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Ticket #56: output2.out

File output2.out, 30.3 KB (added by Generic User (don't modify these fields), 14 years ago)

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1	Welcome to Sherpa, Chris Boddy (SLHC 2008). Initialization of framework underway.
2	Run_Parameter::Init(): Setting memory limit to 3.76438 GB.
3	-----------------------------------------------------------------------------
4	----------- Event generation run with SHERPA started ....... -----------
5	-----------------------------------------------------------------------------
6	................................................ \| +
7	................................................ \|\| \| + +
8	................................... .... \| \| / +
9	................. ................ _,_ \| .... \|\| +\| + +
10	............................... __.' ,\\| ... \|\| / +\| +
11	.............................. ( \ \ ... \| \| \| + + \ +
12	............................. ( \ -/ .... \|\| + \| +
13	........ ................... <S /()))))~~~~~~~~## + /\ +
14	............................ (!H (~~)))))~~~~~~#/ + + \| +
15	................ ........... (!E (~~~))))) /\|/ + +
16	............................ (!R (~~~))))) \|\|\| + + +
17	..... ...................... (!P (~~~~))) /\| + + +
18	............................ (!A> (~~~~~~~~~## + + +
19	............................. ~~(! '~~~~~~~ \ + + + +
20	............................... `~~~QQQQQDb // \| + + + +
21	........................ .......... IDDDDP\|\| \ + + + + + +
22	.................................... IDDDI\|\| \ +
23	.................................... IHD HD\|\| \ + + + + + + + +
24	................................... IHD ##\| :-) + +\ +
25	......... ............... ......... IHI ## / / + + + + +\ +
26	................................... IHI/ / / + + + + +
27	................................... ## \| \| / / + + + + / +
28	....................... /TT\ ..... ##/ /// / + + + + + + +/ +
29	......................./TTT/T\ ... /TT\/\\\ / + + + + + + +/ \ +
30	version 1.2.0 ......../TTT/TTTT\...\|TT/T\\\/ + ++ + /
31	-----------------------------------------------------------------------------
32
33	SHERPA version 1.2.0
34
35	Authors: Tanju Gleisberg, Stefan Hoeche, Frank Krauss,
36	Marek Schoenherr, Steffen Schumann, Frank Siegert,
37	Jan Winter.
38	Former Authors: Timo Fischer, Ralf Kuhn, Thomas Laubrich,
39	Andreas Schaelicke
40
41	This program uses a lot of genuine and original research work
42	by other people. Users are encouraged to refer to
43	the various original publications.
44
45	Users are kindly asked to refer to the documentation
46	published under JHEP 02(2009)007
47
48	Please visit also our homepage
49
50	http://www.sherpa-mc.de
51
52	for news, bugreports, updates and new releases.
53
54	-----------------------------------------------------------------------------
55
56	Initialize the Standard Model from / Model.dat
57	List of Particle Data
58	IDName kfc MASS[<kfc>] WIDTH[<kfc>] STABLE[<kfc>] MASSIVE[<kfc>] ACTIVE[<kfc>]
59	d 1 0.01 0 1 0 1
60	u 2 0.005 0 1 0 1
61	s 3 0.2 0 1 0 1
62	c 4 1.42 0 1 0 1
63	b 5 4.8 0 1 0 1
64	t 6 175 1.5 1 1 1
65	e- 11 0.000511 0 1 0 1
66	nu_e 12 0 0 1 0 1
67	mu- 13 0.105 0 1 0 1
68	nu_mu 14 0 0 1 0 1
69	tau- 15 1.777 2.36e-12 0 0 1
70	nu_tau 16 0 0 1 0 1
71	G 21 0 0 1 0 1
72	P 22 0 0 1 0 1
73	Z 23 91.188 2.49 1 1 1
74	W+ 24 80.419 2.06 1 1 1
75	h0 25 120 0.0037 1 1 1
76
77	List of Particle Containers
78	IDName kfc Constituents
79	lepton 90 {e-,e+,mu-,mu+,tau-,tau+}
80	neutrino 91 {nu_e,nu_eb,nu_mu,nu_mub,nu_tau,nu_taub}
81	fermion 92 {d,db,u,ub,s,sb,c,cb,b,bb,e-,e+,mu-,mu+,tau-,tau+,nu_e,nu_eb,nu_mu,nu_mub,nu_tau,nu_taub}
