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Ticket #359: debug.txt

File debug.txt, 43.7 KB (added by Frank Siegert, 8 years ago)

Line
1	Welcome to Sherpa, . Initialization of framework underway.
2	The local time is Thu Nov 12 11:31:35 2015.
3	Run_Parameter::Init(): Seed mode '*'
4	Run_Parameter::Init(): Setting memory limit to 9.55738 GB.
5	Random::SetSeed(): Seed set to 1234
6	-----------------------------------------------------------------------------
7	----------- Event generation run with SHERPA started ....... -----------
8	-----------------------------------------------------------------------------
9	................................................ \| +
10	................................................ \|\| \| + +
11	................................... .... \| \| / +
12	................. ................ _,_ \| .... \|\| +\| + +
13	............................... __.' ,\\| ... \|\| / +\| +
14	.............................. ( \ \ ... \| \| \| + + \ +
15	............................. ( \ -/ .... \|\| + \| +
16	........ ................... <S /()))))~~~~~~~~## + /\ +
17	............................ (!H (~~)))))~~~~~~#/ + + \| +
18	................ ........... (!E (~~~))))) /\|/ + +
19	............................ (!R (~~~))))) \|\|\| + + +
20	..... ...................... (!P (~~~~))) /\| + + +
21	............................ (!A> (~~~~~~~~~## + + +
22	............................. ~~(! '~~~~~~~ \ + + + +
23	............................... `~~~QQQQQDb // \| + + + +
24	........................ .......... IDDDDP\|\| \ + + + + + +
25	.................................... IDDDI\|\| \ +
26	.................................... IHD HD\|\| \ + + + + + + + +
27	................................... IHD ##\| :-) + +\ +
28	......... ............... ......... IHI ## / / + + + + +\ +
29	................................... IHI/ / / + + + + +
30	................................... ## \| \| / / + + + + / +
31	....................... /TT\ ..... ##/ /// / + + + + + + +/ +
32	......................./TTT/T\ ... /TT\/\\\ / + + + + + + +/ \ +
33	....................../TTT/TTTT\...\|TT/T\\\/ + ++ + /
34	-----------------------------------------------------------------------------
35
36	SHERPA version 2.2.0 (Cho Oyu)
37
38	Authors: Stefan Hoeche, Frank Krauss, Silvan Kuttimalai,
39	Marek Schoenherr, Holger Schulz, Steffen Schumann,
40	Frank Siegert, Korinna Zapp.
41	Former Authors: Timo Fischer, Tanju Gleisberg, Hendrik Hoeth,
42	Ralf Kuhn, Thomas Laubrich, Andreas Schaelicke,
43	Jan Winter
44
45	This program uses a lot of genuine and original research work
46	by other people. Users are encouraged to refer to
47	the various original publications.
48
49	Users are kindly asked to refer to the documentation
50	published under JHEP 02(2009)007
51
52	Please visit also our homepage
53
54	http://sherpa.hepforge.org
55
56	for news, bugreports, updates and new releases.
57
58	-----------------------------------------------------------------------------
59
60	SVN branch trunk/SHERPA, revision 26832.
61	===> PHASIC++/Channels has revision 26832M, first seen was 26832 <===
62	===> PHASIC++/Main has revision 26832M, first seen was 26832 <===
63	===> SHERPA/PerturbativePhysics has revision 26832M, first seen was 26832 <===
64
65	Initialization_Handler::SetGlobalVariables(): Set cluster mode 16.
66	Beam_Spectra_Handler :
67	type = Monochromatic*Monochromatic
68	for P+ ((4000,0,0,4000))
69	and P+ ((4000,0,0,-4000))
