reweight issue : SMEFT model quadratic term -cHW
Hi, I am trying to get the reweight result for the process p p > l+ l+ vl vl j j QCD=0 SMHLOOP=0 NP=1 NP^2==2 using SMEFT model.
When I analyze CW parameters, everything is normal (for int and BSM terms) and I can get the cross-section after reweight . BUT when I change to CHW parameter analysis and generate the reweight result of BSM term, the cross-section after reweight cannot be displayed.
-------
preparing reweighting step
^[[?1034hRunning MG5 in debug mode
No module named madgraph
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* VERSION 2.6.5 20xx-xx-xx *
* *
* The MadGraph5_aMC@NLO Development Team - Find us at *
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INFO: load configuration from /data/pku/
INFO: load configuration from /data/pku/
INFO: load configuration from /data/pku/
Using default text editor "vi". Set another one in ./input/
Using default eps viewer "evince". Set another one in ./input/
No valid web browser found. Please set in ./input/
reweight pilotrun
Do you want to edit a card (press enter to bypass editing)?
/------
| ^[[31m1^[[0m. reweight : ^[[32mreweight_
\------
you can also
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[^[[4m0^[[0m, done, 1, reweight, enter path][90s to answer]
>INFO: Extracting the banner ...
INFO: process: p p > l+ l+ vl vl j j QCD=0 SMHLOOP=0 SMHLOOP=0 NP=1 NP^2==2
INFO: options:
INFO: Running Reweighting
change helicity False
change rwgt_dir rwgt
launch --rwgt_name=cHW_0p0
INFO: detected model: SMEFTsim_
INFO: generating the square matrix element for reweighting
INFO: generate p p > l+ l+ vl vl j j QCD=0 SMHLOOP=0 SMHLOOP=0 NP=1 NP^2==2 @1 ;add process p p > l- l- vl~ vl~ j j QCD=0 SMHLOOP=0 NP=1 NP^2==2 @2 ;
INFO: Done 2606
INFO: storing files of previous run
gzipping output file: unweighted_
INFO: Done
INFO:
INFO: Original cross-section: 2.556543e-05 +- 1.430018e-07 pb
INFO: Computed cross-section:
quit
INFO:
Compiling subprocess P1_dxdx_
Library MENUM=2 compiled with status 0
Library MENUM=3 compiled with status 0
/home/pku/
Compiling subprocess P1_dxdx_
Library MENUM=2 compiled with status 0
Library MENUM=3 compiled with status 0
-------
my reweight_card is
change helicity False
change rwgt_dir rwgt
###
#************ cHW *******
launch --rwgt_name=cHW_0p0
set frblock 28 1e-99
#************ cHW *******
launch --rwgt_name=cHW_0p1
set frblock 28 0.1
#************ cHW *******
launch --rwgt_name=cHW_0p2
set frblock 28 0.2
#************ cHW *******
launch --rwgt_name=cHW_0p3
set frblock 28 0.3
#************ cHW *******
launch --rwgt_name=cHW_0p4
set frblock 28 0.4
#************ cW *******
launch --rwgt_name=cHW_0p5
set frblock 28 0.5
#************ cHW *******
launch --rwgt_name=cHW_0p6
set frblock 28 0.6
#************ cHW *******
launch --rwgt_name=cHW_0p7
set frblock 28 0.7
#************ cHW *******
launch --rwgt_name=cHW_0p8
set frblock 28 0.8
and the log file is below.
Any idea of where this could be coming from?
Thank you in advance!
Zhe
-------
proc_card:
set group_subprocesses Auto
set ignore_
set loop_optimized_
set complex_mass_scheme False
import model SMEFTsim_
define p = g u c d s b u~ c~ d~ s~ b~
define j = p
define l+ = e+ mu+ ta+
define l- = e- mu- ta-
define vl = ve vm vt
define vl~ = ve~ vm~ vt~
generate p p > l+ l+ vl vl j j QCD=0 SMHLOOP=0 SMHLOOP=0 NP=1 NP^2==2 @1
add process p p > l- l- vl~ vl~ j j QCD=0 SMHLOOP=0 NP=1 NP^2==2 @2
output SSWW_RcW_bsm
-------
#######
## PARAM_CARD AUTOMATICALY GENERATED BY THE UFO #######
#######
#######
## INFORMATION FOR SMINPUTS
#######
Block SMINPUTS
2 1.166379e-05 # Gf
3 1.181000e-01 # aS
#######
## INFORMATION FOR MASS
#######
Block MASS
# 1 1.000000e-99 # MD
# 2 1.000000e-99 # MU
# 3 1.000000e-99 # MS
# 4 1.000000e-99 # MC
1 0 # MD
2 0 # MU
3 0 # MS
4 0 # MC
5 4.180000e+00 # MB
6 1.732000e+02 # MT
# 11 1.000000e-99 # Me
# 13 1.000000e-99 # MMU
11 0 # Me
13 0 # MMU
15 1.777000e+00 # MTA
23 9.118760e+01 # MZ
25 1.250900e+02 # MH
## Not dependent paramater.
## Those values should be edited following analytical the
## analytical expression. Some generator could simply ignore
## those values and use the analytical expression
22 0.000000 # a : 0.0
24 80.387000 # W+ : MW0
21 0.000000 # g : 0.0
9000001 0.000000 # ghA : 0.0
9000003 80.387000 # ghWp : MW0
9000004 80.387000 # ghWm : MW0
82 0.000000 # ghG : 0.0
12 0.000000 # ve : 0.0
14 0.000000 # vm : 0.0
16 0.000000 # vt : 0.0
251 80.387000 # G+ : MW0
9000002 91.187600 # ghZ : MZ
250 91.187600 # G0 : MZ
#######
## INFORMATION FOR DECAY
#######
DECAY 6 1.508336e+00
DECAY 23 2.495200e+00
DECAY 24 2.085000e+00
DECAY 25 4.070000e-03
## Not dependent paramater.
## Those values should be edited following analytical the
## analytical expression. Some generator could simply ignore
## those values and use the analytical expression
DECAY 22 0.000000 # a : 0.0
DECAY 21 0.000000 # g : 0.0
DECAY 9000001 0.000000 # ghA : 0.0
DECAY 82 0.000000 # ghG : 0.0
DECAY 12 0.000000 # ve : 0.0
DECAY 14 0.000000 # vm : 0.0
DECAY 16 0.000000 # vt : 0.0
DECAY 11 0.000000 # e- : 0.0
DECAY 13 0.000000 # mu- : 0.0
DECAY 15 0.000000 # ta- : 0.0
DECAY 2 0.000000 # u : 0.0
DECAY 4 0.000000 # c : 0.0
DECAY 1 0.000000 # d : 0.0
DECAY 3 0.000000 # s : 0.0
DECAY 5 0.000000 # b : 0.0
DECAY 9000002 2.495200 # ghZ : WZ
DECAY 9000003 2.085000 # ghWp : WW
DECAY 9000004 2.085000 # ghWm : WW
DECAY 250 2.495200 # G0 : WZ
DECAY 251 2.085000 # G+ : WW
#######
## INFORMATION FOR CKMBLOCK
#######
Block CKMBLOCK
# 1 1.000000e-99 # cabi
# 2 1.000000e-99 # CKMlambda
# 3 1.000000e-99 # CKMA
# 4 1.000000e-99 # CKMrho
# 5 1.000000e-99 # CKMeta
1 0 # cabi
2 0 # CKMlambda
3 0 # CKMA
4 0 # CKMrho
5 0 # CKMeta
#######
## INFORMATION FOR FRBLOCK
#######
Block FRBlock
1 0 # ceWPh
2 0 # ceBPh
3 0 # cuGPh
4 0 # cuWPh
5 0 # cuBPh
6 0 # cdGPh
7 0 # cdWPh
8 0 # cdBPh
9 0 # cHudPh
10 0 # ceHPh
11 0 # cuHPh
12 0 # cdHPh
13 0 # cledqPh
14 0 # cquqd1Ph
15 0 # cquqd8Ph
16 0 # clequ1Ph
17 0 # clequ3Ph
19 0 # cG
20 0 # cGtil
21 0 # cW
22 0 # cWtil
23 0 # cH
24 0 # cHbox
25 0 # cHDD
26 0 # cHG
27 0 # cHGtil
28 1.0 # cHW
29 0 # cHWtil
30 0 # cHB
31 0 # cHBtil
32 0 # cHWB
33 0 # cHWBtil
34 0 # ceHAbs
35 0 # cuHAbs
36 0 # cdHAbs
37 0 # ceWAbs
38 0 # ceBAbs
39 0 # cuGAbs
40 0 # cuWAbs
41 0 # cuBAbs
42 0 # cdGAbs
43 0 # cdWAbs
44 0 # cdBAbs
45 0 # cHl1
46 0 # cHl3
47 0 # cHe
48 0 # cHq1
49 0 # cHq3
50 0 # cHu
51 0 # cHd
52 0 # cHudAbs
53 0 # cll
54 0 # cll1
55 0 # cqq1