82	j 93 {d,db,u,ub,s,sb,c,cb,b,bb,G}
83	Q 94 {d,db,u,ub,s,sb,c,cb,b,bb}
84	r 99 {d,db,u,ub,s,sb,c,cb,b,bb,G,P}
85
86	Initialized the beams Monochromatic*Monochromatic
87	PDF set 'cteq6l' loaded from 'libCTEQ6Sherpa'.
88	PDF set 'cteq6l' loaded from 'libCTEQ6Sherpa'.
89	Initialized the ISR: (SF)*(SF)
90	Initialized the Beam_Remnant_Handler.
91	Initialized the Shower_Handler.
92	Initialized the Fragmentation_Handler.
93	+----------------------------------+
94	\| \|
95	\| [31mCCC[0m [32mOOO[0m [34mM[0m [34mM[0m I [33mX[0m [33mX[0m \|
96	\| [31mC[0m [32mO[0m [32mO[0m [34mMM[0m [34mMM[0m I [33mX[0m [33mX[0m \|
97	\| [31mC[0m [32mO[0m [32mO[0m [34mM[0m [34mM[0m [34mM[0m I [33mX[0m \|
98	\| [31mC[0m [32mO[0m [32mO[0m [34mM[0m [34mM[0m I [33mX[0m [33mX[0m \|
99	\| [31mCCC[0m [32mOOO[0m [34mM[0m [34mM[0m I [33mX[0m [33mX[0m \|
100	\| \|
101	+==================================+
102	\| Color dressed Matrix Elements \|
103	\| http://comix.freacafe.de \|
104	\| please cite JHEP12(2008)039 \|
105	+----------------------------------+
106	Matrix_Element_Handler::BuildProcesses(): Looking for processes ........................................................................................................................................................................................................................................................................................................ done ( 170640 kB, 257.7 s ).
107	Matrix_Element_Handler::InitializeProcesses(): Performing tests ............
108	Amplitude::GaugeTest(): Large deviation {
109	4.29281321334e+26
110	vs 4.40783197711e+26
111	=> -0.026094180624
112	}
113	.
114	Amplitude::GaugeTest(): Large deviation {
115	1.54112957198e+26
116	vs 4.60794982939e+26
117	=> -0.665549836904
118	}
119	.
120	Amplitude::GaugeTest(): Large deviation {
121	1.01448382203e+27
122	vs 7.75322686342e+26
123	=> 0.308466577719
124	}
125	.
126	Amplitude::GaugeTest(): Large deviation {
127	5.17679468929e+24
128	vs 1.08629382285e+24
129	=> 3.76555659287
130	}
131	.
132	Amplitude::GaugeTest(): Large deviation {
133	1.2325757644e+20
134	vs 5.88366206965e+19
135	=> 1.09491257284
136	}
137	.
138	Amplitude::GaugeTest(): Large deviation {
139	2.96571236033e+17
140	vs 3.3587056624e+17
141	=> -0.117007365805
142	}
143	.
144	Amplitude::GaugeTest(): Large deviation {
145	4.80860266767e+19
146	vs 2.9112476344e+20
147	=> -0.834826738514
148	}
149	.
150	Amplitude::GaugeTest(): Large deviation {
151	3.30358265662e+18
152	vs 3.70698963028e+18
153	=> -0.108823334809
154	}
155	.
156	Amplitude::GaugeTest(): Large deviation {
157	4.7895539269e+17
158	vs 4.27779352168e+17
159	=> 0.119631862227
160	}
161	.
162	Amplitude::GaugeTest(): Large deviation {
163	2.65080057099e+15
164	vs 2.90169226042e+15
165	=> -0.0864639206753
166	}
167	.
168	Amplitude::GaugeTest(): Large deviation {
169	1.86716395601e+20
170	vs 4.41074486376e+20
171	=> -0.576678313146
172	}
173	.
174	Amplitude::GaugeTest(): Large deviation {
175	1.75237760637e+14
176	vs 1.43923262994e+14
177	=> 0.217577735469
178	}
179	.
180	Amplitude::GaugeTest(): Large deviation {
181	1.6101447096e+18
182	vs 2.14615132045e+18
183	=> -0.249752478191
184	}
185	.
186	Amplitude::GaugeTest(): Large deviation {
187	8.24204607021e+15
188	vs 5.52718800392e+15
189	=> 0.491182508062
190	}
191	.
192	Amplitude::GaugeTest(): Large deviation {
193	1.2417391271e+21
194	vs 3.05239107325e+20
195	=> 3.06808661571
196	}
197	.
198	Amplitude::GaugeTest(): Large deviation {
199	5.23410883819e+19
200	vs 3.60588835828e+19
201	=> 0.45154489494
202	}
203	.
204	Amplitude::GaugeTest(): Large deviation {
205	1.02809081797e+15
206	vs 8.30679580527e+15
207	=> -0.876234971694
208	}
209	.
210	Amplitude::GaugeTest(): Large deviation {
211	1.95893166422e+18
212	vs 1.90540291262e+18
213	=> 0.0280931404303
214	}
215	.
216	Amplitude::GaugeTest(): Large deviation {
217	9.19564610287e+16
218	vs 8.82214703708e+16
219	=> 0.0423365269497
220	}
221	.
