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ExampleCascadeDecays: whizard.log

File whizard.log, 31.7 KB (added by ohl, 14 years ago)

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42	\| \|
43	\| by: Wolfgang Kilian <kilian@hep.physik.uni-siegen.de> \|
44	\| Thorsten Ohl <ohl@physik.uni-wuerzburg.de> \|
45	\| Juergen Reuter <reuter@physik.uni-freiburg.de> \|
46	\| \|
47	\| if you use WHIZARD please cite: \|
48	\| W. Kilian, T. Ohl, J. Reuter, arXiv: 0708.4233 [hep-ph] \|
49	\| M. Moretti, T. Ohl, J. Reuter, arXiv: hep-ph/0102195 \|
50	\| \|
51	\|=============================================================================\|
52	\| WHIZARD 2.0.0
53	\|=============================================================================\|
54	\| Initializing process library 'processes'
55	\| Reading model file '/home/ohl/physics/whizard/_inst_gfortran/share/whizard/models/SM.mdl'
56	\| Using model: SM
57	\| Reading commands from file '/home/ohl/physics/whizard/_inst_gfortran/share/whizard/examples/casc_dec.sin'
58	\| Reading model file '/home/ohl/physics/whizard/_inst_gfortran/share/whizard/models/MSSM.mdl'
59	\| Switching to model 'MSSM': reassigning model parameters
60	\| Process 'dec_su_q': ignoring existing source code
61	\| Added process to library 'processes':
62	\| [O] dec_su_q = su1 => u, neu2
63	\| Process 'dec_neu_sl2': ignoring existing source code
64	\| Added process to library 'processes':
65	\| [O] dec_neu_sl2 = neu2 => se2+, e-
66	\| Process 'susybg': ignoring existing source code
67	\| Added process to library 'processes':
68	\| [O] susybg = u, ubar => su1c, su1
69	\| Process 'full': ignoring existing source code
70	\| Added process to library 'processes':
71	\| [O] full = u, ubar => su1c, u, e-, se2+
72	\| Generating code for process library 'processes'
73	\| Calling O'Mega for process 'dec_su_q'
74	\| command: /home/ohl/physics/whizard/_inst_gfortran/bin/omega_MSSM.opt -o dec_su_q.f90 -target:whizard -target:parameter_module parameters_MSSM -target:module dec_su_q -target:md5sum 182785076DFA525C74CEA68919465A9C -fusion:progress -decay 'su1 -> u neu2'
75	\| Calling O'Mega for process 'dec_neu_sl2'
76	\| command: /home/ohl/physics/whizard/_inst_gfortran/bin/omega_MSSM.opt -o dec_neu_sl2.f90 -target:whizard -target:parameter_module parameters_MSSM -target:module dec_neu_sl2 -target:md5sum 60E5729A6FE9C615263E2A94EBD1AD86 -fusion:progress -decay 'neu2 -> se2+ e-'
77	\| Calling O'Mega for process 'susybg'
78	\| command: /home/ohl/physics/whizard/_inst_gfortran/bin/omega_MSSM.opt -o susybg.f90 -target:whizard -target:parameter_module parameters_MSSM -target:module susybg -target:md5sum E80C68BE3C246DEBFAD1796E204559D4 -fusion:progress -scatter 'u ubar -> su1c su1'
79	\| Calling O'Mega for process 'full'
80	\| command: /home/ohl/physics/whizard/_inst_gfortran/bin/omega_MSSM.opt -o full.f90 -target:whizard -target:parameter_module parameters_MSSM -target:module full -target:md5sum C44563DC0E7D7C9AC12C9D6CCDB69151 -fusion:progress -scatter 'u ubar -> su1c u e- se2+'
81	\| Writing interface code for process library 'processes'
82	\| Compiling process library 'processes'
83	\| Loading process library 'processes'
84	\| Process 'dec_su_q': updating configuration
85	\| Process 'dec_neu_sl2': updating configuration
86	\| Process 'susybg': updating configuration
87	\| Process 'full': updating configuration
88	?slha_read_decays = true
89	\| Reading SLHA input file 'sps1ap_decays.slha'
90	\| SLHA: Initializing model 'MSSM'
91	\| SLHA: SUSY spectrum program info:
92	\| SLHA: SPheno
93	\| SLHA: 2.2.3
94	\| SLHA: SUSY decay program info:
95	\| SLHA: SDECAY
96	\| SLHA: 1.1a
97	\| Integrating process 'dec_su_q'
98	\| Generating phase space configuration ...
