MG5_aMC_v3_1_1

1. atching file models/sm/restrict_ckm.dat
2. patching file models/sm/restrict_c_mass.dat
3. patching file models/sm/restrict_default.dat
4. patching file models/sm/restrict_lepton_masses.dat
5. patching file models/sm/restrict_no_b_mass.dat
6. patching file models/sm/restrict_no_masses.dat
7. patching file models/sm/restrict_no_tau_mass.dat
8. patching file models/sm/restrict_no_widths.dat
9. patching file models/sm/restrict_zeromass_ckm.dat
10. patching file models/loop_sm/restrict_ckm.dat
11. patching file models/loop_sm/restrict_c_mass.dat
12. patching file models/loop_sm/restrict_default.dat
13. patching file models/loop_sm/restrict_lepton_masses.dat
14. patching file models/loop_sm/restrict_no_b_mass.dat
15. patching file models/loop_sm/restrict_no_masses.dat
16. patching file models/loop_sm/restrict_no_tau_mass.dat
17. patching file models/loop_sm/restrict_no_widths.dat
18. patching file models/loop_sm/restrict_parallel_test.dat
19. patching file models/loop_sm/restrict_test.dat
20. patching file models/loop_sm/restrict_zeromass_ckm.dat
21. patching file madgraph/interface/loop_interface.py
22. Hunk #1 succeeded at 25 with fuzz 1 (offset 2 lines).
23. Hunk #2 succeeded at 522 with fuzz 2 (offset 19 lines).
24. patching file vendor/CutTools/makefile
25. patching file vendor/IREGI/src/makefile_ML5_lib
26. patching file madgraph/various/misc.py
27. Hunk #1 succeeded at 483 (offset 14 lines).
28. patching file madgraph/various/cluster.py
29. Hunk #1 succeeded at 881 (offset 6 lines).
30. Hunk #2 succeeded at 958 (offset 7 lines).
31. patching file models/loop_sm/restrict_ckm_c_mass.dat
32. patching file input/mg5_configuration.txt
33. Hunk #1 succeeded at 101 (offset 7 lines).
34. Hunk #2 succeeded at 169 (offset 7 lines).
35. Hunk #3 succeeded at 206 with fuzz 2 (offset 7 lines).
36. patching file input/.mg5_configuration_default.txt
37. Hunk #1 succeeded at 101 (offset 7 lines).
38. Hunk #2 succeeded at 169 (offset 7 lines).
39. Hunk #3 succeeded at 206 with fuzz 2 (offset 7 lines).
40. patching file bin/.compile.py
41. Hunk #3 succeeded at 173 (offset 1 line).
42. Hunk #4 succeeded at 195 (offset 1 line).
43. Hunk #5 succeeded at 279 with fuzz 1 (offset 1 line).
44. patching file madgraph/various/banner.py
45. Hunk #1 succeeded at 4218 (offset 97 lines).
46. make: Entering directory `/tmp/dkonst/tar/MG5_aMC_v3_1_1/vendor/CutTools'
47. cp -p ./src/cts/cts_qpr.in ./src/cts/cts_mpr.h
48. cp -p ./src/cts/cts_qpc.in ./src/cts/cts_mpc.h
49. cp -p ./src/cts/cts_qprec.in ./src/cts/cts_mprec.h
50. cp -p ./src/cts/cts_qpinit.in ./src/cts/cts_mpinit.h
51. mkdir -p includects
52. cp -p ./src/avh/* includects/
53. cp -p ./src/cts/* includects/
54. cp -p ./src/mpfun90/* includects/
55. cp -p ./src/qcdloop/* includects/
56. cp -p ./src/makefile includects/
57. cd includects && make EXE="" FC="gfortran" FFLAGS="-std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops" default
58. make[1]: Entering directory `/tmp/dkonst/tar/MG5_aMC_v3_1_1/vendor/CutTools/includects'
59. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -c mpfun90.f90
60. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -c mpmod90.f90
61. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -c mpmodm90.f90
62. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -c mpmodx90.f90
63. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -c avh_olo.f90
64. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -c cts_type.f90
65. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -c cts_tensors.f90
66. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -c cts_constants.f90
67. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -c cts_combinatorics.f90
68. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -c cts_dynamics.f90
69. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -c cts_kinematics.f90
70. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -c cts_loopfunctions.f90
71. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -c cts_cuttools.f90
72. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -c cts_cutroutines.f90
73. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c aaxbx.f
74. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c aaxcx.f
75. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c aaxdx.f
76. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c aaxex.f
77. aaxex.f:464:35:
78.  
79. 463 | do i=16,35
80. | 2
81. 464 | cexi(i) = ce3ijk(m2ijk(1,i),m2ijk(2,i),m2ijk(3,i))
82. | 1
83. Warning: Array reference at (1) out of bounds (35 > 20) in loop beginning at (2)
84. aaxex.f:464:46:
85.  
86. 463 | do i=16,35
87. | 2
88. 464 | cexi(i) = ce3ijk(m2ijk(1,i),m2ijk(2,i),m2ijk(3,i))
89. | 1
90. Warning: Array reference at (1) out of bounds (35 > 20) in loop beginning at (2)
91. aaxex.f:464:57:
92.  
93. 463 | do i=16,35
94. | 2
95. 464 | cexi(i) = ce3ijk(m2ijk(1,i),m2ijk(2,i),m2ijk(3,i))
96. | 1
97. Warning: Array reference at (1) out of bounds (35 > 20) in loop beginning at (2)
98. f951: Warning: iteration 4 invokes undefined behavior [-Waggressive-loop-optimizations]
99. aaxex.f:463:0:
100.  
