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CSCTFSectorProcessor Class Reference

KK. More...

#include <CSCTFSectorProcessor.h>

Classes

class  h
 

Public Member Functions

 CSCTFSectorProcessor (const unsigned &endcap, const unsigned &sector, const edm::ParameterSet &pset, bool tmb07, const L1MuTriggerScales *scales, const L1MuTriggerPtScale *ptScale)
 
CSCTriggerContainer< csctf::TrackStubdtStubs () const
 
std::vector< csctf::TrackStubfilteredStubs () const
 
void initialize (const edm::EventSetup &c)
 KK. More...
 
int maxBX () const
 
int minBX () const
 
void printDisclaimer (int firmSP, int firmFA)
 
void readParameters (const edm::ParameterSet &pset)
 
int run (const CSCTriggerContainer< csctf::TrackStub > &)
 
CSCTriggerContainer< csc::L1Tracktracks () const
 
 ~CSCTFSectorProcessor ()
 

Private Member Functions

 CSCTFSectorProcessor (const CSCTFSectorProcessor &par)
 
CSCTFSectorProcessoroperator= (const CSCTFSectorProcessor &rhs)
 

Private Attributes

CSCTFSPCoreLogiccore_
 
CSCTriggerContainer< csctf::TrackStubdt_stubs
 
std::map< int, int > firmSP_Map
 
bool initFail_
 
bool initializeFromPSet
 
bool isCoreVerbose
 
int kill_fiber
 
CSCTriggerContainer< csc::L1Trackl1_tracks
 
int m_allowALCTonly
 
int m_allowCLCTonly
 
int m_bxa_depth
 
int m_curvedp
 
unsigned m_endcap
 
int m_etamax [8]
 
int m_etamin [8]
 
int m_etawin [7]
 
int m_firmDD
 
int m_firmFA
 
int m_firmSP
 
int m_firmVM
 
bool m_gangedME1a
 
unsigned m_latency
 
int m_maxBX
 
int m_maxdeta112_accp
 
int m_maxdeta113_accp
 
int m_maxdeta12_accp
 
int m_maxdeta13_accp
 
int m_maxdphi112_accp
 
int m_maxdphi113_accp
 
int m_maxdphi12_accp
 
int m_maxdphi13_accp
 
int m_mbaPhiOff
 
int m_mbbPhiOff
 
int m_minBX
 
int m_mindeta112_accp
 
int m_mindeta113_accp
 
int m_mindeta12_accp
 
int m_mindeta13_accp
 
int m_mindetap
 
int m_mindetap_halo
 
int m_mindphip
 
int m_mindphip_halo
 
int m_preTrigger
 
unsigned m_sector
 
int m_straightp
 
int m_widePhi
 
CSCTFPtLUTptLUT_
 
int QualityEnableME1a
 
int QualityEnableME1b
 
int QualityEnableME1c
 
int QualityEnableME1d
 
int QualityEnableME1e
 
int QualityEnableME1f
 
int QualityEnableME2a
 
int QualityEnableME2b
 
int QualityEnableME2c
 
int QualityEnableME3a
 
int QualityEnableME3b
 
int QualityEnableME3c
 
int QualityEnableME4a
 
int QualityEnableME4b
 
int QualityEnableME4c
 
int rescaleSinglesPhi
 
int run_core
 
unsigned int singlesTrackOutput
 
std::map< std::string, CSCSectorReceiverLUT * > srLUTs_
 
std::vector< csctf::TrackStubstub_vec_filtered
 
unsigned TMB07
 
int trigger_on_MB1a
 
int trigger_on_MB1d
 
int trigger_on_ME1a
 
int trigger_on_ME1b
 
int trigger_on_ME2
 
int trigger_on_ME3
 
int trigger_on_ME4
 

Static Private Attributes

static const std::string FPGAs [5] = {"F1","F2","F3","F4","F5"}
 

Detailed Description

KK.

Definition at line 26 of file CSCTFSectorProcessor.h.

Constructor & Destructor Documentation

CSCTFSectorProcessor::CSCTFSectorProcessor ( const unsigned &  endcap,
const unsigned &  sector,
const edm::ParameterSet pset,
bool  tmb07,
const L1MuTriggerScales scales,
const L1MuTriggerPtScale ptScale 
)

Definition at line 16 of file CSCTFSectorProcessor.cc.

References core_, makeMuonMisalignmentScenario::endcap, firmSP_Map, FPGAs, edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), mps_fire::i, diffTreeTool::index, initFail_, initializeFromPSet, isCoreVerbose, kill_fiber, LogDebug, m_allowALCTonly, m_allowCLCTonly, m_bxa_depth, m_curvedp, m_endcap, m_etamax, m_etamin, m_etawin, m_firmDD, m_firmFA, m_firmSP, m_firmVM, m_gangedME1a, m_latency, m_maxBX, m_maxdeta112_accp, m_maxdeta113_accp, m_maxdeta12_accp, m_maxdeta13_accp, m_maxdphi112_accp, m_maxdphi113_accp, m_maxdphi12_accp, m_maxdphi13_accp, m_mbaPhiOff, m_mbbPhiOff, m_minBX, m_mindeta112_accp, m_mindeta113_accp, m_mindeta12_accp, m_mindeta13_accp, m_mindetap, m_mindetap_halo, m_mindphip, m_mindphip_halo, m_preTrigger, m_sector, m_straightp, m_widePhi, ptLUT_, QualityEnableME1a, QualityEnableME1b, QualityEnableME1c, QualityEnableME1d, QualityEnableME1e, QualityEnableME1f, QualityEnableME2a, QualityEnableME2b, QualityEnableME2c, QualityEnableME3a, QualityEnableME3b, QualityEnableME3c, QualityEnableME4a, QualityEnableME4b, QualityEnableME4c, readParameters(), rescaleSinglesPhi, run_core, singlesTrackOutput, srLUTs_, TMB07, trigger_on_MB1a, trigger_on_MB1d, trigger_on_ME1a, trigger_on_ME1b, trigger_on_ME2, trigger_on_ME3, and trigger_on_ME4.