222	Amplitude::GaugeTest(): Large deviation {
223	6.20396329852e+15
224	vs 6.192793297e+15
225	=> 0.0018037097284
226	}
227	..
228	Amplitude::GaugeTest(): Large deviation {
229	2.65876138746e+17
230	vs 1.64111444889e+17
231	=> 0.620095045322
232	}
233	.
234	Amplitude::GaugeTest(): Large deviation {
235	1.12177149589e+18
236	vs 3.959145e+17
237	=> 1.83336805268
238	}
239	.
240	Amplitude::GaugeTest(): Large deviation {
241	6.43540536606e+17
242	vs 1.1729847462e+18
243	=> -0.451364957054
244	}
245	.
246	Amplitude::GaugeTest(): Large deviation {
247	1.56163865123e+17
248	vs 1.6447109302e+17
249	=> -0.0505087413524
250	}
251	.
252	Amplitude::GaugeTest(): Large deviation {
253	8.94504354857e+20
254	vs 9.81113213295e+20
255	=> -0.0882761105083
256	}
257	.
258	Amplitude::GaugeTest(): Large deviation {
259	1.52358853831e+15
260	vs 1.95693988082e+15
261	=> -0.221443359989
262	}
263	.
264	Amplitude::GaugeTest(): Large deviation {
265	1.9948502885e+17
266	vs 1.5201704604e+17
267	=> 0.312254342827
268	}
269	.
270	Amplitude::GaugeTest(): Large deviation {
271	1.09506537826e+17
272	vs 1.11694853931e+17
273	=> -0.01959191519
274	}
275	.
276	Amplitude::GaugeTest(): Large deviation {
277	4.77570058332e+18
278	vs 3.45223986696e+18
279	=> 0.383362908538
280	}
281	.
282	Amplitude::GaugeTest(): Large deviation {
283	3.38851196373e+16
284	vs 3.28934308567e+17
285	=> -0.896985146411
286	}
287	.
288	Amplitude::GaugeTest(): Large deviation {
289	6.80609195023e+24
290	vs 7.86152218003e+24
291	=> -0.134252655609
292	}
293	.
294	Amplitude::GaugeTest(): Large deviation {
295	3.8366813154e+22
296	vs 3.04403377568e+22
297	=> 0.260393805765
298	}
299	.
300	Amplitude::GaugeTest(): Large deviation {
301	1.06314390364e+17
302	vs 1.11009310501e+17
303	=> -0.042293030338
304	}
305	.
306	Amplitude::GaugeTest(): Large deviation {
307	6.96040389638e+22
308	vs 4.42264179393e+22
309	=> 0.573811359975
310	}
311	.
312	Amplitude::GaugeTest(): Large deviation {
313	6.53735294167e+22
314	vs 1.13715795152e+23
315	=> -0.425114784368
316	}
317	.
318	Amplitude::GaugeTest(): Large deviation {
319	5.2278538409e+24
320	vs 8.16938069767e+24
321	=> -0.36006730077
322	}
323	.
324	Amplitude::GaugeTest(): Large deviation {
325	7.88749818563e+14
326	vs 7.4852938609e+14
327	=> 0.0537326031834
328	}
329	.
330	Amplitude::GaugeTest(): Large deviation {
331	1.43466322256e+22
332	vs 9.85064938015e+21
333	=> 0.456414868902
334	}
335	.
336	Amplitude::GaugeTest(): Large deviation {
337	1.89060066936e+19
338	vs 3.23820098293e+19
339	=> -0.416157094841
340	}
341	.
342	Amplitude::GaugeTest(): Large deviation {
343	9.00462080255e+16
344	vs 3.82607183256e+18
345	=> -0.9764651026
346	}
347	.
348	Amplitude::GaugeTest(): Large deviation {
349	4.66171532306e+18
350	vs 3.30904684029e+19
351	=> -0.859122111349
352	}
353	.
354	Amplitude::GaugeTest(): Large deviation {
355	1.44029271408e+18
356	vs 2.22252756763e+19
357	=> -0.935195732325
358	}
359	.
360	Amplitude::GaugeTest(): Large deviation {
361	1.76362122486e+20
362	vs 7.81175531049e+19
363	=> 1.25765036764
364	}
365	..........
366	Amplitude::GaugeTest(): Large deviation {
367	1.91522999589e+13
368	vs 1.54914877788e+13
369	=> 0.236311207313
370	}
371	......
372	Amplitude::GaugeTest(): Large deviation {
373	93070765598.8
374	vs 80210226132.7
375	=> 0.160335409664
376	}
377	......
378	Amplitude::GaugeTest(): Large deviation {
379	3.10021406476e+12
380	vs 1.1795011732e+12
381	=> 1.62841117517
382	}
383	......
