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  • NUMBER OF ITER,Chi2 = 1060 506.496838 0 X/N CCEP = 1.05824015 34 X/N CCEM = 0.658257011 34
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NUMBER OF ITER,Chi2 = 1060 506.496838 0 X/N CCEP = 1.05824015 34 X/N CCEM = 0.658257011 34 X/N NCEP= 0.950083742 349 X/N NCEM= 0.803839368 145 PARAM, VAL, ERR = 1 0.678864769 0.0172003149 PARAM, VAL, ERR = 2 4.06372672 0.0930775627 PARAM, VAL, ERR = 3 0. 0. PARAM, VAL, ERR = 4 1.48187476 0.334377182 PARAM, VAL, ERR = 5 0.629999995 0. PARAM, VAL, ERR = 6 5.0199048 0.494432675 PARAM, VAL, ERR = 7 0. 0. PARAM, VAL, ERR = 8 1.71907962 1.14346811 PARAM, VAL, ERR = 9 0.725970704 0.00924147493 PARAM, VAL, ERR = 10 -0.206211094 0.00159844091 PARAM, VAL, ERR = 11 7.91533326 0.339427426 Default settings for Glazov averaging job (norms rel and y=0.6 NC) NUMBER OF ITER,Chi2 = 1650 505.803517 0 X/N CCEP = 1.07772805 34 X/N CCEM = 0.665554593 34 X/N NCEP= 0.954345177 349 X/N NCEM= 0.782519621 145 PARAM, VAL, ERR = 1 0.67868777 0.0345648221 PARAM, VAL, ERR = 2 4.07269914 0.13046712 PARAM, VAL, ERR = 3 0. 0. PARAM, VAL, ERR = 4 1.51829886 0.642659992 PARAM, VAL, ERR = 5 0.629999995 0. PARAM, VAL, ERR = 6 5.00309072 0.733579097 PARAM, VAL, ERR = 7 0. 0. PARAM, VAL, ERR = 8 1.70139791 1.66976498 PARAM, VAL, ERR = 9 0.737110307 0.0170726964 PARAM, VAL, ERR = 10 -0.205673543 0.00283624721 PARAM, VAL, ERR = 11 7.85994213 0.617938365 Default settings for Glazov averaging job, but ALSO H1 MB lumi is fixed

NUMBER OF ITER,Chi2 = 1060 506.496838 0 X/N CCEP = 1.05824015 34 X/N CCEM = 0.658257011 34

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Default settings for Glazov averaging job (norms rel and y=0.6 NC). Default settings for Glazov averaging job, but ALSO H1 MB lumi is fixed. NUMBER OF ITER,Chi2 = 1060 506.496838 0 X/N CCEP = 1.05824015 34 X/N CCEM = 0.658257011 34 X/N NCEP= 0.950083742 349 X/N NCEM= 0.803839368 145 - PowerPoint PPT Presentation

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Page 1: NUMBER OF ITER,Chi2 = 1060 506.496838 0 X/N CCEP = 1.05824015 34 X/N CCEM = 0.658257011 34

NUMBER OF ITER,Chi2 = 1060 506.496838 0X/N CCEP = 1.05824015 34 X/N CCEM = 0.658257011 34 X/N NCEP= 0.950083742 349 X/N NCEM= 0.803839368 145 PARAM, VAL, ERR = 1 0.678864769 0.0172003149 PARAM, VAL, ERR = 2 4.06372672 0.0930775627 PARAM, VAL, ERR = 3 0. 0. PARAM, VAL, ERR = 4 1.48187476 0.334377182 PARAM, VAL, ERR = 5 0.629999995 0. PARAM, VAL, ERR = 6 5.0199048 0.494432675 PARAM, VAL, ERR = 7 0. 0. PARAM, VAL, ERR = 8 1.71907962 1.14346811 PARAM, VAL, ERR = 9 0.725970704 0.00924147493 PARAM, VAL, ERR = 10 -0.206211094 0.00159844091 PARAM, VAL, ERR = 11 7.91533326 0.339427426 PARAM, VAL, ERR = 12 0. 0. PARAM, VAL, ERR = 13 -0.160132843 0.00830328707 PARAM, VAL, ERR = 14 5.85438588 0.538787181 PARAM, VAL, ERR = 15 -0.514886651 0.552139662

Default settings for Glazov averaging job (norms rel and y=0.6 NC)