22 {
23  m_endcap = endcap;
24  m_sector = sector;
25  TMB07 = tmb07;
26 
27  // allows a configurable option to handle unganged ME1a
28  m_gangedME1a = pset.getUntrackedParameter<bool>("gangedME1a", true);
29 
30  // Parameter below should always present in ParameterSet:
31  m_latency = pset.getParameter<unsigned>("CoreLatency");
32  m_minBX = pset.getParameter<int>("MinBX");
33  m_maxBX = pset.getParameter<int>("MaxBX");
34  initializeFromPSet = pset.getParameter<bool>("initializeFromPSet");
35  if( m_maxBX-m_minBX >= 7 ) edm::LogWarning("CSCTFTrackBuilder::ctor")<<" BX window width >= 7BX. Resetting m_maxBX="<<(m_maxBX=m_minBX+6);
36 
37  // All following parameters may appear in either ParameterSet of in EventSetup; uninitialize:
38  m_bxa_depth = -1;
39  m_allowALCTonly = -1;
40  m_allowCLCTonly = -1;
41  m_preTrigger = -1;
42 
43  for(int index=0; index<7; index++) m_etawin[index] = -1;
44  for(int index=0; index<8; index++) m_etamin[index] = -1;
45  for(int index=0; index<8; index++) m_etamax[index] = -1;
46 
47  m_mindphip=-1;
48  m_mindetap=-1;
49 
53 
57 
61 
65  m_mindphip_halo=-1;
66  m_mindetap_halo=-1;
67 
68  m_widePhi=-1;
69 
70  m_straightp=-1;
71  m_curvedp=-1;
72 
73  m_mbaPhiOff=-1;
74  m_mbbPhiOff=-1;
75 
76  kill_fiber = -1;
77  QualityEnableME1a = -1;
78  QualityEnableME1b = -1;
79  QualityEnableME1c = -1;
80  QualityEnableME1d = -1;
81  QualityEnableME1e = -1;
82  QualityEnableME1f = -1;
83  QualityEnableME2a = -1;
84  QualityEnableME2b = -1;
85  QualityEnableME2c = -1;
86  QualityEnableME3a = -1;
87  QualityEnableME3b = -1;
88  QualityEnableME3c = -1;
89  QualityEnableME4a = -1;
90  QualityEnableME4b = -1;
91  QualityEnableME4c = -1;
92 
93  run_core = -1;
94  trigger_on_ME1a = -1;
95  trigger_on_ME1b = -1;
96  trigger_on_ME2 = -1;
97  trigger_on_ME3 = -1;
98  trigger_on_ME4 = -1;
99  trigger_on_MB1a = -1;
100  trigger_on_MB1d = -1;
101 
102  singlesTrackOutput = 999;
103  rescaleSinglesPhi = -1;
104 
105  m_firmSP = -1;
106  m_firmFA = -1;
107  m_firmDD = -1;
108  m_firmVM = -1;
109 
110  initFail_ = false;
111 
112  isCoreVerbose = pset.getParameter<bool>("isCoreVerbose");
113 
114  if(initializeFromPSet) readParameters(pset);
115 
116 
117  // Sector Receiver LUTs initialization
118  edm::ParameterSet srLUTset = pset.getParameter<edm::ParameterSet>("SRLUT");
119  for(int i = 1; i <= 4; ++i)
120  {
121  if(i == 1)
122  for(int j = 0; j < 2; j++)
123  {
124  srLUTs_[FPGAs[j]] = new CSCSectorReceiverLUT(endcap, sector, j+1, i, srLUTset, TMB07);
125  }
126  else
127  srLUTs_[FPGAs[i]] = new CSCSectorReceiverLUT(endcap, sector, 0, i, srLUTset, TMB07);
128  }
129 
130  core_ = new CSCTFSPCoreLogic();
131 
132  // Pt LUTs initialization
133  if(initializeFromPSet){
134  edm::ParameterSet ptLUTset = pset.getParameter<edm::ParameterSet>("PTLUT");
135  ptLUT_ = new CSCTFPtLUT(ptLUTset, scales, ptScale);
136  LogDebug("CSCTFSectorProcessor") << "Using stand-alone PT LUT for endcap="<<m_endcap<<", sector="<<m_sector;
137  } else {
138  ptLUT_=0;
139  LogDebug("CSCTFSectorProcessor") << "Looking for PT LUT in EventSetup for endcap="<<m_endcap<<", sector="<<m_sector;
140  }
141 
142  // firmware map initialization
143  // all the information are based on the firmware releases
144  // documented at http://www.phys.ufl.edu/~uvarov/SP05/SP05.htm
145 
146  // map is <m_firmSP, core_version>
147  // it may happen that the same core is used for different firmware
148  // versions, e.g. change in the wrapper only
149 
150  // this mapping accounts for runs starting from 132440
151  // schema is year+month+day
152  firmSP_Map.insert(std::pair<int,int>(20100210,20100122));
153  firmSP_Map.insert(std::pair<int,int>(20100617,20100122));
154  firmSP_Map.insert(std::pair<int,int>(20100629,20100122));
155 
156  firmSP_Map.insert(std::pair<int,int>(20100728,20100728));
157 
158  firmSP_Map.insert(std::pair<int,int>(20100901,20100901));
159 
160  //testing firmwares
161  firmSP_Map.insert(std::pair<int,int>(20101011,20101011));
162  firmSP_Map.insert(std::pair<int,int>(20101210,20101210));
163  firmSP_Map.insert(std::pair<int,int>(20110204,20110118));
164  firmSP_Map.insert(std::pair<int,int>(20110322,20110118));
165  // 2012 core with non linear dphi
166  firmSP_Map.insert(std::pair<int,int>(20120131,20120131));
167  firmSP_Map.insert(std::pair<int,int>(20120227,20120131));
168  //2012 core: 4 station track at |eta|>2.1 -> ME2-ME3-ME4
169  firmSP_Map.insert(std::pair<int,int>(20120313,20120313));
170  firmSP_Map.insert(std::pair<int,int>(20120319,20120313));
171  //2012 core: 4 station track at |eta|>2.1 -> ME1-ME2-ME3 test
172  firmSP_Map.insert(std::pair<int,int>(20120730,20120730));
173  //2014 core: 4 station track at |eta|>2.1 -> ME1-ME2-ME3 test + correct F/R bit set
174  firmSP_Map.insert(std::pair<int,int>(20140424,20140424));
175  //2014 core: 4 station track at |eta|>2.1 -> ME1-ME2-ME3 test + correct F/R bit set + bug fix
176  firmSP_Map.insert(std::pair<int,int>(20140515,20140515));
177 }
#define LogDebug(id)
T getParameter(std::string const &) const
T getUntrackedParameter(std::string const &, T const &) const
CSCTFSPCoreLogic * core_
void readParameters(const edm::ParameterSet &pset)
static const std::string FPGAs[5]
std::map< std::string, CSCSectorReceiverLUT * > srLUTs_
std::map< int, int > firmSP_Map
CSCTFSectorProcessor::~CSCTFSectorProcessor ( )

Definition at line 702 of file CSCTFSectorProcessor.cc.

References core_, FPGAs, mps_fire::i, NULL, ptLUT_, and srLUTs_.

703 {
704  for(int i = 0; i < 5; ++i)
705  {
706  if(srLUTs_[FPGAs[i]]) delete srLUTs_[FPGAs[i]]; // delete the pointer
707  srLUTs_[FPGAs[i]] = NULL; // point it at a safe place
708  }
709 
710  delete core_;
711  core_ = NULL;
712 
713  if(ptLUT_) delete ptLUT_;
714  ptLUT_ = NULL;
715 }
CSCTFSPCoreLogic * core_
#define NULL
Definition: scimark2.h:8
static const std::string FPGAs[5]
std::map< std::string, CSCSectorReceiverLUT * > srLUTs_
CSCTFSectorProcessor::CSCTFSectorProcessor ( const CSCTFSectorProcessor par)
inlineprivate

Definition at line 61 of file CSCTFSectorProcessor.h.

61 {}

Member Function Documentation

CSCTriggerContainer<csctf::TrackStub> CSCTFSectorProcessor::dtStubs ( ) const
inline

Definition at line 49 of file CSCTFSectorProcessor.h.

References dt_stubs.

49 { return dt_stubs; }
CSCTriggerContainer< csctf::TrackStub > dt_stubs
std::vector<csctf::TrackStub> CSCTFSectorProcessor::filteredStubs ( ) const
inline

Definition at line 47 of file CSCTFSectorProcessor.h.

References stub_vec_filtered.

Referenced by CSCTFTrackBuilder::buildTracks().

