete = F
n adapt.(g) = 0
n adapt.(w) = 0
gen. events = T
integral = 0.0000000000E+00
error = 0.0000000000E+00
eff. = 0.0000000000E+00
weights:
1 2.00000E-01
2 2.00000E-01
3 2.00000E-01
4 2.00000E-01
5 2.00000E-01
========================================================================
========================================================================
Event transform: trivial (hard process)
------------------------------------------------------------------------
Associated process: 'simulation_4p'
TAO random-number generator:
seed = 2
calls = 9
Number of tries = 1
------------------------------------------------------------------------
Particle set:
------------------------------------------------------------------------
Particle 1 [b] f(25)
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 5.000000000000E+02
T = 0.000000000000E+00
Children: 5 3
Particle 2 [b] f(25)
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 -5.000000000000E+02
T = 0.000000000000E+00
Children: 6 4
Particle 3 [i] f(25)
E = 1.243705446832E+02
P = 0.000000000000E+00 0.000000000000E+00 1.243705446832E+02
T = 0.000000000000E+00
Parents: 1
Children: 7 8
Particle 4 [i] f(25)
E = 3.948181611486E+02
P = 0.000000000000E+00 0.000000000000E+00 -3.948181611486E+02
T = 0.000000000000E+00
Parents: 2
Children: 7 8
Particle 5 [o] f(25)
E = 3.756294553168E+02
P = 0.000000000000E+00 0.000000000000E+00 3.756294553168E+02
T = 0.000000000000E+00
Parents: 1
Particle 6 [o] f(25)
E = 1.051818388514E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.051818388514E+02
T = 0.000000000000E+00
Parents: 2
Particle 7 [o] f(25)
E = 3.777177631816E+02
P = 9.654401503948E+01 -4.809674479870E+01 -3.619898685360E+02
T = 0.000000000000E+00
Parents: 3 4
Particle 8 [o] f(25)
E = 1.414709426502E+02
P = -9.654401503948E+01 4.809674479870E+01 9.154225207062E+01
T = 0.000000000000E+00
Parents: 3 4
========================================================================
Local variables:
------------------------------------------------------------------------
sqrts* = 1.000000000000E+03
sqrts_hat* => 4.431873181979E+02
n_in* => 2
n_out* => 4
n_tot* => 6
$process_id* => "simulation_4p"
process_num_id* => [unknown integer]
sqme* => 1.964149990115E-01
sqme_ref* => 1.964149990115E-01
event_index* => 3
event_weight* => 7.353781137712E+03
event_weight_ref* => 7.353781137712E+03
event_excess* => 0.000000000000E+00
------------------------------------------------------------------------
subevent:
1 prt(b:25|-5.0000000E+02; 0.0000000E+00, 0.0000000E+00,-5.0000000E+02| 0.000000000000E+00| 1)
2 prt(b:25|-5.0000000E+02; 0.0000000E+00, 0.0000000E+00, 5.0000000E+02| 0.000000000000E+00| 2)
3 prt(i:25|-1.2437054E+02; 0.0000000E+00, 0.0000000E+00,-1.2437054E+02| 0.000000000000E+00| 3)
4 prt(i:25|-3.9481816E+02; 0.0000000E+00, 0.0000000E+00, 3.9481816E+02| 0.000000000000E+00| 4)
5 prt(o:25| 3.7562946E+02; 0.0000000E+00, 0.0000000E+00, 3.7562946E+02| 0.000000000000E+00| 5)
6 prt(o:25| 1.0518184E+02; 0.0000000E+00, 0.0000000E+00,-1.0518184E+02| 0.000000000000E+00| 6)
7 prt(o:25| 3.7771776E+02; 9.6544015E+01,-4.8096745E+01,-3.6198987E+02| 0.000000000000E+00| 7)
8 prt(o:25| 1.4147094E+02;-9.6544015E+01, 4.8096745E+01, 9.1542252E+01| 0.000000000000E+00| 8)
========================================================================
* Cleanup
* Test output end: simulations_4
Index: trunk/share/tests/ref-output-quad/qedtest_3.ref
===================================================================
--- trunk/share/tests/ref-output-quad/qedtest_3.ref (revision 5212)
+++ trunk/share/tests/ref-output-quad/qedtest_3.ref (revision 5213)
@@ -1,54 +1,54 @@
?vis_history = false
$method = "omega"
| Process library 'qedtest_3_lib': recorded process 'qedtest_3_p1'
| Process library 'qedtest_3_lib': compiling ...
| Process library 'qedtest_3_lib': writing makefile
| Process library 'qedtest_3_lib': removing old files
| Process library 'qedtest_3_lib': writing driver
| Process library 'qedtest_3_lib': creating source code
| Process library 'qedtest_3_lib': compiling sources
| Process library 'qedtest_3_lib': linking
| Process library 'qedtest_3_lib': loading
| Process library 'qedtest_3_lib': ... success.
$phs_method = "wood"
$integration_method = "vamp"
sqrts = 1.000000000000E+03
openmp_num_threads = 1
| RNG: Initializing tao random-number generator
| RNG: Setting seed for random-number generator to 0
| Initializing integration for process qedtest_3_p1:
| Beam structure: [any particles]
| Beam data (collision):
| e- (mass = 0.0000000E+00 GeV)
| e- (mass = 0.0000000E+00 GeV)
| sqrts = 1.000000000000E+03 GeV
| Phase space: generating configuration ...
| Phase space: ... success.
| Phase space: writing configuration file 'qedtest_3_p1_i1.phs'
| Phase space: 4 channels, 2 dimensions
| Phase space: found 4 channels, collected in 1 grove.
| Phase space: Using 16 equivalences between channels.
| Phase space: wood
| Applying user-defined cuts.
| Starting integration for process 'qedtest_3_p1'
| Integrator: 1 chains, 4 channels, 2 dimensions
| Integrator: Using VAMP channel equivalences
| Integrator: 2000 initial calls, 20 bins, stratified = T
| Integrator: VAMP
|=============================================================================|
| It Calls Integral[fb] Error[fb] Err[%] Acc Eff[%] Chi2 N[It] |
|=============================================================================|
- 1 1568 2.6084221E+04 5.68E+02 2.18 0.86* 0.00
- 2 1568 2.6001099E+04 3.39E+02 1.30 0.52* 0.00
- 3 1568 2.5275640E+04 2.21E+02 0.88 0.35* 0.00
+ 1 1568 2.6084221E+04 5.68E+02 2.18 0.86* 11.15
+ 2 1568 2.6001099E+04 3.39E+02 1.30 0.52* 23.51
+ 3 1568 2.5275640E+04 2.21E+02 0.88 0.35* 40.19
|-----------------------------------------------------------------------------|
- 3 4704 2.5786987E+04 4.45E+02 1.72 1.18 0.00 0.00 3
+ 3 4704 2.5549834E+04 1.76E+02 0.69 0.47 40.19 2.10 3
|-----------------------------------------------------------------------------|
- 4 1568 2.5436265E+04 2.36E+02 0.93 0.37 0.00
- 5 1568 2.5724855E+04 2.38E+02 0.92 0.37* 0.00
- 6 1568 2.5919145E+04 2.45E+02 0.95 0.37 0.00
+ 4 1568 2.5436265E+04 2.36E+02 0.93 0.37 40.37
+ 5 1568 2.5724855E+04 2.38E+02 0.92 0.37* 40.82
+ 6 1568 2.5919145E+04 2.45E+02 0.95 0.37 41.13
|-----------------------------------------------------------------------------|
- 6 4704 2.5693422E+04 2.43E+02 0.95 0.65 0.00 0.00 3
+ 6 4704 2.5687369E+04 1.38E+02 0.54 0.37 41.13 1.03 3
|=============================================================================|
| WHIZARD run finished.
|=============================================================================|
Index: trunk/share/tests/ref-output-quad/qedtest_4.ref
===================================================================
--- trunk/share/tests/ref-output-quad/qedtest_4.ref (revision 5212)
+++ trunk/share/tests/ref-output-quad/qedtest_4.ref (revision 5213)
@@ -1,59 +1,59 @@
?vis_history = false
$method = "omega"
?omega_openmp = false
| Process library 'qedtest_4_lib': recorded process 'qedtest_4_p1'
| Process library 'qedtest_4_lib': compiling ...
| Process library 'qedtest_4_lib': writing makefile
| Process library 'qedtest_4_lib': removing old files
| Process library 'qedtest_4_lib': writing driver
| Process library 'qedtest_4_lib': creating source code
| Process library 'qedtest_4_lib': compiling sources
| Process library 'qedtest_4_lib': linking
| Process library 'qedtest_4_lib': loading
| Process library 'qedtest_4_lib': ... success.
$phs_method = "wood"
$integration_method = "vamp"
sqrts = 1.000000000000E+03
openmp_num_threads = 1
| RNG: Initializing tao random-number generator
| RNG: Setting seed for random-number generator to 0
| Initializing integration for process qedtest_4_p1:
| Beam structure: [any particles]
| Beam data (collision):
| e- (mass = 0.0000000E+00 GeV)
| e+ (mass = 0.0000000E+00 GeV)
| sqrts = 1.000000000000E+03 GeV
| Phase space: generating configuration ...
| Phase space: ... success.
| Phase space: writing configuration file 'qedtest_4_p1_i1.phs'
| Phase space: 12 channels, 5 dimensions
| Phase space: found 12 channels, collected in 1 grove.
| Phase space: Using 72 equivalences between channels.
| Phase space: wood
| Applying user-defined cuts.