101. 463 | do i=16,35
102. |
103. note: within this loop
104. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c aaxinv.f
105. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c aacbc.f
106. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c aaccc.f
107. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c aacinv.f
108. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c spence.f
109. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c npoin.f
110. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ff2dl2.f
111. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffabcd.f
112. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffca0.f
113. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffcb0.f
114. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffcb1.f
115. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffcb2.f
116. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffcb2p.f
117. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffcdb0.f
118. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffcc0.f
119. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffcc0p.f
120. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffcc1.f
121. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffcel2.f
122. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffcel3.f
123. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffcel4.f
124. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffcel5.f
125. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffceta.f
126. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffcli2.f
127. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffcrr.f
128. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffcxr.f
129. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffcxs3.f
130. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffcxs4.f
131. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffcxyz.f
132. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffdcc0.f
133. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffdcxs.f
134. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffdel2.f
135. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffdel3.f
136. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffdel4.f
137. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffdel5.f
138. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffdel6.f
139. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffdl2i.f
140. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffdl5p.f
141. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffdxc0.f
142. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffinit_mine.f
143. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffrcvr.f
144. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c fftran.f
145. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffxb0.f
146. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffxb1.f
147. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffxb2p.f
148. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffxc0.f
149. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffxc0i.f
150. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffxc0p.f
151. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffxc1.f
152. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffxd0.f
153. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffxd0h.f
154. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffxd0i.f
155. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffxd0p.f
156. ffxd0p.f:463:31:
157.  
158. 463 | call ffcxra(cs4(169),ipi12(25),xqi,qiDqj,sdel2,3,ier)
159. | 1
160. Warning: Actual argument contains too few elements for dummy argument ‘ipi12’ (2/3) at (1) [-Wargument-mismatch]
161. ffxd0p.f:466:31:
162.  
163. 466 | call ffxtra(cs4(169),ipi12(25),xqi,qiDqj,sdel2,3,ier)
164. | 1
165. Warning: Actual argument contains too few elements for dummy argument ‘ipi12’ (2/3) at (1) [-Wargument-mismatch]
166. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffxd1.f
167. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffxdb0.f
168. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffxdbd.f
169. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffxdi.f
170. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffxdpv.f
171. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffxe0.f
172. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffxe1.f
173. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffxf0.f
174. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffxf0h.f
175. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffxli2.f
176. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ffxxyz.f
177. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlinit.f
178. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlI4.f
179. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlI3.f
180. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlI2.f
181. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlI1.f
182. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlI4array.f
183. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlzero.f
184. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlI4fin.f
185. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlI4DNS41.f
186. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlI4sub0m.f
187. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlI4sub1m.f
188. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlI4sub2m.f
189. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlI4sub2ma.f
190. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlI4sub2mo.f
191. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlI4sub3m.f
192. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlI3fin.f
193. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlI3sub.f
194. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlI2fin.f
195. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlfndd.f
196. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlLi2omprod.f
197. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlLi2omrat.f
198. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qllnomrat4.f
199. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlLi2omx.f
200. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlLi2omx2.f
201. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qltrisort.f
202. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlsnglsort.f
203. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qltri1.f
204. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qltri2.f
205. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qltri3.f
206. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qltri4.f
207. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qltri5.f
208. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qltri6.f
209. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlbox1.f
210. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlbox2.f
211. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlbox3.f
212. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlbox4.f
213. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlbox5.f
214. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlbox6.f
215. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlbox7.f
216. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlbox8.f
217. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlbox9.f
218. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlbox10.f
219. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlbox11.f
220. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlbox12.f
221. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlbox13.f
222. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlbox14.f
223. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlbox15.f
224. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlbox16.f
225. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlcLi2omx2.f
226. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlcLi2omx3.f
227. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c auxCD.f
228. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlspencer.f
229. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlratreal.f
230. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlratgam.f
231. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c ddilog.f
232. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qllnrat.f
233. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlfunctions.f
234. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlYcalc.f
235. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlkfn.f
236. gfortran -std=legacy -fPIC -fno-automatic -O2 -funroll-all-loops -std=legacy -c qlxpicheck.f
237. ar cru libcts.a mpfun90.o mpmod90.o mpmodm90.o mpmodx90.o avh_olo.o cts_type.o cts_tensors.o cts_constants.o cts_combinatorics.o cts_dynamics.o cts_kinematics.o cts_loopfunctions.o cts_cuttools.o cts_cutroutines.o aaxbx.o aaxcx.o aaxdx.o aaxex.o aaxinv.o aacbc.o aaccc.o aacinv.o spence.o npoin.o ff2dl2.o ffabcd.o ffca0.o ffcb0.o ffcb1.o ffcb2.o ffcb2p.o ffcdb0.o ffcc0.o ffcc0p.o ffcc1.o ffcel2.o ffcel3.o ffcel4.o ffcel5.o ffceta.o ffcli2.o ffcrr.o ffcxr.o ffcxs3.o ffcxs4.o ffcxyz.o ffdcc0.o ffdcxs.o ffdel2.o ffdel3.o ffdel4.o ffdel5.o ffdel6.o ffdl2i.o ffdl5p.o ffdxc0.o ffinit_mine.o ffrcvr.o fftran.o ffxb0.o ffxb1.o ffxb2p.o ffxc0.o ffxc0i.o ffxc0p.o ffxc1.o ffxd0.o ffxd0h.o ffxd0i.o ffxd0p.o ffxd1.o ffxdb0.o ffxdbd.o ffxdi.o ffxdpv.o ffxe0.o ffxe1.o ffxf0.o ffxf0h.o ffxli2.o ffxxyz.o qlinit.o qlI4.o qlI3.o qlI2.o qlI1.o qlI4array.o qlzero.o qlI4fin.o qlI4DNS41.o qlI4sub0m.o qlI4sub1m.o qlI4sub2m.o qlI4sub2ma.o qlI4sub2mo.o qlI4sub3m.o qlI3fin.o qlI3sub.o qlI2fin.o qlfndd.o qlLi2omprod.o qlLi2omrat.o qllnomrat4.o qlLi2omx.o qlLi2omx2.o qltrisort.o qlsnglsort.o qltri1.o qltri2.o qltri3.o qltri4.o qltri5.o qltri6.o qlbox1.o qlbox2.o qlbox3.o qlbox4.o qlbox5.o qlbox6.o qlbox7.o qlbox8.o qlbox9.o qlbox10.o qlbox11.o qlbox12.o qlbox13.o qlbox14.o qlbox15.o qlbox16.o qlcLi2omx2.o qlcLi2omx3.o auxCD.o qlspencer.o qlratreal.o qlratgam.o ddilog.o qllnrat.o qlfunctions.o qlYcalc.o qlkfn.o qlxpicheck.o
238. ranlib libcts.a
239. make[1]: Leaving directory `/tmp/dkonst/tar/MG5_aMC_v3_1_1/vendor/CutTools/includects'
240. gfortran -dumpversion > includects/compiler_version.log
241. rm -fr includects/*.f
242. rm -fr includects/*.f90
243. rm -fr includects/*.o
244. rm -fr includects/makefile
245. make: Leaving directory `/tmp/dkonst/tar/MG5_aMC_v3_1_1/vendor/CutTools'
246. make: Entering directory `/tmp/dkonst/tar/MG5_aMC_v3_1_1/vendor/StdHEP'
247. test -d ./bin || mkdir -p ./bin
248. test -d ./lib || mkdir -p ./lib
249. (cd mcfio/src; make all) > log.mcfio.$$ 2>&1
250. (cd src/stdhep; make all) > log.stdhep.$$ 2>&1
251. make: Leaving directory `/tmp/dkonst/tar/MG5_aMC_v3_1_1/vendor/StdHEP'
252. ************************************************************
253. * *
254. * W E L C O M E to *
255. * M A D G R A P H 5 _ a M C @ N L O *
256. * *
257. * *
258. * * * *
259. * * * * * *
260. * * * * * 5 * * * * *
261. * * * * * *
262. * * * *
263. * *
264. * VERSION 3.1.1 2021-05-28 *
265. * *
266. * The MadGraph5_aMC@NLO Development Team - Find us at *
267. * https://server06.fynu.ucl.ac.be/projects/madgraph *
268. * and *
269. * http://amcatnlo.web.cern.ch/amcatnlo/ *
270. * *
271. * Type 'help' for in-line help. *
272. * Type 'tutorial' to learn how MG5 works *
273. * Type 'tutorial aMCatNLO' to learn how aMC@NLO works *
274. * Type 'tutorial MadLoop' to learn how MadLoop works *
275. * *
276. ************************************************************
277. load MG5 configuration from input/mg5_configuration.txt
278. fastjet-config does not seem to correspond to a valid fastjet-config executable (v3+). We will use fjcore instead.
279. Please set the 'fastjet'variable to the full (absolute) /PATH/TO/fastjet-config (including fastjet-config).
280. MG5_aMC> set fastjet /PATH/TO/fastjet-config
281.  
282. set ninja to /cvmfs/sft.cern.ch/lcg/releases/LCG_100/MCGenerators/gosam_contrib/2.0/x86_64-centos7-gcc9-opt/lib
283. set collier to /cvmfs/sft.cern.ch/lcg/releases/LCG_100/MCGenerators/collier/1.2.4/x86_64-centos7-gcc9-opt/lib
284. set lhapdf to lhapdf-config
285. set lhapdf to /cvmfs/sft.cern.ch/lcg/releases/LCG_100/MCGenerators/lhapdf/6.3.0/x86_64-centos7-gcc9-opt/bin/lhapdf-config
286. Using default eps viewer "evince". Set another one in ./input/mg5_configuration.txt
287. Using default web browser "firefox". Set another one in ./input/mg5_configuration.txt
288. load particles
289. load vertices
290. make model.pkl for hgg_plugin : 0.034123s
291. load particles
292. load vertices
293. make model.pkl for MSSM_SLHA2 : 0.725197s
294. load particles
295. load vertices
296. make model.pkl for taudecay_UFO : 0.024631s
297. --- Logging error ---
298. Traceback (most recent call last):
299. File "/cvmfs/sft.cern.ch/lcg/releases/LCG_100/Python/3.8.6/x86_64-centos7-gcc9-opt/lib/python3.8/logging/__init__.py", line 1081, in emit
300. msg = self.format(record)
301. File "/cvmfs/sft.cern.ch/lcg/releases/LCG_100/Python/3.8.6/x86_64-centos7-gcc9-opt/lib/python3.8/logging/__init__.py", line 925, in format
302. return fmt.format(record)
303. File "/cvmfs/sft.cern.ch/lcg/releases/LCG_100/Python/3.8.6/x86_64-centos7-gcc9-opt/lib/python3.8/logging/__init__.py", line 664, in format
304. record.message = record.getMessage()
305. File "/cvmfs/sft.cern.ch/lcg/releases/LCG_100/Python/3.8.6/x86_64-centos7-gcc9-opt/lib/python3.8/logging/__init__.py", line 369, in getMessage
306. msg = msg % self.args
307. TypeError: not all arguments converted during string formatting
308. Call stack:
309. File "bin/.compile.py", line 299, in <module>
310. Compile_MG5(sys.argv[1:])
311. File "bin/.compile.py", line 59, in __init__
312. self.make_UFO_pkl()
313. File "bin/.compile.py", line 124, in make_UFO_pkl
314. import_ufo.import_full_model(model_path)
315. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/models/import_ufo.py", line 397, in import_full_model
316. ufo2mg5_converter = UFOMG5Converter(ufo_model)
317. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/models/import_ufo.py", line 471, in __init__
318. logger.info("This model [version %(version)s] is provided by %(author)s (email: %(email)s). Please cite %(arxiv)s" % f, '$MG:color:BLACK')
319. Message: 'This model [version 1.2] is provided by V. Hirschi (email: [email protected]). Please cite n/a'
320. Arguments: ('$MG:color:BLACK',)
321. load particles
322. load vertices
323. make model.pkl for loop_sm : 0.214228s
324. load particles
325. load vertices
326. make model.pkl for sm : 0.054048s
327. Compiling StdHEP in /tmp/dkonst/tar/MG5_aMC_v3_1_1/vendor/StdHEP.
328. Compiling CutTools in /tmp/dkonst/tar/MG5_aMC_v3_1_1/vendor/CutTools.
329. Compiling IREGI in /tmp/dkonst/tar/MG5_aMC_v3_1_1/vendor/IREGI/src.
330. generate p p > t t~
331. No model currently active, so we import the Standard Model
332. reload from .py file
333. load particles
334. load vertices
335. Restrict model sm with file models/sm/restrict_default.dat .
336. Run "set stdout_level DEBUG" before import for more information.
337. Change particles name to pass to MG5 convention
338. Defined multiparticle p = g u c d s u~ c~ d~ s~
339.  
