The electron channel Born-level single-differential cross section DSIG/DM. The measurements are listed together with the statistical uncertainties. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), electron reconstruction efficiency (reco), electron identification efficiency (id), the isolation efficiency (iso), the electron energy resolution (Eres), the electron energy scale (Escale), the multijet and W+jets background (mult.), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-". The ratio of the dressed-level to Born-level predictions (kDressed) is also provided.

The electron channel Born-level double-differential cross section D2SIG/DM/DABSYRAP. The measurements are listed together with the statistical uncertainties. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), electron reconstruction efficiency (reco), electron identification efficiency (id), the isolation efficiency (iso), the electron energy resolution (Eres), the electron energy scale (Escale), the multijet and W+jets background (mult.), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-". The ratio of the dressed-level to Born-level predictions (kDressed) is also provided.

The electron channel Born-level double-differential cross section D2SIG/DM/DABSDETA. The measurements are listed together with the statistical uncertainties. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), electron reconstruction efficiency (reco), electron identification efficiency (id), the isolation efficiency (iso), the electron energy resolution (Eres), the electron energy scale (Escale), the multijet and W+jets background (mult.), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-". The ratio of the dressed-level to Born-level predictions (kDressed) is also provided.

The muon channel Born-level single-differential cross section DSIG/DM. The measurements are listed together with the statistical (stat) uncertainty. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), muon reconstruction efficiency (reco), the MS resolution (MSres), the ID resolution (IDres), the muon transverse momentum scale (pT), the isolation efficiency (iso), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the multijet background uncertainty (mult), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-". The ratio of the dressed-level to Born-level predictions (kdressed) is also provided.

The muon channel Born-level double-differential cross section D2SIG/DM/DABSYRAP. The measurements are listed together with the statistical (stat) uncertainty. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), muon reconstruction efficiency (reco), the MS resolution (MSres), the ID resolution (IDres), the muon transverse momentum scale (pT), the isolation efficiency (iso), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the multijet background uncertainty (mult), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-". The ratio of the dressed-level to Born-level predictions (kdressed) is also provided.

The muon channel Born-level double-differential cross section D2SIG/DM/DABSDETA. The measurements are listed together with the statistical (stat) uncertainty. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), muon reconstruction efficiency (reco), the MS resolution (MSres), the ID resolution (IDres), the muon transverse momentum scale (pT), the isolation efficiency (iso), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the multijet background uncertainty (mult), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-". The ratio of the dressed-level to Born-level predictions (kdressed) is also provided.

Born-level differential fiducial cross section prediction DSIG/DM at NNLO including NLO electroweak corrections and the PI contribution. The calculation is performed using the MMHT2014 NNLO PDF set and with dynamic scales set equal to the invariant mass. The predictions are listed together with the statistical uncertainty, the PDF eigenvector variation, the uncertainty from the variation of alpha_s, the combined uncertainty from mu_F and mu_R, and the uncertainty from the variation of the photon PDF in the PI contribution. The fraction of the PI contribution, f(PI), is also given.

Born-level differential fiducial cross section prediction D2SIG/DM/DABSYRAP at NNLO including NLO electroweak corrections and the PI contribution. The calculation is performed using the MMHT2014 NNLO PDF set and with dynamic scales set equal to the invariant mass. The predictions are listed together with the statistical uncertainty, the PDF eigenvector variation, the uncertainty from the variation of alpha_s, the combined uncertainty from mu_F and mu_R, and the uncertainty from the variation of the photon PDF in the PI contribution. The fraction of the PI contribution, f(PI), is also given.

Born-level differential fiducial cross section prediction D2SIG/DM/DABSDETA at NNLO including NLO electroweak corrections and the PI contribution. The calculation is performed using the MMHT2014 NNLO PDF set and with dynamic scales set equal to the invariant mass. The predictions are listed together with the statistical uncertainty, the PDF eigenvector variation, the uncertainty from the variation of alpha_s, the combined uncertainty from mu_F and mu_R, and the uncertainty from the variation of the photon PDF in the PI contribution. The fraction of the PI contribution, f(PI), is also given.

Statistical correlation between the measurement bins in mass, absolute rapidity and absolute pseudorapidity separation in the electron channel for 116 GeV < M(EE) < 150 GeV.

Statistical correlation between the measurement bins in mass, absolute rapidity and absolute pseudorapidity separation in the electron channel for 150 GeV < M(EE) < 200 GeV.

Statistical correlation between the measurement bins in mass, absolute rapidity and absolute pseudorapidity separation in the electron channel for 200 GeV < M(EE) < 300 GeV.

Statistical correlation between the measurement bins in mass, absolute rapidity and absolute pseudorapidity separation in the electron channel for 300 GeV < M(EE) < 500 GeV.