47 { return stub_vec_filtered; }
std::vector< csctf::TrackStub > stub_vec_filtered
void CSCTFSectorProcessor::initialize ( const edm::EventSetup c)

KK.

Definition at line 180 of file CSCTFSectorProcessor.cc.

References mps_alisetup::config, core_, firmSP_Map, edm::EventSetup::get(), diffTreeTool::index, initFail_, initializeFromPSet, isCoreVerbose, kill_fiber, LogDebug, m_allowALCTonly, m_allowCLCTonly, m_bxa_depth, m_curvedp, m_endcap, m_etamax, m_etamin, m_etawin, m_firmDD, m_firmFA, m_firmSP, m_firmVM, m_latency, m_maxdeta112_accp, m_maxdeta113_accp, m_maxdeta12_accp, m_maxdeta13_accp, m_maxdphi112_accp, m_maxdphi113_accp, m_maxdphi12_accp, m_maxdphi13_accp, m_mbaPhiOff, m_mbbPhiOff, m_mindeta112_accp, m_mindeta113_accp, m_mindeta12_accp, m_mindeta13_accp, m_mindetap, m_mindetap_halo, m_mindphip, m_mindphip_halo, m_preTrigger, m_sector, m_straightp, m_widePhi, L1MuCSCTFConfiguration::parameters(), printDisclaimer(), edm::ESHandle< T >::product(), ptLUT_, QualityEnableME1a, QualityEnableME1b, QualityEnableME1c, QualityEnableME1d, QualityEnableME1e, QualityEnableME1f, QualityEnableME2a, QualityEnableME2b, QualityEnableME2c, QualityEnableME3a, QualityEnableME3b, QualityEnableME3c, QualityEnableME4a, QualityEnableME4b, QualityEnableME4c, readParameters(), rescaleSinglesPhi, run_core, singlesTrackOutput, trigger_on_MB1a, trigger_on_MB1d, trigger_on_ME1a, trigger_on_ME1b, trigger_on_ME2, trigger_on_ME3, and trigger_on_ME4.

Referenced by CSCTFTrackBuilder::initialize().