| Starting integration for process 'qedtest_4_p1'
| Integrator: 1 chains, 12 channels, 5 dimensions
| Integrator: Using VAMP channel equivalences
| Integrator: 2000 initial calls, 20 bins, stratified = T
| Integrator: VAMP
|=============================================================================|
| It Calls Integral[fb] Error[fb] Err[%] Acc Eff[%] Chi2 N[It] |
|=============================================================================|
- 1 1992 1.5753145E+01 1.59E+00 10.10 4.51* 0.00
- 2 1992 1.6038009E+01 5.50E-01 3.43 1.53* 0.00
- 3 1992 1.4570311E+01 4.30E-01 2.95 1.32* 0.00
- 4 1992 1.5043455E+01 4.40E-01 2.93 1.31* 0.00
- 5 1992 1.5748353E+01 4.26E-01 2.71 1.21* 0.00
+ 1 1992 1.5753145E+01 1.59E+00 10.10 4.51* 4.07
+ 2 1992 1.6038009E+01 5.50E-01 3.43 1.53* 10.57
+ 3 1992 1.4570311E+01 4.30E-01 2.95 1.32* 14.55
+ 4 1992 1.5043455E+01 4.40E-01 2.93 1.31* 14.01
+ 5 1992 1.5748353E+01 4.26E-01 2.71 1.21* 14.59
|-----------------------------------------------------------------------------|
- 5 9960 1.5430655E+01 6.05E-01 3.92 3.91 0.00 0.00 5
+ 5 9960 1.5290759E+01 2.25E-01 1.47 1.47 14.59 1.55 5
|-----------------------------------------------------------------------------|
- 6 1992 1.4713778E+01 4.19E-01 2.85 1.27 0.00
- 7 1992 1.4832498E+01 4.14E-01 2.79 1.25* 0.00
- 8 1992 1.5102896E+01 4.18E-01 2.76 1.23* 0.00
- 9 1992 1.5299027E+01 4.23E-01 2.76 1.23* 0.00
- 10 1992 1.5211153E+01 4.89E-01 3.22 1.44 0.00
+ 6 1992 1.4713778E+01 4.19E-01 2.85 1.27 11.29
+ 7 1992 1.4832498E+01 4.14E-01 2.79 1.25* 11.14
+ 8 1992 1.5102896E+01 4.18E-01 2.76 1.23* 11.09
+ 9 1992 1.5299027E+01 4.23E-01 2.76 1.23* 9.79
+ 10 1992 1.5211153E+01 4.89E-01 3.22 1.44 8.28
|-----------------------------------------------------------------------------|
- 10 9960 1.5020041E+01 1.92E-01 1.28 1.28 0.00 0.34 5
+ 10 9960 1.5020041E+01 1.92E-01 1.28 1.28 8.28 0.34 5
|=============================================================================|
| WHIZARD run finished.
|=============================================================================|
Index: trunk/share/tests/ref-output-quad/lhef_1.ref
===================================================================
--- trunk/share/tests/ref-output-quad/lhef_1.ref (revision 5212)
+++ trunk/share/tests/ref-output-quad/lhef_1.ref (revision 5213)
@@ -1,77 +1,77 @@
?openmp_logging = false
?vis_history = false
?write_raw = false
process_num_id = 42
| Process library 'lhef_1_lib': recorded process 'lhef_1_p' (42)
sqrts = 1.000000000000E+03
openmp_num_threads = 1
| Integrate: current process library needs compilation
| Process library 'lhef_1_lib': compiling ...
| Process library 'lhef_1_lib': writing makefile
| Process library 'lhef_1_lib': removing old files
| Process library 'lhef_1_lib': writing driver
| Process library 'lhef_1_lib': creating source code
| Process library 'lhef_1_lib': compiling sources
| Process library 'lhef_1_lib': linking
| Process library 'lhef_1_lib': loading
| Process library 'lhef_1_lib': ... success.
| Integrate: compilation done
| RNG: Initializing tao random-number generator
| RNG: Setting seed for random-number generator to 0
| Initializing integration for process lhef_1_p:
| Beam structure: [any particles]
| Beam data (collision):
| e- (mass = 5.1100000E-04 GeV)
| e+ (mass = 5.1100000E-04 GeV)
| sqrts = 1.000000000000E+03 GeV
| Phase space: generating configuration ...
| Phase space: ... success.
| Phase space: writing configuration file 'lhef_1_p_i1.phs'
| Phase space: 1 channels, 2 dimensions
| Phase space: found 1 channel, collected in 1 grove.
| Phase space: Using 1 equivalence between channels.
| Phase space: wood
Warning: No cuts have been defined.
| Starting integration for process 'lhef_1_p'
| Integrator: 1 chains, 1 channels, 2 dimensions
| Integrator: Using VAMP channel equivalences
| Integrator: 100 initial calls, 20 bins, stratified = T
| Integrator: VAMP
|=============================================================================|
| It Calls Integral[fb] Error[fb] Err[%] Acc Eff[%] Chi2 N[It] |
|=============================================================================|
- 1 100 8.4620428E+01 1.81E+00 2.14 0.21* 0.00
+ 1 100 8.4620428E+01 1.81E+00 2.14 0.21* 65.91
|-----------------------------------------------------------------------------|
- 1 100 8.4620428E+01 0.00E+00 0.00 0.00 0.00
+ 1 100 8.4620428E+01 1.81E+00 2.14 0.21 65.91
|=============================================================================|
n_events = 1
$lhef_version = "1.0"
| Starting simulation for process 'lhef_1_p'
| Simulate: using integration grids from file 'lhef_1_p.vg'
| RNG: Initializing tao random-number generator
| RNG: Setting seed for random-number generator to 1
| Events: writing to LHEF file 'lhef_1_p.lhe'
| Generating 1 unweighted events ...
| ... event sample complete.
| Events: closing LHEF file 'lhef_1_p.lhe'
| There were no errors and 1 warning(s).
| WHIZARD run finished.
|=============================================================================|
LHEF file contents:
<LesHouchesEvents version="1.0">
<header>
<generator_name>WHIZARD</generator_name>
[...]
</header>
<init>
11 -11 5.0000000000E+02 5.0000000000E+02 -1 -1 -1 -1 3 1
- 8.4620427666E-02 0.0000000000E+00 1.0000000000E+00 42
+ 8.4620427666E-02 1.8082000253E-03 1.0000000000E+00 42
</init>
<event>
4 42 1.0000000000E+00 1.0000000000E+03 -1.0000000000E+00 1.1780000000E-01
11 -1 0 0 0 0 0.0000000000E+00 0.0000000000E+00 5.0000000000E+02 5.0000000000E+02 5.1100001601E-04 0.0000000000E+00 9.0000000000E+00
-11 -1 0 0 0 0 0.0000000000E+00 0.0000000000E+00 -5.0000000000E+02 5.0000000000E+02 5.1100001601E-04 0.0000000000E+00 9.0000000000E+00
13 1 1 2 0 0 2.8460051646E+02 3.9761714600E+02 -1.0441810218E+02 5.0000000000E+02 1.0570000000E-01 0.0000000000E+00 9.0000000000E+00
-13 1 1 2 0 0 -2.8460051646E+02 -3.9761714600E+02 1.0441810218E+02 5.0000000000E+02 1.0570000000E-01 0.0000000000E+00 9.0000000000E+00
</event>
</LesHouchesEvents>
Index: trunk/share/tests/ref-output-quad/simulations_8.ref
===================================================================
--- trunk/share/tests/ref-output-quad/simulations_8.ref (revision 5212)
+++ trunk/share/tests/ref-output-quad/simulations_8.ref (revision 5213)
@@ -1,1997 +1,1998 @@
* Test output: simulations_8
* Purpose: generate events for a single process
* write to file and rescan
* Initialize process and integrate
* Initialize event generation
* Initialize raw event file
MD5 sum (proc) = '4B15ACE9F2F60427FBA8AD9719D76E22'
MD5 sum (config) = '3C43C67A809F29B0FAF570265F928B98'
* Generate an event
========================================================================
Event
------------------------------------------------------------------------
Unweighted = F
Helicity handling = drop
Keep correlations = F
------------------------------------------------------------------------
Squared matrix el. = 1.245684511522E-01
Event weight = 2.019623591658E+04
------------------------------------------------------------------------
Selected MCI group = 1
Selected term = 1
Selected channel = 1
------------------------------------------------------------------------
Passed selection = T
Reweighting factor = 1.000000000000E+00
Analysis flag = T
========================================================================
Process instance [scattering]: 'simulation_8p'
Run ID = 'r1'
Process components:
* 1: 'simulation_8p_i1': s, s => s, s [unit_test]
status = event complete
------------------------------------------------------------------------
sqme = 1.245684511522E-01
weight = 2.019623591658E+04
------------------------------------------------------------------------
Active MCI instance #1 =
0.35369 0.35220 | 0.90251 0.68226
Integrand = 7.746462203555E+03
Weight = 2.656872873669E+00
VAMP wgt = 2.019623591658E+04
adapt grids = F
adapt weights = F
VAMP grids: defined
n_it = 0
it = 0
pass complete = F
n_calls = 0
calls = 1
it complete = F
n adapt.(g) = 0
n adapt.(w) = 0
gen. events = T
integral = 0.0000000000E+00
error = 0.0000000000E+00
eff. = 0.0000000000E+00
weights:
1 2.00000E-01
2 2.00000E-01
3 2.00000E-01
4 2.00000E-01
5 2.00000E-01
========================================================================
Incoming particles / structure-function chain:
n_in = 2
n_strfun = 2
n_par = 2
Beam data (collision):
s (mass = 0.0000000E+00 GeV)
s (mass = 0.0000000E+00 GeV)
sqrts = 1.000000000000E+03 GeV
------------------------------------------------------------------------
Colliding beams:
Interaction: 1
Outgoing:
Particle 1
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 5.000000000000E+02
mask [fch] = [FFgT]
Particle 2
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 -5.000000000000E+02
mask [fch] = [FFgT]
State matrix: norm = 1.000000000000E+00
[f(25)]
[f(25)] => ME(1) = ( 1.000000000000E+00, 0.000000000000E+00)
------------------------------------------------------------------------
SF test data:
model = Test
incoming = f(25)
outgoing = f(25)
radiated = f(25)
mass = 0.000000000000E+00
collinear = T
SF instance: [initialized]
beam = 1
incoming = 1
radiated = 2
outgoing = 3
parameter = 1
Interaction: 2
Incoming:
Particle 1
[momentum undefined]
mask [fch] = [FFgF]
internal links: X => 2 3
Outgoing:
Particle 2
[momentum undefined]
mask [fch] = [FFgF]
internal links: 1 => X
Particle 3
[momentum undefined]
mask [fch] = [FFgF]
internal links: 1 => X
State matrix: norm = 1.000000000000E+00
[f(25) h(0)]
[f(25) h(0)]
[f(25) h(0)] => ME(1) = ( 0.000000000000E+00, 0.000000000000E+00)
------------------------------------------------------------------------
SF test data:
model = Test
incoming = f(25)
outgoing = f(25)
radiated = f(25)
mass = 0.000000000000E+00
collinear = T
SF instance: [initialized]
beam = 2
incoming = 1
radiated = 2
outgoing = 3
parameter = 2
Interaction: 3
Incoming:
Particle 1
[momentum undefined]
mask [fch] = [FFgF]
internal links: X => 2 3
Outgoing:
Particle 2
[momentum undefined]
mask [fch] = [FFgF]
internal links: 1 => X
Particle 3
[momentum undefined]
mask [fch] = [FFgF]
internal links: 1 => X
State matrix: norm = 1.000000000000E+00
[f(25) h(0)]
[f(25) h(0)]
[f(25) h(0)] => ME(1) = ( 0.000000000000E+00, 0.000000000000E+00)
========================================================================
Active components:
------------------------------------------------------------------------
Component #1
Seed momenta:
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
E = 1.766074030054E+02
P = 1.344542546871E+02 -9.447877206272E+01 6.469922582507E+01
E = 1.763359433646E+02
P = -1.344542546871E+02 9.447877206272E+01 -6.395451468304E+01
Squared matrix element:
1.245684511522E-01
Flux * PHS volume:
6.218638934582E+04
Jacobian factors per channel:
1: 1.0000000E+00 [selected]
2: 4.5356018E+00
3: 4.5356018E+00
4: 4.5356018E+00
5: 4.5356018E+00
------------------------------------------------------------------------
Structure-function chain instance: [evaluated]
outgoing (interactions) = 1:3 2:3
outgoing (evaluators) = 2:4 2:6
Structure-function parameters:
Channel #1: [selected]
p = 0.3536881 0.3521986
r = 0.3536881 0.3521986
f = 1.0000000E+00
m = - -
x = 0.3536881 0.3521986
------------------------------------------------------------------------
Colliding beams:
Interaction: 4
Outgoing:
Particle 1
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 5.000000000000E+02
mask [fch] = [FFgT]
source: (1)1
Particle 2
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 -5.000000000000E+02
mask [fch] = [FFgT]
source: (1)2
State matrix: norm = 1.000000000000E+00
[f(25)]
[f(25)] => ME(1) = ( 1.000000000000E+00, 0.000000000000E+00)
------------------------------------------------------------------------
Structure-function parameters:
Channel #1: [selected]
r = 0.3536881
f = 1.0000000E+00
m = F
x = 0.3536881
SF test data:
model = Test
incoming = f(25)
outgoing = f(25)
radiated = f(25)
mass = 0.000000000000E+00
collinear = T
SF instance: [evaluated]
beam = 1
incoming = 1
radiated = 2
outgoing = 3
parameter = 1
Interaction: 5
Incoming:
Particle 1
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 5.000000000000E+02
mask [fch] = [FFgT]
internal links: X => 2 3
source: (4)1
Outgoing:
Particle 2
E = 3.231559712440E+02
P = 0.000000000000E+00 0.000000000000E+00 3.231559712440E+02
mask [fch] = [FFgF]
internal links: 1 => X
Particle 3
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
mask [fch] = [FFgF]
internal links: 1 => X
State matrix: norm = 1.000000000000E+00
[f(25)]
[f(25) h(0)]
[f(25) h(0)] => ME(1) = ( 3.536880575120E-01, 0.000000000000E+00)
Interaction: 7
Virtual:
Particle 1
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 5.000000000000E+02
mask [fch] = [FFgT]
internal links: X => 3 4
source: (4)1
Outgoing:
Particle 2
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 -5.000000000000E+02
mask [fch] = [FFgT]
source: (4)2
Particle 3
E = 3.231559712440E+02
P = 0.000000000000E+00 0.000000000000E+00 3.231559712440E+02
mask [fch] = [FFgF]
internal links: 1 => X
source: (5)2
Particle 4
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
mask [fch] = [FFgF]
internal links: 1 => X
source: (5)3
State matrix: norm = 1.000000000000E+00
[f(25)]
[f(25)]
[f(25) h(0)]
[f(25) h(0)] => ME(1) = ( 3.536880575120E-01, 0.000000000000E+00)
Matrix-element multiplication
Input interaction 1: 4
Input interaction 2: 5
ME(1) =
+ ME1(1) x ME2(1)
------------------------------------------------------------------------
Structure-function parameters:
Channel #1: [selected]
r = 0.3521986
f = 1.0000000E+00
m = F
x = 0.3521986
SF test data:
model = Test
incoming = f(25)
outgoing = f(25)
radiated = f(25)
mass = 0.000000000000E+00
collinear = T
SF instance: [evaluated]
beam = 2
incoming = 1
radiated = 2
outgoing = 3
parameter = 2
Interaction: 6
Incoming:
Particle 1
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 -5.000000000000E+02
mask [fch] = [FFgT]
internal links: X => 2 3
source: (4)2
Outgoing:
Particle 2
E = 3.239006823860E+02
P = 0.000000000000E+00 0.000000000000E+00 -3.239006823860E+02
mask [fch] = [FFgF]
internal links: 1 => X
Particle 3
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
mask [fch] = [FFgF]
internal links: 1 => X
State matrix: norm = 1.000000000000E+00
[f(25)]
[f(25) h(0)]
[f(25) h(0)] => ME(1) = ( 3.521986352280E-01, 0.000000000000E+00)
Interaction: 8
Virtual:
Particle 1
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 5.000000000000E+02
mask [fch] = [FFgT]
internal links: X => 3 4
source: (7)1
Particle 2
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 -5.000000000000E+02
mask [fch] = [FFgT]
internal links: X => 5 6
source: (7)2
Outgoing:
Particle 3
E = 3.231559712440E+02
P = 0.000000000000E+00 0.000000000000E+00 3.231559712440E+02
mask [fch] = [FFgF]
internal links: 1 => X
source: (7)3
Particle 4
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
mask [fch] = [FFgF]
internal links: 1 => X
source: (7)4
Particle 5
E = 3.239006823860E+02
P = 0.000000000000E+00 0.000000000000E+00 -3.239006823860E+02
mask [fch] = [FFgF]
internal links: 2 => X
source: (6)2
Particle 6
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
mask [fch] = [FFgF]
internal links: 2 => X
source: (6)3
State matrix: norm = 1.000000000000E+00
[f(25)]
[f(25)]
[f(25) h(0)]
[f(25) h(0)]
[f(25) h(0)]
[f(25) h(0)] => ME(1) = ( 1.245684511522E-01, 0.000000000000E+00)
Matrix-element multiplication
Input interaction 1: 7
Input interaction 2: 6
ME(1) =
+ ME1(1) x ME2(1)
------------------------------------------------------------------------
Partonic phase space: parameters
m_in = 0.000000000000E+00 0.000000000000E+00
m_out = 0.000000000000E+00 0.000000000000E+00
Flux = 2.435873185990E+09
Volume = 2.552940346135E-05
Channel #1: [selected]
r = 0.9025137 0.6822583
f = 1.0000000E+00
Channel #2:
r = 0.9025137 0.5317687
f = 4.5356018E+00
Channel #3:
r = 0.9025137 0.5317687
f = 4.5356018E+00
Channel #4:
r = 0.9025137 0.5317687
f = 4.5356018E+00
Channel #5:
r = 0.9025137 0.5317687
f = 4.5356018E+00
Partonic phase space: momenta
sqrts = 3.529425606982E+02
Incoming:
E = 1.764712803491E+02
P = 0.000000000000E+00 0.000000000000E+00 1.764712803491E+02
E = 1.764712803491E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.764712803491E+02
Outgoing:
E = 1.764712803491E+02
P = 1.344542546871E+02 -9.447877206272E+01 6.432672705881E+01
E = 1.764712803491E+02
P = -1.344542546871E+02 9.447877206272E+01 -6.432672705881E+01
Transformation c.m -> lab frame
L00 = 1.000002226062E+00
L0j = 0.000000000000E+00 0.000000000000E+00 2.110006627028E-03
L10 = 0.000000000000E+00
L1j = 1.000000000000E+00 0.000000000000E+00 0.000000000000E+00
L20 = 0.000000000000E+00
L2j = 0.000000000000E+00 1.000000000000E+00 0.000000000000E+00
L30 = 2.110006627028E-03
L3j = 0.000000000000E+00 0.000000000000E+00 1.000002226062E+00
========================================================================
Active terms:
------------------------------------------------------------------------
Term #1 (component #1)
passed cuts = T
overall scale = 3.529425606982E+02
factorization scale = 3.529425606982E+02
renormalization scale = 3.529425606982E+02
reweighting factor = 1.000000000000E+00
------------------------------------------------------------------------
Amplitude (transition matrix of the hard interaction):
------------------------------------------------------------------------
Interaction: 9
Incoming:
Particle 1
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
mask [fch] = [FFgF]
internal links: X => 3 4
source: (8)4
Particle 2
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
mask [fch] = [FFgF]
internal links: X => 3 4
source: (8)6
Outgoing:
Particle 3
E = 1.766074030054E+02
P = 1.344542546871E+02 -9.447877206272E+01 6.469922582507E+01
mask [fch] = [FFgF]
internal links: 1 2 => X
Particle 4
E = 1.763359433646E+02
P = -1.344542546871E+02 9.447877206272E+01 -6.395451468304E+01
mask [fch] = [FFgF]
internal links: 1 2 => X
State matrix: norm = 1.000000000000E+00
[f(25) h(0)]
[f(25) h(0)]
[f(25) h(0)]
[f(25) h(0)] => ME(1) = ( 1.000000000000E+00, 0.000000000000E+00)
------------------------------------------------------------------------
Evaluators for the hard interaction:
------------------------------------------------------------------------
Evaluator (trace of the squared transition matrix):
------------------------------------------------------------------------
Interaction: 10
Incoming:
Particle 1
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
mask [fch] = [FTF]
internal links: X => 3 4
source: (9)1
Particle 2
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
mask [fch] = [FTF]
internal links: X => 3 4
source: (9)2
Outgoing:
Particle 3
E = 1.766074030054E+02
P = 1.344542546871E+02 -9.447877206272E+01 6.469922582507E+01
mask [fch] = [TTT]
internal links: 1 2 => X
source: (9)3
Particle 4
E = 1.763359433646E+02
P = -1.344542546871E+02 9.447877206272E+01 -6.395451468304E+01
mask [fch] = [TTT]
internal links: 1 2 => X
source: (9)4
State matrix: norm = 1.000000000000E+00
[f(25) h(0)]
[f(25) h(0)]
[]
[] => ME(1) = ( 1.000000000000E+00, 0.000000000000E+00)
Matrix-element multiplication
Input interaction 1: 9
Input interaction 2: [undefined]
ME(1) =
+ ME1(1)* x ME2(1) x ( 1.000000000000E+00, 0.000000000000E+00)
------------------------------------------------------------------------
Evaluator (squared transition matrix):
------------------------------------------------------------------------
Interaction: 12
Incoming:
Particle 1
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
mask [fch] = [FTF]
internal links: X => 3 4
source: (9)1
Particle 2
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
mask [fch] = [FTF]
internal links: X => 3 4
source: (9)2
Outgoing:
Particle 3
E = 1.766074030054E+02
P = 1.344542546871E+02 -9.447877206272E+01 6.469922582507E+01
mask [fch] = [FTT]
internal links: 1 2 => X
source: (9)3
Particle 4
E = 1.763359433646E+02
P = -1.344542546871E+02 9.447877206272E+01 -6.395451468304E+01
mask [fch] = [FTT]
internal links: 1 2 => X
source: (9)4
State matrix: norm = 1.000000000000E+00
[f(25) h(0)]
[f(25) h(0)]
[f(25)]
[f(25)] => ME(1) = ( 1.000000000000E+00, 0.000000000000E+00)
Matrix-element multiplication
Input interaction 1: 9
Input interaction 2: [undefined]
ME(1) =
+ ME1(1)* x ME2(1) x ( 1.000000000000E+00, 0.000000000000E+00)
------------------------------------------------------------------------
Evaluator (squared color-flow matrix):
------------------------------------------------------------------------
Interaction: 13
Incoming:
Particle 1
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
mask [fch] = [FFgF]
internal links: X => 3 4
source: (9)1
Particle 2