340. You have just defined a multiparticle label.
341. If you followed the tutorial, the label is "v"
342.  
343. Note that some multiparticles such as as p, j, l+, l- are
344. predefined. Type
345. MG5_aMC>display multiparticles
346. to see their definitions.
347.  
348. MG5 allows you to store a file with the list of command that you have
349. used in an interactive session:
350. MG5_aMC>history my_mg5_cmd.dat
351.  
352. Defined multiparticle j = g u c d s u~ c~ d~ s~
353.  
354. You have just defined a multiparticle label.
355. If you followed the tutorial, the label is "v"
356.  
357. Note that some multiparticles such as as p, j, l+, l- are
358. predefined. Type
359. MG5_aMC>display multiparticles
360. to see their definitions.
361.  
362. MG5 allows you to store a file with the list of command that you have
363. used in an interactive session:
364. MG5_aMC>history my_mg5_cmd.dat
365.  
366. Defined multiparticle l+ = e+ mu+
367.  
368. You have just defined a multiparticle label.
369. If you followed the tutorial, the label is "v"
370.  
371. Note that some multiparticles such as as p, j, l+, l- are
372. predefined. Type
373. MG5_aMC>display multiparticles
374. to see their definitions.
375.  
376. MG5 allows you to store a file with the list of command that you have
377. used in an interactive session:
378. MG5_aMC>history my_mg5_cmd.dat
379.  
380. Defined multiparticle l- = e- mu-
381.  
382. You have just defined a multiparticle label.
383. If you followed the tutorial, the label is "v"
384.  
385. Note that some multiparticles such as as p, j, l+, l- are
386. predefined. Type
387. MG5_aMC>display multiparticles
388. to see their definitions.
389.  
390. MG5 allows you to store a file with the list of command that you have
391. used in an interactive session:
392. MG5_aMC>history my_mg5_cmd.dat
393.  
394. Defined multiparticle vl = ve vm vt
395.  
396. You have just defined a multiparticle label.
397. If you followed the tutorial, the label is "v"
398.  
399. Note that some multiparticles such as as p, j, l+, l- are
400. predefined. Type
401. MG5_aMC>display multiparticles
402. to see their definitions.
403.  
404. MG5 allows you to store a file with the list of command that you have
405. used in an interactive session:
406. MG5_aMC>history my_mg5_cmd.dat
407.  
408. Defined multiparticle vl~ = ve~ vm~ vt~
409.  
410. You have just defined a multiparticle label.
411. If you followed the tutorial, the label is "v"
412.  
413. Note that some multiparticles such as as p, j, l+, l- are
414. predefined. Type
415. MG5_aMC>display multiparticles
416. to see their definitions.
417.  
418. MG5 allows you to store a file with the list of command that you have
419. used in an interactive session:
420. MG5_aMC>history my_mg5_cmd.dat
421.  
422. Defined multiparticle all = g u c d s u~ c~ d~ s~ a ve vm vt e- mu- ve~ vm~ vt~ e+ mu+ t b t~ b~ z w+ h w- ta- ta+
423. Checking for minimal orders which gives processes.
424. Please specify coupling orders to bypass this step.
425. Trying coupling order WEIGHTED<=2: WEIGTHED IS QCD+2*QED
426. Trying process: g g > t t~ WEIGHTED<=2
427. Process has 3 diagrams
428. Trying process: u u~ > t t~ WEIGHTED<=2
429. Process has 1 diagrams
430. Trying process: u c~ > t t~ WEIGHTED<=2
431. Trying process: c u~ > t t~ WEIGHTED<=2
432. Trying process: c c~ > t t~ WEIGHTED<=2
433. Process has 1 diagrams
434. Trying process: d d~ > t t~ WEIGHTED<=2
435. Process has 1 diagrams
436. Trying process: d s~ > t t~ WEIGHTED<=2
437. Trying process: s d~ > t t~ WEIGHTED<=2
438. Trying process: s s~ > t t~ WEIGHTED<=2
439. Process has 1 diagrams
440. Process u~ u > t t~ added to mirror process u u~ > t t~
441. Process c~ c > t t~ added to mirror process c c~ > t t~
442. Process d~ d > t t~ added to mirror process d d~ > t t~
443. Process s~ s > t t~ added to mirror process s s~ > t t~
444. 5 processes with 7 diagrams generated in 0.047 s
445. Total: 5 processes with 7 diagrams
446.  
447. You have just generated a new process.
448. Note that the coupling order "QED=0" was automatically added by MG5
449. to avoid non-QCD diagrams which have negligible contribution.
450. You can find more information on supported syntax by using:
451. MG5_aMC>help generate
452. To list all defined processes, type
453. MG5_aMC>display processes
454.  
455. If you want to know more about particles and multiparticles present,
456. write
457. MG5_aMC>display particles
458. MG5_aMC>display multiparticles
459.  
460. If you want to add a second process, use the add process command:
461. MG5_aMC>add process p p > W+ j, W+ > l+ vl @2
462. This adds a decay chain process, with the W+ decaying
463. leptonically.
464.  
465. At this stage you can export your processes to different formats. In
466. this tutorial, we will explain how to create output for MadEvent.
467. This is done simply by typing:
468. MG5_aMC>output MY_FIRST_MG5_RUN
469.  
470.  
471. You have just generated a new process.
472. You can find more information on supported syntax by using:
473. MG_aMC>help generate
474. To list all defined processes, type
475. MG_aMC>display processes
476.  
477. If you want to know more about particles and multiparticles present,
478. write
479. MG_aMC>display particles
480. MG_aMC>display multiparticles
481.  
482. If you want to add a second process, use the add process command:
483. MG_aMC>add process p p > e+ e- [QCD] @2
484.  