70	PDF set 'NNPDF30NNLO' loaded for beam 1 (P+).
71	PDF set 'NNPDF30NNLO' loaded for beam 2 (P+).
72	Initialized the ISR: (SF)*(SF)
73	One_Running_AlphaS::One_Running_AlphaS() {
74	Setting \alpha_s according to PDF
75	perturbative order 2
76	\alpha_s(M_Z) = 0.118
77	}
78	One_Running_AlphaS::One_Running_AlphaS() {
79	Setting \alpha_s according to PDF
80	perturbative order 2
81	\alpha_s(M_Z) = 0.118
82	}
83	List of Particle Data
84	IDName kfc MASS[<kfc>] WIDTH[<kfc>] STABLE[<kfc>] MASSIVE[<kfc>] ACTIVE[<kfc>] YUKAWA[<kfc>]
85	d 1 0.01 0 1 0 1 0
86	u 2 0.005 0 1 0 1 0
87	s 3 0.2 0 1 0 1 0
88	c 4 1.42 0 1 0 1 0
89	b 5 4.8 0 1 0 1 0
90	t 6 173.21 2 0 1 1 173.21
91	e- 11 0.000511 0 1 0 1 0
92	ve 12 0 0 1 0 1 0
93	mu- 13 0.105 0 1 0 1 0
94	vmu 14 0 0 1 0 1 0
95	tau- 15 1.777 2.26735e-12 0 0 1 0
96	vtau 16 0 0 1 0 1 0
97	G 21 0 0 1 0 1 0
98	P 22 0 0 1 0 1 0
99	Z 23 91.1876 0 0 1 1 91.1876
100	W+ 24 80.385 0 0 1 1 80.385
101	h0 25 125 0.00407 0 1 1 125
102
103	List of Particle Containers
104	IDName kfc Constituents
105	l 90 {e-,e+,mu-,mu+,tau-,tau+}
106	v 91 {ve,veb,vmu,vmub,vtau,vtaub}
107	j 93 {d,db,u,ub,s,sb,c,cb,b,bb,G}
108	Q 94 {d,db,u,ub,s,sb,c,cb,b,bb}
109	r 99 {d,db,u,ub,s,sb,c,cb,b,bb,G}
110
111	Initialized the Fragmentation_Handler.
112	Initialized the Soft_Collision_Handler.
113	CS_Shower::CS_Shower(): Set respect Q2 mode 0
114	CS_Shower::CS_Shower(): Set exclusive cluster mode 1.
115	CS_Shower::CS_Shower(): Set color setter mode 0
116	CS_Shower::CS_Shower(): Set respect Q2 mode 0
117	CS_Shower::CS_Shower(): Set exclusive cluster mode 1.
118	CS_Shower::CS_Shower(): Set color setter mode 0
119	Initialized the Shower_Handler.
120	+-----------------------------------------+
121	\| X X X XXXX XXX XXX XXX \|
122	\| X X XX XX X X X X X X \|
123	\| X X X X X XXX X XXX X X XXX XXX \|
124	\| XXXXX X X X X X X X X X \|
125	\| X X X X XXXX XXX XXX XXX \|
126	+-----------------------------------------+
127	\| please cite: JHEP 0202:044,2002 \|
128	+-----------------------------------------+
129	ME_Generator_Base::SetPSMasses(): Massive PS flavours for Comix: (c,cb,b,bb,e-,e+,mu-,mu+,tau-,tau+)
130	+----------------------------------+
131	\| \|
132	\| [31mCCC[0m [32mOOO[0m [34mM[0m [34mM[0m I [33mX[0m [33mX[0m \|
133	\| [31mC[0m [32mO[0m [32mO[0m [34mMM[0m [34mMM[0m I [33mX[0m [33mX[0m \|
134	\| [31mC[0m [32mO[0m [32mO[0m [34mM[0m [34mM[0m [34mM[0m I [33mX[0m \|
135	\| [31mC[0m [32mO[0m [32mO[0m [34mM[0m [34mM[0m I [33mX[0m [33mX[0m \|
136	\| [31mCCC[0m [32mOOO[0m [34mM[0m [34mM[0m I [33mX[0m [33mX[0m \|
137	\| \|
138	+==================================+
139	\| Color dressed Matrix Elements \|
140	\| http://comix.freacafe.de \|
141	\| please cite JHEP12(2008)039 \|
142	+----------------------------------+
143	ME_Generator_Base::SetPSMasses(): Massive PS flavours for Amegic: (c,cb,b,bb,e-,e+,mu-,mu+,tau-,tau+)
144	Amegic::Initialize(): Set gauge 1.
145	ME_Generator_Base::SetPSMasses(): Massive PS flavours for Internal: (c,cb,b,bb,e-,e+,mu-,mu+,tau-,tau+)
146	Matrix_Element_Handler::BuildProcesses(): Looking for processes ...................................................................[1m[32mCaution: Using Dummy_QCD_Virtual for (db,u,Z,W+,G)[0m
147	..[1m[32mCaution: Using Dummy_QCD_Virtual for (db,G,Z,W+,ub)[0m
148	..[1m[32mCaution: Using Dummy_QCD_Virtual for (u,db,Z,W+,G)[0m
149	..[1m[32mCaution: Using Dummy_QCD_Virtual for (u,G,Z,W+,d)[0m
150	..[1m[32mCaution: Using Dummy_QCD_Virtual for (G,db,Z,W+,ub)[0m
151	..[1m[32mCaution: Using Dummy_QCD_Virtual for (G,u,Z,W+,d)[0m
152	............................................................................................................. done ( 71 MB, 2s / 1s ).
153	Matrix_Element_Handler::InitializeProcesses(): Performing tests .......................................................................................................... done ( 75 MB, 0s / 0s ).
154	Initialized the Matrix_Element_Handler for the hard processes.
155	Initialized the Beam_Remnant_Handler.
156	Initialized the Soft_Photon_Handler.
157	Read in channels from directory : Results/Amegic/MC_2_3__j__j__Z__W+__j__QCD(BVI)
158	Process_Group::CalculateTotalXSec(): Calculate xs for '2_3__j__j__Z__W+__j__QCD(BVI)' (Amegic)
159	[1m2_3__j__j__Z__W+__j__QCD(BVI)[0m : [34m[1m8.9961 pb[0m +- ( [31m0.103831 pb = 1.15417 %[0m ) [1m exp. eff: [31m0.193594 %[0m
160	Read in channels from directory : Results/Comix/MC_2_4__j__j__Z__W+__j__j__QCD(RS)
161	Process_Group::CalculateTotalXSec(): Calculate xs for '2_4__j__j__Z__W+__j__j__QCD(RS)' (Comix)
162	[1m2_4__j__j__Z__W+__j__j__QCD(RS)[0m : [34m[1m0.0772886 pb[0m +- ( [31m0.181296 pb = 234.57 %[0m ) [1m exp. eff: [31m0.00052491 %[0m
163	reduce max for 2_3__j__j__Z__W+__j__QCD(BVI) to 0.474434 ( eps = 0.001 )