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
mask [fch] = [FFgF]
internal links: X => 3 4
source: (9)2
Outgoing:
Particle 3
E = 1.766074030054E+02
P = 1.344542546871E+02 -9.447877206272E+01 6.469922582507E+01
mask [fch] = [FFgT]
internal links: 1 2 => X
source: (9)3
Particle 4
E = 1.763359433646E+02
P = -1.344542546871E+02 9.447877206272E+01 -6.395451468304E+01
mask [fch] = [FFgT]
internal links: 1 2 => X
source: (9)4
State matrix: norm = 1.000000000000E+00
[f(25) h(0)]
[f(25) h(0)]
[f(25)]
[f(25)] => ME(1) = ( 1.000000000000E+00, 0.000000000000E+00)
Matrix-element multiplication
Input interaction 1: 9
Input interaction 2: [undefined]
ME(1) =
+ |ME1(1)|^2
------------------------------------------------------------------------
Evaluators for the connected process:
------------------------------------------------------------------------
Evaluator (extension of the beam evaluator with color contractions):
------------------------------------------------------------------------
Interaction: 15
Virtual:
Particle 1
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 5.000000000000E+02
mask [fch] = [FFgT]
internal links: X => 3 4
source: (8)1
Particle 2
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 -5.000000000000E+02
mask [fch] = [FFgT]
internal links: X => 5 6
source: (8)2
Outgoing:
Particle 3
E = 3.231559712440E+02
P = 0.000000000000E+00 0.000000000000E+00 3.231559712440E+02
mask [fch] = [FFgF]
internal links: 1 => X
source: (8)3
Particle 4
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
mask [fch] = [FFgF]
internal links: 1 => X
source: (8)4
Particle 5
E = 3.239006823860E+02
P = 0.000000000000E+00 0.000000000000E+00 -3.239006823860E+02
mask [fch] = [FFgF]
internal links: 2 => X
source: (8)5
Particle 6
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
mask [fch] = [FFgF]
internal links: 2 => X
source: (8)6
State matrix: norm = 1.000000000000E+00
[f(25)]
[f(25)]
[f(25) h(0)]
[f(25) h(0)]
[f(25) h(0)]
[f(25) h(0)] => ME(1) = ( 1.245684511522E-01, 0.000000000000E+00)
Matrix-element multiplication
Input interaction 1: 8
Input interaction 2: [undefined]
ME(1) =
+ ME1(1)
------------------------------------------------------------------------
Evaluator (trace of the squared transition matrix):
------------------------------------------------------------------------
Interaction: 11
Virtual:
Particle 1
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 5.000000000000E+02
mask [fch] = [TTT]
internal links: X => 5 3
source: (8)1
Particle 2
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 -5.000000000000E+02
mask [fch] = [TTT]
internal links: X => 6 4
source: (8)2
Particle 3
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
mask [fch] = [TTT]
internal links: 1 => X => 7 8
source: (8)4
Particle 4
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
mask [fch] = [TTT]
internal links: 2 => X => 7 8
source: (8)6
Outgoing:
Particle 5
E = 3.231559712440E+02
P = 0.000000000000E+00 0.000000000000E+00 3.231559712440E+02
mask [fch] = [TTT]
internal links: 1 => X
source: (8)3
Particle 6
E = 3.239006823860E+02
P = 0.000000000000E+00 0.000000000000E+00 -3.239006823860E+02
mask [fch] = [TTT]
internal links: 2 => X
source: (8)5
Particle 7
E = 1.766074030054E+02
P = 1.344542546871E+02 -9.447877206272E+01 6.469922582507E+01
mask [fch] = [TTT]
internal links: 3 4 => X
source: (10)3
Particle 8
E = 1.763359433646E+02
P = -1.344542546871E+02 9.447877206272E+01 -6.395451468304E+01
mask [fch] = [TTT]
internal links: 3 4 => X
source: (10)4
State matrix: norm = 1.000000000000E+00
[]
[]
[]
[]
[]
[]
[]
[] => ME(1) = ( 1.245684511522E-01, 0.000000000000E+00)
Matrix-element multiplication
Input interaction 1: 8
Input interaction 2: 10
ME(1) =
+ ME1(1) x ME2(1)
------------------------------------------------------------------------
Evaluator (squared transition matrix):
------------------------------------------------------------------------
Interaction: 14
Virtual:
Particle 1
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 5.000000000000E+02
mask [fch] = [FFgT]
internal links: X => 5 3
source: (8)1
Particle 2
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 -5.000000000000E+02
mask [fch] = [FFgT]
internal links: X => 6 4
source: (8)2
Particle 3
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
mask [fch] = [FTT]
internal links: 1 => X => 7 8
source: (8)4
Particle 4
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
mask [fch] = [FTT]
internal links: 2 => X => 7 8
source: (8)6
Outgoing:
Particle 5
E = 3.231559712440E+02
P = 0.000000000000E+00 0.000000000000E+00 3.231559712440E+02
mask [fch] = [FFgF]
internal links: 1 => X
source: (8)3
Particle 6
E = 3.239006823860E+02
P = 0.000000000000E+00 0.000000000000E+00 -3.239006823860E+02
mask [fch] = [FFgF]
internal links: 2 => X
source: (8)5
Particle 7
E = 1.766074030054E+02
P = 1.344542546871E+02 -9.447877206272E+01 6.469922582507E+01
mask [fch] = [FTT]
internal links: 3 4 => X
source: (12)3
Particle 8
E = 1.763359433646E+02
P = -1.344542546871E+02 9.447877206272E+01 -6.395451468304E+01
mask [fch] = [FTT]
internal links: 3 4 => X
source: (12)4
State matrix: norm = 1.000000000000E+00
[f(25)]
[f(25)]
[f(25)]
[f(25)]
[f(25) h(0)]
[f(25) h(0)]
[f(25)]
[f(25)] => ME(1) = ( 1.245684511522E-01, 0.000000000000E+00)
Matrix-element multiplication
Input interaction 1: 8
Input interaction 2: 12
ME(1) =
+ ME1(1) x ME2(1)
------------------------------------------------------------------------
Evaluator (squared color-flow matrix):
------------------------------------------------------------------------
Interaction: 16
Virtual:
Particle 1
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 5.000000000000E+02
mask [fch] = [FFgT]
internal links: X => 5 3
source: (15)1
Particle 2
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 -5.000000000000E+02
mask [fch] = [FFgT]
internal links: X => 6 4
source: (15)2
Particle 3
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
mask [fch] = [FFgT]
internal links: 1 => X => 7 8
source: (15)4
Particle 4
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
mask [fch] = [FFgT]
internal links: 2 => X => 7 8
source: (15)6
Outgoing:
Particle 5
E = 3.231559712440E+02
P = 0.000000000000E+00 0.000000000000E+00 3.231559712440E+02
mask [fch] = [FFgF]
internal links: 1 => X
source: (15)3
Particle 6
E = 3.239006823860E+02
P = 0.000000000000E+00 0.000000000000E+00 -3.239006823860E+02
mask [fch] = [FFgF]
internal links: 2 => X
source: (15)5
Particle 7
E = 1.766074030054E+02
P = 1.344542546871E+02 -9.447877206272E+01 6.469922582507E+01
mask [fch] = [FFgT]
internal links: 3 4 => X
source: (13)3
Particle 8
E = 1.763359433646E+02
P = -1.344542546871E+02 9.447877206272E+01 -6.395451468304E+01
mask [fch] = [FFgT]
internal links: 3 4 => X
source: (13)4
State matrix: norm = 1.000000000000E+00
[f(25)]
[f(25)]
[f(25)]
[f(25)]
[f(25) h(0)]
[f(25) h(0)]
[f(25)]
[f(25)] => ME(1) = ( 1.245684511522E-01, 0.000000000000E+00)
Matrix-element multiplication
Input interaction 1: 15
Input interaction 2: 13
ME(1) =
+ ME1(1) x ME2(1)
------------------------------------------------------------------------
Local variables:
------------------------------------------------------------------------
sqrts* = 1.000000000000E+03
sqrts_hat* => 3.529425606982E+02
n_in* => 2
n_out* => 4
n_tot* => 6
------------------------------------------------------------------------
subevent:
1 prt(b:25|-5.0000000E+02; 0.0000000E+00, 0.0000000E+00,-5.0000000E+02| 0.000000000000E+00| 1)
2 prt(b:25|-5.0000000E+02; 0.0000000E+00, 0.0000000E+00, 5.0000000E+02| 0.000000000000E+00| 2)
3 prt(i:25|-1.7684403E+02; 0.0000000E+00, 0.0000000E+00,-1.7684403E+02| 0.000000000000E+00| 3)
4 prt(i:25|-1.7609932E+02; 0.0000000E+00, 0.0000000E+00, 1.7609932E+02| 0.000000000000E+00| 4)
5 prt(o:25| 3.2315597E+02; 0.0000000E+00, 0.0000000E+00, 3.2315597E+02| 0.000000000000E+00| 5)
6 prt(o:25| 3.2390068E+02; 0.0000000E+00, 0.0000000E+00,-3.2390068E+02| 0.000000000000E+00| 6)
7 prt(o:25| 1.7660740E+02; 1.3445425E+02,-9.4478772E+01, 6.4699226E+01| 0.000000000000E+00| 7)
8 prt(o:25| 1.7633594E+02;-1.3445425E+02, 9.4478772E+01,-6.3954515E+01| 0.000000000000E+00| 8)
========================================================================
========================================================================
Event transform: trivial (hard process)
------------------------------------------------------------------------
Associated process: 'simulation_8p'
TAO random-number generator:
seed = 2
calls = 3
Number of tries = 1
------------------------------------------------------------------------
Particle set:
------------------------------------------------------------------------
Particle 1 [b] f(25)
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 5.000000000000E+02
T = 0.000000000000E+00
Children: 5 3
Particle 2 [b] f(25)
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 -5.000000000000E+02
T = 0.000000000000E+00
Children: 6 4
Particle 3 [i] f(25)
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
T = 0.000000000000E+00
Parents: 1
Children: 7 8
Particle 4 [i] f(25)
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
T = 0.000000000000E+00
Parents: 2
Children: 7 8
Particle 5 [o] f(25)
E = 3.231559712440E+02
P = 0.000000000000E+00 0.000000000000E+00 3.231559712440E+02
T = 0.000000000000E+00
Parents: 1
Particle 6 [o] f(25)
E = 3.239006823860E+02
P = 0.000000000000E+00 0.000000000000E+00 -3.239006823860E+02
T = 0.000000000000E+00
Parents: 2
Particle 7 [o] f(25)
E = 1.766074030054E+02
P = 1.344542546871E+02 -9.447877206272E+01 6.469922582507E+01
T = 0.000000000000E+00
Parents: 3 4
Particle 8 [o] f(25)
E = 1.763359433646E+02
P = -1.344542546871E+02 9.447877206272E+01 -6.395451468304E+01
T = 0.000000000000E+00
Parents: 3 4
========================================================================
Local variables:
------------------------------------------------------------------------
sqrts* = 1.000000000000E+03
sqrts_hat* => 3.529425606982E+02
n_in* => 2
n_out* => 4
n_tot* => 6
$process_id* => "simulation_8p"
process_num_id* => [unknown integer]
sqme* => 1.245684511522E-01
sqme_ref* => 1.245684511522E-01
event_index* => 1
event_weight* => 2.019623591658E+04
event_weight_ref* => 2.019623591658E+04
event_excess* => 0.000000000000E+00
------------------------------------------------------------------------