NUMBER OF ITER,Chi2 = 1650 505.803517 0 X/N CCEP = 1.07772805 34 X/N CCEM = 0.665554593 34 X/N NCEP= 0.954345177 349 X/N NCEM= 0.782519621 145 PARAM, VAL, ERR = 1 0.67868777 0.0345648221 PARAM, VAL, ERR = 2 4.07269914 0.13046712 PARAM, VAL, ERR = 3 0. 0. PARAM, VAL, ERR = 4 1.51829886 0.642659992 PARAM, VAL, ERR = 5 0.629999995 0. PARAM, VAL, ERR = 6 5.00309072 0.733579097 PARAM, VAL, ERR = 7 0. 0. PARAM, VAL, ERR = 8 1.70139791 1.66976498 PARAM, VAL, ERR = 9 0.737110307 0.0170726964 PARAM, VAL, ERR = 10 -0.205673543 0.00283624721 PARAM, VAL, ERR = 11 7.85994213 0.617938365 PARAM, VAL, ERR = 12 0. 0. PARAM, VAL, ERR = 13 -0.163541352 0.00908023748 PARAM, VAL, ERR = 14 5.33985653 0.270649903 PARAM, VAL, ERR = 15 -0.999975248 1.46212905

Default settings for Glazov averaging job, but ALSO H1 MB lumi is fixed

Page 2: NUMBER OF ITER,Chi2 = 1060 506.496838 0 X/N CCEP = 1.05824015 34 X/N CCEM = 0.658257011 34

2 h2_Ee_Spacal 0.6179 0.3326 3 h3_Ee_Lar_00 -0.7144 0.4457 4 h4_ThetaE_spacal -0.5594 0.6610 5 h5_ThetaE_94-97 -0.1366 0.7809 6 h6_ThetaE_00 -0.3297 0.5310

7 h7_H_Scale_Spacal 0.3452 0.4774 8 h8_H_Scale_Lar -0.9800 0.5331 9 h9_Noise_Hcal -0.4002 0.365410 h10_GP_BG_Spacal -0.2217 0.870211 h11_GP_BG_LAr 1.4029 0.876612 h12_BG_CC_94-97 0.3928 0.790413 h13_BG_CC_98-00 -0.9133 0.862814 h14_ChargeAsym 0.0378 0.999415 hllumi1_SPACAL_bulk 1.4003 0.561816 hllumi2_SPACAL_MB 0.8550 0.599117 h1lumi3_LAr_94-97_e+p -1.0374 0.626118 h1lumi4_LAr_e-p 0.0472 0.778619 h1lumi5_LAr_2000 -0.8372 0.6018

Default settings for Glazov averaging job, but ALSO H1 MB lumi is fixed

2 h2_Ee_Spacal 0.6311 0.3341 3 h3_Ee_Lar_00 -0.7261 0.4457 4 h4_ThetaE_spacal -0.7725 0.6638 5 h5_ThetaE_94-97 -0.1275 0.7808 6 h6_ThetaE_00 -0.3028 0.5309

7 h7_H_Scale_Spacal 0.3665 0.4775 8 h8_H_Scale_Lar -0.9955 0.5330 9 h9_Noise_Hcal -0.4254 0.365410 h10_GP_BG_Spacal -0.2988 0.875011 h11_GP_BG_LAr 1.4451 0.876512 h12_BG_CC_94-97 0.3935 0.790413 h13_BG_CC_98-00 -0.9069 0.862814 h14_ChargeAsym 0.0379 0.999415 hllumi1_SPACAL_bulk 0.9617 0.559516 hllumi2_SPACAL_MB 2.1160 0.615817 h1lumi3_LAr_94-97_e+p -1.2712 0.625918 h1lumi4_LAr_e-p 0.0524 0.778619 h1lumi5_LAr_2000 -1.0923 0.6013

Default settings for Glazov averaging job (norms rel and y=0.6 NC)

Page 3: NUMBER OF ITER,Chi2 = 1060 506.496838 0 X/N CCEP = 1.05824015 34 X/N CCEM = 0.658257011 34

16 hllumi2_SPACAL_MB 2.1160 0.6158 16 hllumi2_SPACAL_MB 0.8550 0.5991

Page 4: NUMBER OF ITER,Chi2 = 1060 506.496838 0 X/N CCEP = 1.05824015 34 X/N CCEM = 0.658257011 34

NUMBER OF ITER,Chi2 = 1480 497.102942 0 X/N CCEP = 0.849094485 34 X/N CCEM = 0.629278407 34 X/N NCEP= 0.947832536 349 X/N NCEM= 0.800307841 145 PARAM, VAL, ERR = 1 0.656530896 0.0352735348 PARAM, VAL, ERR = 2 3.92068751 0.133790666 PARAM, VAL, ERR = 3 0. 0. PARAM, VAL, ERR = 4 1.47812114 0.621089767 PARAM, VAL, ERR = 5 0.629999995 0. PARAM, VAL, ERR = 6 4.2315022 0.773147823 PARAM, VAL, ERR = 7 0. 0. PARAM, VAL, ERR = 8 1.02555717 1.46167741 PARAM, VAL, ERR = 9 0.72442259 0.0171931808 PARAM, VAL, ERR = 10 -0.207529193 0.00287054248 PARAM, VAL, ERR = 11 6.60784097 0.601785863 PARAM, VAL, ERR = 12 0. 0. PARAM, VAL, ERR = 13 -0.153251257 0.00944262329 PARAM, VAL, ERR = 14 6.30060158 0.326135541 PARAM, VAL, ERR = 15 -0.999928367 1.59890242