Statistical correlation between the measurement bins in mass, absolute rapidity and absolute pseudorapidity separation in the electron channel for 500 GeV < M(EE) < 1500 GeV.

The electron channel dressed-level single-differential cross section DSIG/DM. The measurements are listed together with the statistical uncertainties. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), electron reconstruction efficiency (reco), electron identification efficiency (id), the isolation efficiency (iso), the electron energy resolution (Eres), the electron energy scale (Escale), the multijet and W+jets background (mult.), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-".

The electron channel dressed-level double-differential cross section D2SIG/DM/DABSYRAP in the bin 116 GeV < M(EE) < 150 GeV. The measurements are listed together with the statistical uncertainties. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), electron reconstruction efficiency (reco), electron identification efficiency (id), the isolation efficiency (iso), the electron energy resolution (Eres), the electron energy scale (Escale), the multijet and W+jets background (mult.), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-".

The electron channel dressed-level double-differential cross section D2SIG/DM/DABSYRAP in the bin 150 GeV < M(EE) < 200 GeV. The measurements are listed together with the statistical uncertainties. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), electron reconstruction efficiency (reco), electron identification efficiency (id), the isolation efficiency (iso), the electron energy resolution (Eres), the electron energy scale (Escale), the multijet and W+jets background (mult.), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-".

The electron channel dressed-level double-differential cross section D2SIG/DM/DABSYRAP in the bin 200 GeV < M(EE) < 300 GeV. The measurements are listed together with the statistical uncertainties. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), electron reconstruction efficiency (reco), electron identification efficiency (id), the isolation efficiency (iso), the electron energy resolution (Eres), the electron energy scale (Escale), the multijet and W+jets background (mult.), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-".

The electron channel dressed-level double-differential cross section D2SIG/DM/DABSYRAP in the bin 300 GeV < M(EE) < 500 GeV. The measurements are listed together with the statistical uncertainties. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), electron reconstruction efficiency (reco), electron identification efficiency (id), the isolation efficiency (iso), the electron energy resolution (Eres), the electron energy scale (Escale), the multijet and W+jets background (mult.), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-".

The electron channel dressed-level double-differential cross section D2SIG/DM/DABSYRAP in the bin 500 GeV < M(EE) < 1500 GeV. The measurements are listed together with the statistical uncertainties. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), electron reconstruction efficiency (reco), electron identification efficiency (id), the isolation efficiency (iso), the electron energy resolution (Eres), the electron energy scale (Escale), the multijet and W+jets background (mult.), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-".

The electron channel Born-level double-differential cross section D2SIG/DM/DABSDETA in the bin 116 GeV < M(EE) < 150 GeV. The measurements are listed together with the statistical uncertainties. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), electron reconstruction efficiency (reco), electron identification efficiency (id), the isolation efficiency (iso), the electron energy resolution (Eres), the electron energy scale (Escale), the multijet and W+jets background (mult.), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-".

The electron channel Born-level double-differential cross section D2SIG/DM/DABSDETA in the bin 150 GeV < M(EE) < 200 GeV. The measurements are listed together with the statistical uncertainties. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), electron reconstruction efficiency (reco), electron identification efficiency (id), the isolation efficiency (iso), the electron energy resolution (Eres), the electron energy scale (Escale), the multijet and W+jets background (mult.), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-".

The electron channel Born-level double-differential cross section D2SIG/DM/DABSDETA in the bin 200 GeV < M(EE) < 300 GeV. The measurements are listed together with the statistical uncertainties. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), electron reconstruction efficiency (reco), electron identification efficiency (id), the isolation efficiency (iso), the electron energy resolution (Eres), the electron energy scale (Escale), the multijet and W+jets background (mult.), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-".

The electron channel Born-level double-differential cross section D2SIG/DM/DABSDETA in the bin 300 GeV < M(EE) < 500 GeV. The measurements are listed together with the statistical uncertainties. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), electron reconstruction efficiency (reco), electron identification efficiency (id), the isolation efficiency (iso), the electron energy resolution (Eres), the electron energy scale (Escale), the multijet and W+jets background (mult.), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-".

The electron channel Born-level double-differential cross section D2SIG/DM/DABSDETA in the bin 500 GeV < M(EE) < 1500 GeV. The measurements are listed together with the statistical uncertainties. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), electron reconstruction efficiency (reco), electron identification efficiency (id), the isolation efficiency (iso), the electron energy resolution (Eres), the electron energy scale (Escale), the multijet and W+jets background (mult.), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-".

The muon channel dressed-level single-differential cross section DSIG/DM. The measurements are listed together with the statistical (stat) uncertainty. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), muon reconstruction efficiency (reco), the MS resolution (MSres), the ID resolution (IDres), the muon transverse momentum scale (pT), the isolation efficiency (iso), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the multijet background uncertainty (mult), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-".