164	reduce max for 2_4__j__j__Z__W+__j__j__QCD(RS) to 0.938379 ( eps = 0.001 )
165	----------------------------------------------------------
166	-- SHERPA generates events with the following structure --
167	----------------------------------------------------------
168	Event generation : Weighted
169	Perturbative : Signal_Processes
170	Perturbative : Hard_Decays
171	Perturbative : Jet_Evolution:CSS
172	Perturbative : Lepton_FS_QED_Corrections:Photons
173	Perturbative : Multiple_Interactions:None
174	Perturbative : Minimum_Bias:Off
175	Hadronization : Beam_Remnants
176	Hadronization : Hadronization:Off
177	Hadronization : Hadron_Decays
178	---------------------------------------------------------
179	[31mEvent_Handler::GenerateEvent([32m43[31m) [0m[31m{[0m
180	[31mMCatNLO_Process::OneEvent([32m[31m) [0m[31m{[0m
181	[31mBBar_Emission_Generator::GeneratePoint([32m[31m) [0m[31m{[0m
182	in EEG: #1 = 0.3488, #2 = 0.4803, #3 = 0.8785
183	Born point {
184	(92.06,0,0,92.06)
185	(188.1,0,0,-188.1)
186	(108.4,-11.47,46,-34.56)
187	(98.63,33.83,-45.34,8.123)
188	(73.06,-22.36,-0.6617,-69.55)
189	}
190	selected FI_4[4,5]_0[0]
191	[31mFI_Dipole::GeneratePoint([32m[31m) [0m[31m{[0m
192	vegased : x = 0.3488, z = 0.4803, phi = 0.8785, xmin = 0.02302
193	transformed : x = 0.2004, z = 0.4767, phi = 5.52
194	[31m}[0m
195	[31m}[0m
196	[31mBBar_Emission_Generator::GenerateWeight([32m[31m) [0m[31m{[0m
197	Dipole FI_4[4,5]_0[0] {
198	again : x = 0.2004, z = 0.4767, phi = 5.52
199	recovered : x = 0.3488, z = 0.4803, phi = 0.8785, xmin = 0.02302
200	} -> w = 3154 ( a = 0.1 )
201	[31m}[0m
202	[31mSingle_Process::Differential([32m2_3__sb__G__Z__W+__cb__QCD(BVI), RS:0[31m) [0m[31m{[0m
203	[31mScale_Setter_Base::CalculateScale([32m2_3__db__G__Z__W+__ub__QCD(BVI)[31m) [0m[31m{[0m
204	Variable_Scale_Setter::Calculate(): Set {
205	\mu_f = 90
206	\mu_r = 90
207	\mu_q = 90
208	} <- 2_3__db__G__Z__W+__ub__QCD(BVI)
209	Coupling_Data::Calculate(0x1dfa960): scl = 90 -> 'Alpha_QCD'{fac=1.002,cpl=0.118}
210	[31m}[0m
211	[31mKP_Terms::Get([32m[31m) [0m[31m{[0m
212	[31m}[0m
213	PDF(fla=sb, xa=0.02302, ta=8100) * PDF(flb=G, xb=0.04701, tb=8100) -> 528.3
214	type=BVIKP, B=6.96e-11, VI=3.19e-11, KP=2.885e-11, K=1
215	muR2=8100, muF2=8100, oqcd=2, oew=2, fl1=-3, fl2=21, x1=1, x2=1, x1p=0.8527, x2p=0.5787
216	wren=(3.537e-11,2.83e-11)
217	wfac=(4.495e-11,-3.045e-11,0,-6.266e-13,0,-1.014e-12,2.98e-11,-1.692e-11,2.005e-11,-2e-11,-0,-4.791e-13,-0,-3.387e-12,1.313e-11,-1.756e-11)
218	Cluster sequence: pdfwgt=528.3, flux=7.22e-06, counter term=0, no cluster steps
219	Calculating DADS terms
220	[31mSingle_Process::Differential([32m2_4__sb__G__Z__W+__G__cb__QCD(S)_RS4_5_0, RS:0[31m) [0m[31m{[0m
221	[31mScale_Setter_Base::CalculateScale([32m2_3__db__G__Z__W+__ub__QCD(S)__S4_0[31m) [0m[31m{[0m
222	Variable_Scale_Setter::Calculate(): Set {
223	\mu_f = 90
224	\mu_r = 90
225	\mu_q = 90
226	} <- 2_3__db__G__Z__W+__ub__QCD(S)__S4_0
227	Coupling_Data::Calculate(0x220a020): scl = 90 -> 'Alpha_QCD'{fac=1.002,cpl=0.118}
228	[31m}[0m
229	[34m586:m_lastxs[0m=[32m-9.93e-12[0m
230	PDF(fla=sb, xa=0.1149, ta=8100) * PDF(flb=G, xb=0.04701, tb=8100) -> 17.63
231	type=none, B=-1.436e-17, VI=0, KP=0, K=0
232	muR2=8100, muF2=8100, oqcd=2, oew=2, fl1=-3, fl2=21, x1=1, x2=1, x1p=1, x2p=1
233	Cluster sequence: pdfwgt=17.63, flux=1.447e-06, counter term=0, no cluster steps
234	[31m}[0m
235	DADS_0 = 7.986e-12
236	DADS: wgt=4.531e-13, x1=0.1149, x2=0.04701, fl1=-3, fl2=21
237	[31m}[0m
238	2_3__sb__G__Z__W+__cb__QCD(BVI) ME = 6.8871932525051e-08 , PS = 0.0387272785114049 -> 2.66722251251634e-09
239	p_lab[0]=Vec4D(92.0649834855704,0,0,92.0649834855705);
240	p_lab[1]=Vec4D(188.055857090885,0,0,-188.055857090885);
241	p_lab[2]=Vec4D(108.428858427042,-11.4677435124342,45.9976285173266,-34.5593399176929);
242	p_lab[3]=Vec4D(98.6280384747466,33.8290725544059,-45.3359439735672,8.12328643532916);
243	p_lab[4]=Vec4D(73.0639436746661,-22.3613290419717,-0.661684543759371,-69.5548201229506);
244	==========================================================
245	S event
246	[31mCluster_Algorithm::Cluster([32m[31m) [0m[31m{[0m
247	[31mCombine_Table::CalcJet([32mmode = 512, nl = 5, complete = 1[31m) [0m[31m{[0m
248
249	Combine_Table (0x3febf80) 1 [OQCD=1] (up=#)
250	id content flavcut qcd qed mom
251	0 (0) sb 0 0/0 0/0 (92.06,0,0,92.06)
252	1 (1) G 0 0/0 0/0 (188.1,0,0,-188.1)
253	2 (2) Z 0 0/0 0/0 (108.4,-11.47,46,-34.56)
254	3 (3) W+ 0 0/0 0/0 (98.63,33.83,-45.34,8.123)
255	4 (4) cb 0 0/0 0/0 (73.06,-22.36,-0.6617,-69.55)
256	---------------
257	0&2%1[ sb] CP{kt=0,op=0,x=0,mu=0,k=0,m=0} 0 6
258	0&2%3[ sb] CP{kt=0,op=0,x=0,mu=0,k=0,m=0} 0 2,6
259	0&2%4[ sb] CP{kt=0,op=0,x=0,mu=0,k=0,m=0} 0 2,6
260	0&3%1[ cb] CP{kt=0,op=0,x=0,mu=0,k=0,m=0} 0 3
261	0&3%2[ cb] CP{kt=0,op=0,x=0,mu=0,k=0,m=0} 0 1,3