56 0 # cqq11
57 0 # cqq3
58 0 # cqq31
59 0 # clq1
60 0 # clq3
61 0 # cee
62 0 # cuu
63 0 # cuu1
64 0 # cdd
65 0 # cdd1
66 0 # ceu
67 0 # ced
68 0 # cud1
69 0 # cud8
70 0 # cle
71 0 # clu
72 0 # cld
73 0 # cqe
74 0 # cqu1
75 0 # cqu8
76 0 # cqd1
77 0 # cqd8
78 0 # cledqAbs
79 0 # cquqd1Abs
80 0 # cquqd8Abs
81 0 # clequ1Abs
82 0 # clequ3Abs
18 1.000000e+03 # LambdaSMEFT
83 8.038700e+01 # MW0
#######
## INFORMATION FOR YUKAWA
#######
Block YUKAWA
1 1.000000e-99 # ymdo
2 1.000000e-99 # ymup
3 1.000000e-99 # yms
4 1.000000e-99 # ymc
5 4.180000e+00 # ymb
6 1.732000e+02 # ymt
11 1.000000e-99 # yme
13 1.000000e-99 # ymm
15 1.777000e+00 # ymtau
#======
# QUANTUM NUMBERS OF NEW STATE(S) (NON SM PDG CODE)
#======
Block QNUMBERS 9000001 # ghA
1 0 # 3 times electric charge
2 -1 # number of spin states (2S+1)
3 1 # colour rep (1: singlet, 3: triplet, 8: octet)
4 1 # Particle/
Block QNUMBERS 9000002 # ghZ
1 0 # 3 times electric charge
2 -1 # number of spin states (2S+1)
3 1 # colour rep (1: singlet, 3: triplet, 8: octet)
4 1 # Particle/
Block QNUMBERS 9000003 # ghWp
1 3 # 3 times electric charge
2 -1 # number of spin states (2S+1)
3 1 # colour rep (1: singlet, 3: triplet, 8: octet)
4 1 # Particle/
Block QNUMBERS 9000004 # ghWm
1 -3 # 3 times electric charge
2 -1 # number of spin states (2S+1)
3 1 # colour rep (1: singlet, 3: triplet, 8: octet)
4 1 # Particle/
Block QNUMBERS 82 # ghG
1 0 # 3 times electric charge
2 -1 # number of spin states (2S+1)
3 8 # colour rep (1: singlet, 3: triplet, 8: octet)
4 1 # Particle/
Block QNUMBERS 250 # G0
1 0 # 3 times electric charge
2 1 # number of spin states (2S+1)
3 1 # colour rep (1: singlet, 3: triplet, 8: octet)
4 0 # Particle/
Block QNUMBERS 251 # G+
1 3 # 3 times electric charge
2 1 # number of spin states (2S+1)
3 1 # colour rep (1: singlet, 3: triplet, 8: octet)
4 1 # Particle/
-------
run_card:
#******
# MadGraph5_aMC@NLO *
# *
# run_card.dat MadEvent *
# *
# This file is used to set the parameters of the run. *
# *
# Some notation/
# *
# Lines starting with a '# ' are info or comments *
# *
# mind the format: value = variable ! comment *
#******
#
#******
# Running parameters
#******
#
#******
# Tag name for the run (one word) *
#******
tag_1 = run_tag ! name of the run
#******
# Run to generate the grid pack *
#******
True = gridpack !True = setting up the grid pack
#******
# Number of events and rnd seed *
# Warning: Do not generate more than 1M events in a single run *
# If you want to run Pythia, avoid more than 50k events in a run. *
#******
10000 = nevents ! Number of unweighted events requested
0 = iseed ! rnd seed (0=assigned automatically=
#******
# Collider type and energy *
# lpp: 0=No PDF, 1=proton, -1=antiproton, 2=photon from proton, *
# 3=photon from electron *
#******
1 = lpp1 ! beam 1 type
1 = lpp2 ! beam 2 type
6500.0 = ebeam1 ! beam 1 total energy in GeV
6500.0 = ebeam2 ! beam 2 total energy in GeV
#******
# Beam polarization from -100 (left-handed) to 100 (right-handed) *
#******
0.0 = polbeam1 ! beam polarization for beam 1
0.0 = polbeam2 ! beam polarization for beam 2
#******
# PDF CHOICE: this automatically fixes also alpha_s and its evol. *
#******
lhapdf = pdlabel ! PDF set
320900 = lhaid ! if pdlabel=lhapdf, this is the lhapdf number
#******
# Renormalization and factorization scales *
#******
False = fixed_ren_scale ! if .true. use fixed ren scale