180  {
181  initFail_ = false;
182  if(!initializeFromPSet){
183  // Only pT lut can be initialized from EventSetup, all front LUTs are initialized locally from their parametrizations
184  LogDebug("CSCTFSectorProcessor") <<"Initializing endcap: "<<m_endcap<<" sector:"<<m_sector << "SP:" << (m_endcap-1)*6+(m_sector-1);
185  LogDebug("CSCTFSectorProcessor") << "Initializing pT LUT from EventSetup";
186 
187  ptLUT_ = new CSCTFPtLUT(c);
188 
189  // Extract from EventSetup alternative (to the one, used in constructor) ParameterSet
191  c.get<L1MuCSCTFConfigurationRcd>().get(config);
192  // And initialize only those parameters, which left uninitialized during construction
193  readParameters(config.product()->parameters((m_endcap-1)*6+(m_sector-1)));
194  }
195 
196  // ---------------------------------------------------------------------------
197  // This part is added per Vasile's request.
198  // It will help people understanding the emulator configuration
199  LogDebug("CSCTFSectorProcessor") << "\n !!! CSCTF EMULATOR CONFIGURATION !!!"
200  << "\n\nCORE CONFIGURATION"
201  << "\n Coincidence Trigger? " << run_core
202  << "\n Singles in ME1a? " << trigger_on_ME1a
203  << "\n Singles in ME1b? " << trigger_on_ME1b
204  << "\n Singles in ME2? " << trigger_on_ME2
205  << "\n Singles in ME3? " << trigger_on_ME3
206  << "\n Singles in ME4? " << trigger_on_ME4
207  << "\n Singles in MB1a? " << trigger_on_MB1a
208  << "\n Singles in MB1d? " << trigger_on_MB1d
209 
210  << "\n BX Analyzer depth: assemble coinc. track with stubs in +/-" << m_bxa_depth << " Bxs"
211  << "\n Is Wide Phi Extrapolation (DeltaPhi valid up to ~15 degrees, otherwise ~7.67 degrees)? " << m_widePhi
212  << "\n PreTrigger=" << m_preTrigger
213 
214  << "\n CoreLatency=" << m_latency
215  << "\n Is Phi for singles rescaled? " << rescaleSinglesPhi
216 
217  << "\n\nVARIOUS CONFIGURATION PARAMETERS"
218  << "\n Allow ALCT only? " << m_allowALCTonly
219  << "\n Allow CLCT only? " << m_allowCLCTonly
220 
221  << "\nQualityEnableME1a (in general accept all LCT qualities, i.e. 0xFFFF is expected)=" << QualityEnableME1a
222  << "\nQualityEnableME1b (in general accept all LCT qualities, i.e. 0xFFFF is expected)=" << QualityEnableME1b
223  << "\nQualityEnableME1c (in general accept all LCT qualities, i.e. 0xFFFF is expected)=" << QualityEnableME1c
224  << "\nQualityEnableME1d (in general accept all LCT qualities, i.e. 0xFFFF is expected)=" << QualityEnableME1d
225  << "\nQualityEnableME1e (in general accept all LCT qualities, i.e. 0xFFFF is expected)=" << QualityEnableME1e
226  << "\nQualityEnableME1f (in general accept all LCT qualities, i.e. 0xFFFF is expected)=" << QualityEnableME1f
227  << "\nQualityEnableME2a (in general accept all LCT qualities, i.e. 0xFFFF is expected)=" << QualityEnableME2a
228  << "\nQualityEnableME2b (in general accept all LCT qualities, i.e. 0xFFFF is expected)=" << QualityEnableME2b
229  << "\nQualityEnableME2c (in general accept all LCT qualities, i.e. 0xFFFF is expected)=" << QualityEnableME2c
230  << "\nQualityEnableME3a (in general accept all LCT qualities, i.e. 0xFFFF is expected)=" << QualityEnableME3a
231  << "\nQualityEnableME3b (in general accept all LCT qualities, i.e. 0xFFFF is expected)=" << QualityEnableME3b
232  << "\nQualityEnableME3c (in general accept all LCT qualities, i.e. 0xFFFF is expected)=" << QualityEnableME3c
233  << "\nQualityEnableME4a (in general accept all LCT qualities, i.e. 0xFFFF is expected)=" << QualityEnableME4a
234  << "\nQualityEnableME4b (in general accept all LCT qualities, i.e. 0xFFFF is expected)=" << QualityEnableME4b
235  << "\nQualityEnableME4c (in general accept all LCT qualities, i.e. 0xFFFF is expected)=" << QualityEnableME4c
236 
237  << "\nkill_fiber=" << kill_fiber
238  << "\nSingles Output Link=" << singlesTrackOutput
239 
240  //the DAT_ETA registers meaning are explained at Table 2 of
241  //http://www.phys.ufl.edu/~uvarov/SP05/LU-SP_ReferenceGuide_090915_Update.pdf
242 
243  << "\n\nDAT_ETA REGISTERS"
244  << "\nMinimum eta difference for track cancellation logic=" << m_mindetap
245  << "\nMinimum eta difference for halo track cancellation logic=" << m_mindetap_halo
246 
247  << "\nMinimum eta for ME1-ME2 collision tracks=" << m_etamin[0]
248  << "\nMinimum eta for ME1-ME3 collision tracks=" << m_etamin[1]
249  << "\nMinimum eta for ME2-ME3 collision tracks=" << m_etamin[2]
250  << "\nMinimum eta for ME2-ME4 collision tracks=" << m_etamin[3]
251  << "\nMinimum eta for ME3-ME4 collision tracks=" << m_etamin[4]
252  << "\nMinimum eta for ME1-ME2 collision tracks in overlap region=" << m_etamin[5]
253  << "\nMinimum eta for ME2-MB1 collision tracks=" << m_etamin[6]
254  << "\nMinimum eta for ME1-ME4 collision tracks=" << m_etamin[7]
255 
256  << "\nMinimum eta difference for ME1-ME2 (except ME1/1) halo tracks=" << m_mindeta12_accp
257  << "\nMinimum eta difference for ME1-ME3 (except ME1/1) halo tracks=" << m_mindeta13_accp
258  << "\nMinimum eta difference for ME1/1-ME2 halo tracks=" << m_mindeta112_accp
259  << "\nMinimum eta difference for ME1/1-ME3 halo tracks=" << m_mindeta113_accp
260 
261  << "\nMaximum eta for ME1-ME2 collision tracks=" << m_etamax[0]
262  << "\nMaximum eta for ME1-ME3 collision tracks=" << m_etamax[1]
263  << "\nMaximum eta for ME2-ME3 collision tracks=" << m_etamax[2]
264  << "\nMaximum eta for ME2-ME4 collision tracks=" << m_etamax[3]
265  << "\nMaximum eta for ME3-ME4 collision tracks=" << m_etamax[4]
266  << "\nMaximum eta for ME1-ME2 collision tracks in overlap region=" << m_etamax[5]
267  << "\nMaximum eta for ME2-MB1 collision tracks=" << m_etamax[6]
268  << "\nMaximum eta for ME1-ME4 collision tracks=" << m_etamax[7]
269 
270  << "\nMaximum eta difference for ME1-ME2 (except ME1/1) halo tracks=" << m_maxdeta12_accp
271  << "\nMaximum eta difference for ME1-ME3 (except ME1/1) halo tracks=" << m_maxdeta13_accp
272  << "\nMaximum eta difference for ME1/1-ME2 halo tracks=" << m_maxdeta112_accp
273  << "\nMaximum eta difference for ME1/1-ME3 halo tracks=" << m_maxdeta113_accp
274 
275  << "\nEta window for ME1-ME2 collision tracks=" << m_etawin[0]
276  << "\nEta window for ME1-ME3 collision tracks=" << m_etawin[1]
277  << "\nEta window for ME2-ME3 collision tracks=" << m_etawin[2]
278  << "\nEta window for ME2-ME4 collision tracks=" << m_etawin[3]
279  << "\nEta window for ME3-ME4 collision tracks=" << m_etawin[4]
280  << "\nEta window for ME1-ME2 collision tracks in overlap region=" << m_etawin[5]
281  << "\nEta window for ME1-ME4 collision tracks=" << m_etawin[6]
282 
283  << "\nMaximum phi difference for ME1-ME2 (except ME1/1) halo tracks=" << m_maxdphi12_accp
284  << "\nMaximum phi difference for ME1-ME3 (except ME1/1) halo tracks=" << m_maxdphi13_accp
285  << "\nMaximum phi difference for ME1/1-ME2 halo tracks=" << m_maxdphi112_accp
286  << "\nMaximum phi difference for ME1/1-ME3 halo tracks=" << m_maxdphi113_accp
287 
288  << "\nMinimum phi difference for track cancellation logic=" << m_mindphip
289  << "\nMinimum phi difference for halo track cancellation logic=" << m_mindphip_halo
290 
291  << "\nParameter for the correction of misaligned 1-2-3-4 straight tracks =" << m_straightp
292  << "\nParameter for the correction of misaligned 1-2-3-4 curved tracks=" << m_curvedp
293  << "\nPhi Offset for MB1A=" << m_mbaPhiOff
294  << "\nPhi Offset for MB1D=" << m_mbbPhiOff
295 
296  << "\nFirmware SP year+month+day:" << m_firmSP
297  << "\nFirmware FA year+month+day:" << m_firmFA
298  << "\nFirmware DD year+month+day:" << m_firmDD
299  << "\nFirmware VM year+month+day:" << m_firmVM;
300 
301 
303 
304  // set core verbosity: for debugging only purpouses
305  // in general the output is handled to Alex Madorsky
306  core_ -> SetVerbose(isCoreVerbose);
307 
308  // Set the SP firmware
309  core_ -> SetSPFirmwareVersion (m_firmSP);
310 
311  // Set the firmware for the CORE
312  int firmVersCore = firmSP_Map.find(m_firmSP)->second;
313  core_ -> SetCoreFirmwareVersion (firmVersCore);
314  edm::LogInfo( "CSCTFSectorProcessor" ) << "\nCore Firmware is set to " << core_ -> GetCoreFirmwareVersion();
315  // ---------------------------------------------------------------------------
316 
317  // Check if parameters were not initialized in both: constuctor (from .cf? file) and initialize method (from EventSetup)
318  if(m_bxa_depth<0)
319  {
320  initFail_ = true;
321  edm::LogError("CSCTFSectorProcessor")<<"BXAdepth parameter left uninitialized for endcap="<<m_endcap<<", sector="<<m_sector;
322  }
323  if(m_allowALCTonly<0)
324  {
325  initFail_ = true;
326  edm::LogError("CSCTFSectorProcessor")<<"AllowALCTonly parameter left uninitialized for endcap="<<m_endcap<<", sector="<<m_sector;
327  }
328  if(m_allowCLCTonly<0)
329  {
330  initFail_ = true;
331  edm::LogError("CSCTFSectorProcessor")<<"AllowCLCTonly parameter left uninitialized for endcap="<<m_endcap<<", sector="<<m_sector;
332  }
333  if(m_preTrigger<0)
334  {
335  initFail_ = true;
336  edm::LogError("CSCTFSectorProcessor")<<"PreTrigger parameter left uninitialized for endcap="<<m_endcap<<", sector="<<m_sector;
337  }
338  if(m_mindphip<0)
339  {
340  initFail_ = true;
341  edm::LogError("CSCTFSectorProcessor")<<"mindphip parameter left uninitialized for endcap="<<m_endcap<<", sector="<<m_sector;
342  }
343  if(m_mindetap<0)
344  {
345  initFail_ = true;
346  edm::LogError("CSCTFSectorProcessor")<<"mindeta parameter left uninitialized for endcap="<<m_endcap<<", sector="<<m_sector;
347  }
348  if(m_straightp<0)
349  {
350  initFail_ = true;
351  edm::LogError("CSCTFSectorProcessor")<<"straightp parameter left unitialized for endcap="<<m_endcap<<", sector="<<m_sector;
352  }
353  if(m_curvedp<0)
354  {
355  initFail_ = true;
