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+# -*-sh-*-
+# ==================================================================== #
+#
+# A steering file for creating a fastNLO table/grid (with NNLOJET)
+# This is an example for a global steering for ALL tables/grids of a scenario
+#
+# The grid production is performed in three steps:
+# I. A warmup run for NNLOJET to perform essential integrations
+# See NNLOJET for details. fastNLO is not used or called at this stage.
+# II. A warmup run for fastNLO that determines the accessed phase space
+# in momentum fraction x and process scale mu_r, mu_f.
+# Only a few fastNLO settings are used here, see below.
+# The output is written into a warmup file named after the
+# the NNLOJET process name, e.g. 'ZJ', the NNLOJET job name, e.g.
+# 'LO-CMS13-ak07', and the NNLOJET grid name, e.g.
+# ptz > ZJtriple_yb0_ystar0_ptz [30, 100, 200, 300, 400, 1000] grid = ZJtriple_yb0_ystar0_ptz.fast
+# NNLOJET histo fastNLO grid
+# ==> ZJ.LO-CMS13-ak07.ZJtriple_yb0_ystar0_ptz.wrm
+# This warmup file stores some settings for fastNLO in addition to
+# the accessed phase space (with number of events per bin!) for
+# each order of NNLOJET run (LO, R, V, RRa, RRb, RV, VV).
+# For a later combination ALL production runs in step III below
+# MUST use the SAME warmup file. The latter should be the largest
+# accessed phase space as combined from any order in NNLOJET!
+# ==> the expected filename for this unique warmup file is
+# ZJ.ZJtriple_yb0_ystar0_ptz.wrm
+# without the job name info.
+# III. Many production runs filling fastNLO grids for various orders
+# of a process from NNLOJET that later must be combined.
+# See NNLOJET for details.
+# Most fastNLO settings are taken into account here.
+#
+# This steering file has to be used in combination with a NNLOJET
+# run card, where most of the essential seetings like the
+# observable and its binning are defined.
+# Modifications or additional settings respect the following hierarchy:
+# 1. From the interface package nnlo-bridge default settings for
+# fastNLO with NNLOJET are made and information from NNLOJET is
+# passed to fastNLO.
+# 2. A steering file named after the NNLOJET grid name for fastNLO,
+# e.g. from the example above
+# ==> ZJ.ZJtriple_yb0_ystar0_ptz.str
+# can be used to set steer parameters individually for each fastNLO grid.
+# Settings from step 1 can be overwritten. Be careful not to make
+# changes inconsistent with what is defined in the NNLOJET run card
+# or what is mandatory for the interface to work!
+# 3a. In production runs the previously derived warmup file is read.
+# 3b. A global steering file named after only the first part of
+# the NNLOJET grid name for fastNLO, 'ZJtriple', which is also used
+# as fastNLO scenario name,
+# ==> ZJ.ZJtriple.str
+# can be used to set steer parameters globally for all fastNLO grids.
+# Settings from step 2 are not overwritten, but lead to warnings.
+# 4. In principal, parameters can also be set on the command line, but
+# this has not been tested yet.
+#
+# Special remarks on scale settings:
+# ----------------------------------
+# Lacking sufficient scale choice information from NNLOJET the following
+# settings are assumed for flexible-scale tables that allow two central
+# scale choices to be stored simultaneously:
+# DIS pp
+# - the 1st scale set for muf defines scale1 scale2
+# - the 1st scale set for mur defines scale2 scale1
+# To check the closure between NNLOJET and fastNLO the proper
+# ASYMMETRIC central scale choice must be used when evaluating a
+# fastNLO grid with fnlo-tk-cppread, either scale12 or scale21.
+#
+# It is recommended to set ScaleDescriptionScale1 and
+# ScaleDescriptionScale2 accordingly.
+#
+# If multiple entries per event are requested using NNLOJET COMPOSITE
+# histos AND a scale definition varying with each entry is desired,
+# then one central scale, e.g. ptmax=ptj1, must be defined for both
+# muf and mur, and the InclusiveJets flag must be set in the fastNLO
+# steering file.
+# In that case the following definitions hold depending on the
+# nnlo-bridge code version:
+#
+# BRIDGE 0.0.40:
+# (requires additional fixed-scale combinations of
+# muf = 2.718281828459045 mur = 2.718281828459045
+# muf = 4.481689070338065 mur = 4.481689070338065
+# muf = 4.481689070338065 mur = 2.718281828459045
+# muf = 2.718281828459045 mur = 4.481689070338065
+# muf = 12.18249396070347 mur = 2.718281828459045
+# muf = 2.718281828459045 mur = 12.18249396070347
+# in the SCALES section of the NNLOJET run card.)