99	\| ... found 1 phase space channels, collected in 1 groves.
100	\| Phase space: found 1 equivalences between channels.
101	\| Wrote phase-space configuration file 'dec_su_q.phs'.
102	Warning: No cuts have been defined.
103	\| Using partonic energy as event scale.
104	\| iterations = 1:1000
105	\| Creating VAMP integration grids:
106	\| Using phase-space channel equivalences.
107	\| 1000 calls, 1 channels, 2 dimensions, 20 bins, stratified = T
108	\|=============================================================================\|
109	\| It Calls Integral[GeV] Error[GeV] Err[%] Acc Eff[%] Chi2 N[It] \|
110	\|=============================================================================\|
111	1 1000 1.8169663E+00 2.47E-09 0.00 0.00* 100.00
112	\|=============================================================================\|
113	1 1000 1.8169663E+00 2.47E-09 0.00 0.00 100.00
114	\|=============================================================================\|
115	\| Process 'dec_su_q':
116	\| time estimate for 10000 unweighted events = 0h 00m 00.090s
117	\| Integrating process 'dec_neu_sl2'
118	\| Generating phase space configuration ...
119	\| ... found 1 phase space channels, collected in 1 groves.
120	\| Phase space: found 1 equivalences between channels.
121	\| Wrote phase-space configuration file 'dec_neu_sl2.phs'.
122	Warning: No cuts have been defined.
123	\| Using partonic energy as event scale.
124	\| iterations = 1:1000
125	\| Creating VAMP integration grids:
126	\| Using phase-space channel equivalences.
127	\| 1000 calls, 1 channels, 2 dimensions, 20 bins, stratified = T
128	\|=============================================================================\|
129	\| It Calls Integral[GeV] Error[GeV] Err[%] Acc Eff[%] Chi2 N[It] \|
130	\|=============================================================================\|
131	1 1000 9.3681836E-04 1.59E-13 0.00 0.00* 100.00
132	\|=============================================================================\|
133	1 1000 9.3681836E-04 1.59E-13 0.00 0.00 100.00
134	\|=============================================================================\|
135	\| Process 'dec_neu_sl2':
136	\| time estimate for 10000 unweighted events = 0h 00m 00.090s
137	sqrts = 14000.000000000000
138	Beam data (collision):
139	p (mass = 0.0000000 GeV)
140	p (mass = 0.0000000 GeV)
141	sqrts = 14000.0000000000 GeV
142	\| Integrating process 'susybg'
143	\| Generating phase space configuration ...
144	\| ... found 3 phase space channels, collected in 2 groves.
145	\| Phase space: found 3 equivalences between channels.
146	\| Wrote phase-space configuration file 'susybg.phs'.
147	Warning: No cuts have been defined.
148	\| Using partonic energy as event scale.
149	\| iterations = 5:10000, 2:10000
150	\| Creating VAMP integration grids:
151	\| Using phase-space channel equivalences.
152	\| 10000 calls, 3 channels, 4 dimensions, 20 bins, stratified = T
153	\|=============================================================================\|
154	\| It Calls Integral[fb] Error[fb] Err[%] Acc Eff[%] Chi2 N[It] \|
155	\|=============================================================================\|
156	1 10000 7.0740034E+01 3.50E+00 4.95 4.95* 1.60
157	2 10000 6.8090277E+01 8.38E-01 1.23 1.23* 1.53
158	3 10000 6.7960439E+01 4.09E-01 0.60 0.60* 12.65
159	4 10000 6.7947675E+01 3.80E-01 0.56 0.56* 13.62
160	5 10000 6.8305021E+01 4.26E-01 0.62 0.62 7.62
161	\|-----------------------------------------------------------------------------\|
162	5 50000 6.8071909E+01 2.24E-01 0.33 0.74 7.62 0.27 5
163	\|-----------------------------------------------------------------------------\|
164	6 10000 6.7734265E+01 3.95E-01 0.58 0.58* 11.56
165	7 10000 6.7574300E+01 2.75E-01 0.41 0.41* 11.51
166	\|=============================================================================\|
167	7 20000 6.7626543E+01 2.26E-01 0.33 0.47 11.51 0.11 2
168	\|=============================================================================\|
169	\| Process 'susybg':
170	\| time estimate for 10000 unweighted events = 0h 00m 30.530s
171	\| Integrating process 'full'
172	\| Generating phase space configuration ...