356  edm::LogError("CSCTFSectorProcessor")<<"curvedp parameter left unitialized for endcap="<<m_endcap<<",sector="<<m_sector;
357  }
358  if(m_mbaPhiOff<0)
359  {
360  initFail_ = true;
361  edm::LogError("CSCTFSectorProcessor")<<"mbaPhiOff parameter left unitialized for endcap="<<m_endcap<<",sector="<<m_sector;
362  }
363  if(m_mbbPhiOff<0)
364  {
365  initFail_ = true;
366  edm::LogError("CSCTFSectorProcessor")<<"mbbPhiOff parameter left unitialized for endcap="<<m_endcap<<",sector="<<m_sector;
367  }
368  if(m_mindeta12_accp<0)
369  {
370  initFail_ = true;
371  edm::LogError("CSCTFSectorProcessor")<<"mindeta_accp12 parameter left uninitialized for endcap="<<m_endcap<<", sector="<<m_sector;
372  }
373  if(m_maxdeta12_accp<0)
374  {
375  initFail_ = true;
376  edm::LogError("CSCTFSectorProcessor")<<"maxdeta_accp12 parameter left uninitialized for endcap="<<m_endcap<<", sector="<<m_sector;
377  }
378  if(m_maxdphi12_accp<0)
379  {
380  initFail_ = true;
381  edm::LogError("CSCTFSectorProcessor")<<"maxdphi_accp12 parameter left uninitialized for endcap="<<m_endcap<<", sector="<<m_sector;
382  }
383  if(m_mindeta13_accp<0)
384  {
385  initFail_ = true;
386  edm::LogError("CSCTFSectorProcessor")<<"mindeta_accp13 parameter left uninitialized for endcap="<<m_endcap<<", sector="<<m_sector;
387  }
388  if(m_maxdeta13_accp<0)
389  {
390  initFail_ = true;
391  edm::LogError("CSCTFSectorProcessor")<<"maxdeta_accp13 parameter left uninitialized for endcap="<<m_endcap<<", sector="<<m_sector;
392  }
393  if(m_maxdphi13_accp<0)
394  {
395  initFail_ = true;
396  edm::LogError("CSCTFSectorProcessor")<<"maxdphi_accp13 parameter left uninitialized for endcap="<<m_endcap<<", sector="<<m_sector;
397  }
398  if(m_mindeta112_accp<0)
399  {
400  initFail_ = true;
401  edm::LogError("CSCTFSectorProcessor")<<"mindeta_accp112 parameter left uninitialized for endcap="<<m_endcap<<", sector="<<m_sector;
402  }
403  if(m_maxdeta112_accp<0)
404  {
405  initFail_ = true;
406  edm::LogError("CSCTFSectorProcessor")<<"maxdeta_accp112 parameter left uninitialized for endcap="<<m_endcap<<", sector="<<m_sector;
407  }
408  if(m_maxdphi112_accp<0)
409  {
410  initFail_ = true;
411  edm::LogError("CSCTFSectorProcessor")<<"maxdphi_accp112 parameter left uninitialized for endcap="<<m_endcap<<", sector="<<m_sector;
412  }
413  if(m_mindeta113_accp<0)
414  {
415  initFail_ = true;
416  edm::LogError("CSCTFSectorProcessor")<<"mindeta_accp113 parameter left uninitialized for endcap="<<m_endcap<<", sector="<<m_sector;
417  }
418  if(m_maxdeta113_accp<0)
419  {
420  initFail_ = true;
421  edm::LogError("CSCTFSectorProcessor")<<"maxdeta_accp113 parameter left uninitialized for endcap="<<m_endcap<<", sector="<<m_sector;
422  }
423  if(m_maxdphi113_accp<0)
424  {
425  initFail_ = true;
426  edm::LogError("CSCTFSectorProcessor")<<"maxdphi_accp113 parameter left uninitialized for endcap="<<m_endcap<<", sector="<<m_sector;
427  }
428  if(m_mindphip_halo<0)
429  {
430  initFail_ = true;
431  edm::LogError("CSCTFSectorProcessor")<<"mindphip_halo parameter left uninitialized for endcap="<<m_endcap<<", sector="<<m_sector;
432  }
433  if(m_mindetap_halo<0)
434  {
435  initFail_ = true;
436  edm::LogError("CSCTFSectorProcessor")<<"mindetep_halo parameter left uninitialized for endcap="<<m_endcap<<", sector="<<m_sector;
437  }
438 
439  if(m_widePhi<0)
440  {
441  initFail_ = true;
442  edm::LogError("CSCTFSectorProcessor")<<"widePhi parameter left unitialized for endcap="<<m_endcap<<", sector="<<m_sector;
443  }
444 
445  for(int index=0; index<8; index++)
446  if(m_etamax[index]<0)
447  {
448  initFail_ = true;
449  edm::LogError("CSCTFSectorProcessor")<<"Some ("<<(8-index)<<") of EtaMax parameters left uninitialized for endcap="<<m_endcap<<", sector="<<m_sector;
450  }
451  for(int index=0; index<8; index++)
452  if(m_etamin[index]<0)
453  {
454  initFail_ = true;
455  edm::LogError("CSCTFSectorProcessor")<<"Some ("<<(8-index)<<") of EtaMin parameters left uninitialized for endcap="<<m_endcap<<", sector="<<m_sector;
456  }
457  for(int index=0; index<7; index++)
458  if(m_etawin[index]<0)
459  {
460  initFail_ = true;
461  edm::LogError("CSCTFSectorProcessor")<<"Some ("<<(6-index)<<") of EtaWindows parameters left uninitialized for endcap="<<m_endcap<<", sector="<<m_sector;
462  }
463  if(kill_fiber<0)
464  {
465  initFail_ = true;
466  edm::LogError("CSCTFTrackBuilder")<<"kill_fiber parameter left uninitialized";
467  }
468  if(run_core<0)
469  {
470  initFail_ = true;
471  edm::LogError("CSCTFTrackBuilder")<<"run_core parameter left uninitialized";
472  }
473  if(trigger_on_ME1a<0)
474  {
475  initFail_ = true;
476  edm::LogError("CSCTFTrackBuilder")<<"trigger_on_ME1a parameter left uninitialized";
477  }
478  if(trigger_on_ME1b<0)
479  {
480  initFail_ = true;
481  edm::LogError("CSCTFTrackBuilder")<<"trigger_on_ME1b parameter left uninitialized";
482  }
483  if(trigger_on_ME2 <0)
484  {
485  initFail_ = true;
486  edm::LogError("CSCTFTrackBuilder")<<"trigger_on_ME2 parameter left uninitialized";
487  }
488  if(trigger_on_ME3 <0)
489  {
490  initFail_ = true;
491  edm::LogError("CSCTFTrackBuilder")<<"trigger_on_ME3 parameter left uninitialized";
492  }
493  if(trigger_on_ME4 <0)
494  {
495  initFail_ = true;
496  edm::LogError("CSCTFTrackBuilder")<<"trigger_on_ME4 parameter left uninitialized";
497  }
498  if(trigger_on_MB1a<0)
499  {
500  initFail_ = true;
501  edm::LogError("CSCTFTrackBuilder")<<"trigger_on_MB1a parameter left uninitialized";
502  }
503  if(trigger_on_MB1d<0)
504  {
505  initFail_ = true;
506  edm::LogError("CSCTFTrackBuilder")<<"trigger_on_MB1d parameter left uninitialized";
507  }
510  {
511  if(singlesTrackOutput==999)
512  {
513  initFail_ = true;
514  edm::LogError("CSCTFTrackBuilder")<<"singlesTrackOutput parameter left uninitialized";
515  }
516  if(rescaleSinglesPhi<0)
517  {
518  initFail_ = true;
519  edm::LogError("CSCTFTrackBuilder")<<"rescaleSinglesPhi parameter left uninitialized";
520  }
521  }
522  if(QualityEnableME1a<0)
523  {
524  initFail_ = true;
525  edm::LogError("CSCTFTrackBuilder")<<"QualityEnableME1a parameter left uninitialized";
526  }
527  if(QualityEnableME1b<0)
528  {
529  initFail_ = true;
530  edm::LogError("CSCTFTrackBuilder")<<"QualityEnableME1b parameter left uninitialized";
531  }
532  if(QualityEnableME1c<0)
533  {
534  initFail_ = true;
535  edm::LogError("CSCTFTrackBuilder")<<"QualityEnableME1c parameter left uninitialized";
536  }
537  if(QualityEnableME1d<0)
538  {
539  initFail_ = true;
540  edm::LogError("CSCTFTrackBuilder")<<"QualityEnableME1d parameter left uninitialized";
541  }
542  if(QualityEnableME1e<0)
543  {
544  initFail_ = true;
545  edm::LogError("CSCTFTrackBuilder")<<"QualityEnableME1e parameter left uninitialized";
546  }
547  if(QualityEnableME1f<0)
548  {
549  initFail_ = true;
550  edm::LogError("CSCTFTrackBuilder")<<"QualityEnableME1f parameter left uninitialized";
551  }
552  if(QualityEnableME2a<0)
553  {
554  initFail_ = true;
555  edm::LogError("CSCTFTrackBuilder")<<"QualityEnableME2a parameter left uninitialized";
556  }
557  if(QualityEnableME2b<0)
558  {
559  initFail_ = true;
560  edm::LogError("CSCTFTrackBuilder")<<"QualityEnableME2b parameter left uninitialized";
561  }
562  if(QualityEnableME2c<0)
563  {
564  initFail_ = true;
565  edm::LogError("CSCTFTrackBuilder")<<"QualityEnableME2c parameter left uninitialized";
566  }
567  if(QualityEnableME3a<0)
568  {
569  initFail_ = true;
570  edm::LogError("CSCTFTrackBuilder")<<"QualityEnableME3a parameter left uninitialized";
571  }
572  if(QualityEnableME3b<0)
573  {
574  initFail_ = true;
575  edm::LogError("CSCTFTrackBuilder")<<"QualityEnableME3b parameter left uninitialized";
576  }
577  if(QualityEnableME3c<0)
578  {
579  initFail_ = true;
580  edm::LogError("CSCTFTrackBuilder")<<"QualityEnableME3c parameter left uninitialized";
581  }
582  if(QualityEnableME4a<0)
583  {
584  initFail_ = true;
585  edm::LogError("CSCTFTrackBuilder")<<"QualityEnableME4a parameter left uninitialized";
586  }
587  if(QualityEnableME4b<0)
588  {
589  initFail_ = true;
590  edm::LogError("CSCTFTrackBuilder")<<"QualityEnableME4b parameter left uninitialized";
591  }
592  if(QualityEnableME4c<0)
593  {
594  initFail_ = true;
595  edm::LogError("CSCTFTrackBuilder")<<"QualityEnableME4c parameter left uninitialized";
596  }
597 
598  if (m_firmSP<1)
599  {
600  initFail_ = true;
601  edm::LogError("CSCTFSectorProcessor")<< " firmwareSP parameter left uninitialized!!!\n";
602  }
603  if (m_firmFA<1)
604  {
605  initFail_ = true;
606  edm::LogError("CSCTFSectorProcessor")<< " firmwareFA parameter left uninitialized!!!\n";
607  }
608  if (m_firmDD<1)
609  {
610  initFail_ = true;
611  edm::LogError("CSCTFSectorProcessor")<< " firmwareDD parameter left uninitialized!!!\n";
612  }
613  if (m_firmVM<1)
614  {
615  initFail_ = true;
616  edm::LogError("CSCTFSectorProcessor")<< " firmwareVM parameter left uninitialized!!!\n";
617  }
618 
619  if ( (m_firmFA != m_firmDD) ||
620  (m_firmFA != m_firmVM) ||
621  (m_firmDD != m_firmVM) )
622  {
623  initFail_ = true;
624  edm::LogError("CSCTFSectorProcessor::initialize")<< " firmwareFA (=" << m_firmFA << "), "
625  << " firmwareDD (=" << m_firmDD << "), "
626  << " firmwareVM (=" << m_firmVM << ") are NOT identical: it shoultd NOT happen!\n";
627  }
628 
629 }
#define LogDebug(id)
CSCTFSPCoreLogic * core_
void readParameters(const edm::ParameterSet &pset)
edm::ParameterSet parameters(int sp) const
void printDisclaimer(int firmSP, int firmFA)
const T & get() const
Definition: EventSetup.h:55
T const * product() const
Definition: ESHandle.h:86
std::map< int, int > firmSP_Map
int CSCTFSectorProcessor::maxBX ( ) const
inline