384	Amplitude::GaugeTest(): Large deviation {
385	97976620.7042
386	vs 107535243.038
387	=> -0.0888882757313
388	}
389	.............................................
390	Amplitude::GaugeTest(): Large deviation {
391	27600818850.3
392	vs 42435200742.4
393	=> -0.349577276237
394	}
395	.
396	Amplitude::GaugeTest(): Large deviation {
397	8.67336987778e+13
398	vs 5.05582975395e+14
399	=> -0.828448142048
400	}
401	.
402	Amplitude::GaugeTest(): Large deviation {
403	1.2524010963e+12
404	vs 1.47963784597e+12
405	=> -0.153575924196
406	}
407	.
408	Amplitude::GaugeTest(): Large deviation {
409	83210723339
410	vs 73431477375.5
411	=> 0.133175122073
412	}
413	.........................................
414	Amplitude::GaugeTest(): Large deviation {
415	34085516109.3
416	vs 18783861513.6
417	=> 0.814617089493
418	}
419	.
420	Amplitude::GaugeTest(): Large deviation {
421	300309146819
422	vs 431725757977
423	=> -0.304398356432
424	}
425	.
426	Amplitude::GaugeTest(): Large deviation {
427	3441214568.24
428	vs 1853593435.68
429	=> 0.856509902328
430	}
431	.
432	Amplitude::GaugeTest(): Large deviation {
433	7831407428.63
434	vs 6516752015.25
435	=> 0.201734761474
436	}
437	..........
438	Amplitude::GaugeTest(): Large deviation {
439	44681394774.3
440	vs 47281214537
441	=> -0.0549863151398
442	}
443	......
444	Amplitude::GaugeTest(): Large deviation {
445	7.40460522946e+12
446	vs 3.0864667354e+13
447	=> -0.760094442472
448	}
449	......
450	Amplitude::GaugeTest(): Large deviation {
451	479575030948
452	vs 170377293738
453	=> 1.81478253601
454	}
455	......
456	Amplitude::GaugeTest(): Large deviation {
457	1.72844024808e+12
458	vs 171986270668
459	=> 9.04987340776
460	}
461	.....................
462	Amplitude::GaugeTest(): Large deviation {
463	4271636005.21
464	vs 6343059633.09
465	=> -0.326565371872
466	}
467	.
468	Amplitude::GaugeTest(): Large deviation {
469	1.1612362464e+13
470	vs 1.96759029105e+13
471	=> -0.40981806442
472	}
473	.
474	Amplitude::GaugeTest(): Large deviation {
475	93795357.8594
476	vs 83806235.6404
477	=> 0.119193066514
478	}
479	.
480	Amplitude::GaugeTest(): Large deviation {
481	1.34055987856e+12
482	vs 4.20683822645e+12
483	=> -0.681337905954
484	}
485	.................
486	Amplitude::GaugeTest(): Large deviation {
487	2.21138367173e+15
488	vs 2.24424969419e+15
489	=> -0.0146445480379
490	}
491	.
492	Amplitude::GaugeTest(): Large deviation {
493	1.49633792464e+13
494	vs 8.36181382267e+12
495	=> 0.789489644684
496	}
497	.
498	Amplitude::GaugeTest(): Large deviation {
499	37537375911.1
500	vs 30398428096.6
501	=> 0.234845952952
502	}
503	.
504	Amplitude::GaugeTest(): Large deviation {
505	448729019561
506	vs 798702550112
507	=> -0.438177554963
508	}
509	........
510	Amplitude::GaugeTest(): Large deviation {
511	8.08374648795e+15
512	vs 1.25696256154e+16
513	=> -0.356882477226
514	}
515	....
516	Amplitude::GaugeTest(): Large deviation {
517	3.92833479269e+14
518	vs 3.98253505739e+14
519	=> -0.0136094884085
520	}
521	....
522	Amplitude::GaugeTest(): Large deviation {
523	4.93081475221e+13
524	vs 1.33698464589e+14
525	=> -0.631198849787
526	}
527	....
528	Amplitude::GaugeTest(): Large deviation {
529	5.96281199893e+17
530	vs 1.0338855505e+18
531	=> -0.423261888511
532	}
533	.
534	Amplitude::GaugeTest(): Large deviation {
535	7.55196037122e+17
536	vs 8.20013107007e+17
537	=> -0.0790439437258
538	}
539	.
540	Amplitude::GaugeTest(): Large deviation {
541	4.83043873911e+12
542	vs 1.747201434e+12
543	=> 1.76467191768
544	}
545	.
546	Amplitude::GaugeTest(): Large deviation {
547	1.38018301536e+16
548	vs 4.68862931846e+17
549	=> -0.970563187627
550	}
551	.