262	0&3%4[ cb] CP{kt=0,op=0,x=0,mu=0,k=0,m=0} 0 1,3
263	1&4%0[ cb] CP{kt=0,op=0,x=0,mu=0,k=0,m=0} 0 0,1,2
264	1&4%2[ cb] CP{kt=0,op=0,x=0,mu=0,k=0,m=0} 0 1
265	1&4%3[ cb] CP{kt=0,op=0,x=0,mu=0,k=0,m=0} 0 2
266	2&3%0[ W+] CP{kt=0,op=0,x=0,mu=0,k=0,m=0} 0 0,4
267	2&3%4[ W+] CP{kt=0,op=0,x=0,mu=0,k=0,m=0} 0 0,4
268	2&4%0[ cb] CP{kt=0,op=0,x=0,mu=0,k=0,m=0} 0 3,5
269	2&4%1[ cb] CP{kt=0,op=0,x=0,mu=0,k=0,m=0} 0 3
270	2&4%3[ cb] CP{kt=0,op=0,x=0,mu=0,k=0,m=0} 0 3,5
271	3&4%0[ sb] CP{kt=0,op=0,x=0,mu=0,k=0,m=0} 0 6,7
272	3&4%1[ sb] CP{kt=0,op=0,x=0,mu=0,k=0,m=0} 0 6
273	3&4%2[ sb] CP{kt=0,op=0,x=0,mu=0,k=0,m=0} 0 6,7
274	k_{T,min}
275	(0,1,2,3,4) -> 0
276
277	[31mCS_Cluster_Definitions::KPerp2([32mkin = -1, mode = 16[31m) [0m[31m{[0m
278	Set fixed n_perp
279	No splitting function (j)
280	[31m}[0m
281	Calculate m_perp(0[sb],2[Z],1[G],sb) -> CP{kt=143.4,op=-1,x=0.2186,mu=143.4,k=1,m=0}
282	[31mCS_Cluster_Definitions::KPerp2([32mkin = -1, mode = 16[31m) [0m[31m{[0m
283	No splitting function (j)
284	[31m}[0m
285	Calculate m_perp(0[sb],2[Z],3[W+],sb) -> CP{kt=128.3,op=-1,x=0.3744,mu=128.3,k=1,m=0}
286	[31mCS_Cluster_Definitions::KPerp2([32mkin = -1, mode = 16[31m) [0m[31m{[0m
287	No splitting function (j)
288	[31m}[0m
289	Calculate m_perp(0[sb],2[Z],4[cb],sb) -> CP{kt=72.8,op=-1,x=0.7987,mu=72.8,k=1,m=0}
290	[31mCS_Cluster_Definitions::KPerp2([32mkin = -1, mode = 16[31m) [0m[31m{[0m
291	Set fixed n_perp
292	No splitting function (j)
293	[31m}[0m
294	Calculate m_perp(0[sb],3[W+],1[G],cb) -> CP{kt=116.9,op=-1,x=0.1796,mu=116.9,k=1,m=0}
295	[31mCS_Cluster_Definitions::KPerp2([32mkin = -1, mode = 16[31m) [0m[31m{[0m
296	No splitting function (j)
297	[31m}[0m
298	Calculate m_perp(0[sb],3[W+],2[Z],cb) -> CP{kt=102.1,op=-1,x=0.3744,mu=102.1,k=1,m=0}
299	[31mCS_Cluster_Definitions::KPerp2([32mkin = -1, mode = 16[31m) [0m[31m{[0m
300	No splitting function (j)
301	[31m}[0m
302	Calculate m_perp(0[sb],3[W+],4[cb],cb) -> CP{kt=81.23,op=-1,x=0.6041,mu=81.23,k=1,m=0}
303	[31mCS_Cluster_Definitions::KPerp2([32mkin = -1, mode = 16[31m) [0m[31m{[0m
304	Set fixed n_perp
305	Kernel weight (A=1/NLO=16) [m=3,c=1] ( x = 0.02829 ) LF_VFF_II\|CF_QCD {
306	(1) G (-188.1,-0,-0,188.1) -5.395e-06 (-1,-1) [0\|0]
307	(4) cb (73.06,-22.36,-0.6617,-69.55) -9.537e-07 (-1,-1) [0\|0]
308	(0) s (-92.06,-0,-0,-92.06) -4.046e-06 (-1,-1) [0\|0]
309	} -> w = 0.0006027 (1659)
310	[31m}[0m
311	Calculate m_perp(1[G],4[cb],0[sb],cb) -> CP{kt=36.33,op=40.73,x=0.6017,mu=16.37,k=1,m=0}
312	[31mCS_Cluster_Definitions::KPerp2([32mkin = -1, mode = 16[31m) [0m[31m{[0m
313	Invalid spectator Z
314	[31m}[0m
315	Calculate m_perp(1[G],4[cb],2[Z],cb) -> CP{kt=36.33,op=-1,x=0.6363,mu=36.33,k=1,m=0}
316	[31mCS_Cluster_Definitions::KPerp2([32mkin = -1, mode = 16[31m) [0m[31m{[0m
317	Invalid spectator W+
318	[31m}[0m
319	Calculate m_perp(1[G],4[cb],3[W+],cb) -> CP{kt=36.33,op=-1,x=0.5902,mu=36.33,k=1,m=0}
320	[31mCS_Cluster_Definitions::KPerp2([32mkin = -1, mode = 17[31m) [0m[31m{[0m
321	No splitting function (i)
322	[31m}[0m
323	Calculate m_perp(2[Z],3[W+],0[sb],W+) -> CP{kt=79.9,op=-1,x=0.3744,mu=79.9,k=0,m=1}
324	[31mCS_Cluster_Definitions::KPerp2([32mkin = -1, mode = 17[31m) [0m[31m{[0m
325	No splitting function (i)
326	[31m}[0m
327	Calculate m_perp(2[Z],3[W+],4[cb],W+) -> CP{kt=79.75,op=-1,x=1,mu=79.75,k=0,m=1}
328	[31mCS_Cluster_Definitions::KPerp2([32mkin = -1, mode = 16[31m) [0m[31m{[0m
329	No splitting function (i)
330	[31m}[0m
331	Calculate m_perp(2[Z],4[cb],0[sb],cb) -> CP{kt=72.8,op=-1,x=0.7987,mu=72.8,k=1,m=0}
332	[31mCS_Cluster_Definitions::KPerp2([32mkin = -1, mode = 16[31m) [0m[31m{[0m
333	No splitting function (i)
334	[31m}[0m
335	Calculate m_perp(2[Z],4[cb],1[G],cb) -> CP{kt=100.5,op=-1,x=0.6363,mu=100.5,k=1,m=0}
336	[31mCS_Cluster_Definitions::KPerp2([32mkin = -1, mode = 16[31m) [0m[31m{[0m
337	No splitting function (i)
338	[31m}[0m
339	Calculate m_perp(2[Z],4[cb],3[W+],cb) -> CP{kt=80.54,op=-1,x=1,mu=80.54,k=1,m=0}
340	[31mCS_Cluster_Definitions::KPerp2([32mkin = -1, mode = 16[31m) [0m[31m{[0m
341	No splitting function (i)
342	[31m}[0m
343	Calculate m_perp(3[W+],4[cb],0[sb],sb) -> CP{kt=81.23,op=-1,x=0.6041,mu=81.23,k=1,m=0}
344	[31mCS_Cluster_Definitions::KPerp2([32mkin = -1, mode = 16[31m) [0m[31m{[0m
345	No splitting function (i)
346	[31m}[0m
347	Calculate m_perp(3[W+],4[cb],1[G],sb) -> CP{kt=128.3,op=-1,x=0.5902,mu=128.3,k=1,m=0}
348	[31mCS_Cluster_Definitions::KPerp2([32mkin = -1, mode = 16[31m) [0m[31m{[0m
349	No splitting function (i)
350	[31m}[0m
351	Calculate m_perp(3[W+],4[cb],2[Z],sb) -> CP{kt=110.4,op=-1,x=1,mu=110.4,k=1,m=0}
352
353	Combine_Table (0x3febf80) 1 [OQCD=1] (up=#)
354	idcontent flav cut qcd qed mom
355	0 (0) sb 0 0/0 0/0 (92.06,0,0,92.06)
356	1 (1) G 0 0/0 0/0 (188.1,0,0,-188.1)
357	2 (2) Z 0 0/0 0/0 (108.4,-11.47,46,-34.56)