Definition at line 52 of file CSCTFSectorProcessor.h.

References m_maxBX, printDisclaimer(), and readParameters().

52 { return m_maxBX; }
int CSCTFSectorProcessor::minBX ( ) const
inline

Definition at line 51 of file CSCTFSectorProcessor.h.

References m_minBX.

51 { return m_minBX; }
CSCTFSectorProcessor& CSCTFSectorProcessor::operator= ( const CSCTFSectorProcessor rhs)
inlineprivate

Definition at line 60 of file CSCTFSectorProcessor.h.

60 { return *this; };
void CSCTFSectorProcessor::printDisclaimer ( int  firmSP,
int  firmFA 
)

Definition at line 1042 of file CSCTFSectorProcessor.cc.

Referenced by initialize(), and maxBX().

1042  {
1043 
1044  edm::LogInfo( "CSCTFSectorProcessor" ) << "\n\n"
1045  << "******************************* \n"
1046  << "*** DISCLAIMER *** \n"
1047  << "******************************* \n"
1048  << "\n Firmware SP version (year+month+day)=" << firmSP
1049  << "\n Firmware FA/VM/DD version (year+month+day)=" << firmFA;
1050  if (firmSP==20100210)
1051  edm::LogInfo( "CSCTFSectorProcessor" ) << " -> KNOWN BUGS IN THE FIRMWARE:\n"
1052  << "\t * Wrong phi assignment for singles\n"
1053  << "\t * Wrapper passes to the core only even quality DT stubs\n"
1054  << "\n -> BUGS ARE GOING TO BE EMULATED BY THE SOFTWARE\n\n";
1055 
1056  else
1057  edm::LogInfo( "CSCTFSectorProcessor" ) << "\t * Correct phi assignment for singles\n";
1058 
1059  if (firmSP==20100629){
1060  edm::LogInfo( "CSCTFSectorProcessor" ) << "\t * Correct MB quality masking in the wrapper\n"
1061  << "\t * Core is 20100122\n";
1062  }
1063 
1064  if (firmSP==20100728)
1065  edm::LogInfo( "CSCTFSectorProcessor" ) << "\t * Inverted MB clocks\n";
1066 
1067  if (firmSP==20100901)
1068  edm::LogInfo( "CSCTFSectorProcessor" ) << "\t * Inverted charge bit\n";
1069 
1070  if (firmSP==20101011)
1071  edm::LogInfo( "CSCTFSectorProcessor" ) << "\t **** WARNING THIS FIRMWARE IS UNDER TEST ****\n"
1072  << "\t * Added CSC-DT assembling tracks ME1-MB2/1 \n";
1073  if (firmSP==20101210)
1074  edm::LogInfo( "CSCTFSectorProcessor" ) << "\t **** WARNING THIS FIRMWARE IS UNDER TEST ****\n"
1075  << "\t * New Ghost Busting Algorithm Removing Tracks\n"
1076  << "\t Sharing at Least One LCT\n";
1077 
1078  if (firmSP==20110118)
1079  edm::LogInfo( "CSCTFSectorProcessor" ) << "\t **** WARNING THIS FIRMWARE IS UNDER TEST ****\n"
1080  << "\t * New Ghost Busting Algorithm Removing Tracks\n"
1081  << "\t Sharing at Least One LCT\n"
1082  << "\t * Passing CLCT and PhiBend for PT LUTs\n";
1083  if (firmSP==20120131)
1084  edm::LogInfo( "CSCTFSectorProcessor" ) << "\t **** WARNING THIS FIRMWARE IS UNDER TEST ****\n"
1085  << "\t * non-linear dphi12 dphi23, use deta for PTLUTs \n";
1086 }
void CSCTFSectorProcessor::readParameters ( const edm::ParameterSet pset)

Definition at line 631 of file CSCTFSectorProcessor.cc.