552	Amplitude::GaugeTest(): Large deviation {
553	2.21601356312e+15
554	vs 2.53154047949e+15
555	=> -0.124638305776
556	}
557	.....
558	Amplitude::GaugeTest(): Large deviation {
559	12281980548.7
560	vs 9270071733.57
561	=> 0.32490674309
562	}
563	.
564	Amplitude::GaugeTest(): Large deviation {
565	2.21781552156e+18
566	vs 3.78068752569e+18
567	=> -0.413383013937
568	}
569	.
570	Amplitude::GaugeTest(): Large deviation {
571	4.6388997128e+19
572	vs 2.71795809337e+19
573	=> 0.706759101299
574	}
575	.
576	Amplitude::GaugeTest(): Large deviation {
577	3.04408187125e+13
578	vs 4.86823478613e+13
579	=> -0.374705205277
580	}
581	.
582	Amplitude::GaugeTest(): Large deviation {
583	6.34387377094e+12
584	vs 2.16860143619e+13
585	=> -0.707467049267
586	}
587	.
588	Amplitude::GaugeTest(): Large deviation {
589	1.40894646489e+13
590	vs 1.37604341043e+13
591	=> 0.0239113491676
592	}
593	.
594	Amplitude::GaugeTest(): Large deviation {
595	5.0981657202e+15
596	vs 7.24547346936e+15
597	=> -0.29636541466
598	}
599	.
600	Amplitude::GaugeTest(): Large deviation {
601	7.87994191659e+13
602	vs 5.08082290445e+14
603	=> -0.844908156321
604	}
605	.
606	Amplitude::GaugeTest(): Large deviation {
607	2.36354384491e+13
608	vs 1.02604406499e+13
609	=> 1.30355003801
610	}
611	.
612	Amplitude::GaugeTest(): Large deviation {
613	25707006602.3
614	vs 21000314453.8
615	=> 0.224124841503
616	}
617	.
618	Amplitude::GaugeTest(): Large deviation {
619	1977897575.41
620	vs 1491928822.21
621	=> 0.325731861982
622	}
623	.
624	Amplitude::GaugeTest(): Large deviation {
625	1.33843197271e+12
626	vs 185145419614
627	=> 6.22908498357
628	}
629	.
630	Amplitude::GaugeTest(): Large deviation {
631	3.73377513689e+12
632	vs 7.16466721637e+12
633	=> -0.478862726749
634	}
635	.
636	Amplitude::GaugeTest(): Large deviation {
637	4700467691.59
638	vs 3292047312.56
639	=> 0.427825072155
640	}
641	.
642	Amplitude::GaugeTest(): Large deviation {
643	1055561648.08
644	vs 1415025146.02
645	=> -0.254033293298
646	}
647	.
648	Amplitude::GaugeTest(): Large deviation {
649	165476696217
650	vs 306424759612
651	=> -0.459976091925
652	}
653	.
654	Amplitude::GaugeTest(): Large deviation {
655	200074043.931
656	vs 112730688.307
657	=> 0.774796614269
658	}
659	.
660	Amplitude::GaugeTest(): Large deviation {
661	149218726460
662	vs 100242116154
663	=> 0.488583164299
664	}
665	.
666	Amplitude::GaugeTest(): Large deviation {
667	7.58347556675e+16
668	vs 9.2374956459e+16
669	=> -0.179055032073
670	}
671	.
672	Amplitude::GaugeTest(): Large deviation {
673	1.42037203733e+15
674	vs 6.15726954868e+15
675	=> -0.769317872784
676	}
677	. done ( 170640 kB, 0.12 s ).
678	Initialized the Matrix_Element_Handler for the hard processes.
679	Hadron_Decay_Map::Read:
680	Initializing hadron decay tables. This may take some time.
681	Initialized the Hadron_Decay_Handler, Decay model = Hadrons
682	Initialized the Soft_Photon_Handler.
683	Process_Group::CalculateTotalXSec(): Calculate xs for '2_6__j__j__t[W+[lepton__neutrino]__b]__tb[W-[lepton__neutrino]__bb]' (Comix)