+#
+# DIS pp
+# - the 1st scale set for muf&mur defines scale1 scale2
+# - the stored observable defines scale2 scale1
+# To check the closure between NNLOJET and fastNLO the proper
+# SYMMETRIC central scale choice must be used when evaluating a
+# fastNLO grid with fnlo-tk-cppread, either scale1 or scale2.
+#
+# BRIDGE 0.0.46:
+# (requires additional fixed-scale combinations of
+# muf = 90.0171313005 mur = 90.0171313005
+# muf = 54.5981500331 mur = 54.5981500331
+# muf = 148.4131591026 mur = 148.4131591026
+# muf = 54.5981500331 mur = 90.0171313005
+# muf = 90.0171313005 mur = 54.5981500331
+# muf = 148.4131591026 mur = 90.0171313005
+# in the SCALES section of the NNLOJET run card.)
+#
+# DIS(?) pp
+# - the 1st scale set for muf&mur defines scale1 scale2=mu/obs(!)
+# - the stored observable defines scale2 scale1
+# To check the closure between NNLOJET and fastNLO the proper
+# SYMMETRIC central scale choice must be used when evaluating a
+# fastNLO grid with fnlo-tk-cppread, i.e. for pp scale1*scale2.
+#
+# ==================================================================== #
+
+# ==================================================================== #
+#
+# Scenario specific settings
+#
+# Either set individually for each fastNLO grid or globally for all
+#
+# ==================================================================== #
+
+# -------------------------------------------------------------------- #
+# Settings to be modified already for Warmup
+# (These are stored in the warmup file!)
+# -------------------------------------------------------------------- #
+#CheckScaleLimitsAgainstBins true # (def.=true) Set limits for scale nodes to bin borders, if possible. Good if scale equals the binned observable.
+ # Scales and scale factors must be set in the NNLOJET run card
+ScaleDescriptionScale1 "m12_[GeV]" # (def.='scale1') Reset the 1st scale name and unit, e.g. "<pT_1,2>_[GeV]" (Note: The 1st scale must always be in units of [GeV]!)
+ScaleDescriptionScale2 "m12_[GeV]" # (def.='scale2') Reset the 2nd scale name and unit (ONLY for flexible-scale tables)
+#DifferentialDimension 1 # (must be 1) So far the interface to NNLOJET supports only 1-dim histograms. DO NOT CHANGE!
+DimensionLabels { # Labels (symbol and unit) for the measurement dimension (from outer to inner "loop")
+ "m12_[GeV]" # The default following the example above would be: "ptz"
+}
+#DimensionIsDifferential { # (must be 2) Specify for each dimension whether
+# 2 # 0 : the cross section is NOT differential, i.e. there are two bin borders,
+#} # but NO division (normalization) by bin width
+ # 1 : the cross section is point-wise differential, i.e. only one point is given
+ # 2 : the cross section is bin-wise differential, i.e. there are two bin borders
+ # Since NNLOJET provides bin-wise differential distributions use option 2. DO NOT CHANGE!
+
+# -------------------------------------------------------------------- #
+# Description of scenario
+#
+# (Write each line of description in quotation marks)
+# -------------------------------------------------------------------- #
+ScenarioName fnl2412eff-fc-v2 # (def.=NNLOJET process name) No white space allowed here!
+ # Here: Either one description for all
+ScenarioDescription { # Replace generic one-line text by desired (multi-line) description
+ "d2sigma-dijet_dm12_dym_[pb_GeV]"
+ "CMS_Collaboration"
+ "Dijet_m12_ym0-ym4"
+ "anti-kT_R=0.7"
+ "CMS-PAPER-QCD-11-004, arXiv:1212.6660, Phys. Rev. D 87 (2013) 112002."
+ "RIVET_ID=CMS_2013_I1208923/D06-x01-y01,SPIRES_ID=9901922,INSPIRE_RECORD=1208923"
+ "THEORY_LABEL=NNLOJET modules2 FC"
+ "provided by:"
+ "fastNLO_2.5.1"
+ "If you use this table, please cite:"
+ " D. Britzger, K. Rabbertz, F. Stober, M. Wobisch, Proc. DIS 2012, 217 (2012), arXiv:1208.3641."