ALL rel settings for Glazov averaging job, but ALSO H1 MB lumi is fixed

NUMBER OF ITER,Chi2 = 1650 505.803517 0 X/N CCEP = 1.07772805 34 X/N CCEM = 0.665554593 34 X/N NCEP= 0.954345177 349 X/N NCEM= 0.782519621 145 PARAM, VAL, ERR = 1 0.67868777 0.0345648221 PARAM, VAL, ERR = 2 4.07269914 0.13046712 PARAM, VAL, ERR = 3 0. 0. PARAM, VAL, ERR = 4 1.51829886 0.642659992 PARAM, VAL, ERR = 5 0.629999995 0. PARAM, VAL, ERR = 6 5.00309072 0.733579097 PARAM, VAL, ERR = 7 0. 0. PARAM, VAL, ERR = 8 1.70139791 1.66976498 PARAM, VAL, ERR = 9 0.737110307 0.0170726964 PARAM, VAL, ERR = 10 -0.205673543 0.00283624721 PARAM, VAL, ERR = 11 7.85994213 0.617938365 PARAM, VAL, ERR = 12 0. 0. PARAM, VAL, ERR = 13 -0.163541352 0.00908023748 PARAM, VAL, ERR = 14 5.33985653 0.270649903 PARAM, VAL, ERR = 15 -0.999975248 1.46212905

Norms rel settings for Glazov averaging job, but ALSO H1 MB lumi is fixed

Page 5: NUMBER OF ITER,Chi2 = 1060 506.496838 0 X/N CCEP = 1.05824015 34 X/N CCEM = 0.658257011 34

Just norms treated as relative compared to all sources of error treated as relative

Chisq of all rel is better, detailed differences in systematics hard to asses (norms similar to norms rel case)

Page 6: NUMBER OF ITER,Chi2 = 1060 506.496838 0 X/N CCEP = 1.05824015 34 X/N CCEM = 0.658257011 34

ALL abs settings for Glazov averaging job, but ALSO H1 MB lumi is fixed

NUMBER OF ITER,Chi2 = 1520 490.263476 0X/N CCEP = 1.00317828 34 X/N CCEM = 0.648282009 34 X/N NCEP= 0.923851346 349 X/N NCEM= 0.770272524 145 PARAM, VAL, ERR = 1 0.683144403 0.0373291315 PARAM, VAL, ERR = 2 4.09446429 0.141078412 PARAM, VAL, ERR = 3 0. 0. PARAM, VAL, ERR = 4 1.48509985 0.704690439 PARAM, VAL, ERR = 5 0.629999995 0. PARAM, VAL, ERR = 6 5.39592367 0.66305024 PARAM, VAL, ERR = 7 0. 0. PARAM, VAL, ERR = 8 3.13549772 2.10000444 PARAM, VAL, ERR = 9 0.711349069 0.0179078451 PARAM, VAL, ERR = 10 -0.209209302 0.0033181012 PARAM, VAL, ERR = 11 9.10761083 0.739062334 PARAM, VAL, ERR = 12 0. 0. PARAM, VAL, ERR = 13 -0.194571035 0.0163042384 PARAM, VAL, ERR = 14 8.4430955 1.2584699 PARAM, VAL, ERR = 15 5.87343755 3.75603311

NUMBER OF ITER,Chi2 = 1480 497.102942 0 X/N CCEP = 0.849094485 34 X/N CCEM = 0.629278407 34 X/N NCEP= 0.947832536 349 X/N NCEM= 0.800307841 145 PARAM, VAL, ERR = 1 0.656530896 0.0352735348 PARAM, VAL, ERR = 2 3.92068751 0.133790666 PARAM, VAL, ERR = 3 0. 0. PARAM, VAL, ERR = 4 1.47812114 0.621089767 PARAM, VAL, ERR = 5 0.629999995 0. PARAM, VAL, ERR = 6 4.2315022 0.773147823 PARAM, VAL, ERR = 7 0. 0. PARAM, VAL, ERR = 8 1.02555717 1.46167741 PARAM, VAL, ERR = 9 0.72442259 0.0171931808 PARAM, VAL, ERR = 10 -0.207529193 0.00287054248 PARAM, VAL, ERR = 11 6.60784097 0.601785863 PARAM, VAL, ERR = 12 0. 0. PARAM, VAL, ERR = 13 -0.153251257 0.00944262329 PARAM, VAL, ERR = 14 6.30060158 0.326135541 PARAM, VAL, ERR = 15 -0.999928367 1.59890242