684	Starting the calculation. Lean back and enjoy ... .
685	[34m161.391 pb[0m +- ( [31m6.00951 pb = 3.72356 %[0m ) 5000 ( 5000 -> 100 % )
686	full optimization: ( 7 s elapsed / 454 s left / 461 s total )
687	[34m159.276 pb[0m +- ( [31m3.7776 pb = 2.37174 %[0m ) 10000 ( 10000 -> 100 % )
688	full optimization: ( 14 s elapsed / 447 s left / 461 s total )
689	[34m159.782 pb[0m +- ( [31m2.89875 pb = 1.81419 %[0m ) 15000 ( 15000 -> 100 % )
690	full optimization: ( 22 s elapsed / 439 s left / 461 s total )
691	[34m159.436 pb[0m +- ( [31m2.3893 pb = 1.49859 %[0m ) 20000 ( 20000 -> 100 % )
692	full optimization: ( 29 s elapsed / 432 s left / 461 s total )
693	[34m158.361 pb[0m +- ( [31m2.04428 pb = 1.2909 %[0m ) 25000 ( 25000 -> 100 % )
694	full optimization: ( 37 s elapsed / 424 s left / 461 s total )
695	[34m157.118 pb[0m +- ( [31m1.7918 pb = 1.14042 %[0m ) 30000 ( 30000 -> 100 % )
696	full optimization: ( 44 s elapsed / 417 s left / 461 s total )
697	[34m155.992 pb[0m +- ( [31m1.36151 pb = 0.872813 %[0m ) 40000 ( 40000 -> 100 % )
698	full optimization: ( 59 s elapsed / 402 s left / 461 s total )
699	[34m154.681 pb[0m +- ( [31m1.10166 pb = 0.712215 %[0m ) 50000 ( 50000 -> 100 % )
700	full optimization: ( 74 s elapsed / 387 s left / 461 s total )
701	[34m153.725 pb[0m +- ( [31m0.938673 pb = 0.61062 %[0m ) 60000 ( 60000 -> 100 % )
702	full optimization: ( 89 s elapsed / 372 s left / 461 s total )
703	[34m153.395 pb[0m +- ( [31m0.826768 pb = 0.538979 %[0m ) 70000 ( 70000 -> 100 % )
704	full optimization: ( 104 s elapsed / 357 s left / 461 s total )
705	[34m152.585 pb[0m +- ( [31m0.738504 pb = 0.483994 %[0m ) 80000 ( 80000 -> 100 % )
706	full optimization: ( 119 s elapsed / 342 s left / 461 s total )
707	[34m152.682 pb[0m +- ( [31m0.675388 pb = 0.442349 %[0m ) 90000 ( 90000 -> 100 % )
708	full optimization: ( 133 s elapsed / 328 s left / 461 s total )
709	[34m152.439 pb[0m +- ( [31m0.626225 pb = 0.410803 %[0m ) 100000 ( 100000 -> 100 % )
710	full optimization: ( 148 s elapsed / 313 s left / 461 s total )
711	[34m152.204 pb[0m +- ( [31m0.585165 pb = 0.384462 %[0m ) 110000 ( 110000 -> 100 % )
712	full optimization: ( 163 s elapsed / 298 s left / 461 s total )
713	[34m152.381 pb[0m +- ( [31m0.552583 pb = 0.362633 %[0m ) 120000 ( 120000 -> 100 % )
714	full optimization: ( 178 s elapsed / 283 s left / 461 s total )
715	[34m152.491 pb[0m +- ( [31m0.524493 pb = 0.34395 %[0m ) 130000 ( 130000 -> 100 % )
716	full optimization: ( 193 s elapsed / 268 s left / 461 s total )
717	[34m152.411 pb[0m +- ( [31m0.499443 pb = 0.327695 %[0m ) 140000 ( 140000 -> 100 % )
718	full optimization: ( 208 s elapsed / 253 s left / 461 s total )
719	[34m152.743 pb[0m +- ( [31m0.478786 pb = 0.313458 %[0m ) 150000 ( 150000 -> 100 % )
720	full optimization: ( 223 s elapsed / 238 s left / 461 s total )
721	[34m152.439 pb[0m +- ( [31m0.45813 pb = 0.300534 %[0m ) 160000 ( 160000 -> 100 % )
722	full optimization: ( 238 s elapsed / 223 s left / 461 s total )
723	[34m152.356 pb[0m +- ( [31m0.441364 pb = 0.289693 %[0m ) 170000 ( 170000 -> 100 % )
724	full optimization: ( 253 s elapsed / 208 s left / 461 s total )
725	[34m152.703 pb[0m +- ( [31m0.427069 pb = 0.279673 %[0m ) 180000 ( 180000 -> 100 % )
726	full optimization: ( 267 s elapsed / 194 s left / 461 s total )
727	[34m152.797 pb[0m +- ( [31m0.414458 pb = 0.271247 %[0m ) 190000 ( 190000 -> 100 % )