References edm::ParameterSet::getParameter(), diffTreeTool::index, kill_fiber, m_allowALCTonly, m_allowCLCTonly, m_bxa_depth, m_curvedp, m_etamax, m_etamin, m_etawin, m_firmDD, m_firmFA, m_firmSP, m_firmVM, m_maxdeta112_accp, m_maxdeta113_accp, m_maxdeta12_accp, m_maxdeta13_accp, m_maxdphi112_accp, m_maxdphi113_accp, m_maxdphi12_accp, m_maxdphi13_accp, m_mbaPhiOff, m_mbbPhiOff, m_mindeta112_accp, m_mindeta113_accp, m_mindeta12_accp, m_mindeta13_accp, m_mindetap, m_mindetap_halo, m_mindphip, m_mindphip_halo, m_preTrigger, m_straightp, m_widePhi, QualityEnableME1a, QualityEnableME1b, QualityEnableME1c, QualityEnableME1d, QualityEnableME1e, QualityEnableME1f, QualityEnableME2a, QualityEnableME2b, QualityEnableME2c, QualityEnableME3a, QualityEnableME3b, QualityEnableME3c, QualityEnableME4a, QualityEnableME4b, QualityEnableME4c, rescaleSinglesPhi, run_core, singlesTrackOutput, trigger_on_MB1a, trigger_on_MB1d, trigger_on_ME1a, trigger_on_ME1b, trigger_on_ME2, trigger_on_ME3, and trigger_on_ME4.

Referenced by CSCTFSectorProcessor(), initialize(), and maxBX().

631  {
632  m_bxa_depth = pset.getParameter<unsigned>("BXAdepth");
633  m_allowALCTonly = ( pset.getParameter<bool>("AllowALCTonly") ? 1 : 0 );
634  m_allowCLCTonly = ( pset.getParameter<bool>("AllowCLCTonly") ? 1 : 0 );
635  m_preTrigger = pset.getParameter<unsigned>("PreTrigger");
636 
637  std::vector<unsigned>::const_iterator iter;
638  int index=0;
639  std::vector<unsigned> etawins = pset.getParameter<std::vector<unsigned> >("EtaWindows");
640  for(iter=etawins.begin(),index=0; iter!=etawins.end()&&index<7; iter++,index++) m_etawin[index] = *iter;
641  std::vector<unsigned> etamins = pset.getParameter<std::vector<unsigned> >("EtaMin");
642  for(iter=etamins.begin(),index=0; iter!=etamins.end()&&index<8; iter++,index++) m_etamin[index] = *iter;
643  std::vector<unsigned> etamaxs = pset.getParameter<std::vector<unsigned> >("EtaMax");
644  for(iter=etamaxs.begin(),index=0; iter!=etamaxs.end()&&index<8; iter++,index++) m_etamax[index] = *iter;
645 
646  m_mindphip = pset.getParameter<unsigned>("mindphip");
647  m_mindetap = pset.getParameter<unsigned>("mindetap");
648  m_straightp = pset.getParameter<unsigned>("straightp");
649  m_curvedp = pset.getParameter<unsigned>("curvedp");
650  m_mbaPhiOff = pset.getParameter<unsigned>("mbaPhiOff");
651  m_mbbPhiOff = pset.getParameter<unsigned>("mbbPhiOff");
652  m_widePhi = pset.getParameter<unsigned>("widePhi");
653  m_mindeta12_accp = pset.getParameter<unsigned>("mindeta12_accp");
654  m_maxdeta12_accp = pset.getParameter<unsigned>("maxdeta12_accp");
655  m_maxdphi12_accp = pset.getParameter<unsigned>("maxdphi12_accp");
656  m_mindeta13_accp = pset.getParameter<unsigned>("mindeta13_accp");
657  m_maxdeta13_accp = pset.getParameter<unsigned>("maxdeta13_accp");
658  m_maxdphi13_accp = pset.getParameter<unsigned>("maxdphi13_accp");
659  m_mindeta112_accp = pset.getParameter<unsigned>("mindeta112_accp");
660  m_maxdeta112_accp = pset.getParameter<unsigned>("maxdeta112_accp");
661  m_maxdphi112_accp = pset.getParameter<unsigned>("maxdphi112_accp");
662  m_mindeta113_accp = pset.getParameter<unsigned>("mindeta113_accp");
663  m_maxdeta113_accp = pset.getParameter<unsigned>("maxdeta113_accp");
664  m_maxdphi113_accp = pset.getParameter<unsigned>("maxdphi113_accp");
665  m_mindphip_halo = pset.getParameter<unsigned>("mindphip_halo");
666  m_mindetap_halo = pset.getParameter<unsigned>("mindetap_halo");
667  kill_fiber = pset.getParameter<unsigned>("kill_fiber");
668  run_core = pset.getParameter<bool>("run_core");
669  trigger_on_ME1a = pset.getParameter<bool>("trigger_on_ME1a");
670  trigger_on_ME1b = pset.getParameter<bool>("trigger_on_ME1b");
671  trigger_on_ME2 = pset.getParameter<bool>("trigger_on_ME2");
672  trigger_on_ME3 = pset.getParameter<bool>("trigger_on_ME3");
673  trigger_on_ME4 = pset.getParameter<bool>("trigger_on_ME4");
674  trigger_on_MB1a = pset.getParameter<bool>("trigger_on_MB1a");
675  trigger_on_MB1d = pset.getParameter<bool>("trigger_on_MB1d");
676 
677  singlesTrackOutput = pset.getParameter<unsigned int>("singlesTrackOutput");
678  rescaleSinglesPhi = pset.getParameter<bool>("rescaleSinglesPhi");
679  QualityEnableME1a = pset.getParameter<unsigned int>("QualityEnableME1a");
680  QualityEnableME1b = pset.getParameter<unsigned int>("QualityEnableME1b");
681  QualityEnableME1c = pset.getParameter<unsigned int>("QualityEnableME1c");
682  QualityEnableME1d = pset.getParameter<unsigned int>("QualityEnableME1d");
683  QualityEnableME1e = pset.getParameter<unsigned int>("QualityEnableME1e");
684  QualityEnableME1f = pset.getParameter<unsigned int>("QualityEnableME1f");
685  QualityEnableME2a = pset.getParameter<unsigned int>("QualityEnableME2a");
686  QualityEnableME2b = pset.getParameter<unsigned int>("QualityEnableME2b");
687  QualityEnableME2c = pset.getParameter<unsigned int>("QualityEnableME2c");
688  QualityEnableME3a = pset.getParameter<unsigned int>("QualityEnableME3a");
689  QualityEnableME3b = pset.getParameter<unsigned int>("QualityEnableME3b");
690  QualityEnableME3c = pset.getParameter<unsigned int>("QualityEnableME3c");
691  QualityEnableME4a = pset.getParameter<unsigned int>("QualityEnableME4a");
692  QualityEnableME4b = pset.getParameter<unsigned int>("QualityEnableME4b");
693  QualityEnableME4c = pset.getParameter<unsigned int>("QualityEnableME4c");
694 
695  m_firmSP = pset.getParameter<unsigned int>("firmwareSP");
696  m_firmFA = pset.getParameter<unsigned int>("firmwareFA");
697  m_firmDD = pset.getParameter<unsigned int>("firmwareDD");
698  m_firmVM = pset.getParameter<unsigned int>("firmwareVM");
699 
700 }
T getParameter(std::string const &) const
int CSCTFSectorProcessor::run ( const CSCTriggerContainer< csctf::TrackStub > &  stubs)