The muon channel dressed-level double-differential cross section D2SIG/DM/DABSYRAP in the bin 116 GeV < M(MM) < 150 GeV. The measurements are listed together with the statistical (stat) uncertainty. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), muon reconstruction efficiency (reco), the MS resolution (MSres), the ID resolution (IDres), the muon transverse momentum scale (pT), the isolation efficiency (iso), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the multijet background uncertainty (mult), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-".

The muon channel dressed-level double-differential cross section D2SIG/DM/DABSYRAP in the bin 150 GeV < M(MM) < 200 GeV. The measurements are listed together with the statistical (stat) uncertainty. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), muon reconstruction efficiency (reco), the MS resolution (MSres), the ID resolution (IDres), the muon transverse momentum scale (pT), the isolation efficiency (iso), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the multijet background uncertainty (mult), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-".

The muon channel dressed-level double-differential cross section D2SIG/DM/DABSYRAP in the bin 200 GeV < M(MM) < 300 GeV. The measurements are listed together with the statistical (stat) uncertainty. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), muon reconstruction efficiency (reco), the MS resolution (MSres), the ID resolution (IDres), the muon transverse momentum scale (pT), the isolation efficiency (iso), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the multijet background uncertainty (mult), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-".

The muon channel dressed-level double-differential cross section D2SIG/DM/DABSYRAP in the bin 300 GeV < M(MM) < 500 GeV. The measurements are listed together with the statistical (stat) uncertainty. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), muon reconstruction efficiency (reco), the MS resolution (MSres), the ID resolution (IDres), the muon transverse momentum scale (pT), the isolation efficiency (iso), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the multijet background uncertainty (mult), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-".

The muon channel dressed-level double-differential cross section D2SIG/DM/DABSYRAP in the bin 500 GeV < M(MM) < 1500 GeV. The measurements are listed together with the statistical (stat) uncertainty. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), muon reconstruction efficiency (reco), the MS resolution (MSres), the ID resolution (IDres), the muon transverse momentum scale (pT), the isolation efficiency (iso), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the multijet background uncertainty (mult), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-".

The muon channel dressed-level double-differential cross section D2SIG/DM/DABSDETA in the bin 116 GeV < M(MM) < 150 GeV. The measurements are listed together with the statistical (stat) uncertainty. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), muon reconstruction efficiency (reco), the MS resolution (MSres), the ID resolution (IDres), the muon transverse momentum scale (pT), the isolation efficiency (iso), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the multijet background uncertainty (mult), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-".

The muon channel dressed-level double-differential cross section D2SIG/DM/DABSDETA in the bin 150 GeV < M(MM) < 200 GeV. The measurements are listed together with the statistical (stat) uncertainty. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), muon reconstruction efficiency (reco), the MS resolution (MSres), the ID resolution (IDres), the muon transverse momentum scale (pT), the isolation efficiency (iso), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the multijet background uncertainty (mult), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-".

The muon channel dressed-level double-differential cross section D2SIG/DM/DABSDETA in the bin 200 GeV < M(MM) < 300 GeV. The measurements are listed together with the statistical (stat) uncertainty. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), muon reconstruction efficiency (reco), the MS resolution (MSres), the ID resolution (IDres), the muon transverse momentum scale (pT), the isolation efficiency (iso), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the multijet background uncertainty (mult), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-".

The muon channel dressed-level double-differential cross section D2SIG/DM/DABSDETA in the bin 300 GeV < M(MM) < 500 GeV. The measurements are listed together with the statistical (stat) uncertainty. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), muon reconstruction efficiency (reco), the MS resolution (MSres), the ID resolution (IDres), the muon transverse momentum scale (pT), the isolation efficiency (iso), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the multijet background uncertainty (mult), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-".

The muon channel dressed-level double-differential cross section D2SIG/DM/DABSDETA in the bin 500 GeV < M(MM) < 1500 GeV. The measurements are listed together with the statistical (stat) uncertainty. In addition the contributions from the individual correlated (cor) and uncorrelated (unc) systematic error sources are also provided consisting of the trigger efficiency (trig), muon reconstruction efficiency (reco), the MS resolution (MSres), the ID resolution (IDres), the muon transverse momentum scale (pT), the isolation efficiency (iso), the top and diboson background normalisation (top, diboson), the top and diboson background MC statistical uncertainty (bgMC), the multijet background uncertainty (mult), the signal MC statistical uncertainty (MC), and the luminosity uncertainty (lumi). The sign of the uncertainty corresponds to a one standard deviation upward shift of the uncertainty source, where +/- means "+" and -/+ means "-".