ALL rel settings for Glazov averaging job, but ALSO H1 MB lumi is fixed

Page 7: NUMBER OF ITER,Chi2 = 1060 506.496838 0 X/N CCEP = 1.05824015 34 X/N CCEM = 0.658257011 34

15 hllumi1_SPACAL_bulk 0.4054 0.570016 hllumi2_SPACAL_MB -0.0838 0.603517 h1lumi3_LAr_94-97_e+p -2.3520 0.613918 h1lumi4_LAr_e-p -0.6815 0.773819 h1lumi5_LAr_2000 -2.1614 0.59151 zlumi1_zncepl -0.9276 0.590139 zlumi2_zccem -0.7298 0.774043 zluminc00 -1.5020 0.379830 zd11 -0.1974 0.6159

15 hllumi1_SPACAL_bulk 1.5377 0.562816 hllumi2_SPACAL_MB 0.8464 0.600117 h1lumi3_LAr_94-97_e+p -1.0869 0.622718 h1lumi4_LAr_e-p -0.0808 0.778019 h1lumi5_LAr_2000 -0.7334 0.60021 zlumi1_zncepl 0.0277 0.591939 zlumi2_zccem 0.0809 0.777943 zluminc00 -0.5196 0.385930 zd11 -0.3856 0.6204

Page 8: NUMBER OF ITER,Chi2 = 1060 506.496838 0 X/N CCEP = 1.05824015 34 X/N CCEM = 0.658257011 34

Default abs/rel settings for Glazov averaging job, but ALSO H1 MB lumi is fixed

And y< 1.0 NC or y<0.6 NC

NUMBER OF ITER,Chi2 = 1580 487.227966 0X/N CCEP = 1.10838884 34 X/N CCEM = 0.661012125 34 X/N NCEP= 0.949276004 329 X/N NCEM= 0.791423018 145 PARAM, VAL, ERR = 1 0.663968533 0.0352629022 PARAM, VAL, ERR = 2 4.0792928 0.123910666 PARAM, VAL, ERR = 3 0. 0. PARAM, VAL, ERR = 4 1.6924047 0.659434863 PARAM, VAL, ERR = 5 0.629999995 0. PARAM, VAL, ERR = 6 4.87594566 0.755967418 PARAM, VAL, ERR = 7 0. 0. PARAM, VAL, ERR = 8 1.47470561 1.61460122 PARAM, VAL, ERR = 9 0.722757226 0.0169465798 PARAM, VAL, ERR = 10 -0.208715292 0.00286409964 PARAM, VAL, ERR = 11 7.48612154 0.624917138 PARAM, VAL, ERR = 12 0. 0. PARAM, VAL, ERR = 13 -0.17037988 0.00887874216 PARAM, VAL, ERR = 14 5.29228413 0.270439521 PARAM, VAL, ERR = 15 -0.99991054 1.81414995

NUMBER OF ITER,Chi2 = 1650 505.803517 0 X/N CCEP = 1.07772805 34 X/N CCEM = 0.665554593 34 X/N NCEP= 0.954345177 349 X/N NCEM= 0.782519621 145 PARAM, VAL, ERR = 1 0.67868777 0.0345648221 PARAM, VAL, ERR = 2 4.07269914 0.13046712 PARAM, VAL, ERR = 3 0. 0. PARAM, VAL, ERR = 4 1.51829886 0.642659992 PARAM, VAL, ERR = 5 0.629999995 0. PARAM, VAL, ERR = 6 5.00309072 0.733579097 PARAM, VAL, ERR = 7 0. 0. PARAM, VAL, ERR = 8 1.70139791 1.66976498 PARAM, VAL, ERR = 9 0.737110307 0.0170726964 PARAM, VAL, ERR = 10 -0.205673543 0.00283624721 PARAM, VAL, ERR = 11 7.85994213 0.617938365 PARAM, VAL, ERR = 12 0. 0. PARAM, VAL, ERR = 13 -0.163541352 0.00908023748 PARAM, VAL, ERR = 14 5.33985653 0.270649903 PARAM, VAL, ERR = 15 -0.999975248 1.46212905