485. At this stage you can export your processes.
486. This is done simply by typing:
487. MG_aMC>output MY_FIRST_AMCATNLO_RUN
488.  
489.  
490. You have just generated a new process.
491. You can find more information on supported syntax by using:
492. MG5_aMC>help generate
493. To list all defined processes, type
494. MG5_aMC>display processes
495.  
496. You can display a pictorial representation of the diagrams with
497. MG5_aMC> display diagrams
498. Notice you can add the option 'loop' or 'born' if you only want those diagrams
499. to be displayed.
500.  
501. If you want to add a second process, you can use the add process command:
502. MG5_aMC>add process e+ e- > d d~ [virt=QCD]
503. But keep in mind that you must still consider only virtual corrections and
504. cannot employ multiparticle labels. Also decay chains are not available for
505. loops.
506.  
507. At this stage you can export your processes.
508. This is done simply by typing:
509.  
510. MG5_aMC>output MY_FIRST_MADLOOP_RUN
511.  
512. Notice that the standalone output mode (implicit in the above) is the only
513. available for MadLoop standalone runs.
514.  
515. output /tmp/dkonst/tar/MG5_aMC_v3_1_1/TESTLO
516. initialize a new directory: TESTLO
517. remove old information in TESTLO
518. Organizing processes into subprocess groups
519. Generating Helas calls for process: g g > t t~ WEIGHTED<=2
520. Processing color information for process: g g > t t~
521. Generating Helas calls for process: u u~ > t t~ WEIGHTED<=2
522. Processing color information for process: u u~ > t t~
523. Combined process c c~ > t t~ WEIGHTED<=2 with process u u~ > t t~ WEIGHTED<=2
524. Combined process d d~ > t t~ WEIGHTED<=2 with process u u~ > t t~ WEIGHTED<=2
525. Combined process s s~ > t t~ WEIGHTED<=2 with process u u~ > t t~ WEIGHTED<=2
526. Creating files in directory P0_gg_ttx
527. --- Logging error ---
528. Traceback (most recent call last):
529. File "/cvmfs/sft.cern.ch/lcg/releases/LCG_100/Python/3.8.6/x86_64-centos7-gcc9-opt/lib/python3.8/logging/__init__.py", line 1081, in emit
530. msg = self.format(record)
531. File "/cvmfs/sft.cern.ch/lcg/releases/LCG_100/Python/3.8.6/x86_64-centos7-gcc9-opt/lib/python3.8/logging/__init__.py", line 925, in format
532. return fmt.format(record)
533. File "/cvmfs/sft.cern.ch/lcg/releases/LCG_100/Python/3.8.6/x86_64-centos7-gcc9-opt/lib/python3.8/logging/__init__.py", line 664, in format
534. record.message = record.getMessage()
535. File "/cvmfs/sft.cern.ch/lcg/releases/LCG_100/Python/3.8.6/x86_64-centos7-gcc9-opt/lib/python3.8/logging/__init__.py", line 369, in getMessage
536. msg = msg % self.args
537. TypeError: not all arguments converted during string formatting
538. Call stack:
539. File "bin/.compile.py", line 299, in <module>
540. Compile_MG5(sys.argv[1:])
541. File "bin/.compile.py", line 69, in __init__
542. self.test_output_LO()
543. File "bin/.compile.py", line 78, in test_output_LO
544. self.cmd.exec_cmd('output %s/TESTLO' %root_path)
545. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/extended_cmd.py", line 1573, in exec_cmd
546. stop = Cmd.onecmd_orig(current_interface, line, **opt)
547. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/extended_cmd.py", line 1493, in onecmd_orig
548. return func(arg, **opt)
549. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/master_interface.py", line 299, in do_output
550. self.cmd.do_output(self, line, *args, **opts)
551. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/madgraph_interface.py", line 8139, in do_output
552. self.export(nojpeg, main_file_name, group_processes, args)
553. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/master_interface.py", line 313, in export
554. return self.cmd.export(self, *args, **opts)
555. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/madgraph_interface.py", line 8282, in export
556. calls += self._curr_exporter.export_processes(self._curr_matrix_elements,
557. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/iolibs/export_v4.py", line 198, in export_processes
558. calls = calls + self.generate_subprocess_directory(\
559. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/iolibs/export_v4.py", line 5654, in generate_subprocess_directory
560. replace_dict = self.write_matrix_element_v4(None,
561. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/iolibs/export_v4.py", line 4301, in write_matrix_element_v4
562. logger.info("Some T-channel width have been set to zero [new since 2.8.0]\n if you want to keep this width please set \"zerowidth_tchannel\" to False", '$MG:BOLD')
563. Message: 'Some T-channel width have been set to zero [new since 2.8.0]\n if you want to keep this width please set "zerowidth_tchannel" to False'
564. Arguments: ('$MG:BOLD',)
565. Generating Feynman diagrams for Process: g g > t t~ WEIGHTED<=2
566. Finding symmetric diagrams for subprocess group gg_ttx
567. Creating files in directory P0_qq_ttx
568. Generating Feynman diagrams for Process: u u~ > t t~ WEIGHTED<=2
569. Finding symmetric diagrams for subprocess group qq_ttx
570. Generated helas calls for 2 subprocesses (4 diagrams) in 0.018 s
571. Wrote files for 16 helas calls in 0.541 s
572. aloha starts to compute helicity amplitudes
573. aloha creates 2 routines in 0.705 s
574. save configuration file to /tmp/dkonst/tar/MG5_aMC_v3_1_1/TESTLO/Cards/me5_configuration.txt
575. Use Fortran compiler gfortran
576. Use c++ compiler g++
577. Generate jpeg diagrams
578. Generate web pages
579. Output to directory /tmp/dkonst/tar/MG5_aMC_v3_1_1/TESTLO done.
580. Type "launch" to generate events from this process, or see
581. /tmp/dkonst/tar/MG5_aMC_v3_1_1/TESTLO/README
582. Run "open index.html" to see more information about this process.
583.  
584. If you are following the tutorial, a directory MY_FIRST_MG5_RUN has
585. been created which can be used in order to generate LO events/compute cross-section.
586.  