358	3 (3) W+ 0 0/0 0/0 (98.63,33.83,-45.34,8.123)
359	4 (4) cb 0 0/0 0/0 (73.06,-22.36,-0.6617,-69.55)
360	---------------
361	0&2%1[sb ] CP{kt=143.4,op=-1,x=0.2186,mu=143.4,k=1,m=0} 0 6
362	0&2%3[sb ] CP{kt=128.3,op=-1,x=0.3744,mu=128.3,k=1,m=0} 0 2,6
363	0&2%4[sb ] CP{kt=72.8,op=-1,x=0.7987,mu=72.8,k=1,m=0} 0 2,6
364	0&3%1[cb ] CP{kt=116.9,op=-1,x=0.1796,mu=116.9,k=1,m=0} 0 3
365	0&3%2[cb ] CP{kt=102.1,op=-1,x=0.3744,mu=102.1,k=1,m=0} 0 1,3
366	0&3%4[cb ] CP{kt=81.23,op=-1,x=0.6041,mu=81.23,k=1,m=0} 0 1,3
367	1&4%0[cb ] CP{kt=36.33,op=40.73,x=0.6017,mu=16.37,k=1,m=0} 0 0,1,2 <-
368	1&4%2[cb ] CP{kt=36.33,op=-1,x=0.6363,mu=36.33,k=1,m=0} 0 1
369	1&4%3[cb ] CP{kt=36.33,op=-1,x=0.5902,mu=36.33,k=1,m=0} 0 2
370	2&3%0[W+ ] CP{kt=79.9,op=-1,x=0.3744,mu=79.9,k=0,m=1} 0 0,4
371	2&3%4[W+ ] CP{kt=79.75,op=-1,x=1,mu=79.75,k=0,m=1} 0 0,4
372	2&4%0[cb ] CP{kt=72.8,op=-1,x=0.7987,mu=72.8,k=1,m=0} 0 3,5
373	2&4%1[cb ] CP{kt=100.5,op=-1,x=0.6363,mu=100.5,k=1,m=0} 0 3
374	2&4%3[cb ] CP{kt=80.54,op=-1,x=1,mu=80.54,k=1,m=0} 0 3,5
375	3&4%0[sb ] CP{kt=81.23,op=-1,x=0.6041,mu=81.23,k=1,m=0} 0 6,7
376	3&4%1[sb ] CP{kt=128.3,op=-1,x=0.5902,mu=128.3,k=1,m=0} 0 6
377	3&4%2[sb ] CP{kt=110.4,op=-1,x=1,mu=110.4,k=1,m=0} 0 6,7
378	k_{T,min}
379	(0,1,2,3,4) -> 0
380
381	set last k_T = 36.33 for (0,1,2,3,4) from (1,4)
382	set last k_T = 36.33 for (0,1,2,3,4) from (1,4)
383	[31mCombine_Table::CalcJet([32mmode = 512, nl = 4, complete = 1[31m) [0m[31m{[0m
384
385	Combine_Table (0x4152d00) 2 [OQCD=0] (up=1)
386	idcontent flav cut qcd qed mom
387	0 (0) sb 0 0/0 0/0 (92.06,0,0,92.06)
388	1 (1,4) cb 0 1/3 0/0 (113.2,0,0,-113.2)
389	2 (2) Z 0 0/0 0/0 (109.3,-23.04,45.66,-31.99)
390	3 (3) W+ 0 0/0 0/0 (95.89,23.04,-45.66,10.89)
391	---------------
392	k_{T,min}
393	(0,1,2,3,4) -> 36.33
394
395	[31mDefault_Core_Scale::Calculate([32m[31m) [0m[31m{[0m
396	(0x3daa1c0): 2 -> 2 {
397	\mu_r = 0, \mu_f = 0, \mu_q = 0, \mu = 0
398	k_T = 0, z = 0, phi = 0, kin = 0, K = 0
399	oew = 0, oqcd = 0, nlo = 0, new = (none), ncl = 0, flag = 0
400	(0) s (-92.06,-0,-0,-92.06) -4.046e-06 (-1,-1) [0\|0]
401	(1,4) c (-113.2,-0,-0,113.2) -3.016e-06 (-1,-1) [0\|0]
402	(2) Z (109.3,-23.04,45.66,-31.99) 91.19 (-1,-1) [0\|0]
403	(3) W+ (95.89,23.04,-45.66,10.89) 80.39 (-1,-1) [0\|0]
404	}
405	DY like
406	\mu_f = 204.1
407	\mu_r = 204.1
408	\mu_q = 204.1
409	[31m}[0m
410	[31m}[0m
411	[31m}[0m
412	Cluster_Algorithm::Convert(): {
413	[31mDefault_Core_Scale::Calculate([32m[31m) [0m[31m{[0m
414	(0x3e1f510): 2 -> 2 {
415	\mu_r = 90, \mu_f = 90, \mu_q = 90, \mu = 0
416	k_T = 0, z = 0, phi = 0, kin = 1, K = 0
417	oew = 2, oqcd = 1, nlo = 0, new = (none), ncl = 0, flag = 0
418	(0) s (-92.06,-0,-0,-92.06) -4.046e-06 (0,0) [1\|0]
419	(1,4) c (-113.2,-0,-0,113.2) -3.016e-06 (0,0) [1\|0] <-> (0)
420	(2) Z (109.3,-23.04,45.66,-31.99) 91.19 (0,0) [1\|0]
421	(3) W+ (95.89,23.04,-45.66,10.89) 80.39 (0,0) [1\|0]
422	}
423	DY like
424	\mu_f = 204.1
425	\mu_r = 204.1
426	\mu_q = 204.1
427	[31m}[0m
428	(0x3e1f510): 2 -> 2 {
429	\mu_r = 90, \mu_f = 90, \mu_q = 204.1, \mu = 204.1
430	k_T = 204.1, z = 0, phi = 0, kin = 1, K = 0
431	oew = 2, oqcd = 1, nlo = 0, new = (none), ncl = 0, flag = 0
432	(0) s (-92.06,-0,-0,-92.06) -4.046e-06 (0,0) [1\|4]
433	(1,4) c (-113.2,-0,-0,113.2) -3.016e-06 (0,0) [1\|4] <-> (0)
434	(2) Z (109.3,-23.04,45.66,-31.99) 91.19 (0,0) [1\|4]
435	(3) W+ (95.89,23.04,-45.66,10.89) 80.39 (0,0) [1\|4]
436	}
437	(0x3daa1c0): 2 -> 3 {
438	\mu_r = 90, \mu_f = 90, \mu_q = 90, \mu = 16.37
439	k_T = 36.33, z = 0, phi = 0, kin = 0, K = 0
440	oew = 2, oqcd = 2, nlo = 0, new = (4), ncl = 0, flag = 0
441	(0) s (-92.06,-0,-0,-92.06) -4.046e-06 (0,0) [0\|4]
442	(1) G (-188.1,-0,-0,188.1) -5.395e-06 (0,0) [0\|4]
443	(2) Z (108.4,-11.47,46,-34.56) 91.19 (0,0) [0\|4]
444	(3) W+ (98.63,33.83,-45.34,8.123) 80.39 (0,0) [0\|4]
445	(4) cb (73.06,-22.36,-0.6617,-69.55) -9.537e-07 (0,0) [0\|4]
446	}
447	}
448	[31m}[0m
449	[31mCS_MCatNLO::GeneratePoint([32m[31m) [0m[31m{[0m
450	CS_MCatNLO::PrepareMCatNLO(): {
451	(0x3daa1c0): 2 -> 3 {
452	\mu_r = 90, \mu_f = 90, \mu_q = 90, \mu = 16.37
453	k_T = 36.33, z = 0, phi = 0, kin = 0, K = 0
454	oew = 2, oqcd = 2, nlo = 0, new = (4), ncl = 0, flag = 0
455	(0) s (-92.06,-0,-0,-92.06) -4.046e-06 (0,0) [0\|4]
456	(1) G (-188.1,-0,-0,188.1) -5.395e-06 (0,0) [0\|4]
457	(2) Z (108.4,-11.47,46,-34.56) 91.19 (0,0) [0\|4]
458	(3) W+ (98.63,33.83,-45.34,8.123) 80.39 (0,0) [0\|4]
459	(4) cb (73.06,-22.36,-0.6617,-69.55) -9.537e-07 (0,0) [0\|4]
460	}
461
462	Singlet lists:
463
464	Singlet parton list from CS_MCatNLO : 0x3ebe170
465	IS Parton 0x3d62a50 (1)[(0)]: sb : (92.06,0,0,92.06) (0,0)[0,0]
466	k_T start : 36.33 k_T test : 0 k_T veto : 36.33(36.33) x_B : 0.02302
467	IS Parton 0x3f33ec0 (1)[(1)]: G : (188.1,0,0,-188.1) (0,0)[0,0]