173	\| ... found 49 phase space channels, collected in 9 groves.
174	\| Phase space: found 65 equivalences between channels.
175	\| Wrote phase-space configuration file 'full.phs'.
176	Warning: No cuts have been defined.
177	\| Using partonic energy as event scale.
178	\| iterations = 10:10000, 5:20000
179	\| Creating VAMP integration grids:
180	\| Using phase-space channel equivalences.
181	\| 10000 calls, 49 channels, 10 dimensions, 20 bins, stratified = T
182	\|=============================================================================\|
183	\| It Calls Integral[fb] Error[fb] Err[%] Acc Eff[%] Chi2 N[It] \|
184	\|=============================================================================\|
185	1 10000 4.2297928E-01 6.61E-02 15.63 15.63* 1.56
186	2 10000 3.5249092E-01 2.61E-02 7.41 7.41* 1.06
187	3 10000 3.2719216E-01 1.28E-02 3.92 3.92* 5.09
188	4 10000 4.0483760E-01 8.72E-02 21.54 21.54 2.39
189	5 10000 3.4217395E-01 1.07E-02 3.12 3.12* 5.92
190	6 10000 3.3430288E-01 9.41E-03 2.82 2.82* 7.63
191	7 10000 3.5145982E-01 1.32E-02 3.76 3.76 5.21
192	8 10000 3.4779577E-01 1.33E-02 3.83 3.83 5.76
193	9 10000 3.1952629E-01 6.56E-03 2.05 2.05* 9.10
194	10 10000 3.4720132E-01 1.15E-02 3.30 3.30 7.65
195	\|-----------------------------------------------------------------------------\|
196	10 100000 3.3446930E-01 3.77E-03 1.13 3.57 7.65 1.43 10
197	\|-----------------------------------------------------------------------------\|
198	11 20000 3.3776421E-01 8.22E-03 2.43 3.44 6.46
199	12 20000 3.4528131E-01 4.34E-03 1.26 1.78* 5.07
200	13 20000 3.4489139E-01 3.57E-03 1.03 1.46* 4.13
201	14 20000 3.4631606E-01 2.90E-03 0.84 1.18* 3.85
202	15 20000 3.4674283E-01 2.83E-03 0.82 1.15* 3.30
203	\|=============================================================================\|
204	15 100000 3.4570029E-01 1.60E-03 0.46 1.46 3.30 0.29 5
205	\|=============================================================================\|
206	\| Process 'full':
207	\| time estimate for 10000 unweighted events = 0h 04m 38s
208	n_events = 10000
209	$title = "Full process"
210	$description = "$p + p \to u+ \bar u \to \bar{\tilde u}_1 + u + \tilde e_{12}^+ + e^-$"
211	$xlabel = "$M_{\rm inv}(ue^-)$"
212	$title = "Factorized process with complete spin correlations"
213	$description = "$p + p \to u\bar u \to \bar{\tilde u}_1 +
214	(\tilde u_1 \to u + (\tilde\chi_2^0 \to \tilde e_{12}^+ + e^-))$"
215	$title = "Factorized process with classical spin correlations"
216	$title = "Factorized process with isotropic decay"
217	$sample = "casc_dec_full"
218	\| Initializating simulation for processes full:
219	\| Simulation mode = unweighted, event_normalization = '1'
220	\| Using user-defined analysis setup.
221	\| Reading events from file 'casc_dec_full.evx' ...
222	\| Integration results have changed, skipping event file
223	\| Generating 10000 events ...
224	\| Writing events in internal format to file 'casc_dec_full.evx'
225	\| Event sample corresponds to luminosity [fb-1] = 0.2893E+05
226	\| ... done
227	\| Simulation finished.
228	\| Particle 'neu2' declared as unstable.
229	Decay configuration of particle 'neu2' in model 'MSSM':
230	Computed total width = 9.36818358221627560E-004 GeV
231	Branching ratios:
232	100.0000000 % dec_neu_sl2
233	\| Particle 'su1' declared as unstable.
234	Decay configuration of particle 'su1' in model 'MSSM':
235	Computed total width = 1.8169662723033522 GeV
236	Branching ratios:
237	100.0000000 % dec_su_q -> unstable: neu2
238	\| Particle 'neu2' declared as unstable.