587. From that directory you can run the command './bin/generate_events'
588. You can also generate your events/compute the cross-section from this interface:
589. Please Enter:
590. MG5_aMC> launch MY_FIRST_MG5_RUN
591. (you can interrupt the computation to continue the tutorial by pressing Ctrl-C)
592.  
593.  
594. If you are following the tutorial, a directory MY_FIRST_AMCATNLO_RUN has
595. been created which can be used in order to run simulation including NLO corrections.
596.  
597. Additionally to the commands in the bin directory (see
598. MY_FIRST_AMCATNLO_RUN/README), you can also generate your events/compute the
599. cross-section from this interface.
600. You will generate events to be showered a la MC@NLO, compute the theoretical
601. and PDF error on the fly (if asked for in the run_card.dat) and shower the
602. events with the parton_shower MonteCarlo specified in the run_card.dat,
603. generating a file in the StdHEP format.
604. Please note that, since shower-specific counterterms have to be included in the
605. calculation, the parton level sample you will obtain can only be showered
606. with the selected MonteCarlo.
607. Note also that, because of the way they have been generated, the parton-level
608. events in the .lhe file are UNPHYSICAL.
609. In order to obtain physical results, please use the .hep file
610.  
611. Please enter
612. MG_aMC> launch
613.  
614. If you just want to generate the parton level .lhe file, please enter
615. MG_aMC> launch -p
616.  
617. (you can interrupt the computation to continue the tutorial by pressing Ctrl-C)
618.  
619. At any time, you can access more commands/options for running the output by
620. switching to an interactive interface for a given output folder 'MyFolder'.
621. You can do so by typing:
622. MG_aMC> launch -i MyFolder
623.  
624. Please see MY_FIRST_AMCATNLO_RUN/README to know about the available commands.
625. To know the possible options/modes for each command, simply tiple
626. 'MyFolder'> help COMMAND
627. from the interface bound to the 'MyFolder' output.
628.  
629.  
630.  
631. If you are following the tutorial, a directory MY_FIRST_MADLOOP_RUN has
632. been created under your MadGraph5_aMC@NLO installation directory.
633.  
634. The code for the evaluation of the squared loop matrix element is in
635. 'SubProcesses/P0_<shell_proc_name>/'. There, you can compile and edit
636. running parameters from 'MadloopParams.dat' and then run the code with './check'
637. Alternatively, for a simple quick run, type:
638.  
639. MG5_aMC>launch -f
640.  
641. This computes the squared matrix element for a given PS points.
642. For the purpose of this tutorial, the option '-f' is added to automatically skip
643. the edition of the cards and phase-space point specification.
644.  
645. generate p p > e+ ve [QCD]
646. The current model sm does not allow to generate loop corrections of type ['QCD'].
647. MG5_aMC now loads 'loop_sm'.
648. import model loop_sm
649. reload from .py file
650. --- Logging error ---
651. Traceback (most recent call last):
652. File "/cvmfs/sft.cern.ch/lcg/releases/LCG_100/Python/3.8.6/x86_64-centos7-gcc9-opt/lib/python3.8/logging/__init__.py", line 1081, in emit
653. msg = self.format(record)
654. File "/cvmfs/sft.cern.ch/lcg/releases/LCG_100/Python/3.8.6/x86_64-centos7-gcc9-opt/lib/python3.8/logging/__init__.py", line 925, in format
655. return fmt.format(record)
656. File "/cvmfs/sft.cern.ch/lcg/releases/LCG_100/Python/3.8.6/x86_64-centos7-gcc9-opt/lib/python3.8/logging/__init__.py", line 664, in format
657. record.message = record.getMessage()
658. File "/cvmfs/sft.cern.ch/lcg/releases/LCG_100/Python/3.8.6/x86_64-centos7-gcc9-opt/lib/python3.8/logging/__init__.py", line 369, in getMessage
659. msg = msg % self.args
660. TypeError: not all arguments converted during string formatting
661. Call stack:
662. File "bin/.compile.py", line 299, in <module>
663. Compile_MG5(sys.argv[1:])
664. File "bin/.compile.py", line 70, in __init__
665. self.test_output_NLO()
666. File "bin/.compile.py", line 83, in test_output_NLO
667. self.cmd.exec_cmd('generate p p > e+ ve [QCD]')
668. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/extended_cmd.py", line 1573, in exec_cmd
669. stop = Cmd.onecmd_orig(current_interface, line, **opt)
670. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/extended_cmd.py", line 1493, in onecmd_orig
671. return func(arg, **opt)
672. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/master_interface.py", line 278, in do_generate
673. return self.cmd.do_generate(self, line, *args, **opts)
674. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/madgraph_interface.py", line 4699, in do_generate
675. self.do_add(" ".join(args))
676. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/master_interface.py", line 229, in do_add
677. return self.cmd.do_add(self, line, *args, **opts)
678. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/amcatnlo_interface.py", line 483, in do_add
679. self.validate_model(proc_type[1], coupling_type=proc_type[2])
680. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/loop_interface.py", line 352, in validate_model
681. self.exec_cmd(" import model loop_%s%s" % (add_on,model_name), precmd=True)
682. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/extended_cmd.py", line 1573, in exec_cmd
683. stop = Cmd.onecmd_orig(current_interface, line, **opt)
684. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/extended_cmd.py", line 1493, in onecmd_orig
685. return func(arg, **opt)
686. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/master_interface.py", line 281, in do_import
687. self.cmd.do_import(self, *args, **opts)
688. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/madgraph_interface.py", line 5567, in do_import
689. self._curr_model = import_ufo.import_model(args[1], prefix=prefix,
690. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/models/import_ufo.py", line 250, in import_model
691. model = import_full_model(model_path, decay, prefix)
692. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/models/import_ufo.py", line 397, in import_full_model
693. ufo2mg5_converter = UFOMG5Converter(ufo_model)
694. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/models/import_ufo.py", line 471, in __init__
695. logger.info("This model [version %(version)s] is provided by %(author)s (email: %(email)s). Please cite %(arxiv)s" % f, '$MG:color:BLACK')
696. Message: 'This model [version 1.2] is provided by V. Hirschi (email: [email protected]). Please cite n/a'
697. Arguments: ('$MG:color:BLACK',)
698. load particles
699. load vertices
700. Restrict model loop_sm with file models/loop_sm/restrict_default.dat .
701. Run "set stdout_level DEBUG" before import for more information.
702. Change particles name to pass to MG5 convention
703. Kept definitions of multiparticles p / j / l+ / l- / vl / vl~ unchanged
704. Defined multiparticle all = g gh gh~ d u s c d~ u~ s~ c~ a ve vm vt e- mu- ve~ vm~ vt~ e+ mu+ b t b~ t~ z w+ h w- ta- ta+
705.  
