CondFormats
EcalObjects
src
EcalSRSettings.cc
Go to the documentation of this file.
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#include "
CondFormats/EcalObjects/interface/EcalSRSettings.h
"
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#include "
FWCore/Utilities/interface/Exception.h
"
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#include <sstream>
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#include <iostream>
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#include <cstdlib>
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#include <cassert>
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#include <algorithm>
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using namespace
std
;
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EcalSRSettings::EcalSRSettings
()
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: ebDccAdcToGeV_(0.), eeDccAdcToGeV_(0.), bxGlobalOffset_(0), automaticMasks_(0), automaticSrpSelect_(0) {}
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#define SR_PRINT(a) o << #a ": " << val.a##_ << "\n";
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#define SR_VPRINT(a) \
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o << #a; \
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if (val.a##_.size()) \
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o << "[0.." << (val.a##_.size() - 1) << "]:"; \
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else \
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o << "[]: <empty>"; \
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for (size_t i = 0; i < val.a##_.size(); ++i) \
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o << "\t" << val.a##_[i]; \
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o << "\n";
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#define SR_VVPRINT(a) \
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if (val.a##_.size() == 0) \
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o << #a "[][]: <empty>\n"; \
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for (size_t i = 0; i < val.a##_.size(); ++i) { \
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o << #a "[" << i << "]"; \
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if (val.a##_.size()) \
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o << "[0.." << (val.a##_[i].size() - 1) << "]:"; \
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else \
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o << "[]: <empty>"; \
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for (size_t j = 0; j < val.a##_[i].size(); ++j) \
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o << "\t" << val.a##_[i][j]; \
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o << "\n"; \
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}
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std::ostream&
operator<<
(std::ostream&
o
,
const
EcalSRSettings
&
val
) {
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o
<<
"# Neighbour eta range, neighborhood: (2*deltaEta+1)*(2*deltaPhi+1)\n"
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"# In the vector contains:\n"
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"# - 1 element, then value applies to whole ECAL\n"
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"# - 2 elements, then element 0 applies to EB, element 1 to EE\n"
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"# - 12 elements, then element i applied to SRP (i+1)\n"
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"# SRP emulation (see SimCalorimetry/EcalSelectiveReadoutProcuders) supports\n"
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"# only 1 element mode.\n"
;
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SR_VPRINT
(
deltaEta
);
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o
<<
"\n# Neighbouring eta range, neighborhood: (2*deltaEta+1)*(2*deltaPhi+1)\n"
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"# If the vector contains...\n"
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"# ... 1 element, then value applies to whole ECAL\n"
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"# ... 2 elements, then element 0 applies to EB, element 1 to EE\n"
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"# ... 12 elements, then element i applied to SRP (i+1)\n"
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"# If the vector contains...\n"
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"# ... 1 element, then value applies to whole ECAL\n"
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"# ... 2 elements, then element 0 applies to EB, element 1 to EE\n"
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"# ... 12 elements, then element i applied to SRP (i+1)\n"
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"# SRP emulation (see SimCalorimetry/EcalSelectiveReadoutProcuders) supports\n"
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"# only the single-element mode.\n"
;
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SR_VPRINT
(
deltaPhi
);
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o
<<
"\n# Index of time sample (staring from 1) the first DCC weights is implied\n"
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"# If the vector contains:\n"
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"# ... 1 element, then value applies to whole ECAL\n"
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"# ... 2 elements, then element 0 applies to EB, element 1 to EE\n"
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"# ... 54 elements, then element i applied to DCC (i+1) (FED ID 651+i)\n"
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"# SRP emulation (see SimCalorimetry/EcalSelectiveReadoutProcuders) supports\n"
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"# only the single-element mode.\n"
;
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SR_VPRINT
(
ecalDccZs1stSample
);
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o
<<
"\n# ADC to GeV conversion factor used in ZS filter for EB\n"
;
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SR_PRINT
(
ebDccAdcToGeV
);
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o
<<
"\n# ADC to GeV conversion factor used in ZS filter for EE\n"
;
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SR_PRINT
(
eeDccAdcToGeV
);
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o
<<
"\n# DCC ZS FIR weights: weights are rounded in such way that in Hw\n"
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"# representation (weigth*1024 rounded to nearest integer) the sum is null:\n"