Page 9: NUMBER OF ITER,Chi2 = 1060 506.496838 0 X/N CCEP = 1.05824015 34 X/N CCEM = 0.658257011 34

Norms rel, y <0.6 for NCNorms rel, y <1.0 for NC

Not a lot of difference in systematic shifts

Page 10: NUMBER OF ITER,Chi2 = 1060 506.496838 0 X/N CCEP = 1.05824015 34 X/N CCEM = 0.658257011 34

Default abs/rel settings for Glazov averaging job, but ALSO H1 MB lumi is fixed

And y < 0.35 NC or y < 0.6 NC

NUMBER OF ITER,Chi2 = 1070 519.829507 0 X/N CCEP = 1.06472612 34 X/N CCEM = 0.668066882 34 X/N NCEP= 0.9329 371 X/N NCEM= 0.791781008 145 PARAM, VAL, ERR = 1 0.682064496 0.01719649 PARAM, VAL, ERR = 2 4.07037467 0.0926628538 PARAM, VAL, ERR = 3 0. 0. PARAM, VAL, ERR = 4 1.48405099 0.33287698 PARAM, VAL, ERR = 5 0.629999995 0. PARAM, VAL, ERR = 6 5.03195824 0.485621708 PARAM, VAL, ERR = 7 0. 0. PARAM, VAL, ERR = 8 1.78945373 1.14559412 PARAM, VAL, ERR = 9 0.742700264 0.00947432327 PARAM, VAL, ERR = 10 -0.203834158 0.00159750591 PARAM, VAL, ERR = 11 7.94742421 0.334624335 PARAM, VAL, ERR = 12 0. 0. PARAM, VAL, ERR = 13 -0.155364124 0.00848707004 PARAM, VAL, ERR = 14 5.88678211 0.551499123 PARAM, VAL, ERR = 15 -0.603689931 0.548967546

NUMBER OF ITER,Chi2 = 1650 505.803517 0 X/N CCEP = 1.07772805 34 X/N CCEM = 0.665554593 34 X/N NCEP= 0.954345177 349 X/N NCEM= 0.782519621 145 PARAM, VAL, ERR = 1 0.67868777 0.0345648221 PARAM, VAL, ERR = 2 4.07269914 0.13046712 PARAM, VAL, ERR = 3 0. 0. PARAM, VAL, ERR = 4 1.51829886 0.642659992 PARAM, VAL, ERR = 5 0.629999995 0. PARAM, VAL, ERR = 6 5.00309072 0.733579097 PARAM, VAL, ERR = 7 0. 0. PARAM, VAL, ERR = 8 1.70139791 1.66976498 PARAM, VAL, ERR = 9 0.737110307 0.0170726964 PARAM, VAL, ERR = 10 -0.205673543 0.00283624721 PARAM, VAL, ERR = 11 7.85994213 0.617938365 PARAM, VAL, ERR = 12 0. 0. PARAM, VAL, ERR = 13 -0.163541352 0.00908023748 PARAM, VAL, ERR = 14 5.33985653 0.270649903 PARAM, VAL, ERR = 15 -0.999975248 1.46212905

Page 11: NUMBER OF ITER,Chi2 = 1060 506.496838 0 X/N CCEP = 1.05824015 34 X/N CCEM = 0.658257011 34

Norms rel, y <0.6 for NCNorms rel, y <0.35 for NC

Not a lot of difference in systematic shifts

Page 12: NUMBER OF ITER,Chi2 = 1060 506.496838 0 X/N CCEP = 1.05824015 34 X/N CCEM = 0.658257011 34

Extras

Page 13: NUMBER OF ITER,Chi2 = 1060 506.496838 0 X/N CCEP = 1.05824015 34 X/N CCEM = 0.658257011 34

1 zlumi1_zncepl 0.2147 0.590820 zd1_e_eff -0.4168 0.762421 zd2_e_theta_a 0.0666 0.681422 zd3_e_theta_b -0.2981 0.784223 zd4_e_escale 1.0501 0.526524 zd5_had1 0.1945 0.588125 zd6_had2 0.0162 0.650626 zd7_had3 -0.7320 0.757327 zd8_had_flow 0.4684 0.669228 zd9_bg -0.2064 0.463329 zd10_had_flow_b 0.0245 0.233230 zd11 -0.5625 0.617531 z1nce-_e_scale 0.1750 0.942832 z2nce-_bg -0.2127 0.949233 z3nce-_eff1 0.0365 0.946734 z4nce-_eff2 0.6422 0.583435 z5nce-_vtx -0.6521 0.927536 z6nce- 0.1650 0.416637 z1cce- 0.5614 0.836038 z2cce- -0.1395 0.866339 zlumi2_zccem -0.0524 0.778640 zd5nc00 0.1711 0.984041 zd7nc00 0.1825 0.212242 zd8nc00 0.2933 0.927843 zluminc00 -0.8732 0.3884