subevent:
1 prt(b:25|-5.0000000E+02; 0.0000000E+00, 0.0000000E+00,-5.0000000E+02| 0.000000000000E+00| 1)
2 prt(b:25|-5.0000000E+02; 0.0000000E+00, 0.0000000E+00, 5.0000000E+02| 0.000000000000E+00| 2)
3 prt(i:25|-1.7684403E+02; 0.0000000E+00, 0.0000000E+00,-1.7684403E+02| 0.000000000000E+00| 3)
4 prt(i:25|-1.7609932E+02; 0.0000000E+00, 0.0000000E+00, 1.7609932E+02| 0.000000000000E+00| 4)
5 prt(o:25| 3.2315597E+02; 0.0000000E+00, 0.0000000E+00, 3.2315597E+02| 0.000000000000E+00| 5)
6 prt(o:25| 3.2390068E+02; 0.0000000E+00, 0.0000000E+00,-3.2390068E+02| 0.000000000000E+00| 6)
7 prt(o:25| 1.7660740E+02; 1.3445425E+02,-9.4478772E+01, 6.4699226E+01| 0.000000000000E+00| 7)
8 prt(o:25| 1.7633594E+02;-1.3445425E+02, 9.4478772E+01,-6.3954515E+01| 0.000000000000E+00| 8)
========================================================================
* Re-read the event from file
MD5 sum (proc) = '4B15ACE9F2F60427FBA8AD9719D76E22'
MD5 sum (config) = ' '
========================================================================
Event
------------------------------------------------------------------------
Unweighted = F
Helicity handling = drop
Keep correlations = F
------------------------------------------------------------------------
Squared matrix el. = 1.245684511522E-01
Event weight = 2.019623591658E+04
------------------------------------------------------------------------
Selected MCI group = 1
Selected term = 1
Selected channel = 1
------------------------------------------------------------------------
Passed selection = T
Reweighting factor = 1.000000000000E+00
Analysis flag = T
========================================================================
Process instance [scattering]: 'simulation_8p'
Run ID = 'r1'
Process components:
1: 'simulation_8p_i1': s, s => s, s [unit_test]
status = initialized
========================================================================
========================================================================
Event transform: trivial (hard process)
------------------------------------------------------------------------
Associated process: 'simulation_8p'
TAO random-number generator:
seed = 4
calls = 0
Number of tries = 0
------------------------------------------------------------------------
Particle set:
------------------------------------------------------------------------
Particle 1 [b] f(25)
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 5.000000000000E+02
T = 0.000000000000E+00
Children: 5 3
Particle 2 [b] f(25)
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 -5.000000000000E+02
T = 0.000000000000E+00
Children: 6 4
Particle 3 [i] f(25)
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
T = 0.000000000000E+00
Parents: 1
Children: 7 8
Particle 4 [i] f(25)
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
T = 0.000000000000E+00
Parents: 2
Children: 7 8
Particle 5 [o] f(25)
E = 3.231559712440E+02
P = 0.000000000000E+00 0.000000000000E+00 3.231559712440E+02
T = 0.000000000000E+00
Parents: 1
Particle 6 [o] f(25)
E = 3.239006823860E+02
P = 0.000000000000E+00 0.000000000000E+00 -3.239006823860E+02
T = 0.000000000000E+00
Parents: 2
Particle 7 [o] f(25)
E = 1.766074030054E+02
P = 1.344542546871E+02 -9.447877206272E+01 6.469922582507E+01
T = 0.000000000000E+00
Parents: 3 4
Particle 8 [o] f(25)
E = 1.763359433646E+02
P = -1.344542546871E+02 9.447877206272E+01 -6.395451468304E+01
T = 0.000000000000E+00
Parents: 3 4
========================================================================
Local variables:
------------------------------------------------------------------------
sqrts* = 1.000000000000E+03
sqrts_hat* => 3.529425606982E+02
n_in* => 2
n_out* => 4
n_tot* => 6
$process_id* => "simulation_8p"
process_num_id* => [unknown integer]
sqme* => 1.245684511522E-01
sqme_ref* => 1.245684511522E-01
event_index* => 1
event_weight* => 2.019623591658E+04
event_weight_ref* => 2.019623591658E+04
event_excess* => 0.000000000000E+00
------------------------------------------------------------------------
subevent:
1 prt(b:25|-5.0000000E+02; 0.0000000E+00, 0.0000000E+00,-5.0000000E+02| 0.000000000000E+00| 1)
2 prt(b:25|-5.0000000E+02; 0.0000000E+00, 0.0000000E+00, 5.0000000E+02| 0.000000000000E+00| 2)
3 prt(i:25|-1.7684403E+02; 0.0000000E+00, 0.0000000E+00,-1.7684403E+02| 0.000000000000E+00| 3)
4 prt(i:25|-1.7609932E+02; 0.0000000E+00, 0.0000000E+00, 1.7609932E+02| 0.000000000000E+00| 4)
5 prt(o:25| 3.2315597E+02; 0.0000000E+00, 0.0000000E+00, 3.2315597E+02| 0.000000000000E+00| 5)
6 prt(o:25| 3.2390068E+02; 0.0000000E+00, 0.0000000E+00,-3.2390068E+02| 0.000000000000E+00| 6)
7 prt(o:25| 1.7660740E+02; 1.3445425E+02,-9.4478772E+01, 6.4699226E+01| 0.000000000000E+00| 7)
8 prt(o:25| 1.7633594E+02;-1.3445425E+02, 9.4478772E+01,-6.3954515E+01| 0.000000000000E+00| 8)
========================================================================
* Re-read again and recalculate
MD5 sum (proc) = '4B15ACE9F2F60427FBA8AD9719D76E22'
MD5 sum (config) = ' '
========================================================================
Event
------------------------------------------------------------------------
Unweighted = F
Helicity handling = drop
Keep correlations = F
------------------------------------------------------------------------
Squared matrix el. = 1.245684511522E-01
Event weight = 2.019623591658E+04
------------------------------------------------------------------------
Selected MCI group = 1
Selected term = 1
Selected channel = 1
------------------------------------------------------------------------
Passed selection = T
Reweighting factor = 1.000000000000E+00
Analysis flag = T
========================================================================
Process instance [scattering]: 'simulation_8p'
Run ID = 'r1'
Process components:
* 1: 'simulation_8p_i1': s, s => s, s [unit_test]
status = event complete
------------------------------------------------------------------------
sqme = 1.245684511522E-01
weight = 2.019623591658E+04
------------------------------------------------------------------------
Active MCI instance #1 =
0.35369 0.35220 | 0.90251 0.68226
Integrand = 0.000000000000E+00
Weight = 0.000000000000E+00
adapt grids = F
adapt weights = F
VAMP grids: [undefined]
n_it = 0
it = 0
pass complete = F
n_calls = 0
calls = 0
it complete = F
n adapt.(g) = 0
n adapt.(w) = 0
gen. events = F
integral = 0.0000000000E+00
error = 0.0000000000E+00
+ eff. = 0.0000000000E+00
weights:
1 2.00000E-01
2 2.00000E-01
3 2.00000E-01
4 2.00000E-01
5 2.00000E-01
========================================================================
Incoming particles / structure-function chain:
n_in = 2
n_strfun = 2
n_par = 2
Beam data (collision):
s (mass = 0.0000000E+00 GeV)
s (mass = 0.0000000E+00 GeV)
sqrts = 1.000000000000E+03 GeV
------------------------------------------------------------------------
Colliding beams:
Interaction: 1
Outgoing:
Particle 1
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 5.000000000000E+02
mask [fch] = [FFgT]
Particle 2
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 -5.000000000000E+02
mask [fch] = [FFgT]
State matrix: norm = 1.000000000000E+00
[f(25)]
[f(25)] => ME(1) = ( 1.000000000000E+00, 0.000000000000E+00)
------------------------------------------------------------------------
SF test data:
model = Test
incoming = f(25)
outgoing = f(25)
radiated = f(25)
mass = 0.000000000000E+00
collinear = T
SF instance: [initialized]
beam = 1
incoming = 1
radiated = 2
outgoing = 3
parameter = 1
Interaction: 2
Incoming:
Particle 1
[momentum undefined]
mask [fch] = [FFgF]
internal links: X => 2 3
Outgoing:
Particle 2
[momentum undefined]
mask [fch] = [FFgF]
internal links: 1 => X
Particle 3
[momentum undefined]
mask [fch] = [FFgF]
internal links: 1 => X
State matrix: norm = 1.000000000000E+00
[f(25) h(0)]
[f(25) h(0)]
[f(25) h(0)] => ME(1) = ( 0.000000000000E+00, 0.000000000000E+00)
------------------------------------------------------------------------
SF test data:
model = Test
incoming = f(25)
outgoing = f(25)
radiated = f(25)
mass = 0.000000000000E+00
collinear = T
SF instance: [initialized]
beam = 2
incoming = 1
radiated = 2
outgoing = 3
parameter = 2
Interaction: 3
Incoming:
Particle 1
[momentum undefined]
mask [fch] = [FFgF]
internal links: X => 2 3
Outgoing:
Particle 2
[momentum undefined]
mask [fch] = [FFgF]
internal links: 1 => X
Particle 3
[momentum undefined]
mask [fch] = [FFgF]
internal links: 1 => X
State matrix: norm = 1.000000000000E+00
[f(25) h(0)]
[f(25) h(0)]
[f(25) h(0)] => ME(1) = ( 0.000000000000E+00, 0.000000000000E+00)
========================================================================
Active components:
------------------------------------------------------------------------
Component #1
Seed momenta:
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
E = 1.766074030054E+02
P = 1.344542546871E+02 -9.447877206272E+01 6.469922582507E+01
E = 1.763359433646E+02
P = -1.344542546871E+02 9.447877206272E+01 -6.395451468304E+01
Squared matrix element:
1.245684511522E-01
Flux * PHS volume:
6.218638934582E+04
Jacobian factors per channel:
1: 1.0000000E+00 [selected]
2: 4.5356018E+00
3: 4.5356018E+00
4: 4.5356018E+00
5: 4.5356018E+00
------------------------------------------------------------------------
Structure-function chain instance: [evaluated]
outgoing (interactions) = 1:3 2:3
outgoing (evaluators) = 2:4 2:6
Structure-function parameters:
Channel #1: [selected]
p = 0.3536881 0.3521986
r = 0.3536881 0.3521986
f = 1.0000000E+00
m = - -
x = 0.3536881 0.3521986
------------------------------------------------------------------------
Colliding beams:
Interaction: 4
Outgoing:
Particle 1
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 5.000000000000E+02
mask [fch] = [FFgT]
source: (1)1
Particle 2
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 -5.000000000000E+02
mask [fch] = [FFgT]
source: (1)2
State matrix: norm = 1.000000000000E+00
[f(25)]
[f(25)] => ME(1) = ( 1.000000000000E+00, 0.000000000000E+00)
------------------------------------------------------------------------
Structure-function parameters:
Channel #1: [selected]
r = 0.3536881
f = 1.0000000E+00
m = F
x = 0.3536881
SF test data:
model = Test
incoming = f(25)
outgoing = f(25)
radiated = f(25)
mass = 0.000000000000E+00
collinear = T
SF instance: [evaluated]