239	Decay configuration of particle 'neu2' in model 'MSSM':
240	Computed total width = 9.36818358221627560E-004 GeV
241	Branching ratios:
242	100.0000000 % dec_neu_sl2
243	$sample = "casc_dec"
244	\| Initializating simulation for processes susybg:
245	\| Simulation mode = unweighted, event_normalization = '1'
246	\| Using user-defined analysis setup.
247	\| Reading events from file 'casc_dec.evx' ...
248	\| Integration results have changed, skipping event file
249	\| Generating 10000 events ...
250	\| Writing events in internal format to file 'casc_dec.evx'
251	\| Event sample corresponds to luminosity [fb-1] = 147.9
252	\| ... done
253	\| Simulation finished.
254	?diagonal_decay = true
255	\| Particle 'su1' declared as unstable.
256	Decay configuration of particle 'su1' in model 'MSSM':
257	Computed total width = 1.8169662723033522 GeV
258	Diagonal density matrix in decays requested for simulation.
259	Branching ratios:
260	100.0000000 % dec_su_q -> unstable: neu2
261	\| Particle 'neu2' declared as unstable.
262	Decay configuration of particle 'neu2' in model 'MSSM':
263	Computed total width = 9.36818358221627560E-004 GeV
264	Diagonal density matrix in decays requested for simulation.
265	Branching ratios:
266	100.0000000 % dec_neu_sl2
267	\| Further modified decay configuration:
268	Decay configuration of particle 'su1' in model 'MSSM':
269	Computed total width = 1.8169662723033522 GeV
270	Diagonal density matrix in decays requested for simulation.
271	Branching ratios:
272	100.0000000 % dec_su_q -> unstable: neu2[D]
273	$sample = "casc_dec_dia"
274	\| Initializating simulation for processes susybg:
275	\| Simulation mode = unweighted, event_normalization = '1'
276	\| Using user-defined analysis setup.
277	\| Reading events from file 'casc_dec_dia.evx' ...
278	\| Integration results have changed, skipping event file
279	\| Generating 10000 events ...
280	\| Writing events in internal format to file 'casc_dec_dia.evx'
281	\| Event sample corresponds to luminosity [fb-1] = 147.9
282	\| ... done
283	\| Simulation finished.
284	?isotropic_decay = true
285	\| Particle 'su1' declared as unstable.
286	Decay configuration of particle 'su1' in model 'MSSM':
287	Computed total width = 1.8169662723033522 GeV
288	Isotropic decays requested for simulation.
289	Diagonal density matrix in decays requested for simulation.
290	Branching ratios:
291	100.0000000 % dec_su_q -> unstable: neu2[D]
292	\| Particle 'neu2' declared as unstable.
293	Decay configuration of particle 'neu2' in model 'MSSM':
294	Computed total width = 9.36818358221627560E-004 GeV
295	Isotropic decays requested for simulation.
296	Diagonal density matrix in decays requested for simulation.
297	Branching ratios:
298	100.0000000 % dec_neu_sl2
299	\| Further modified decay configuration:
300	Decay configuration of particle 'su1' in model 'MSSM':
301	Computed total width = 1.8169662723033522 GeV
302	Isotropic decays requested for simulation.
303	Diagonal density matrix in decays requested for simulation.
304	Branching ratios:
305	100.0000000 % dec_su_q -> unstable: neu2[I]
306	$sample = "casc_dec_iso"
307	\| Initializating simulation for processes susybg:
308	\| Simulation mode = unweighted, event_normalization = '1'
309	\| Using user-defined analysis setup.
310	\| Reading events from file 'casc_dec_iso.evx' ...
311	\| Integration results have changed, skipping event file
312	\| Generating 10000 events ...
313	\| Writing events in internal format to file 'casc_dec_iso.evx'
314	\| Event sample corresponds to luminosity [fb-1] = 147.9
315	\| ... done
316	\| Simulation finished.