706. You have successfully imported a model. If you followed the tutorial
707. this is the MSSM.
708.  
709. MadGraph can auto-download a large class of model (and more can be used).
710. To see the full list of model, write:
711. MG5_aMC>display modellist
712.  
713. If you want to know more information about this model you can use the
714. following commands:
715. MG5_aMC>display particles
716. MG5_aMC>display interactions
717. MG5_aMC>display multiparticles
718. which show information on the particles and the vertices of the model
719. or presently defined multiparticle labels.
720.  
721. Some of the model (including mssm) allow to modify the model (setting some
722. mass to zero, put some matrices diagonal, remove some interaction, ...). You can
723. see the possibility for each model by using the following command:
724. MG5_aMC> customize_model
725.  
726. To define a multiparticle label, i.e. a label corresponding to a set
727. of particles, write:
728. MG5_aMC>define v = w+ w- z a
729. This defines the symbol "v" to correspond to any EW vector boson.
730.  
731. Checking for minimal orders which gives processes.
732. Please specify coupling orders to bypass this step.
733. Trying coupling order WEIGHTED<=4: WEIGTHED IS QCD+2*QED
734. --- Logging error ---
735. Traceback (most recent call last):
736. File "/cvmfs/sft.cern.ch/lcg/releases/LCG_100/Python/3.8.6/x86_64-centos7-gcc9-opt/lib/python3.8/logging/__init__.py", line 1081, in emit
737. msg = self.format(record)
738. File "/cvmfs/sft.cern.ch/lcg/releases/LCG_100/Python/3.8.6/x86_64-centos7-gcc9-opt/lib/python3.8/logging/__init__.py", line 925, in format
739. return fmt.format(record)
740. File "/cvmfs/sft.cern.ch/lcg/releases/LCG_100/Python/3.8.6/x86_64-centos7-gcc9-opt/lib/python3.8/logging/__init__.py", line 664, in format
741. record.message = record.getMessage()
742. File "/cvmfs/sft.cern.ch/lcg/releases/LCG_100/Python/3.8.6/x86_64-centos7-gcc9-opt/lib/python3.8/logging/__init__.py", line 369, in getMessage
743. msg = msg % self.args
744. TypeError: not all arguments converted during string formatting
745. Call stack:
746. File "bin/.compile.py", line 299, in <module>
747. Compile_MG5(sys.argv[1:])
748. File "bin/.compile.py", line 70, in __init__
749. self.test_output_NLO()
750. File "bin/.compile.py", line 83, in test_output_NLO
751. self.cmd.exec_cmd('generate p p > e+ ve [QCD]')
752. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/extended_cmd.py", line 1573, in exec_cmd
753. stop = Cmd.onecmd_orig(current_interface, line, **opt)
754. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/extended_cmd.py", line 1493, in onecmd_orig
755. return func(arg, **opt)
756. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/master_interface.py", line 278, in do_generate
757. return self.cmd.do_generate(self, line, *args, **opts)
758. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/madgraph_interface.py", line 4699, in do_generate
759. self.do_add(" ".join(args))
760. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/master_interface.py", line 229, in do_add
761. return self.cmd.do_add(self, line, *args, **opts)
762. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/amcatnlo_interface.py", line 537, in do_add
763. logger.info(('Setting the born squared orders automatically in the process definition to %s.\n' + \
764. Message: 'Setting the born squared orders automatically in the process definition to %s.\nIf this is not what you need, please regenerate with the correct orders.'
765. Arguments: ('QED^2<=4 QCD=0', '$MG:BOLD')
766. Use of multiparticles is non-trivial for NLO process generation and depends on the orders included, the process considered, as well as the PDF set chosen. See appendix D of arXiv:1804.10017 [hep-ph] for some guidance.
767. Generating FKS-subtracted matrix elements for born process: u d~ > e+ ve QCD^2=2 QED^2=4 (1 / 4)
768. Generating FKS-subtracted matrix elements for born process: c s~ > e+ ve QCD^2=2 QED^2=4 (2 / 4)
769. Generating FKS-subtracted matrix elements for born process: d~ u > e+ ve QCD^2=2 QED^2=4 (3 / 4)
770. Generating FKS-subtracted matrix elements for born process: s~ c > e+ ve QCD^2=2 QED^2=4 (4 / 4)
771. Generating virtual matrix element with MadLoop for process: u d~ > ve e+ QCD^2=2 QED^2=4 (1 / 4)
772. Generating virtual matrix element with MadLoop for process: c s~ > ve e+ QCD^2=2 QED^2=4 (2 / 4)
773. Generating virtual matrix element with MadLoop for process: d~ u > ve e+ QCD^2=2 QED^2=4 (3 / 4)
774. Generating virtual matrix element with MadLoop for process: s~ c > ve e+ QCD^2=2 QED^2=4 (4 / 4)
775. Generated 4 subprocesses with 24 real emission diagrams, 4 born diagrams and 4 virtual diagrams
776.  
777. You have just generated a new process.
778. Note that the coupling order "QED=0" was automatically added by MG5
779. to avoid non-QCD diagrams which have negligible contribution.
780. You can find more information on supported syntax by using:
781. MG5_aMC>help generate
782. To list all defined processes, type
783. MG5_aMC>display processes
784.  
785. If you want to know more about particles and multiparticles present,
786. write
787. MG5_aMC>display particles
788. MG5_aMC>display multiparticles
789.  
790. If you want to add a second process, use the add process command:
791. MG5_aMC>add process p p > W+ j, W+ > l+ vl @2
792. This adds a decay chain process, with the W+ decaying
793. leptonically.