+}
+PublicationUnits 12 # (def.=12) Cross section unit to be used for output (negative power of 10, e.g. 12->pb, 15->fb)
+ # For comparison, e.g. via Rivet, should correspond to published data cross sections
+
+# -------------------------------------------------------------------- #
+# Cuts
+# -------------------------------------------------------------------- #
+# To bet set via NNLOJET run card
+
+# -------------------------------------------------------------------- #
+# Observable normalization
+# -------------------------------------------------------------------- #
+#CalculateBinSize true # (def.=true) Calculate bin width from lower and upper bin boundaries
+#BinSizeFactor 1. # (def.=1.) Possibility to provide additional normalization factor, e.g. of 2. for bins in |y|
+#BinSize { x1 x2 x3 ... } # (def. not set) If 'CalculateBinSize' is 'false' provide table with bin widths 'by hand' for normalization
+
+# -------------------------------------------------------------------- #
+# Observable binning
+# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
+# Use either 'SingleDifferentialBinning' or
+# 'DoubleDifferentialBinning' or
+# 'TripleDifferentialBinning'
+# in accord with 'DifferentialDimension' above
+# -------------------------------------------------------------------- #
+# To bet set via the NNLOJET run card
+
+# ==================================================================== #
+#
+# Process specific and therefore at least partially theory-code
+# dependent settings
+#
+# ==================================================================== #
+# To bet set directly from NNLOJET interface and via the NNLOJET run card
+
+# ==================================================================== #
+#
+# A few special settings only used with NNLOJET so far
+#
+# ==================================================================== #
+#InclusiveJets true # (def.=false) Flag to vary the mur, muf scale per entry, not just per event
+# # Must be set in accordance with NNLOJET run card!
+# # Only possible with flexible-scale grids
+
+# ==================================================================== #
+#
+# General fastNLO settings
+#
+# ==================================================================== #
+GlobalVerbosity INFO # (def.=WARNING) Global output verbosity of fastNLO toolkit,
+ # (and of user scenario code if implemented).
+ # Possible values are: DEBUG, MANUAL, INFO, WARNING, ERROR, SILENT
+FlexibleScaleTable true # (def.=false) Create table fully flexible in mu_f (larger size), true, or
+ # table with fixed number of mu_f scale factors
+CacheType 20 # For now switch off caching feature
+CacheMax 30
+CacheCompare 10
+
+# ==================================================================== #
+#
+# Specific fastNLO settings (normally do not need to be changed)
+# Only change when you know what you are doing ...!
+#
+# ==================================================================== #
+#OutputFilename fastNLO.tab # Overwrites default filename of fastNLO output table, e.g. ZJ.LO-CMS13.vBa.ZJtriple_yb0_ystar0_ptz.s92394.tab.gz
+#OutputPrecision 8 # (def.=8) Number of decimal digits to store in output table
+#OutputCompression true # (def.=true) Write out fastNLO table/grid in gzipped format (requires zlib)
+#CacheType 0
+#CacheMax 30
+#CacheCompare 10
+#ScaleVariationFactors { # (def.=1.0 0.5 2.0) Must be set in accordance with NNLOJET run card! Factorization scale variations (only needed for fixed-scale tables)
+# 1.0 0.5 2.0 # List of scale factors must include factor '1.0'
+#} # Scale factors will be ordered according to fastNLO convention: (1, min, ... , max)
+#ReadBinningFromSteering false # (must be true) Specify where the binning is defined.
+#ApplyPDFReweighting true # (def.=true) Apply reweighting of PDFs for an optimized interpolation
+
+# -------------------------------------------------------------------- #
+# Choose fastNLO interpolation kernels and distance measures
+# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
+# Currently implemented interpolation kernels
+# Catmull
+# Lagrange
+# OneNode
+# Linear
+#
+# Currently implemented distance measures
+# linear
+# loglog025 eq. to (log(log(4*x)))
+# log10
+# sqrtlog10 eq. to sqrt(log_10(x))
+#
+# For a constant scale like M_Z use e.g.
+# Mu1_Kernel OneNode
+# Mu1_DistanceMeasure "log10"
+# Mu1_NNodes 1
+# -------------------------------------------------------------------- #
+#X_Kernel Lagrange # (def.= pp: Lagrange; DIS: Catmull)
+#X_DistanceMeasure sqrtlog10 # (def.= pp: sqrtlog10; DIS: log10)
+#X_NNodes 20 # (def.= pp: 20; DIS: 18)
+#X_NNodeCounting NodesPerBin # (def.=NodesPerBin)
+
+#Mu1_Kernel Lagrange # (def.=Lagrange)
+#Mu1_DistanceMeasure "loglog025" # (def.=loglog025)
+#Mu1_NNodes 6 # (def.=6)
+
+# Scale2 not used for fixed-scale tables
+Mu2_Kernel OneNode # (def.=Lagrange)
+Mu2_DistanceMeasure "loglog025" # (def.=loglog025)
+Mu2_NNodes 1 # (def.=6)