beam = 1
incoming = 1
radiated = 2
outgoing = 3
parameter = 1
Interaction: 5
Incoming:
Particle 1
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 5.000000000000E+02
mask [fch] = [FFgT]
internal links: X => 2 3
source: (4)1
Outgoing:
Particle 2
E = 3.231559712440E+02
P = 0.000000000000E+00 0.000000000000E+00 3.231559712440E+02
mask [fch] = [FFgF]
internal links: 1 => X
Particle 3
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
mask [fch] = [FFgF]
internal links: 1 => X
State matrix: norm = 1.000000000000E+00
[f(25)]
[f(25) h(0)]
[f(25) h(0)] => ME(1) = ( 3.536880575120E-01, 0.000000000000E+00)
Interaction: 7
Virtual:
Particle 1
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 5.000000000000E+02
mask [fch] = [FFgT]
internal links: X => 3 4
source: (4)1
Outgoing:
Particle 2
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 -5.000000000000E+02
mask [fch] = [FFgT]
source: (4)2
Particle 3
E = 3.231559712440E+02
P = 0.000000000000E+00 0.000000000000E+00 3.231559712440E+02
mask [fch] = [FFgF]
internal links: 1 => X
source: (5)2
Particle 4
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
mask [fch] = [FFgF]
internal links: 1 => X
source: (5)3
State matrix: norm = 1.000000000000E+00
[f(25)]
[f(25)]
[f(25) h(0)]
[f(25) h(0)] => ME(1) = ( 3.536880575120E-01, 0.000000000000E+00)
Matrix-element multiplication
Input interaction 1: 4
Input interaction 2: 5
ME(1) =
+ ME1(1) x ME2(1)
------------------------------------------------------------------------
Structure-function parameters:
Channel #1: [selected]
r = 0.3521986
f = 1.0000000E+00
m = F
x = 0.3521986
SF test data:
model = Test
incoming = f(25)
outgoing = f(25)
radiated = f(25)
mass = 0.000000000000E+00
collinear = T
SF instance: [evaluated]
beam = 2
incoming = 1
radiated = 2
outgoing = 3
parameter = 2
Interaction: 6
Incoming:
Particle 1
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 -5.000000000000E+02
mask [fch] = [FFgT]
internal links: X => 2 3
source: (4)2
Outgoing:
Particle 2
E = 3.239006823860E+02
P = 0.000000000000E+00 0.000000000000E+00 -3.239006823860E+02
mask [fch] = [FFgF]
internal links: 1 => X
Particle 3
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
mask [fch] = [FFgF]
internal links: 1 => X
State matrix: norm = 1.000000000000E+00
[f(25)]
[f(25) h(0)]
[f(25) h(0)] => ME(1) = ( 3.521986352280E-01, 0.000000000000E+00)
Interaction: 8
Virtual:
Particle 1
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 5.000000000000E+02
mask [fch] = [FFgT]
internal links: X => 3 4
source: (7)1
Particle 2
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 -5.000000000000E+02
mask [fch] = [FFgT]
internal links: X => 5 6
source: (7)2
Outgoing:
Particle 3
E = 3.231559712440E+02
P = 0.000000000000E+00 0.000000000000E+00 3.231559712440E+02
mask [fch] = [FFgF]
internal links: 1 => X
source: (7)3
Particle 4
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
mask [fch] = [FFgF]
internal links: 1 => X
source: (7)4
Particle 5
E = 3.239006823860E+02
P = 0.000000000000E+00 0.000000000000E+00 -3.239006823860E+02
mask [fch] = [FFgF]
internal links: 2 => X
source: (6)2
Particle 6
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
mask [fch] = [FFgF]
internal links: 2 => X
source: (6)3
State matrix: norm = 1.000000000000E+00
[f(25)]
[f(25)]
[f(25) h(0)]
[f(25) h(0)]
[f(25) h(0)]
[f(25) h(0)] => ME(1) = ( 1.245684511522E-01, 0.000000000000E+00)
Matrix-element multiplication
Input interaction 1: 7
Input interaction 2: 6
ME(1) =
+ ME1(1) x ME2(1)
------------------------------------------------------------------------
Partonic phase space: parameters
m_in = 0.000000000000E+00 0.000000000000E+00
m_out = 0.000000000000E+00 0.000000000000E+00
Flux = 2.435873185990E+09
Volume = 2.552940346135E-05
Channel #1: [selected]
r = 0.9025137 0.6822583
f = 1.0000000E+00
Channel #2:
r = 0.9025137 0.5317687
f = 4.5356018E+00
Channel #3:
r = 0.9025137 0.5317687
f = 4.5356018E+00
Channel #4:
r = 0.9025137 0.5317687
f = 4.5356018E+00
Channel #5:
r = 0.9025137 0.5317687
f = 4.5356018E+00
Partonic phase space: momenta
sqrts = 3.529425606982E+02
Incoming:
E = 1.764712803491E+02
P = 0.000000000000E+00 0.000000000000E+00 1.764712803491E+02
E = 1.764712803491E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.764712803491E+02
Outgoing:
E = 1.764712803491E+02
P = 1.344542546871E+02 -9.447877206272E+01 6.432672705881E+01
E = 1.764712803491E+02
P = -1.344542546871E+02 9.447877206272E+01 -6.432672705881E+01
Transformation c.m -> lab frame
L00 = 1.000002226062E+00
L0j = 0.000000000000E+00 0.000000000000E+00 2.110006627028E-03
L10 = 0.000000000000E+00
L1j = 1.000000000000E+00 0.000000000000E+00 0.000000000000E+00
L20 = 0.000000000000E+00
L2j = 0.000000000000E+00 1.000000000000E+00 0.000000000000E+00
L30 = 2.110006627028E-03
L3j = 0.000000000000E+00 0.000000000000E+00 1.000002226062E+00
========================================================================
Active terms:
------------------------------------------------------------------------
Term #1 (component #1)
passed cuts = T
overall scale = 3.529425606982E+02
factorization scale = 3.529425606982E+02
renormalization scale = 3.529425606982E+02
reweighting factor = 1.000000000000E+00
------------------------------------------------------------------------
Amplitude (transition matrix of the hard interaction):
------------------------------------------------------------------------
Interaction: 9
Incoming:
Particle 1
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
mask [fch] = [FFgF]
internal links: X => 3 4
source: (8)4
Particle 2
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
mask [fch] = [FFgF]
internal links: X => 3 4
source: (8)6
Outgoing:
Particle 3
E = 1.766074030054E+02
P = 1.344542546871E+02 -9.447877206272E+01 6.469922582507E+01
mask [fch] = [FFgF]
internal links: 1 2 => X
Particle 4
E = 1.763359433646E+02
P = -1.344542546871E+02 9.447877206272E+01 -6.395451468304E+01
mask [fch] = [FFgF]
internal links: 1 2 => X
State matrix: norm = 1.000000000000E+00
[f(25) h(0)]
[f(25) h(0)]
[f(25) h(0)]
[f(25) h(0)] => ME(1) = ( 1.000000000000E+00, 0.000000000000E+00)
------------------------------------------------------------------------
Evaluators for the hard interaction:
------------------------------------------------------------------------
Evaluator (trace of the squared transition matrix):
------------------------------------------------------------------------
Interaction: 10
Incoming:
Particle 1
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
mask [fch] = [FTF]
internal links: X => 3 4
source: (9)1
Particle 2
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
mask [fch] = [FTF]
internal links: X => 3 4
source: (9)2
Outgoing:
Particle 3
E = 1.766074030054E+02
P = 1.344542546871E+02 -9.447877206272E+01 6.469922582507E+01
mask [fch] = [TTT]
internal links: 1 2 => X
source: (9)3
Particle 4
E = 1.763359433646E+02
P = -1.344542546871E+02 9.447877206272E+01 -6.395451468304E+01
mask [fch] = [TTT]
internal links: 1 2 => X
source: (9)4
State matrix: norm = 1.000000000000E+00
[f(25) h(0)]
[f(25) h(0)]
[]
[] => ME(1) = ( 1.000000000000E+00, 0.000000000000E+00)
Matrix-element multiplication
Input interaction 1: 9
Input interaction 2: [undefined]
ME(1) =
+ ME1(1)* x ME2(1) x ( 1.000000000000E+00, 0.000000000000E+00)
------------------------------------------------------------------------
Evaluator (squared transition matrix):
------------------------------------------------------------------------
Interaction: 12
Incoming:
Particle 1
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
mask [fch] = [FTF]
internal links: X => 3 4
source: (9)1
Particle 2
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
mask [fch] = [FTF]
internal links: X => 3 4
source: (9)2
Outgoing:
Particle 3
E = 1.766074030054E+02
P = 1.344542546871E+02 -9.447877206272E+01 6.469922582507E+01
mask [fch] = [FTT]
internal links: 1 2 => X
source: (9)3
Particle 4
E = 1.763359433646E+02
P = -1.344542546871E+02 9.447877206272E+01 -6.395451468304E+01
mask [fch] = [FTT]
internal links: 1 2 => X
source: (9)4
State matrix: norm = 1.000000000000E+00
[f(25) h(0)]
[f(25) h(0)]
[f(25)]
[f(25)] => ME(1) = ( 1.000000000000E+00, 0.000000000000E+00)
Matrix-element multiplication
Input interaction 1: 9
Input interaction 2: [undefined]
ME(1) =
+ ME1(1)* x ME2(1) x ( 1.000000000000E+00, 0.000000000000E+00)
------------------------------------------------------------------------
Evaluator (squared color-flow matrix):
------------------------------------------------------------------------
Interaction: 13
Incoming:
Particle 1
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
mask [fch] = [FFgF]
internal links: X => 3 4
source: (9)1
Particle 2
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
mask [fch] = [FFgF]
internal links: X => 3 4
source: (9)2
Outgoing:
Particle 3
E = 1.766074030054E+02
P = 1.344542546871E+02 -9.447877206272E+01 6.469922582507E+01
mask [fch] = [FFgT]
internal links: 1 2 => X
source: (9)3
Particle 4
E = 1.763359433646E+02
P = -1.344542546871E+02 9.447877206272E+01 -6.395451468304E+01
mask [fch] = [FFgT]
internal links: 1 2 => X
source: (9)4
State matrix: norm = 1.000000000000E+00
[f(25) h(0)]
[f(25) h(0)]
[f(25)]
[f(25)] => ME(1) = ( 1.000000000000E+00, 0.000000000000E+00)
Matrix-element multiplication
Input interaction 1: 9
Input interaction 2: [undefined]
ME(1) =
+ |ME1(1)|^2
------------------------------------------------------------------------
Evaluators for the connected process:
------------------------------------------------------------------------
Evaluator (extension of the beam evaluator with color contractions):
------------------------------------------------------------------------
Interaction: 15
Virtual:
Particle 1
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 5.000000000000E+02
mask [fch] = [FFgT]
internal links: X => 3 4
source: (8)1
Particle 2
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 -5.000000000000E+02
mask [fch] = [FFgT]
internal links: X => 5 6
source: (8)2
Outgoing:
Particle 3
E = 3.231559712440E+02
P = 0.000000000000E+00 0.000000000000E+00 3.231559712440E+02
mask [fch] = [FFgF]
internal links: 1 => X
source: (8)3
Particle 4
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
mask [fch] = [FFgF]
internal links: 1 => X
source: (8)4
Particle 5