False = fixed_fac_scale ! if .true. use fixed fac scale
91.188 = scale ! fixed ren scale
91.188 = dsqrt_q2fact1 ! fixed fact scale for pdf1
91.188 = dsqrt_q2fact2 ! fixed fact scale for pdf2
1.0 = scalefact ! scale factor for event-by-event scales
#******
# Matching - Warning! ickkw > 1 is still beta
#******
0 = ickkw ! 0 no matching, 1 MLM, 2 CKKW matching
1 = highestmult ! for ickkw=2, highest mult group
1 = ktscheme ! for ickkw=1, 1 Durham kT, 2 Pythia pTE
1.0 = alpsfact ! scale factor for QCD emission vx
False = chcluster ! cluster only according to channel diag
True = pdfwgt ! for ickkw=1, perform pdf reweighting
5 = asrwgtflavor ! highest quark flavor for a_s reweight
True = clusinfo ! include clustering tag in output
3.0 = lhe_version ! Change the way clustering information pass to shower.
#******
#******
#
#******
# Automatic ptj and mjj cuts if xqcut > 0
# (turn off for VBF and single top processes)
#******
False = auto_ptj_mjj ! Automatic setting of ptj and mjj
#******
#
#******
# BW cutoff (M+/-bwcutoff*
#******
15.0 = bwcutoff ! (M+/-bwcutoff*
#******
# Apply pt/E/eta/
# (note that etmiss/
#******
True = cut_decays ! Cut decay products
#******
# Number of helicities to sum per event (0 = all helicities)
# 0 gives more stable result, but longer run time (needed for
# long decay chains e.g.).
# Use >=2 if most helicities contribute, e.g. pure QCD.
#******
0 = nhel ! Number of helicities used per event
#******
# Standard Cuts
#******
#
#******
# Minimum and maximum pt's (for max, -1 means no cut) *
#******
10.0 = ptj ! minimum pt for the jets
0.0 = ptb ! minimum pt for the b
0.0 = pta ! minimum pt for the photons
0.0 = ptl ! minimum pt for the charged leptons
0.0 = misset ! minimum missing Et (sum of neutrino's momenta)
0.0 = ptheavy ! minimum pt for one heavy final state
1.0 = ptonium ! minimum pt for the quarkonium states
-1.0 = ptjmax ! maximum pt for the jets
-1.0 = ptbmax ! maximum pt for the b
-1.0 = ptamax ! maximum pt for the photons
-1.0 = ptlmax ! maximum pt for the charged leptons
-1.0 = missetmax ! maximum missing Et (sum of neutrino's momenta)
#******
# Minimum and maximum E's (in the center of mass frame) *
#******
0.0 = ej ! minimum E for the jets
0.0 = eb ! minimum E for the b
0.0 = ea ! minimum E for the photons
0.0 = el ! minimum E for the charged leptons
-1.0 = ejmax ! maximum E for the jets
-1.0 = ebmax ! maximum E for the b
-1.0 = eamax ! maximum E for the photons
-1.0 = elmax ! maximum E for the charged leptons
#******
# Maximum and minimum absolute rapidity (for max, -1 means no cut) *
#******
6.5 = etaj ! max rap for the jets
-1 = etab ! max rap for the b
2.5 = etaa ! max rap for the photons
-1.0 = etal ! max rap for the charged leptons
0.6 = etaonium ! max rap for the quarkonium states
0.0 = etajmin ! min rap for the jets
0.0 = etabmin ! min rap for the b
0.0 = etaamin ! min rap for the photons
0.0 = etalmin ! main rap for the charged leptons
#******
# Minimum and maximum DeltaR distance *
#******
0.4 = drjj ! min distance between jets
0.0 = drbb ! min distance between b's
0.4 = drll ! min distance between leptons
0.0 = draa ! min distance between gammas
0.0 = drbj ! min distance between b and jet
0.0 = draj ! min distance between gamma and jet
0.4 = drjl ! min distance between jet and lepton
0.0 = drab ! min distance between gamma and b
0.0 = drbl ! min distance between b and lepton
0.0 = dral ! min distance between gamma and lepton