468	k_T start : 36.33 k_T test : 0 k_T veto : 36.33(36.33) x_B : 0.04701
469	FS Parton 0x39c4ef0 (1)[(2)]: Z : (108.4,-11.47,46,-34.56) (0,0)[0,0]
470	k_T start : 36.33 k_T test : 0 k_T veto : 36.33(36.33) x_B : 1
471	FS Parton 0x3f2c720 (1)[(3)]: W+ : (98.63,33.83,-45.34,8.123) (0,0)[0,0]
472	k_T start : 36.33 k_T test : 0 k_T veto : 36.33(36.33) x_B : 1
473	FS Parton 0x4153260 (1)[(4)]: cb : (73.06,-22.36,-0.6617,-69.55) (0,0)[0,0]
474	k_T start : 36.33 k_T test : 0 k_T veto : 36.33(36.33) x_B : 1
475	-------------------------------------------------------------------------
476
477	}
478	filling partner list for sb(0) ... G(1) cb(4) -> 2 dipole(s)
479	filling partner list for G(1) ... sb(0) cb(4) -> 2 dipole(s)
480	filling partner list for Z(2) ... -> 0 dipole(s)
481	filling partner list for W+(3) ... -> 0 dipole(s)
482	filling partner list for cb(4) ... sb(0) G(1) -> 2 dipole(s)
483	before mc@nlo step
484	Singlet parton list from CS_MCatNLO : 0x3ebe170
485	IS Parton 0x3d62a50 (1)[(0)]: sb : (92.06,0,0,92.06) (0,0)[0,0]
486	k_T start : 36.33 k_T test : 0 k_T veto : 36.33(36.33) x_B : 0.02302
487	IS Parton 0x3f33ec0 (1)[(1)]: G : (188.1,0,0,-188.1) (0,0)[0,0]
488	k_T start : 36.33 k_T test : 0 k_T veto : 36.33(36.33) x_B : 0.04701
489	FS Parton 0x39c4ef0 (1)[(2)]: Z : (108.4,-11.47,46,-34.56) (0,0)[0,0]
490	k_T start : 36.33 k_T test : 0 k_T veto : 36.33(36.33) x_B : 1
491	FS Parton 0x3f2c720 (1)[(3)]: W+ : (98.63,33.83,-45.34,8.123) (0,0)[0,0]
492	k_T start : 36.33 k_T test : 0 k_T veto : 36.33(36.33) x_B : 1
493	FS Parton 0x4153260 (1)[(4)]: cb : (73.06,-22.36,-0.6617,-69.55) (0,0)[0,0]
494	k_T start : 36.33 k_T test : 0 k_T veto : 36.33(36.33) x_B : 1
495	-------------------------------------------------------------------------
496	Emission G -> sb s at kt = 21.56, z = 0.8756, y = 0.005879 for
497	IS Parton 0x3d62a50 (1)[(0)]: sb : (92.06,0,0,92.06) (0,0)[0,0]
498	k_T start : 36.33 k_T test : 21.56 k_T veto : 36.33(36.33) x_B : 0.02302
499	IS Parton 0x3f33ec0 (1)[(1)]: G : (188.1,0,0,-188.1) (0,0)[0,0]
500	k_T start : 36.33 k_T test : 0 k_T veto : 36.33(36.33) x_B : 0.04701
501
502	[31mShower::MakeKinematics([32m0[31m) [0m[31m{[0m
503	Singlet::ArrangeColours for sb --> G & s
504	[31mCS_Gamma::TrialWeight([32m[31m) [0m[31m{[0m
505	[31mCS_Gamma::CalculateWeight([32m0x3f33d90[31m) [0m[31m{[0m
506	(0x3d60bb0): 2 -> 4 {
507	\mu_r = 90, \mu_f = 90, \mu_q = 90, \mu = 16.37
508	k_T = 21.56, z = 0, phi = 0, kin = 0, K = 0
509	oew = 2, oqcd = 2, nlo = 0, new = (5), ncl = 0, flag = 0
510	(0) G (-105.1,-0,-0,-105.1) -4.473e-06 (0,0) [0\|4]
511	(1) G (-188.1,-0,-0,188.1) -5.395e-06 (0,0) [0\|4]
512	(2) Z (106.9,-10.05,43.49,-33.43) 91.19 (0,0) [0\|4]
513	(3) W+ (100.4,35.34,-48.01,8.157) 80.39 (0,0) [0\|4]
514	(5) s (13.57,-3.655,6.463,11.36) -4.13e-07 (0,0) [0\|4]
515	(4) cb (72.34,-21.64,-1.941,-69) -1.349e-06 (0,0) [0\|4]
516	}
517	Set fixed n_perp
518	[31mCS_Gamma::SingleWeight([32m(0),(4)<->(1)[31m) [0m[31m{[0m
519	B config -> (0x3edd8a0): 2 -> 3 {
520	\mu_r = 90, \mu_f = 21.56, \mu_q = 0, \mu = 0
521	k_T = 0, z = 0, phi = 0, kin = 0, K = 0
522	oew = 0, oqcd = 0, nlo = 0, new = (none), ncl = 0, flag = 0
523	(0,4) s (-92.06,-0,-0,-92.06) -4.046e-06 (0,0) [0\|0] <-> (1)
524	(1) G (-188.1,-0,-0,188.1) -5.395e-06 (0,0) [0\|0]
525	(2) Z (108.4,-11.47,46,-34.56) 91.19 (0,0) [0\|0]
526	(3) W+ (98.63,33.83,-45.34,8.123) 80.39 (0,0) [0\|0]
527	(5) cb (73.06,-22.36,-0.6617,-69.55) -1.349e-06 (0,0) [0\|0]
528	} -> CS{kt=21.56,z=0.8756,phi=0.2707,mode=3,kin=1} ( G -> sb s )
529	add ( z = 0.8756, y = 0.005879, kt = 21.56 ) {
530	(0) G (-105.1,-0,-0,-105.1) -4.473e-06 (0,0) [0\|4]
531	(4) s (13.57,-3.655,6.463,11.36) -4.13e-07 (0,0) [0\|4]
532	(1) G (-188.1,-0,-0,188.1) -5.395e-06 (0,0) [0\|4]
533	} -> w = 9.64e-06 * 0.00377 -> 3.635e-08 ( S = 1 )
534	[31m}[0m
535	[31m}[0m
536	Accumulate weights {
537	[(0,5),(1)] -> 3.635e-08 2_3__sb__G__Z__W+__cb [ G -> sb s ] ( \mu_F = 21.56, \mu_R = 90 ) <- active
538	} -> w = 3.635e-08
539	me / ecss = 3.095e-08 / 3.635e-08 = 0.8515
540	[31m}[0m
541	w = 0.2838 -> accept
542	[34m114:p_gamma->Weight()[0m=[32m3[0m
543	[31m}[0m
544	nem = 1 vs. maxem = 1
545	after mc@nlo step with 1 emission(s), w = 3
546	Singlet parton list from CS_MCatNLO : 0x3ebe170
547	IS Parton 0x4172f70 (1)[(0)]: G : (105.1,0,0,105.1) (0,601)[0,601]
548	k_T start : 21.56 k_T test : 0 k_T veto : 36.33(36.33) x_B : 1
549	FS Parton 0x3edd730 (1)[(none)]: s : (13.57,-3.655,6.463,11.36) (601,0)[601,0]
550	k_T start : 21.56 k_T test : 0 k_T veto : 36.33(36.33) x_B : 1
551	IS Parton 0x3f33ec0 (1)[(1)]: G : (188.1,0,0,-188.1) (0,0)[0,0]
552	k_T start : 21.56 k_T test : 0 k_T veto : 36.33(36.33) x_B : 0.04701
553	FS Parton 0x39c4ef0 (1)[(2)]: Z : (106.9,-10.05,43.49,-33.43) (0,0)[0,0]
554	k_T start : 21.56 k_T test : 0 k_T veto : 36.33(36.33) x_B : 1