E = 3.239006823860E+02
P = 0.000000000000E+00 0.000000000000E+00 -3.239006823860E+02
mask [fch] = [FFgF]
internal links: 2 => X
source: (8)5
Particle 6
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
mask [fch] = [FFgF]
internal links: 2 => X
source: (8)6
State matrix: norm = 1.000000000000E+00
[f(25)]
[f(25)]
[f(25) h(0)]
[f(25) h(0)]
[f(25) h(0)]
[f(25) h(0)] => ME(1) = ( 1.245684511522E-01, 0.000000000000E+00)
Matrix-element multiplication
Input interaction 1: 8
Input interaction 2: [undefined]
ME(1) =
+ ME1(1)
------------------------------------------------------------------------
Evaluator (trace of the squared transition matrix):
------------------------------------------------------------------------
Interaction: 11
Virtual:
Particle 1
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 5.000000000000E+02
mask [fch] = [TTT]
internal links: X => 5 3
source: (8)1
Particle 2
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 -5.000000000000E+02
mask [fch] = [TTT]
internal links: X => 6 4
source: (8)2
Particle 3
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
mask [fch] = [TTT]
internal links: 1 => X => 7 8
source: (8)4
Particle 4
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
mask [fch] = [TTT]
internal links: 2 => X => 7 8
source: (8)6
Outgoing:
Particle 5
E = 3.231559712440E+02
P = 0.000000000000E+00 0.000000000000E+00 3.231559712440E+02
mask [fch] = [TTT]
internal links: 1 => X
source: (8)3
Particle 6
E = 3.239006823860E+02
P = 0.000000000000E+00 0.000000000000E+00 -3.239006823860E+02
mask [fch] = [TTT]
internal links: 2 => X
source: (8)5
Particle 7
E = 1.766074030054E+02
P = 1.344542546871E+02 -9.447877206272E+01 6.469922582507E+01
mask [fch] = [TTT]
internal links: 3 4 => X
source: (10)3
Particle 8
E = 1.763359433646E+02
P = -1.344542546871E+02 9.447877206272E+01 -6.395451468304E+01
mask [fch] = [TTT]
internal links: 3 4 => X
source: (10)4
State matrix: norm = 1.000000000000E+00
[]
[]
[]
[]
[]
[]
[]
[] => ME(1) = ( 1.245684511522E-01, 0.000000000000E+00)
Matrix-element multiplication
Input interaction 1: 8
Input interaction 2: 10
ME(1) =
+ ME1(1) x ME2(1)
------------------------------------------------------------------------
Evaluator (squared transition matrix):
------------------------------------------------------------------------
Interaction: 14
Virtual:
Particle 1
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 5.000000000000E+02
mask [fch] = [FFgT]
internal links: X => 5 3
source: (8)1
Particle 2
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 -5.000000000000E+02
mask [fch] = [FFgT]
internal links: X => 6 4
source: (8)2
Particle 3
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
mask [fch] = [FTT]
internal links: 1 => X => 7 8
source: (8)4
Particle 4
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
mask [fch] = [FTT]
internal links: 2 => X => 7 8
source: (8)6
Outgoing:
Particle 5
E = 3.231559712440E+02
P = 0.000000000000E+00 0.000000000000E+00 3.231559712440E+02
mask [fch] = [FFgF]
internal links: 1 => X
source: (8)3
Particle 6
E = 3.239006823860E+02
P = 0.000000000000E+00 0.000000000000E+00 -3.239006823860E+02
mask [fch] = [FFgF]
internal links: 2 => X
source: (8)5
Particle 7
E = 1.766074030054E+02
P = 1.344542546871E+02 -9.447877206272E+01 6.469922582507E+01
mask [fch] = [FTT]
internal links: 3 4 => X
source: (12)3
Particle 8
E = 1.763359433646E+02
P = -1.344542546871E+02 9.447877206272E+01 -6.395451468304E+01
mask [fch] = [FTT]
internal links: 3 4 => X
source: (12)4
State matrix: norm = 1.000000000000E+00
[f(25)]
[f(25)]
[f(25)]
[f(25)]
[f(25) h(0)]
[f(25) h(0)]
[f(25)]
[f(25)] => ME(1) = ( 1.245684511522E-01, 0.000000000000E+00)
Matrix-element multiplication
Input interaction 1: 8
Input interaction 2: 12
ME(1) =
+ ME1(1) x ME2(1)
------------------------------------------------------------------------
Evaluator (squared color-flow matrix):
------------------------------------------------------------------------
Interaction: 16
Virtual:
Particle 1
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 5.000000000000E+02
mask [fch] = [FFgT]
internal links: X => 5 3
source: (15)1
Particle 2
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 -5.000000000000E+02
mask [fch] = [FFgT]
internal links: X => 6 4
source: (15)2
Particle 3
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
mask [fch] = [FFgT]
internal links: 1 => X => 7 8
source: (15)4
Particle 4
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
mask [fch] = [FFgT]
internal links: 2 => X => 7 8
source: (15)6
Outgoing:
Particle 5
E = 3.231559712440E+02
P = 0.000000000000E+00 0.000000000000E+00 3.231559712440E+02
mask [fch] = [FFgF]
internal links: 1 => X
source: (15)3
Particle 6
E = 3.239006823860E+02
P = 0.000000000000E+00 0.000000000000E+00 -3.239006823860E+02
mask [fch] = [FFgF]
internal links: 2 => X
source: (15)5
Particle 7
E = 1.766074030054E+02
P = 1.344542546871E+02 -9.447877206272E+01 6.469922582507E+01
mask [fch] = [FFgT]
internal links: 3 4 => X
source: (13)3
Particle 8
E = 1.763359433646E+02
P = -1.344542546871E+02 9.447877206272E+01 -6.395451468304E+01
mask [fch] = [FFgT]
internal links: 3 4 => X
source: (13)4
State matrix: norm = 1.000000000000E+00
[f(25)]
[f(25)]
[f(25)]
[f(25)]
[f(25) h(0)]
[f(25) h(0)]
[f(25)]
[f(25)] => ME(1) = ( 1.245684511522E-01, 0.000000000000E+00)
Matrix-element multiplication
Input interaction 1: 15
Input interaction 2: 13
ME(1) =
+ ME1(1) x ME2(1)
------------------------------------------------------------------------
Local variables:
------------------------------------------------------------------------
sqrts* = 1.000000000000E+03
sqrts_hat* => 3.529425606982E+02
n_in* => 2
n_out* => 4
n_tot* => 6
------------------------------------------------------------------------
subevent:
1 prt(b:25|-5.0000000E+02; 0.0000000E+00, 0.0000000E+00,-5.0000000E+02| 0.000000000000E+00| 1)
2 prt(b:25|-5.0000000E+02; 0.0000000E+00, 0.0000000E+00, 5.0000000E+02| 0.000000000000E+00| 2)
3 prt(i:25|-1.7684403E+02; 0.0000000E+00, 0.0000000E+00,-1.7684403E+02| 0.000000000000E+00| 3)
4 prt(i:25|-1.7609932E+02; 0.0000000E+00, 0.0000000E+00, 1.7609932E+02| 0.000000000000E+00| 4)
5 prt(o:25| 3.2315597E+02; 0.0000000E+00, 0.0000000E+00, 3.2315597E+02| 0.000000000000E+00| 5)
6 prt(o:25| 3.2390068E+02; 0.0000000E+00, 0.0000000E+00,-3.2390068E+02| 0.000000000000E+00| 6)
7 prt(o:25| 1.7660740E+02; 1.3445425E+02,-9.4478772E+01, 6.4699226E+01| 0.000000000000E+00| 7)
8 prt(o:25| 1.7633594E+02;-1.3445425E+02, 9.4478772E+01,-6.3954515E+01| 0.000000000000E+00| 8)
========================================================================
========================================================================
Event transform: trivial (hard process)
------------------------------------------------------------------------
Associated process: 'simulation_8p'
TAO random-number generator:
seed = 6
calls = 0
Number of tries = 0
------------------------------------------------------------------------
Particle set:
------------------------------------------------------------------------
Particle 1 [b] f(25)
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 5.000000000000E+02
T = 0.000000000000E+00
Children: 5 3
Particle 2 [b] f(25)
E = 5.000000000000E+02
P = 0.000000000000E+00 0.000000000000E+00 -5.000000000000E+02
T = 0.000000000000E+00
Children: 6 4
Particle 3 [i] f(25)
E = 1.768440287560E+02
P = 0.000000000000E+00 0.000000000000E+00 1.768440287560E+02
T = 0.000000000000E+00
Parents: 1
Children: 7 8
Particle 4 [i] f(25)
E = 1.760993176140E+02
P = 0.000000000000E+00 0.000000000000E+00 -1.760993176140E+02
T = 0.000000000000E+00
Parents: 2
Children: 7 8
Particle 5 [o] f(25)
E = 3.231559712440E+02
P = 0.000000000000E+00 0.000000000000E+00 3.231559712440E+02
T = 0.000000000000E+00
Parents: 1
Particle 6 [o] f(25)
E = 3.239006823860E+02
P = 0.000000000000E+00 0.000000000000E+00 -3.239006823860E+02
T = 0.000000000000E+00
Parents: 2
Particle 7 [o] f(25)
E = 1.766074030054E+02
P = 1.344542546871E+02 -9.447877206272E+01 6.469922582507E+01
T = 0.000000000000E+00
Parents: 3 4
Particle 8 [o] f(25)
E = 1.763359433646E+02
P = -1.344542546871E+02 9.447877206272E+01 -6.395451468304E+01
T = 0.000000000000E+00
Parents: 3 4
========================================================================
Local variables:
------------------------------------------------------------------------
sqrts* = 1.000000000000E+03
sqrts_hat* => 3.529425606982E+02
n_in* => 2
n_out* => 4
n_tot* => 6
$process_id* => "simulation_8p"
process_num_id* => [unknown integer]
sqme* => 1.245684511522E-01
sqme_ref* => 1.245684511522E-01
event_index* => 1
event_weight* => 2.019623591658E+04
event_weight_ref* => 2.019623591658E+04
event_excess* => 0.000000000000E+00
------------------------------------------------------------------------
subevent:
1 prt(b:25|-5.0000000E+02; 0.0000000E+00, 0.0000000E+00,-5.0000000E+02| 0.000000000000E+00| 1)
2 prt(b:25|-5.0000000E+02; 0.0000000E+00, 0.0000000E+00, 5.0000000E+02| 0.000000000000E+00| 2)
3 prt(i:25|-1.7684403E+02; 0.0000000E+00, 0.0000000E+00,-1.7684403E+02| 0.000000000000E+00| 3)
4 prt(i:25|-1.7609932E+02; 0.0000000E+00, 0.0000000E+00, 1.7609932E+02| 0.000000000000E+00| 4)
5 prt(o:25| 3.2315597E+02; 0.0000000E+00, 0.0000000E+00, 3.2315597E+02| 0.000000000000E+00| 5)
6 prt(o:25| 3.2390068E+02; 0.0000000E+00, 0.0000000E+00,-3.2390068E+02| 0.000000000000E+00| 6)
7 prt(o:25| 1.7660740E+02; 1.3445425E+02,-9.4478772E+01, 6.4699226E+01| 0.000000000000E+00| 7)
8 prt(o:25| 1.7633594E+02;-1.3445425E+02, 9.4478772E+01,-6.3954515E+01| 0.000000000000E+00| 8)
========================================================================
* Cleanup
* Test output end: simulations_8
Index: trunk/share/tests/ref-output-quad/smtest_2.ref
===================================================================
--- trunk/share/tests/ref-output-quad/smtest_2.ref (revision 5212)
+++ trunk/share/tests/ref-output-quad/smtest_2.ref (revision 5213)
@@ -1,67 +1,67 @@
?openmp_logging = false
?vis_history = false
phs_off_shell = 1
phs_t_channel = 2
SM.me = 0.000000000000E+00
SM.mmu = 0.000000000000E+00
| Process library 'smtest_2_lib': recorded process 'smtest_2_cc'
sqrts = 5.000000000000E+02
openmp_num_threads = 1
| Integrate: current process library needs compilation
| Process library 'smtest_2_lib': compiling ...