728	full optimization: ( 282 s elapsed / 179 s left / 461 s total )
729	[34m152.929 pb[0m +- ( [31m0.40246 pb = 0.263167 %[0m ) 200000 ( 200000 -> 100 % )
730	full optimization: ( 297 s elapsed / 164 s left / 461 s total )
731	[34m152.981 pb[0m +- ( [31m0.391958 pb = 0.256213 %[0m ) 210000 ( 210000 -> 100 % )
732	full optimization: ( 312 s elapsed / 149 s left / 461 s total )
733	[34m152.944 pb[0m +- ( [31m0.381543 pb = 0.249466 %[0m ) 220000 ( 220000 -> 100 % )
734	full optimization: ( 327 s elapsed / 134 s left / 461 s total )
735	[34m153.027 pb[0m +- ( [31m0.363155 pb = 0.237315 %[0m ) 240000 ( 240000 -> 100 % )
736	integration time: ( 357 s elapsed / 104 s left / 461 s total )
737	[34m152.838 pb[0m +- ( [31m0.346447 pb = 0.226676 %[0m ) 260000 ( 260000 -> 100 % )
738	integration time: ( 386 s elapsed / 75 s left / 461 s total )
739	[34m152.735 pb[0m +- ( [31m0.332283 pb = 0.217555 %[0m ) 280000 ( 280000 -> 100 % )
740	integration time: ( 416 s elapsed / 45 s left / 461 s total )
741	[34m152.846 pb[0m +- ( [31m0.320169 pb = 0.209472 %[0m ) 300000 ( 300000 -> 100 % )
742	integration time: ( 446 s elapsed / 14 s left / 460 s total )
743	[34m152.702 pb[0m +- ( [31m0.31399 pb = 0.205624 %[0m ) 310000 ( 310000 -> 100 % )
744	integration time: ( 460 s elapsed / 0 s left / 460 s total )
745	[1m2_6__j__j__t[W+[lepton__neutrino]__b]__tb[W-[lepton__neutrino]__bb][0m : [34m[1m152.702 pb[0m +- ( [31m0.31399 pb = 0.205624 %[0m ) [1m exp. eff: [31m2.85381 %[0m
746	Process_Group::CalculateTotalXSec(): Calculate xs for '2_7__j__j__t[W+[lepton__neutrino]__b]__tb[W-[lepton__neutrino]__bb]__j' (Comix)
747	Starting the calculation. Lean back and enjoy ... .
748	[34m339.488 pb[0m +- ( [31m20.3084 pb = 5.98206 %[0m ) 5000 ( 7002 -> 71.4 % )
749	full optimization: ( 37 s elapsed / 2291 s left / 2328 s total )
750	[34m368.365 pb[0m +- ( [31m15.2742 pb = 4.14649 %[0m ) 10000 ( 13686 -> 74.8 % )
751	full optimization: ( 75 s elapsed / 2273 s left / 2348 s total )
752	[34m355.695 pb[0m +- ( [31m10.9154 pb = 3.06876 %[0m ) 15000 ( 20200 -> 76.7 % )
753	full optimization: ( 113 s elapsed / 2242 s left / 2355 s total )
754	[34m359.351 pb[0m +- ( [31m8.68461 pb = 2.41675 %[0m ) 20000 ( 25871 -> 88.1 % )
755	full optimization: ( 153 s elapsed / 2223 s left / 2376 s total )
756	[34m362.55 pb[0m +- ( [31m7.28692 pb = 2.0099 %[0m ) 25000 ( 31225 -> 93.3 % )
757	full optimization: ( 192 s elapsed / 2197 s left / 2389 s total )
758	[34m366.902 pb[0m +- ( [31m6.38041 pb = 1.739 %[0m ) 30000 ( 36494 -> 94.8 % )
759	full optimization: ( 232 s elapsed / 2166 s left / 2398 s total )
760	[34m371.481 pb[0m +- ( [31m5.15251 pb = 1.38702 %[0m ) 40000 ( 46906 -> 96 % )
761	full optimization: ( 309 s elapsed / 2089 s left / 2398 s total )
762	[34m364.715 pb[0m +- ( [31m4.14856 pb = 1.13748 %[0m ) 50000 ( 57260 -> 96.5 % )
763	full optimization: ( 387 s elapsed / 2015 s left / 2402 s total )
764	[34m363.726 pb[0m +- ( [31m3.61918 pb = 0.995028 %[0m ) 60000 ( 67609 -> 96.6 % )
765	full optimization: ( 464 s elapsed / 1934 s left / 2398 s total )
766	[34m367.17 pb[0m +- ( [31m3.28034 pb = 0.893411 %[0m ) 70000 ( 77960 -> 96.6 % )
767	full optimization: ( 542 s elapsed / 1861 s left / 2403 s total )
768	[34m366.536 pb[0m +- ( [31m2.99998 pb = 0.818469 %[0m ) 80000 ( 88287 -> 96.8 % )
769	full optimization: ( 620 s elapsed / 1784 s left / 2404 s total )