555	FS Parton 0x3f2c720 (1)[(3)]: W+ : (100.4,35.34,-48.01,8.157) (0,0)[0,0]
556	k_T start : 21.56 k_T test : 0 k_T veto : 36.33(36.33) x_B : 1
557	FS Parton 0x4153260 (1)[(4)]: cb : (72.34,-21.64,-1.941,-69) (0,0)[0,0]
558	k_T start : 21.56 k_T test : 0 k_T veto : 36.33(36.33) x_B : 1
559	-------------------------------------------------------------------------
560
561	[31m}[0m
562	[31mCS_Cluster_Definitions::KPerp2([32mkin = 1, mode = 0[31m) [0m[31m{[0m
563	Set fixed n_perp
564	Kernel weight (A=1/NLO=0) [m=3,c=1] ( x = 0.02302 ) LF_VFF_II\|CF_QCD {
565	(0) G (-105.1,-0,-0,-105.1) -4.473e-06 (0,601) [0\|4]
566	(5) s (13.57,-3.655,6.463,11.36) -4.13e-07 (601,0) [0\|4]
567	(1) G (-188.1,-0,-0,188.1) -5.395e-06 (0,0) [0\|4]
568	} -> w = 0.001766 (566.3)
569	[31m}[0m
570	R selected via Sudakov (0x3f33d90): 2 -> 4 {
571	\mu_r = 90, \mu_f = 90, \mu_q = 90, \mu = 21.56
572	k_T = 21.56, z = 0, phi = 0, kin = 0, K = 0
573	oew = 2, oqcd = 3, nlo = 0, new = (5), ncl = 0, flag = 0
574	(0) G (-105.1,-0,-0,-105.1) -4.473e-06 (0,601) [0\|4]
575	(1) G (-188.1,-0,-0,188.1) -5.395e-06 (0,0) [0\|4]
576	(2) Z (106.9,-10.05,43.49,-33.43) 91.19 (0,0) [0\|4]
577	(3) W+ (100.4,35.34,-48.01,8.157) 80.39 (0,0) [0\|4]
578	(5) s (13.57,-3.655,6.463,11.36) -4.13e-07 (601,0) [0\|4]
579	(4) cb (72.34,-21.64,-1.941,-69) -1.349e-06 (0,0) [0\|4]
580	} ( w = 3 )
581	[31m}[0m
582	[31mSignal_Processes::FillBlob([32m1[31m) [0m[31m{[0m
583	[31mScale_Variations::ComputeVariations([32m2_4__G__G__Z__W+__s__cb[31m) [0m[31m{[0m
584	[31m}[0m
585	[31m}[0m
586	Event_Handler::IterateEventPhases(): run 'Signal_Processes' -> Success
587	Blob List with 1 elements {
588	Blob [6]( 1, Signal Process , 2 -> 4 @ (0,0,0,0)
589	Incoming particles :
590	[G] 2 G 1 ( -> 1) [( 1.0515e+02, 0.0000e+00, 0.0000e+00, 1.0515e+02), p^2=-2.0009e-11, m= 0.0000e+00] ( 0, 0)
591	[G] 2 G 2 ( -> 1) [( 1.8806e+02, 0.0000e+00, 0.0000e+00,-1.8806e+02), p^2=-2.9104e-11, m= 0.0000e+00] ( 0, 0)
592	Outgoing particles :
593	[H] 1 Z 3 ( 1 -> ) [( 1.0689e+02,-1.0049e+01, 4.3488e+01,-3.3426e+01), p^2= 8.3152e+03, m= 9.1188e+01] ( 0, 0)
594	[H] 1 W+ 4 ( 1 -> ) [( 1.0041e+02, 3.5341e+01,-4.8010e+01, 8.1566e+00), p^2= 6.4617e+03, m= 8.0385e+01] ( 0, 0)
595	[H] 1 s 5 ( 1 -> ) [( 1.3572e+01,-3.6549e+00, 6.4633e+00, 1.1360e+01), p^2=-1.7053e-13, m= 0.0000e+00] ( 0, 0)
596	[H] 1 cb 6 ( 1 -> ) [( 7.2337e+01,-2.1638e+01,-1.9414e+00,-6.8997e+01), p^2=-1.8190e-12, m= 0.0000e+00] ( 0, 0)
597	Data_Container:
598	* Decay_Info ({NULL})
599	* Enhance (1)
600	* Factorisation_Scale (8100)
601	* MEWeight (1.805e-05)
602	* MEWeightInfo (0x1deb518)
603	* NLOEWType ()
604	* NLOQCDType ()
605	* Orders ((2,2))
606	* PDFInfo ( pdf1 = (-3,0.02302,90:0.04173) , pdf2 = (21,0.04701,90:2.281))
607	* Renormalization_Scale (8100)
608	* ScaleVariations (0 variations)
609	* Trials (1)
610	* Weight (756.5)
611	* Weight_Norm (140.3)
612
613	}
614	[31mME_Generator_Base::ShiftMasses([32mComix[31m) [0m[31m{[0m
615	Before shift: (0x3eaadf0): 2 -> 4 {
616	\mu_r = 90, \mu_f = 90, \mu_q = 90, \mu = 21.56
617	k_T = 21.56, z = 0, phi = 0, kin = 0, K = 1.873
618	oew = 2, oqcd = 3, nlo = 1, new = (5), ncl = 0, flag = 0
619	(0) G (-105.1,-0,-0,-105.1) -4.473e-06 (0,601) [0\|4]
620	(1) G (-188.1,-0,-0,188.1) -5.395e-06 (0,0) [0\|4]
621	(2) Z (106.9,-10.05,43.49,-33.43) 91.19 (0,0) [0\|4]
622	(3) W+ (100.4,35.34,-48.01,8.157) 80.39 (0,0) [0\|4]
623	(5) s (13.57,-3.655,6.463,11.36) -4.13e-07 (601,0) [0\|4]
624	(4) cb (72.34,-21.64,-1.941,-69) -1.349e-06 (0,0) [0\|4]
625	}
626	After shift: (0x3eaadf0): 2 -> 4 {
627	\mu_r = 90, \mu_f = 90, \mu_q = 90, \mu = 21.56
628	k_T = 21.56, z = 0, phi = 0, kin = 0, K = 1.873
629	oew = 2, oqcd = 3, nlo = 1, new = (5), ncl = 0, flag = 0
630	(0) G (-105.1,0,0,-105.1) 1.349e-06 (0,601) [0\|4]
631	(1) G (-188.1,0,0,188.1) 3.815e-06 (0,0) [0\|4]
632	(2) Z (106.9,-10.05,43.48,-33.43) 91.19 (0,0) [0\|4]
633	(3) W+ (100.4,35.34,-48,8.153) 80.39 (0,0) [0\|4]
634	(5) s (13.57,-3.654,6.462,11.36) -1.686e-07 (601,0) [0\|4]
635	(4) cb (72.35,-21.63,-1.941,-68.99) 1.42 (0,0) [0\|4]
636	}
637	[31m}[0m
638	[31mCluster_Definitions_Base::ReCluster([32m0x17e5bf0[31m) [0m[31m{[0m
639	(0x3eaadf0): 2 -> 4 {
640	\mu_r = 90, \mu_f = 90, \mu_q = 90, \mu = 21.56
641	k_T = 21.56, z = 0, phi = 0, kin = 0, K = 1.873
642	oew = 2, oqcd = 3, nlo = 1, new = (5), ncl = 0, flag = 0
643	(0) G (-105.1,0,0,-105.1) 1.349e-06 (0,601) [0\|4]
644	(1) G (-188.1,0,0,188.1) 3.815e-06 (0,0) [0\|4]
645	(2) Z (106.9,-10.05,43.48,-33.43) 91.19 (0,0) [0\|4]
646	(3) W+ (100.4,35.34,-48,8.153) 80.39 (0,0) [0\|4]
647	(5) s (13.57,-3.654,6.462,11.36) -1.686e-07 (601,0) [0\|4]
648	(4) cb (72.35,-21.63,-1.941,-68.99) 1.42 (0,0) [0\|4]
649	}
650	(0x3ebc410): 2 -> 3 {
651	\mu_r = 90, \mu_f = 90, \mu_q = 90, \mu = 16.37