| Process library 'smtest_2_lib': writing makefile
| Process library 'smtest_2_lib': removing old files
| Process library 'smtest_2_lib': writing driver
| Process library 'smtest_2_lib': creating source code
| Process library 'smtest_2_lib': compiling sources
| Process library 'smtest_2_lib': linking
| Process library 'smtest_2_lib': loading
| Process library 'smtest_2_lib': ... success.
| Integrate: compilation done
| RNG: Initializing tao random-number generator
| RNG: Setting seed for random-number generator to 0
| Initializing integration for process smtest_2_cc:
| Beam structure: [any particles]
| Beam data (collision):
| e- (mass = 0.0000000E+00 GeV)
| e+ (mass = 0.0000000E+00 GeV)
| sqrts = 5.000000000000E+02 GeV
| Phase space: generating configuration ...
| Phase space: ... success.
| Phase space: writing configuration file 'smtest_2_cc_i1.phs'
| Phase space: 13 channels, 8 dimensions
| Phase space: found 13 channels, collected in 4 groves.
| Phase space: Using 13 equivalences between channels.
| Phase space: wood
Warning: No cuts have been defined.
| Starting integration for process 'smtest_2_cc'
| Integrator: 4 chains, 13 channels, 8 dimensions
| Integrator: Using VAMP channel equivalences
| Integrator: 10000 initial calls, 20 bins, stratified = T
| Integrator: VAMP
|=============================================================================|
| It Calls Integral[fb] Error[fb] Err[%] Acc Eff[%] Chi2 N[It] |
|=============================================================================|
- 1 9997 2.9284954E+02 1.53E+01 5.23 5.23* 0.00
- 2 9994 2.7038430E+02 2.53E+00 0.94 0.94* 0.00
+ 1 9997 2.9284954E+02 1.53E+01 5.23 5.23* 2.44
+ 2 9994 2.7038430E+02 2.53E+00 0.94 0.94* 12.96
|-----------------------------------------------------------------------------|
- 2 19991 2.8161692E+02 1.59E+01 5.64 7.98 0.00 0.00 2
+ 2 19991 2.7098163E+02 2.50E+00 0.92 1.30 12.96 2.09 2
|-----------------------------------------------------------------------------|
- 3 4993 2.6400812E+02 3.87E+00 1.47 1.04 0.00
- 4 4993 2.6878845E+02 3.61E+00 1.34 0.95* 0.00
- 5 4993 2.6976632E+02 3.58E+00 1.33 0.94* 0.00
+ 3 4993 2.6400812E+02 3.87E+00 1.47 1.04 9.89
+ 4 4993 2.6878845E+02 3.61E+00 1.34 0.95* 9.41
+ 5 4993 2.6976632E+02 3.58E+00 1.33 0.94* 9.12
|-----------------------------------------------------------------------------|
- 5 14979 2.6752096E+02 3.08E+00 1.15 1.41 0.00 0.00 3
+ 5 14979 2.6769399E+02 2.12E+00 0.79 0.97 9.12 0.67 3
|=============================================================================|
n_events = 1
| Starting simulation for process 'smtest_2_cc'
| Simulate: using integration grids from file 'smtest_2_cc.vg'
| RNG: Initializing tao random-number generator
| RNG: Setting seed for random-number generator to 1
| Events: writing to raw file 'smtest_2_cc.evx'
| Generating 1 unweighted events ...
| ... event sample complete.
| Events: closing raw file 'smtest_2_cc.evx'
| There were no errors and 1 warning(s).
| WHIZARD run finished.
|=============================================================================|
Index: trunk/share/tests/ref-output/static_1.ref
===================================================================
--- trunk/share/tests/ref-output/static_1.ref (revision 5212)
+++ trunk/share/tests/ref-output/static_1.ref (revision 5213)
@@ -1,73 +1,73 @@
$method = "omega"
| Process library 'static_1_lib': recorded process 'static_1_p1'
| Static executable 'static_1.exe': writing library dispatcher
| Static executable 'static_1.exe': writing makefile
| Process library 'static_1_lib': compiling ...
| Process library 'static_1_lib': writing makefile
| Process library 'static_1_lib': removing old files
| Process library 'static_1_lib': writing driver
| Process library 'static_1_lib': ... success.
| WHIZARD run finished.
|=============================================================================|
?vis_history = false
Process library: static_1_lib
external = F
static = T
code status = open
Processes: [empty]
$method = "omega"
| Process library 'static_1_lib': recorded process 'static_1_p1'
| Process library 'static_1_lib': compiling ...
| Process library 'static_1_lib': active
| Process library 'static_1_lib': ... success.
Process library: static_1_lib
external = T
static = T
code status = active
Processes:
static_1_p1 [QED]
static_1_p1_i1: e-, e+ => m-, m+ [omega]
$phs_method = "wood"
$integration_method = "vamp"
sqrts = 1.000000000000E+03
openmp_num_threads = 1
| RNG: Initializing tao random-number generator
| RNG: Setting seed for random-number generator to 0
| Initializing integration for process static_1_p1:
| Beam structure: [any particles]
| Beam data (collision):
| e- (mass = 0.0000000E+00 GeV)
| e+ (mass = 0.0000000E+00 GeV)
| sqrts = 1.000000000000E+03 GeV
| Phase space: generating configuration ...
| Phase space: ... success.
| Phase space: writing configuration file 'static_1_p1_i1.phs'
| Phase space: 1 channels, 2 dimensions
| Phase space: found 1 channel, collected in 1 grove.
| Phase space: Using 1 equivalence between channels.
| Phase space: wood
Warning: No cuts have been defined.
| Starting integration for process 'static_1_p1'
| Integrator: 1 chains, 1 channels, 2 dimensions
| Integrator: Using VAMP channel equivalences
| Integrator: 1000 initial calls, 20 bins, stratified = T
| Integrator: VAMP
|=============================================================================|
| It Calls Integral[fb] Error[fb] Err[%] Acc Eff[%] Chi2 N[It] |
|=============================================================================|
- 1 800 8.6803424E+01 7.69E-02 0.09 0.03* 0.00
- 2 800 8.6983246E+01 6.03E-02 0.07 0.02* 0.00
- 3 800 8.6981187E+01 6.11E-02 0.07 0.02 0.00
+ 1 800 8.6803424E+01 7.69E-02 0.09 0.03* 66.65
+ 2 800 8.6983246E+01 6.03E-02 0.07 0.02* 60.65
+ 3 800 8.6981187E+01 6.11E-02 0.07 0.02 79.69
|-----------------------------------------------------------------------------|
- 3 2400 8.6922619E+01 1.03E-01 0.12 0.06 0.00 0.00 3
+ 3 2400 8.6939773E+01 3.75E-02 0.04 0.02 79.69 2.06 3
|-----------------------------------------------------------------------------|
- 4 800 8.6888780E+01 6.21E-02 0.07 0.02 0.00
- 5 800 8.6803833E+01 6.21E-02 0.07 0.02 0.00
- 6 800 8.6821758E+01 6.15E-02 0.07 0.02* 0.00
+ 4 800 8.6888780E+01 6.21E-02 0.07 0.02 79.61
+ 5 800 8.6803833E+01 6.21E-02 0.07 0.02 79.53
+ 6 800 8.6821758E+01 6.15E-02 0.07 0.02* 79.55
|-----------------------------------------------------------------------------|
- 6 2400 8.6838124E+01 4.48E-02 0.05 0.03 0.00 0.00 3
+ 6 2400 8.6837998E+01 3.57E-02 0.04 0.02 79.55 0.52 3
|=============================================================================|
| There were no errors and 1 warning(s).
| WHIZARD run finished.
|=============================================================================|

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