-1.0 = drjjmax ! max distance between jets
-1.0 = drbbmax ! max distance between b's
-1.0 = drllmax ! max distance between leptons
-1.0 = draamax ! max distance between gammas
-1.0 = drbjmax ! max distance between b and jet
-1.0 = drajmax ! max distance between gamma and jet
-1.0 = drjlmax ! max distance between jet and lepton
-1.0 = drabmax ! max distance between gamma and b
-1.0 = drblmax ! max distance between b and lepton
-1.0 = dralmax ! maxdistance between gamma and lepton
#******
# Minimum and maximum invariant mass for pairs *
# WARNING: for four lepton final state mmll cut require to have *
# different lepton masses for each flavor! *
#******
100.0 = mmjj ! min invariant mass of a jet pair
0.0 = mmbb ! min invariant mass of a b pair
0.0 = mmaa ! min invariant mass of gamma gamma pair
0.0 = mmll ! min invariant mass of l+l- (same flavour) lepton pair
-1.0 = mmjjmax ! max invariant mass of a jet pair
-1.0 = mmbbmax ! max invariant mass of a b pair
-1.0 = mmaamax ! max invariant mass of gamma gamma pair
-1.0 = mmllmax ! max invariant mass of l+l- (same flavour) lepton pair
#******
# Minimum and maximum invariant mass for all letpons *
#******
0.0 = mmnl ! min invariant mass for all letpons (l+- and vl)
-1.0 = mmnlmax ! max invariant mass for all letpons (l+- and vl)
#******
# Minimum and maximum pt for 4-momenta sum of leptons *
#******
0.0 = ptllmin ! Minimum pt for 4-momenta sum of leptons(l and vl)
-1.0 = ptllmax ! Maximum pt for 4-momenta sum of leptons(l and vl)
#******
# Inclusive cuts *
#******
0.0 = xptj ! minimum pt for at least one jet
0.0 = xptb ! minimum pt for at least one b
0.0 = xpta ! minimum pt for at least one photon
0.0 = xptl ! minimum pt for at least one charged lepton
#******
# Control the pt's of the jets sorted by pt *
#******
0.0 = ptj1min ! minimum pt for the leading jet in pt
0.0 = ptj2min ! minimum pt for the second jet in pt
0.0 = ptj3min ! minimum pt for the third jet in pt
0.0 = ptj4min ! minimum pt for the fourth jet in pt
-1.0 = ptj1max ! maximum pt for the leading jet in pt
-1.0 = ptj2max ! maximum pt for the second jet in pt
-1.0 = ptj3max ! maximum pt for the third jet in pt
-1.0 = ptj4max ! maximum pt for the fourth jet in pt
0 = cutuse ! reject event if fails any (0) / all (1) jet pt cuts
#******
# Control the pt's of leptons sorted by pt *
#******
0.0 = ptl1min ! minimum pt for the leading lepton in pt
0.0 = ptl2min ! minimum pt for the second lepton in pt
0.0 = ptl3min ! minimum pt for the third lepton in pt
0.0 = ptl4min ! minimum pt for the fourth lepton in pt
-1.0 = ptl1max ! maximum pt for the leading lepton in pt
-1.0 = ptl2max ! maximum pt for the second lepton in pt
-1.0 = ptl3max ! maximum pt for the third lepton in pt
-1.0 = ptl4max ! maximum pt for the fourth lepton in pt
#******
# Control the Ht(k)=Sum of k leading jets *
#******
0.0 = htjmin ! minimum jet HT=Sum(jet pt)
-1.0 = htjmax ! maximum jet HT=Sum(jet pt)
0.0 = ihtmin !inclusive Ht for all partons (including b)
-1.0 = ihtmax !inclusive Ht for all partons (including b)
0.0 = ht2min ! minimum Ht for the two leading jets
0.0 = ht3min ! minimum Ht for the three leading jets
0.0 = ht4min ! minimum Ht for the four leading jets
-1.0 = ht2max ! maximum Ht for the two leading jets
-1.0 = ht3max ! maximum Ht for the three leading jets
-1.0 = ht4max ! maximum Ht for the four leading jets
#******