652	k_T = 36.33, z = 0, phi = 0, kin = 1, K = 1.873
653	oew = 2, oqcd = 2, nlo = 5, new = (4), ncl = 0, flag = 0
654	(0,5) s (-92.07,-0,-0,-92.07) 1.349e-06 (0,0) [1\|4] <-> (1)
655	(1) G (-188.1,0,0,188.1) 3.815e-06 (0,0) [1\|4]
656	(2) Z (108.4,-11.47,45.99,-34.56) 91.19 (0,0) [1\|4]
657	(3) W+ (98.62,33.82,-45.33,8.12) 80.39 (0,0) [1\|4]
658	(4) cb (73.07,-22.36,-0.6613,-69.55) 1.42 (0,0) [1\|4]
659	}
660	(0x3d60bb0): 2 -> 2 {
661	\mu_r = 90, \mu_f = 90, \mu_q = 204.1, \mu = 204.1
662	k_T = 204.1, z = 0, phi = 0, kin = 1, K = 1.873
663	oew = 2, oqcd = 1, nlo = 1, new = (none), ncl = 0, flag = 0
664	(0,5) s (-92.07,-0,-0,-92.07) 1.349e-06 (0,0) [1\|4]
665	(1,4) c (-113.2,-0,-0,113.1) 1.42 (0,0) [1\|4] <-> (0,5)
666	(2) Z (109.3,-23.04,45.65,-31.97) 91.19 (0,0) [1\|4]
667	(3) W+ (95.89,23.04,-45.65,10.9) 80.39 (0,0) [1\|4]
668	}
669	[31m}[0m
670	[31mCS_Shower::PrepareStandardShower([32m[31m) [0m[31m{[0m
671
672	[1mException_Handler::SignalHandler: [0m[34mSignal [0m[1m([31m11[0m[1m)[0m[34m caught. [0m
673	[0m Cannot continue.[0m
674	[1mException_Handler::GenerateStackTrace(..): [0m[34mGenerating stack trace [0m[1m
675	{[0m
676	0x7f87139dd02d in '[31mATOOLS::Exception_Handler::GenerateStackTrace(std::ostream&, bool, std::string const&)[0m' ([36mException_Handler.C:318[0m)
677	from '[33m/scratch/sherpa/trunk/lib/SHERPA-MC/libToolsOrg.so.0[0m'
678	0x7f87139de511 in '[31mATOOLS::Exception_Handler::Terminate()[0m' ([36mbasic_string.h:2689[0m)
679	from '[33m/scratch/sherpa/trunk/lib/SHERPA-MC/libToolsOrg.so.0[0m'
680	0x7f87139df0da in '[31mATOOLS::Exception_Handler::SignalHandler(int)[0m' ([36mException_Handler.C:305[0m)
681	from '[33m/scratch/sherpa/trunk/lib/SHERPA-MC/libToolsOrg.so.0[0m'
682	0x7f87139df562 in '[31mATOOLS::SignalHandler(int)[0m' ([36mException_Handler.C:244[0m)
683	from '[33m/scratch/sherpa/trunk/lib/SHERPA-MC/libToolsOrg.so.0[0m'
684	0x7f872a3b3e56 in '[31mCSSHOWER::CS_Shower::SetColours(ATOOLS::Cluster_Amplitude*)[0m' ([36mCluster_Amplitude.H:94[0m)
685	from '[33m/scratch/sherpa/trunk/lib/SHERPA-MC/libCSMain.so.0[0m'
686	0x7f872a3b459f in '[31mCSSHOWER::CS_Shower::PrepareStandardShower(ATOOLS::Cluster_Amplitude*)[0m' ([36mCS_Shower.C:284 (discriminator 1)[0m)
687	from '[33m/scratch/sherpa/trunk/lib/SHERPA-MC/libCSMain.so.0[0m'
688	0x7f872bc87a85 in '[31mSHERPA::Perturbative_Interface::DefineInitialConditions(ATOOLS::Blob*)[0m' ([36mPerturbative_Interface.C:205[0m)
689	from '[33m/scratch/sherpa/trunk/lib/SHERPA-MC/libSherpaPerturbativePhysics.so.0[0m'
690	0x7f872120600d in '[31mSHERPA::Jet_Evolution::AttachShowers(ATOOLS::Blob, ATOOLS::Blob_List, SHERPA::Perturbative_Interface*)[0m' ([36mJet_Evolution.C:156[0m)
691	from '[33m/scratch/sherpa/trunk/lib/SHERPA-MC/libSherpaSingleEvents.so.0[0m'
692	0x7f8721207155 in '[31mSHERPA::Jet_Evolution::Treat(ATOOLS::Blob_List*, double&)[0m' ([36mJet_Evolution.C:110[0m)
693	from '[33m/scratch/sherpa/trunk/lib/SHERPA-MC/libSherpaSingleEvents.so.0[0m'
694	0x7f87211f2eca in '[31mSHERPA::Event_Handler::IterateEventPhases(SHERPA::eventtype::code&, double&)[0m' ([36mEvent_Handler.C:192[0m)
695	from '[33m/scratch/sherpa/trunk/lib/SHERPA-MC/libSherpaSingleEvents.so.0[0m'
696	0x7f87211f39c6 in '[31mSHERPA::Event_Handler::GenerateStandardPerturbativeEvent(SHERPA::eventtype::code&)[0m' ([36mEvent_Handler.C:260[0m)
697	from '[33m/scratch/sherpa/trunk/lib/SHERPA-MC/libSherpaSingleEvents.so.0[0m'
698	0x7f87211f5b0d in '[31mSHERPA::Event_Handler::GenerateEvent(SHERPA::eventtype::code)[0m' ([36mEvent_Handler.C:142[0m)
699	from '[33m/scratch/sherpa/trunk/lib/SHERPA-MC/libSherpaSingleEvents.so.0[0m'
700	0x7f872c0f0234 in '[31mSHERPA::Sherpa::GenerateOneEvent(bool)[0m' ([36mSherpa.C:217[0m)
701	from '[33m/scratch/sherpa/trunk/lib/SHERPA-MC/libSherpaMain.so.0[0m'
702	0x4090cd in '[31mmain[0m' ([36mMain.C:27[0m)
703	from '[33m/scratch/sherpa/trunk/bin/Sherpa[0m'
704	[1m}[0m
705	Exception_Handler::Terminate(): Pre-crash status saved to '/home/fsiegert/sherpa/tests/libs/trunk/wzj/Status__Thu_Nov_12_11-31-39_2015'.
706	Exception_Handler::ApproveTerminate(): Asking for termination ...
707	... approved.
708	Exception_Handler::PrepareTerminate(): Preparing termination ...
709	Event 43 ( 0 s total ) = 1.615e+07 evts/day
710	In Event_Handler::Finish : Summarizing the run may take some time.
711	[1m+------------------------------------------------------+
712	\| \|
713	\|[0m [1mTotal XS[0m is [34m[1m7.19097 pb[0m +- ( [31m3.16245 pb = 43.97 %[0m ) [1m\|
714	\| \|
715	+------------------------------------------------------+[0m
716	... prepared.
717	[1mException_Handler::Exit: [0m[34mExiting Sherpa with code [0m[1m([31m2[0m[1m)[0m[?25h

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Ticket #359: debug.txt

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