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"# Each element is a vector of 6 values, the 6 weights\n"
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"# If the vector contains...\n"
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"# ... 1 element, then the weight set applies to whole ECAL\n"
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"# ... 2 elements, then element 0 applies to EB, element 1 to EE\n"
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"# ... 54 elements, then element i applied to DCC (i+1) (FED ID 651+i)\n"
;
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SR_VVPRINT
(
dccNormalizedWeights
);
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o
<<
"\n# Switch to use a symetric zero suppression (cut on absolute value). For\n"
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"# studies only, for time being it is not supported by the hardware.\n"
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"# having troubles for vector<bool> with coral (3.8.0pre1), using vector<int> instead,\n"
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"# 0 means false, a value different than 0 means true.\n"
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"# If the vector contains...\n"
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"# ... 1 element, then the weight set applies to whole ECAL\n"
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"# ... 2 elements, then element 0 applies to EB, element 1 to EE\n"
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"# ... 54 elements, then element i applied to DCC (i+1) (FED ID 651+i)\n"
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"# ... 75848 elements, then:\n"
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"# for i < 61200, element i applies to EB crystal with denseIndex i\n"
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"# (see EBDetId::denseIndex())\n"
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"# for i >= 61200, element i applies to EE crystal with denseIndex (i+61200)\n"
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"# (see EBDetId::denseIndex())\n"
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"# SRP emulation supports only 1 element mode. Hardware does not support\n"
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"# the symetric ZS, so symetricZS = 0 for real data.\n"
;
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SR_VPRINT
(
symetricZS
);
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o
<<
"\n# ZS energy threshold in GeV to apply to low interest channels of barrel\n"
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"# If the vector contains...\n"
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"# ... 1 element, then the weight set applies to whole ECAL\n"
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"# ... 2 elements, then element 0 applies to EB, element 1 to EE\n"
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"# ... 54 elements, then element i applied to DCC (i+1) (FED ID 651+i)\n"
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"# SRP emulation supports only the 2-element mode.\n"
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"# Corresponds to srpBarrelLowInterestChannelZS and srpEndcapLowInterestChannelZS\n"
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"# of python configuration file parameters\n"
;
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SR_VPRINT
(srpLowInterestChannelZS);
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o
<<
"\n# ZS energy threshold in GeV to apply to high interest channels of endcap\n"
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"# If the vector contains...\n"
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"# ... 1 element, then the weight set applies to whole ECAL\n"
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"# ... 2 elements, then element 0 applies to EB, element 1 to EE\n"
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"# ... 54 elements, then element i applied to DCC (i+1) (FED ID 651+i)\n"
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"# SRP emulation supports only the 2-element mode.\n"
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"# Corresponds to srpBarrelLowInterestChannelZS and srpEndcapLowInterestChannelZS\n"
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"# of python configuration file parameters\n"
;
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SR_VPRINT
(srpHighInterestChannelZS);
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// o << "\n# Switch to run w/o trigger primitive. For debug use only\n"
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// "# having troubles for vector<bool> with coral (3.8.0pre1), using vector<int> instead\n"
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// "# Parameter only relevant for emulation. For real data, must be contains 1 element with\n"
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// "# value 0.\n"
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// "# ... 1 element, then the weight set applies to whole ECAL\n"
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// "# ... 2 elements, then element 0 applies to EB, element 1 to EE\n"
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// "# ... 54 elements, then element i applied to DCC (i+1) (FED ID 651+i)\n"
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// "# SRP emulation supports only the single-element mode.\n";
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// SR_VPRINT(trigPrimBypass);\n"
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//
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// o << "\n# Mode selection for "# Trig bypass" mode\n"
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// "# 0: TT thresholds applied on sum of crystal Et's\n"
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// "# 1: TT thresholds applies on compressed Et from Trigger primitive\n"
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// "# @see trigPrimByPass switch\n"
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// "# Parameter only relevant for \n";
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// SR_VPRINT(trigPrimBypassMode);
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//
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// o << "\n# for debug mode only:\n";
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// SR_VPRINT( trigPrimBypassLTH);
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//
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// o << "\n# for debug mode only:\n";