# Photon-isolation cuts, according to hep-ph/9801442 *
# When ptgmin=0, all the other parameters are ignored *
# When ptgmin>0, pta and draj are not going to be used *
#******
0.0 = ptgmin ! Min photon transverse momentum
0.4 = R0gamma ! Radius of isolation code
1.0 = xn ! n parameter of eq.(3.4) in hep-ph/9801442
1.0 = epsgamma ! epsilon_gamma parameter of eq.(3.4) in hep-ph/9801442
True = isoEM ! isolate photons from EM energy (photons and leptons)
#******
# WBF cuts *
#******
0.0 = xetamin ! minimum rapidity for two jets in the WBF case
0.0 = deltaeta ! minimum rapidity for two jets in the WBF case
#******
# KT DURHAM CUT *
#******
-1.0 = ktdurham
0.4 = dparameter
#*****
# maximal pdg code for quark to be considered as a light jet *
# (otherwise b cuts are applied) *
#******
5 = maxjetflavor ! Maximum jet pdg code
#******
# Jet measure cuts *
#******
0.0 = xqcut ! minimum kt jet measure between partons
#******
#
#******
# Store info for systematics studies *
# WARNING: If use_syst is T, matched Pythia output is *
# meaningful ONLY if plotted taking matchscale *
# reweighting into account! *
#******
True = use_syst ! Enable systematics studies
#
-------
I can get cW param result:
launch --rwgt_name=cW_1
Do you want to edit a card (press enter to bypass editing)?
/------
| ^[[31m1^[[0m. param : ^[[32mparam_
| ^[[31m9^[[0m. plot : ^[[32mplot_
\------
you can also
- enter the path to a valid card or banner.
- use the 'set' command to modify a parameter directly.
The set option works only for param_card and run_card.
Type 'help set' for more information on this command.
- call an external program (ASperGE/
Type 'help' for the list of available command
[^[[4m0^[[0m, done, 1, param, 9, plot, enter path]
>^[[1;34mWARNING: REWEIGHTING: original card and new card are identical. ^[[0m
INFO: starts to compute weight for events with the following modification to the param_card:
INFO:
INFO: Event nb 0 current time: 11h52
INFO: Event nb 10 current time: 11h52
INFO: Event nb 20 0.022s
INFO: Event nb 30 0.031s
INFO: Event nb 40 0.041s
INFO: Event nb 50 0.051s
INFO: Event nb 60 0.061s
INFO: Event nb 70 0.071s
INFO: Event nb 80 0.081s
INFO: Event nb 90 0.09s
INFO: Event nb 100 0.1s
INFO: Event nb 200 0.2s
INFO: Event nb 300 0.3s
INFO: Event nb 400 0.4s
INFO: Event nb 500 0.5s
INFO: Event nb 600 0.59s
INFO: Event nb 700 0.69s
INFO: Event nb 800 0.79s
INFO: Event nb 900 0.89s
INFO: Event nb 1000 0.99s
INFO: Event nb 2000 2s
INFO: Event nb 3000 2.9s
INFO: All event done (nb_event: 4000) 3.9s
INFO: Event /data/pku/
INFO: new cross-section is : 0.0119556 pb (indicative error: 6.08256e-06 pb)
INFO: Original cross-section: 0.002138676 +- 6.082563e-06 pb (cross-section from sum of weights: 0.011955553085)
INFO: Computed cross-section:
INFO: cW_0p0 : 1.1955553085e-200 +- 6.082563e-204 pb
INFO: cW_0p1 : 0.00011955553085 +- 6.082563e-08 pb
INFO: cW_0p2 : 0.0004782221234 +- 2.4330252e-07 pb
INFO: cW_0p3 : 0.00107599977765 +- 5.47436617982e-07 pb
INFO: cW_0p4 : 0.0019128884936 +- 9.7321008e-07 pb
INFO: cW_0p5 : 0.00298888827125 +- 1.52064075e-06 pb
INFO: cW_0p6 : 0.0043039991106 +- 2.18974647193e-06 pb
INFO: cW_0p7 : 0.00585822101165 +- 2.98045587e-06 pb
INFO: cW_0p8 : 0.0076515539744 +- 3.89284032e-06 pb
INFO: cW_0p9 : 0.00968399799885 +- 4.92695216839e-06 pb
INFO: cW_1 : 0.011955553085 +- 6.082563e-06 pb
INFO: quit rwgt
quit
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