2 h2_Ee_Spacal 0.6311 0.3341 3 h3_Ee_Lar_00 -0.7261 0.4457 4 h4_ThetaE_spacal -0.7725 0.6638 5 h5_ThetaE_94-97 -0.1275 0.7808 6 h6_ThetaE_00 -0.3028 0.5309

7 h7_H_Scale_Spacal 0.3665 0.4775 8 h8_H_Scale_Lar -0.9955 0.5330 9 h9_Noise_Hcal -0.4254 0.365410 h10_GP_BG_Spacal -0.2988 0.875011 h11_GP_BG_LAr 1.4451 0.876512 h12_BG_CC_94-97 0.3935 0.790413 h13_BG_CC_98-00 -0.9069 0.862814 h14_ChargeAsym 0.0379 0.999415 hllumi1_SPACAL_bulk 0.9617 0.559516 hllumi2_SPACAL_MB 2.1160 0.615817 h1lumi3_LAr_94-97_e+p -1.2712 0.625918 h1lumi4_LAr_e-p 0.0524 0.778619 h1lumi5_LAr_2000 -1.0923 0.6013

Default settings for Glazov averaging job

Page 14: NUMBER OF ITER,Chi2 = 1060 506.496838 0 X/N CCEP = 1.05824015 34 X/N CCEM = 0.658257011 34

1 zlumi1_zncepl 0.4471 0.590320 zd1_e_eff -0.3294 0.763621 zd2_e_theta_a 0.0245 0.684222 zd3_e_theta_b -0.3788 0.784323 zd4_e_escale 1.0852 0.527424 zd5_had1 0.2155 0.588625 zd6_had2 0.0345 0.650926 zd7_had3 -0.7800 0.758627 zd8_had_flow 0.5787 0.672728 zd9_bg -0.2436 0.465229 zd10_had_flow_b 0.0402 0.234030 zd11 -0.2680 0.616831 z1nce-_e_scale 0.1665 0.942832 z2nce-_bg -0.2135 0.949233 z3nce-_eff1 0.0353 0.946734 z4nce-_eff2 0.6216 0.583535 z5nce-_vtx -0.6538 0.927536 z6nce- 0.1702 0.416637 z1cce- 0.5579 0.836038 z2cce- -0.1393 0.866339 zlumi2_zccem -0.0472 0.778640 zd5nc00 0.1521 0.984141 zd7nc00 0.1902 0.212342 zd8nc00 0.2792 0.927843 zluminc00 -0.7105 0.3884

2 h2_Ee_Spacal 0.6179 0.3326 3 h3_Ee_Lar_00 -0.7144 0.4457 4 h4_ThetaE_spacal -0.5594 0.6610 5 h5_ThetaE_94-97 -0.1366 0.7809 6 h6_ThetaE_00 -0.3297 0.5310

7 h7_H_Scale_Spacal 0.3452 0.4774 8 h8_H_Scale_Lar -0.9800 0.5331 9 h9_Noise_Hcal -0.4002 0.365410 h10_GP_BG_Spacal -0.2217 0.870211 h11_GP_BG_LAr 1.4029 0.876612 h12_BG_CC_94-97 0.3928 0.790413 h13_BG_CC_98-00 -0.9133 0.862814 h14_ChargeAsym 0.0378 0.999415 hllumi1_SPACAL_bulk 1.4003 0.561816 hllumi2_SPACAL_MB 0.8550 0.599117 h1lumi3_LAr_94-97_e+p -1.0374 0.626118 h1lumi4_LAr_e-p 0.0472 0.778619 h1lumi5_LAr_2000 -0.8372 0.6018

Default settings (norms rel and y <0.6 NC) for Glazov averaging job, but ALSO H1 MB lumi is fixed

Page 15: NUMBER OF ITER,Chi2 = 1060 506.496838 0 X/N CCEP = 1.05824015 34 X/N CCEM = 0.658257011 34

2 h2_Ee_Spacal 0.5634 0.3297 3 h3_Ee_Lar_00 -0.3316 0.4474 4 h4_ThetaE_spacal -0.7196 0.6560 5 h5_ThetaE_94-97 -0.0970 0.7810 6 h6_ThetaE_00 -0.3591 0.5307