770	[34m367.408 pb[0m +- ( [31m2.74742 pb = 0.747785 %[0m ) 90000 ( 98592 -> 97 % )
771	full optimization: ( 697 s elapsed / 1704 s left / 2401 s total )
772	[34m367.897 pb[0m +- ( [31m2.54701 pb = 0.692316 %[0m ) 100000 ( 108839 -> 97.5 % )
773	full optimization: ( 774 s elapsed / 1626 s left / 2400 s total )
774	[34m368.623 pb[0m +- ( [31m2.37959 pb = 0.645534 %[0m ) 110000 ( 119066 -> 97.7 % )
775	full optimization: ( 850 s elapsed / 1547 s left / 2397 s total )
776	[34m369.332 pb[0m +- ( [31m2.25065 pb = 0.609385 %[0m ) 120000 ( 129334 -> 97.3 % )
777	full optimization: ( 927 s elapsed / 1468 s left / 2395 s total )
778	[34m368.893 pb[0m +- ( [31m2.12889 pb = 0.577104 %[0m ) 130000 ( 139633 -> 97 % )
779	full optimization: ( 1004 s elapsed / 1390 s left / 2394 s total )
780	[34m369.258 pb[0m +- ( [31m2.0319 pb = 0.550265 %[0m ) 140000 ( 149913 -> 97.2 % )
781	full optimization: ( 1083 s elapsed / 1315 s left / 2398 s total )
782	[34m369.238 pb[0m +- ( [31m1.94957 pb = 0.527999 %[0m ) 150000 ( 160176 -> 97.4 % )
783	full optimization: ( 1160 s elapsed / 1238 s left / 2398 s total )
784	[34m369.273 pb[0m +- ( [31m1.88753 pb = 0.511146 %[0m ) 160000 ( 170434 -> 97.4 % )
785	full optimization: ( 1236 s elapsed / 1160 s left / 2396 s total )
786	[34m369.379 pb[0m +- ( [31m1.81646 pb = 0.491761 %[0m ) 170000 ( 180687 -> 97.5 % )
787	full optimization: ( 1313 s elapsed / 1082 s left / 2395 s total )
788	[34m368.705 pb[0m +- ( [31m1.7446 pb = 0.47317 %[0m ) 180000 ( 190948 -> 97.4 % )
789	full optimization: ( 1390 s elapsed / 1004 s left / 2394 s total )
790	[34m368.612 pb[0m +- ( [31m1.68764 pb = 0.457836 %[0m ) 190000 ( 201245 -> 97.1 % )
791	full optimization: ( 1466 s elapsed / 926 s left / 2392 s total )
792	[34m369.041 pb[0m +- ( [31m1.64826 pb = 0.446635 %[0m ) 200000 ( 211540 -> 97.1 % )
793	full optimization: ( 1542 s elapsed / 848 s left / 2390 s total )
794	[34m368.667 pb[0m +- ( [31m1.59763 pb = 0.433353 %[0m ) 210000 ( 221803 -> 97.4 % )
795	full optimization: ( 1618 s elapsed / 771 s left / 2389 s total )
796	[34m368.93 pb[0m +- ( [31m1.55155 pb = 0.420554 %[0m ) 220000 ( 232061 -> 97.4 % )
797	full optimization: ( 1694 s elapsed / 693 s left / 2387 s total )
798	[34m369.323 pb[0m +- ( [31m1.48058 pb = 0.400891 %[0m ) 240000 ( 252598 -> 97.3 % )
799	integration time: ( 1848 s elapsed / 539 s left / 2387 s total )
800	[34m369.665 pb[0m +- ( [31m1.41522 pb = 0.382839 %[0m ) 260000 ( 273145 -> 97.3 % )
801	integration time: ( 2002 s elapsed / 385 s left / 2387 s total )
802	[34m370.823 pb[0m +- ( [31m1.36096 pb = 0.367011 %[0m ) 280000 ( 293652 -> 97.4 % )
803	integration time: ( 2160 s elapsed / 232 s left / 2392 s total )
804	[34m370.732 pb[0m +- ( [31m1.34103 pb = 0.361726 %[0m ) 300000 ( 314158 -> 97.4 % )
805	integration time: ( 2312 s elapsed / 77 s left / 2389 s total )
806	[34m370.59 pb[0m +- ( [31m1.315 pb = 0.354839 %[0m ) 310000 ( 324418 -> 97.4 % )
807	integration time: ( 2388 s elapsed / 0 s left / 2388 s total )
808	[1m2_7__j__j__t[W+[lepton__neutrino]__b]__tb[W-[lepton__neutrino]__bb]__j[0m : [34m[1m370.59 pb[0m +- ( [31m1.315 pb = 0.354839 %[0m ) [1m exp. eff: [31m0.285604 %[0m
809	Process_Group::CalculateTotalXSec(): Calculate xs for '2_8__j__j__t[W+[lepton__neutrino]__b]__tb[W-[lepton__neutrino]__bb]__j__j' (Comix)
810	Starting the calculation. Lean back and enjoy ... .

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