794.  
795. At this stage you can export your processes to different formats. In
796. this tutorial, we will explain how to create output for MadEvent.
797. This is done simply by typing:
798. MG5_aMC>output MY_FIRST_MG5_RUN
799.  
800.  
801. You have just generated a new process.
802. You can find more information on supported syntax by using:
803. MG_aMC>help generate
804. To list all defined processes, type
805. MG_aMC>display processes
806.  
807. If you want to know more about particles and multiparticles present,
808. write
809. MG_aMC>display particles
810. MG_aMC>display multiparticles
811.  
812. If you want to add a second process, use the add process command:
813. MG_aMC>add process p p > e+ e- [QCD] @2
814.  
815. At this stage you can export your processes.
816. This is done simply by typing:
817. MG_aMC>output MY_FIRST_AMCATNLO_RUN
818.  
819.  
820. You have just generated a new process.
821. You can find more information on supported syntax by using:
822. MG5_aMC>help generate
823. To list all defined processes, type
824. MG5_aMC>display processes
825.  
826. You can display a pictorial representation of the diagrams with
827. MG5_aMC> display diagrams
828. Notice you can add the option 'loop' or 'born' if you only want those diagrams
829. to be displayed.
830.  
831. If you want to add a second process, you can use the add process command:
832. MG5_aMC>add process e+ e- > d d~ [virt=QCD]
833. But keep in mind that you must still consider only virtual corrections and
834. cannot employ multiparticle labels. Also decay chains are not available for
835. loops.
836.  
837. At this stage you can export your processes.
838. This is done simply by typing:
839.  
840. MG5_aMC>output MY_FIRST_MADLOOP_RUN
841.  
842. Notice that the standalone output mode (implicit in the above) is the only
843. available for MadLoop standalone runs.
844.  
845. output /tmp/dkonst/tar/MG5_aMC_v3_1_1/TESTNLO
846. Writing out the aMC@NLO code, using optimized Loops
847. initialize a new directory: TESTNLO
848. remove old information in TESTNLO
849. When using the 'output_dependencies=internal' MG5_aMC option, the (optional) reduction library ninja cannot be employed because it is not distributed with the MG5_aMC code so that it cannot be copied locally.
850. When using the 'output_dependencies=internal' MG5_aMC option, the (optional) reduction library collier cannot be employed because it is not distributed with the MG5_aMC code so that it cannot be copied locally.
851. Generating real emission matrix-elements...
852. Generating Helas calls for FKS process: u d~ > ve e+ [ all = QED QCD ] QCD^2=2 QED^2=4 (1 / 4)
853. Processing color information for process: u d~ > ve e+ [ all = QED QCD ] QCD^2=2 QED^2=4
854. Generating Helas calls for FKS process: c s~ > ve e+ [ all = QED QCD ] QCD^2=2 QED^2=4 (2 / 4)
855. Generating Helas calls for FKS process: d~ u > ve e+ [ all = QED QCD ] QCD^2=2 QED^2=4 (3 / 4)
856. Processing color information for process: d~ u > ve e+ [ all = QED QCD ] QCD^2=2 QED^2=4
857. Generating Helas calls for FKS process: s~ c > ve e+ [ all = QED QCD ] QCD^2=2 QED^2=4 (4 / 4)
858. ... Done
859. Writing files in P0_udx_veep (1 / 2)
860. Creating files in directory V0_udx_veep
861. Computing diagram color coefficients
862. Drawing loop Feynman diagrams for Process: u d~ > ve e+ [ all = QED QCD ] QCD^2=2 QED^2=4
863. Generating born Feynman diagrams for Process: u d~ > ve e+ [ all = QED QCD ] QCD^2=2 QED^2=4
864. Writing files in P0_dxu_veep (2 / 2)
865. Creating files in directory V0_dxu_veep
866. Computing diagram color coefficients
867. Drawing loop Feynman diagrams for Process: d~ u > ve e+ [ all = QED QCD ] QCD^2=2 QED^2=4
868. Generating born Feynman diagrams for Process: d~ u > ve e+ [ all = QED QCD ] QCD^2=2 QED^2=4
869. History written to /tmp/dkonst/tar/MG5_aMC_v3_1_1/TESTNLO/Cards/proc_card_mg5.dat
870. aloha starts to compute helicity amplitudes
871. aloha creates 10 routines in 0.354 s
872. save configuration file to /tmp/dkonst/tar/MG5_aMC_v3_1_1/TESTNLO/Cards/amcatnlo_configuration.txt
873. Traceback (most recent call last):
874. File "bin/.compile.py", line 299, in <module>
875. Compile_MG5(sys.argv[1:])
876. File "bin/.compile.py", line 70, in __init__
877. self.test_output_NLO()
878. File "bin/.compile.py", line 84, in test_output_NLO
879. self.cmd.exec_cmd('output %s/TESTNLO' %root_path)
880. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/extended_cmd.py", line 1573, in exec_cmd
881. stop = Cmd.onecmd_orig(current_interface, line, **opt)
882. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/extended_cmd.py", line 1493, in onecmd_orig
883. return func(arg, **opt)
884. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/master_interface.py", line 299, in do_output
885. self.cmd.do_output(self, line, *args, **opts)
886. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/amcatnlo_interface.py", line 733, in do_output
887. self.finalize(nojpeg)
888. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/interface/madgraph_interface.py", line 8472, in finalize
889. self._curr_exporter.finalize(self._curr_matrix_elements,
890. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/iolibs/export_fks.py", line 3860, in finalize
891. ProcessExporterFortranFKS.finalize(self, *args, **opts)
892. File "/tmp/dkonst/tar/MG5_aMC_v3_1_1/madgraph/iolibs/export_fks.py", line 827, in finalize
893. order = re.findall("\[(.*)\]", firstprocess)
894. File "/cvmfs/sft.cern.ch/lcg/releases/LCG_100/Python/3.8.6/x86_64-centos7-gcc9-opt/lib/python3.8/re.py", line 241, in findall
895. return _compile(pattern, flags).findall(string)
896. TypeError: expected string or bytes-like object
897.