317	###############################################################################
318	# Histogram: inv_mass1_full
319	# bin midpoint value error n_entries excess
320	10.000000 86.000000 9.2736185 86 0.0000000
321	30.000000 207.00000 14.387495 207 0.0000000
322	50.000000 315.00000 17.748239 315 0.0000000
323	70.000000 409.00000 20.223748 409 0.0000000
324	90.000000 454.00000 21.307276 454 0.0000000
325	110.00000 513.00000 22.649503 513 0.0000000
326	130.00000 553.00000 23.515952 553 0.0000000
327	150.00000 616.00000 24.819347 616 0.0000000
328	170.00000 627.00000 25.039968 627 0.0000000
329	190.00000 620.00000 24.899799 620 0.0000000
330	210.00000 691.00000 26.286879 691 0.0000000
331	230.00000 664.00000 25.768197 664 0.0000000
332	250.00000 645.00000 25.396850 645 0.0000000
333	270.00000 682.00000 26.115130 682 0.0000000
334	290.00000 648.00000 25.455844 648 0.0000000
335	310.00000 530.00000 23.021729 530 0.0000000
336	330.00000 467.00000 21.610183 467 0.0000000
337	350.00000 386.00000 19.646883 386 0.0000000
338	370.00000 282.00000 16.792856 282 0.0000000
339	390.00000 111.00000 10.535654 111 0.0000000
340	410.00000 75.000000 8.6602540 75 0.0000000
341	430.00000 28.000000 5.2915026 28 0.0000000
342	450.00000 34.000000 5.8309519 34 0.0000000
343	470.00000 24.000000 4.8989795 24 0.0000000
344	490.00000 30.000000 5.4772256 30 0.0000000
345	510.00000 27.000000 5.1961524 27 0.0000000
346	530.00000 21.000000 4.5825757 21 0.0000000
347	550.00000 23.000000 4.7958315 23 0.0000000
348	570.00000 16.000000 4.0000000 16 0.0000000
349	590.00000 19.000000 4.3588989 19 0.0000000
350
351	# Underflow:
352	0.0000000 0.0000000 0.0000000 0 0.0000000
353
354	# Overflow:
355	600.00000 197.00000 14.035669 197 0.0000000
356
357	# Summary: data within bounds
358	average = 1.0000000
359	error[abs] = 0.0000000
360	error[rel] = 0.0000000
361	n_entries = 9803
362
363	# Summary: all data
364	average = 229.19088
365	error[abs] = 1.4887839
366	error[rel] = 6.49582495E-03
367	n_entries = 10000
368
369	###############################################################################
370	# Histogram: inv_mass1
371	# bin midpoint value error n_entries excess
372	10.000000 39.000000 6.2449980 39 0.0000000
373	30.000000 138.00000 11.747340 138 0.0000000
374	50.000000 220.00000 14.832397 220 0.0000000
375	70.000000 334.00000 18.275667 334 0.0000000
376	90.000000 402.00000 20.049938 402 0.0000000
377	110.00000 460.00000 21.447611 460 0.0000000
378	130.00000 579.00000 24.062419 579 0.0000000
379	150.00000 646.00000 25.416530 646 0.0000000
380	170.00000 671.00000 25.903668 671 0.0000000
381	190.00000 666.00000 25.806976 666 0.0000000
382	210.00000 727.00000 26.962938 727 0.0000000
383	230.00000 742.00000 27.239677 742 0.0000000
384	250.00000 756.00000 27.495454 756 0.0000000
385	270.00000 726.00000 26.944387 726 0.0000000
386	290.00000 711.00000 26.664583 711 0.0000000
387	310.00000 638.00000 25.258662 638 0.0000000
388	330.00000 577.00000 24.020824 577 0.0000000
389	350.00000 486.00000 22.045408 486 0.0000000
390	370.00000 354.00000 18.814888 354 0.0000000
391	390.00000 128.00000 11.313708 128 0.0000000
392	410.00000 0.0000000 0.0000000 0 0.0000000
393	430.00000 0.0000000 0.0000000 0 0.0000000
394	450.00000 0.0000000 0.0000000 0 0.0000000
395	470.00000 0.0000000 0.0000000 0 0.0000000
396	490.00000 0.0000000 0.0000000 0 0.0000000