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// SR_VPRINT(trigPrimBypassHTH);
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//
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// o << "\n# for debug mode only\n"
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// "# having troubles for vector<bool> with coral (3.8.0pre1), using vector<int> instead\n";
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// SR_VPRINT( trigPrimBypassWithPeakFinder);
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//
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// o << "\n# Trigger Tower Flag to use when a flag is not found from the input\n"
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// "# Trigger Primitive collection. Must be one of the following values:\n"
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// "# 0: low interest, 1: mid interest, 3: high interest\n"
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// "# 4: forced low interest, 5: forced mid interest, 7: forced high interest\n";
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// SR_VPRINT(defaultTtf);\n"
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o
<<
"\n# SR->action flag map. 4 elements\n"
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"# action_[i]: action for flag value i\n"
;
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SR_VPRINT
(
actions
);
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o
<<
"\n# Masks for TTC inputs of SRP cards\n"
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"# One element per TCC, that is 108 elements: element i applies to TCC (i+1)\n"
;
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SR_VPRINT
(tccMasksFromConfig);
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o
<<
"\n# Masks for SRP-SRP inputs of SRP cards\n"
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"# One element per SRP, that is 12 elements: element i applies to SRP (i+1)\n"
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"# indices: [iSrp][iCh]\n"
;
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SR_VVPRINT
(srpMasksFromConfig);
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o
<<
"\n# Masks for DCC output of SRP cards\n"
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"# One element per DCC, that is 54 elements: element i applies to DCC (i+1)\n"
;
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SR_VPRINT
(dccMasks);
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o
<<
"\n# Mask to enable pattern test. Typical value: 0.\n"
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"# One element per SRP, that is 12 elements: element i applies to SRP (i+1)\n"
;
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SR_VPRINT
(srfMasks);
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o
<<
"\n# Substitution flags used in patterm mode\n"
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"# indices: [iSrp][iFlag]\n"
;
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SR_VVPRINT
(substitutionSrfs);
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o
<<
"\n# Tester mode configuration\n"
;
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SR_VPRINT
(testerTccEmuSrpIds);
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SR_VPRINT
(testerSrpEmuSrpIds);
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SR_VPRINT
(testerDccTestSrpIds);
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SR_VPRINT
(testerSrpTestSrpIds);
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o
<<
"\n# Per SRP card bunch crossing counter offset.\n"
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"# This offset is added to the bxGlobalOffset\n"
;
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SR_VPRINT
(bxOffsets);
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o
<<
"\n# SRP system bunch crossing counter offset.\n"
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"# For each card the bxOffset[i]\n"
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"# is added to this one.\n"
;
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SR_PRINT
(bxGlobalOffset);
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o
<<
"\n# Switch for automatic channel masking. 0: disabled; 1: enabled. Standard configuration: 1.\n"
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"# When enabled, if a FED is excluded from the run, the corresponding TCC inputs is automatically\n"
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"# masked (overwrites the tccInputMasks).\n"
;
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SR_PRINT
(automaticMasks);
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o
<<
"\n# Switch for automatic SRP card selection. 0: disabled; 1 : enabled..\n"
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"# When enabled, if all the FEDs corresponding to a given SRP is excluded from the run,\n"
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"# Then the corresponding SRP card is automatically excluded.\n"
;
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SR_PRINT
(automaticSrpSelect);
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return
o
;
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}
SR_VPRINT
#define SR_VPRINT(a)
Definition:
EcalSRSettings.cc:16
ecalDigis_beamcom09_cff.ecalDccZs1stSample
ecalDccZs1stSample
Definition:
ecalDigis_beamcom09_cff.py:12
ecalDigis_craft_cfi.symetricZS
symetricZS
Definition:
ecalDigis_craft_cfi.py:53
DigiCosmics_cff.ebDccAdcToGeV
ebDccAdcToGeV
Definition:
DigiCosmics_cff.py:50
EcalSRSettings.h
EcalTangentSkim_cfg.o
o
Definition:
EcalTangentSkim_cfg.py:42
spr::deltaEta
static const double deltaEta
Definition:
CaloConstants.h:8
SiPixelRawToDigiRegional_cfi.deltaPhi
deltaPhi
Definition:
SiPixelRawToDigiRegional_cfi.py:9
EcalSRSettings::EcalSRSettings
EcalSRSettings()
Definition:
EcalSRSettings.cc:12
ecalDigis_beamcom09_cff.eeDccAdcToGeV
eeDccAdcToGeV
Definition:
ecalDigis_beamcom09_cff.py:19
operator<<
std::ostream & operator<<(std::ostream &o, const EcalSRSettings &val)
Definition:
EcalSRSettings.cc:39
EcalSRSettings
Definition:
EcalSRSettings.h:29
heppy_batch.val
val
Definition:
heppy_batch.py:351
std
Definition:
JetResolutionObject.h:76
SR_PRINT
#define SR_PRINT(a)
Definition:
EcalSRSettings.cc:15
Exception.h
actions
roAction_t actions[nactions]
Definition:
GenABIO.cc:181
ecalDigis_beamcom09_cff.dccNormalizedWeights
dccNormalizedWeights
Definition:
ecalDigis_beamcom09_cff.py:9
SR_VVPRINT
#define SR_VVPRINT(a)
Definition:
EcalSRSettings.cc:25
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