7 h7_H_Scale_Spacal 0.3982 0.4747 8 h8_H_Scale_Lar -0.9216 0.5361 9 h9_Noise_Hcal -0.4819 0.365910 h10_GP_BG_Spacal -0.3455 0.871411 h11_GP_BG_LAr 1.0806 0.884212 h12_BG_CC_94-97 0.3990 0.786613 h13_BG_CC_98-00 -0.6134 0.883914 h14_ChargeAsym 0.0364 0.999415 hllumi1_SPACAL_bulk 1.5377 0.562816 hllumi2_SPACAL_MB 0.8464 0.600117 h1lumi3_LAr_94-97_e+p -1.0869 0.622718 h1lumi4_LAr_e-p -0.0808 0.778019 h1lumi5_LAr_2000 -0.7334 0.6002

1 zlumi1_zncepl 0.0277 0.591920 zd1_e_eff 0.4337 0.763521 zd2_e_theta_a 0.1094 0.687222 zd3_e_theta_b -0.3180 0.784623 zd4_e_escale 0.7803 0.532324 zd5_had1 0.3565 0.593625 zd6_had2 0.0539 0.652226 zd7_had3 -0.7960 0.759527 zd8_had_flow 0.5991 0.676028 zd9_bg -0.2492 0.475029 zd10_had_flow_b 0.0675 0.237930 zd11 -0.3856 0.620431 z1nce-_e_scale 0.1532 0.942732 z2nce-_bg -0.2697 0.945533 z3nce-_eff1 -0.1224 0.923834 z4nce-_eff2 0.7208 0.584535 z5nce-_vtx -0.5216 0.926336 z6nce- 0.2426 0.416537 z1cce- 0.4232 0.840538 z2cce- 0.1089 0.871739 zlumi2_zccem 0.0809 0.777940 zd5nc00 0.0386 0.984541 zd7nc00 0.1413 0.211942 zd8nc00 0.5122 0.928743 zluminc00 -0.5196 0.3859

ALL rel settings for Glazov averaging job, but ALSO H1 MB lumi is fixed

Page 16: NUMBER OF ITER,Chi2 = 1060 506.496838 0 X/N CCEP = 1.05824015 34 X/N CCEM = 0.658257011 34

2 h2_Ee_Spacal 0.5465 0.3321 3 h3_Ee_Lar_00 -0.7264 0.4463 4 h4_ThetaE_spacal -0.3672 0.6605 5 h5_ThetaE_94-97 -0.1481 0.7813 6 h6_ThetaE_00 -0.3342 0.5305 7 h7_H_Scale_Spacal 0.3882 0.4773 8 h8_H_Scale_Lar -0.9164 0.5333 9 h9_Noise_Hcal -0.4326 0.365210 h10_GP_BG_Spacal -0.1742 0.870311 h11_GP_BG_LAr 1.3221 0.876912 h12_BG_CC_94-97 0.3738 0.790313 h13_BG_CC_98-00 -0.9004 0.862914 h14_ChargeAsym 0.0369 0.999415 hllumi1_SPACAL_bulk 0.4054 0.570016 hllumi2_SPACAL_MB -0.0838 0.603517 h1lumi3_LAr_94-97_e+p -2.3520 0.613918 h1lumi4_LAr_e-p -0.6815 0.773819 h1lumi5_LAr_2000 -2.1614 0.5915

1 zlumi1_zncepl -0.9276 0.590120 zd1_e_eff 0.2137 0.764721 zd2_e_theta_a 0.1491 0.683522 zd3_e_theta_b -0.3861 0.784223 zd4_e_escale 1.0194 0.528924 zd5_had1 0.2677 0.588425 zd6_had2 -0.0014 0.650826 zd7_had3 -0.8658 0.758127 zd8_had_flow 0.6238 0.672528 zd9_bg -0.2716 0.465429 zd10_had_flow_b 0.0550 0.233930 zd11 -0.1974 0.615931 z1nce-_e_scale 0.1392 0.942932 z2nce-_bg -0.2104 0.949233 z3nce-_eff1 0.0311 0.946734 z4nce-_eff2 0.5594 0.584135 z5nce-_vtx -0.6724 0.927436 z6nce- 0.1817 0.416837 z1cce- 0.5376 0.836038 z2cce- -0.1252 0.866339 zlumi2_zccem -0.7298 0.774040 zd5nc00 0.0928 0.984341 zd7nc00 0.1765 0.212242 zd8nc00 0.2619 0.927943 zluminc00 -1.5020 0.3798

ALL abs settings for Glazov averaging job, but ALSO H1 MB lumi is fixed

Page 17: NUMBER OF ITER,Chi2 = 1060 506.496838 0 X/N CCEP = 1.05824015 34 X/N CCEM = 0.658257011 34

2 h2_Ee_Spacal 0.5943 0.3268 3 h3_Ee_Lar_00 -0.7230 0.4430 4 h4_ThetaE_spacal -0.5735 0.6598 5 h5_ThetaE_94-97 -0.0971 0.7798 6 h6_ThetaE_00 -0.3318 0.5292