397	510.00000 0.0000000 0.0000000 0 0.0000000
398	530.00000 0.0000000 0.0000000 0 0.0000000
399	550.00000 0.0000000 0.0000000 0 0.0000000
400	570.00000 0.0000000 0.0000000 0 0.0000000
401	590.00000 0.0000000 0.0000000 0 0.0000000
402
403	# Underflow:
404	0.0000000 0.0000000 0.0000000 0 0.0000000
405
406	# Overflow:
407	600.00000 0.0000000 0.0000000 0 0.0000000
408
409	# Summary: data within bounds
410	average = 1.0000000
411	error[abs] = 0.0000000
412	error[rel] = 0.0000000
413	n_entries = 10000
414
415	# Summary: all data
416	average = 219.23556
417	error[abs] = 0.89856838
418	error[rel] = 4.09864332E-03
419	n_entries = 10000
420
421	###############################################################################
422	# Histogram: inv_mass1_dia
423	# bin midpoint value error n_entries excess
424	10.000000 54.000000 7.3484692 54 0.0000000
425	30.000000 133.00000 11.532563 133 0.0000000
426	50.000000 222.00000 14.899664 222 0.0000000
427	70.000000 351.00000 18.734994 351 0.0000000
428	90.000000 434.00000 20.832667 434 0.0000000
429	110.00000 481.00000 21.931712 481 0.0000000
430	130.00000 589.00000 24.269322 589 0.0000000
431	150.00000 596.00000 24.413111 596 0.0000000
432	170.00000 713.00000 26.702060 713 0.0000000
433	190.00000 700.00000 26.457513 700 0.0000000
434	210.00000 721.00000 26.851443 721 0.0000000
435	230.00000 783.00000 27.982137 783 0.0000000
436	250.00000 706.00000 26.570661 706 0.0000000
437	270.00000 697.00000 26.400758 697 0.0000000
438	290.00000 696.00000 26.381812 696 0.0000000
439	310.00000 640.00000 25.298221 640 0.0000000
440	330.00000 530.00000 23.021729 530 0.0000000
441	350.00000 469.00000 21.656408 469 0.0000000
442	370.00000 367.00000 19.157244 367 0.0000000
443	390.00000 118.00000 10.862780 118 0.0000000
444	410.00000 0.0000000 0.0000000 0 0.0000000
445	430.00000 0.0000000 0.0000000 0 0.0000000
446	450.00000 0.0000000 0.0000000 0 0.0000000
447	470.00000 0.0000000 0.0000000 0 0.0000000
448	490.00000 0.0000000 0.0000000 0 0.0000000
449	510.00000 0.0000000 0.0000000 0 0.0000000
450	530.00000 0.0000000 0.0000000 0 0.0000000
451	550.00000 0.0000000 0.0000000 0 0.0000000
452	570.00000 0.0000000 0.0000000 0 0.0000000
453	590.00000 0.0000000 0.0000000 0 0.0000000
454
455	# Underflow:
456	0.0000000 0.0000000 0.0000000 0 0.0000000
457
458	# Overflow:
459	600.00000 0.0000000 0.0000000 0 0.0000000
460
461	# Summary: data within bounds
462	average = 1.0000000
463	error[abs] = 0.0000000
464	error[rel] = 0.0000000
465	n_entries = 10000
466
467	# Summary: all data
468	average = 216.97004
469	error[abs] = 0.90232990
470	error[rel] = 4.15877647E-03
471	n_entries = 10000
472
473	###############################################################################
474	# Histogram: inv_mass1_iso
475	# bin midpoint value error n_entries excess
476	10.000000 34.000000 5.8309519 34 0.0000000
477	30.000000 89.000000 9.4339811 89 0.0000000
478	50.000000 119.00000 10.908712 119 0.0000000
479	70.000000 178.00000 13.341664 178 0.0000000
480	90.000000 227.00000 15.066519 227 0.0000000
481	110.00000 276.00000 16.613248 276 0.0000000
482	130.00000 360.00000 18.973666 360 0.0000000
483	150.00000 388.00000 19.697716 388 0.0000000
484	170.00000 458.00000 21.400935 458 0.0000000
485	190.00000 480.00000 21.908902 480 0.0000000
486	210.00000 550.00000 23.452079 550 0.0000000
487	230.00000 613.00000 24.758837 613 0.0000000
488	250.00000 649.00000 25.475478 649 0.0000000
489	270.00000 754.00000 27.459060 754 0.0000000
490	290.00000 744.00000 27.276363 744 0.0000000
491	310.00000 744.00000 27.276363 744 0.0000000
492	330.00000 879.00000 29.647934 879 0.0000000
493	350.00000 931.00000 30.512293 931 0.0000000
494	370.00000 958.00000 30.951575 958 0.0000000
495	390.00000 569.00000 23.853721 569 0.0000000
496	410.00000 0.0000000 0.0000000 0 0.0000000
497	430.00000 0.0000000 0.0000000 0 0.0000000
498	450.00000 0.0000000 0.0000000 0 0.0000000
499	470.00000 0.0000000 0.0000000 0 0.0000000
500	490.00000 0.0000000 0.0000000 0 0.0000000
501	510.00000 0.0000000 0.0000000 0 0.0000000
502	530.00000 0.0000000 0.0000000 0 0.0000000
503	550.00000 0.0000000 0.0000000 0 0.0000000
504	570.00000 0.0000000 0.0000000 0 0.0000000
505	590.00000 0.0000000 0.0000000 0 0.0000000
506
507	# Underflow:
508	0.0000000 0.0000000 0.0000000 0 0.0000000
509
510	# Overflow:
511	600.00000 0.0000000 0.0000000 0 0.0000000
512
513	# Summary: data within bounds
514	average = 1.0000000
515	error[abs] = 0.0000000
516	error[rel] = 0.0000000
517	n_entries = 10000
518
519	# Summary: all data
520	average = 260.57689
521	error[abs] = 0.92306603
522	error[rel] = 3.54239415E-03
523	n_entries = 10000
524
525	$analysis_filename = "casc_dec"
526	\| Writing analysis results to 'casc_dec.dat'
527	\| Writing analysis results display to 'casc_dec.tex'
528	\| Compiling analysis results display in 'casc_dec.tex'
529	\| Contributing Helicity Combinations: 1 of 4
530	\| Threshold: amp / avg > 0.22E-05 = 0.10E+11 * epsilon()
531	\| 1: 0 -1 -1
532	\| Contributing Helicity Combinations: 1 of 4
533	\| Threshold: amp / avg > 0.22E-05 = 0.10E+11 * epsilon()
534	\| 1: 0 -1 -1
535	\| Contributing Helicity Combinations: 1 of 4
536	\| Threshold: amp / avg > 0.22E-05 = 0.10E+11 * epsilon()
537	\| 1: 0 -1 -1
538	\| Contributing Helicity Combinations: 1 of 4
539	\| Threshold: amp / avg > 0.22E-05 = 0.10E+11 * epsilon()
540	\| 1: 0 -1 -1
541	\| Contributing Helicity Combinations: 4 of 4
542	\| Threshold: amp / avg > 0.22E-05 = 0.10E+11 * epsilon()
543	\| 1: -1 0 -1
544	\| 2: -1 0 1
545	\| 3: 1 0 -1
546	\| 4: 1 0 1
547	\| Contributing Helicity Combinations: 4 of 4
548	\| Threshold: amp / avg > 0.22E-05 = 0.10E+11 * epsilon()
549	\| 1: -1 0 -1
550	\| 2: -1 0 1
551	\| 3: 1 0 -1
552	\| 4: 1 0 1
553	\| Contributing Helicity Combinations: 4 of 4
554	\| Threshold: amp / avg > 0.22E-05 = 0.10E+11 * epsilon()
555	\| 1: -1 0 -1
556	\| 2: -1 0 1
557	\| 3: 1 0 -1
558	\| 4: 1 0 1
559	\| Contributing Helicity Combinations: 4 of 4
560	\| Threshold: amp / avg > 0.22E-05 = 0.10E+11 * epsilon()
561	\| 1: -1 0 -1
562	\| 2: -1 0 1
563	\| 3: 1 0 -1
564	\| 4: 1 0 1
565	\| Contributing Helicity Combinations: 2 of 4
566	\| Threshold: amp / avg > 0.22E-05 = 0.10E+11 * epsilon()
567	\| 1: -1 1 0 0
568	\| 2: 1 -1 0 0
569	\| Contributing Helicity Combinations: 8 of 16
570	\| Threshold: amp / avg > 0.22E-05 = 0.10E+11 * epsilon()
571	\| 1: -1 1 0 -1 -1 0
572	\| 2: -1 1 0 -1 1 0
573	\| 3: -1 1 0 1 1 0
574	\| 4: 1 -1 0 -1 -1 0
575	\| 5: 1 -1 0 -1 1 0
576	\| 6: 1 -1 0 1 1 0
577	\| 7: 1 1 0 1 -1 0
578	\| 8: 1 1 0 1 1 0
579	\| There were no errors and 4 warning(s).
580	\| WHIZARD run finished.
581	\|=============================================================================\|

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