7 h7_H_Scale_Spacal 0.3330 0.4753 8 h8_H_Scale_Lar -0.9617 0.5310 9 h9_Noise_Hcal -0.3980 0.363810 h10_GP_BG_Spacal -0.3999 0.821011 h11_GP_BG_LAr 1.2642 0.843712 h12_BG_CC_94-97 0.3810 0.790313 h13_BG_CC_98-00 -0.9293 0.862314 h14_ChargeAsym 0.0256 0.999315 hllumi1_SPACAL_bulk 1.4448 0.558516 hllumi2_SPACAL_MB 0.8942 0.597317 h1lumi3_LAr_94-97_e+p -1.0561 0.624718 h1lumi4_LAr_e-p 0.0604 0.778419 h1lumi5_LAr_2000 -0.9033 0.6000

1 zlumi1_zncepl 0.4804 0.586920 zd1_e_eff -0.3907 0.748121 zd2_e_theta_a 0.1273 0.676322 zd3_e_theta_b -0.4629 0.775123 zd4_e_escale 1.0510 0.503324 zd5_had1 0.2291 0.585425 zd6_had2 0.1347 0.646926 zd7_had3 -0.8689 0.740727 zd8_had_flow 0.5387 0.657928 zd9_bg -0.1612 0.407529 zd10_had_flow_b 0.0504 0.233630 zd11 -0.2583 0.613931 z1nce-_e_scale 0.1843 0.938332 z2nce-_bg -0.3056 0.921533 z3nce-_eff1 0.0138 0.931034 z4nce-_eff2 0.4504 0.553935 z5nce-_vtx -0.6552 0.927536 z6nce- 0.1622 0.415537 z1cce- 0.5474 0.835938 z2cce- -0.1410 0.866339 zlumi2_zccem -0.0604 0.778340 zd5nc00 0.1805 0.984041 zd7nc00 0.1956 0.209742 zd8nc00 0.2322 0.926943 zluminc00 -0.7715 0.3871

Default abs/rel settings for Glazov averaging job, but ALSO H1 MB lumi is fixed

And y< 1.0 NC

Page 18: NUMBER OF ITER,Chi2 = 1060 506.496838 0 X/N CCEP = 1.05824015 34 X/N CCEM = 0.658257011 34

2 h2_Ee_Spacal 0.6645 0.3313 3 h3_Ee_Lar_00 -0.8016 0.4513 4 h4_ThetaE_spacal -0.4906 0.6633 5 h5_ThetaE_94-97 -0.1791 0.7850 6 h6_ThetaE_00 -0.4262 0.5377 7 h7_H_Scale_Spacal 0.3881 0.4773 8 h8_H_Scale_Lar -0.7481 0.5516 9 h9_Noise_Hcal -0.5281 0.368410 h10_GP_BG_Spacal -0.3263 0.820111 h11_GP_BG_LAr 1.0520 0.908812 h12_BG_CC_94-97 0.3986 0.790613 h13_BG_CC_98-00 -0.9523 0.863114 h14_ChargeAsym 0.0374 0.999415 hllumi1_SPACAL_bulk 1.3147 0.569416 hllumi2_SPACAL_MB 0.7542 0.605817 h1lumi3_LAr_94-97_e+p -1.0811 0.629518 h1lumi4_LAr_e-p 0.0478 0.778819 h1lumi5_LAr_2000 -0.6362 0.6106

1 zlumi1_zncepl 0.4473 0.595220 zd1_e_eff -0.5098 0.785821 zd2_e_theta_a 0.1099 0.684522 zd3_e_theta_b -0.1824 0.796323 zd4_e_escale 1.0303 0.530224 zd5_had1 0.2343 0.588125 zd6_had2 -0.0202 0.662726 zd7_had3 -0.7011 0.767127 zd8_had_flow 0.3307 0.671228 zd9_bg -0.1923 0.416129 zd10_had_flow_b 0.0169 0.235630 zd11 -0.2391 0.622631 z1nce-_e_scale 0.1207 0.945932 z2nce-_bg -0.2053 0.949633 z3nce-_eff1 0.0420 0.948034 z4nce-_eff2 0.4128 0.606135 z5nce-_vtx -0.6691 0.927636 z6nce- 0.1672 0.418937 z1cce- 0.5316 0.836238 z2cce- -0.1274 0.866339 zlumi2_zccem -0.0478 0.778740 zd5nc00 0.1137 0.984841 zd7nc00 0.1544 0.214442 zd8nc00 0.2527 0.928643 zluminc00 -0.6916 0.3903

Default abs/rel settings for Glazov averaging job, but ALSO H1 MB lumi is fixed

And y< 0.35 NC


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