STEP ZERO Remove stubs, which were masked out by kill_fiber or QualityEnable parameters

STEP ONE We take stubs from the MPC and assign their eta and phi coordinates using the SR Lookup tables. This is independent of what BX we are on so we can process one large vector of stubs. After this we append the stubs gained from the DT system.

STEP TWO We take the stubs filled by the SR LUTs and load them for processing into the SP core logic. After loading we run and then retrieve any tracks generated.

STEP THREE Now that we have the found tracks from the core, we must assign their Pt.

Definition at line 719 of file CSCTFSectorProcessor.cc.

References CSCTriggerContainer< T >::clear(), core_, dt_stubs, MillePedeFileConverter_cfg::e, FPGAs, CSCTriggerContainer< T >::get(), triggerObjects_cff::id, initFail_, kill_fiber, l1_tracks, CSCTFSPCoreLogic::loadData(), LogDebug, m_allowALCTonly, m_allowCLCTonly, m_bxa_depth, m_curvedp, m_endcap, m_etamax, m_etamin, m_etawin, m_firmSP, m_gangedME1a, m_latency, m_maxBX, m_maxdeta112_accp, m_maxdeta113_accp, m_maxdeta12_accp, m_maxdeta13_accp, m_maxdphi112_accp, m_maxdphi113_accp, m_maxdphi12_accp, m_maxdphi13_accp, m_mbaPhiOff, m_mbbPhiOff, m_minBX, m_mindeta112_accp, m_mindeta113_accp, m_mindeta12_accp, m_mindeta13_accp, m_mindetap, m_mindetap_halo, m_mindphip, m_mindphip_halo, m_preTrigger, m_sector, m_straightp, m_widePhi, CSCTFPtLUT::Pt(), ptLUT_, csc::L1Track::ptLUTAddress(), CSCTriggerContainer< T >::push_back(), CSCTriggerContainer< T >::push_many(), QualityEnableME1a, QualityEnableME1b, QualityEnableME1c, QualityEnableME1d, QualityEnableME1e, QualityEnableME1f, QualityEnableME2a, QualityEnableME2b, QualityEnableME2c, QualityEnableME3a, QualityEnableME3b, QualityEnableME3c, QualityEnableME4a, QualityEnableME4b, QualityEnableME4c, rescaleSinglesPhi, CSCTFSPCoreLogic::run(), run_core, L1MuRegionalCand::setBx(), L1MuRegionalCand::setChargeValidPacked(), L1MuRegionalCand::setEtaPacked(), csc::L1Track::setLocalPhi(), csc::L1Track::setOutputLink(), csc::L1Track::setPtLUTAddress(), csc::L1Track::setRank(), csc::L1Track::setStationIds(), edm::shift, singlesTrackOutput, srLUTs_, relativeConstraints::station, stub_vec_filtered, HiIsolationCommonParameters_cff::track, tracks(), CSCTFSPCoreLogic::tracks(), trigger_on_MB1a, trigger_on_MB1d, trigger_on_ME1a, trigger_on_ME1b, trigger_on_ME2, trigger_on_ME3, trigger_on_ME4, and CSCTriggerNumbering::triggerSubSectorFromLabels().

Referenced by CSCTFTrackBuilder::buildTracks().

720 {
721  if(initFail_)
722  return -1;
723 
724  if( !ptLUT_ )
725  {
726  edm::LogError("CSCTFSectorProcessor::run()") << "No CSCTF PTLUTs: Initialize CSC TF LUTs first (missed call to CSCTFTrackProducer::beginJob?\n";
727  return -1;
728  }
729 
730 
731  l1_tracks.clear();
732  dt_stubs.clear();
733  stub_vec_filtered.clear();
734 
735  std::vector<csctf::TrackStub> stub_vec = stubs.get();
736 
740  for(std::vector<csctf::TrackStub>::const_iterator itr=stub_vec.begin(); itr!=stub_vec.end(); itr++)
741  switch( itr->station() ){
742  case 5: stub_vec_filtered.push_back(*itr); break; // DT stubs get filtered by the core controll register
743  case 4:
744  switch( itr->getMPCLink() ){
745  case 3: if( (kill_fiber&0x4000)==0 && QualityEnableME4c&(1<<itr->getQuality()) ) stub_vec_filtered.push_back(*itr); break;
746  case 2: if( (kill_fiber&0x2000)==0 && QualityEnableME4b&(1<<itr->getQuality()) ) stub_vec_filtered.push_back(*itr); break;
747  case 1: if( (kill_fiber&0x1000)==0 && QualityEnableME4a&(1<<itr->getQuality()) ) stub_vec_filtered.push_back(*itr); break;
748  default: edm::LogWarning("CSCTFSectorProcessor::run()") << "No MPC sorting for LCT: link="<<itr->getMPCLink()<<"\n";
749  }
750  break;
751  case 3:
752  switch( itr->getMPCLink() ){
753  case 3: if( (kill_fiber&0x0800)==0 && QualityEnableME3c&(1<<itr->getQuality()) ) stub_vec_filtered.push_back(*itr); break;
754  case 2: if( (kill_fiber&0x0400)==0 && QualityEnableME3b&(1<<itr->getQuality()) ) stub_vec_filtered.push_back(*itr); break;
755  case 1: if( (kill_fiber&0x0200)==0 && QualityEnableME3a&(1<<itr->getQuality()) ) stub_vec_filtered.push_back(*itr); break;
756  default: edm::LogWarning("CSCTFSectorProcessor::run()") << "No MPC sorting for LCT: link="<<itr->getMPCLink()<<"\n";
757  }
758  break;
759  case 2:
760  switch( itr->getMPCLink() ){
761  case 3: if( (kill_fiber&0x0100)==0 && QualityEnableME2c&(1<<itr->getQuality()) ) stub_vec_filtered.push_back(*itr); break;
762  case 2: if( (kill_fiber&0x0080)==0 && QualityEnableME2b&(1<<itr->getQuality()) ) stub_vec_filtered.push_back(*itr); break;
763  case 1: if( (kill_fiber&0x0040)==0 && QualityEnableME2a&(1<<itr->getQuality()) ) stub_vec_filtered.push_back(*itr); break;
764  default: edm::LogWarning("CSCTFSectorProcessor::run()") << "No MPC sorting for LCT: link="<<itr->getMPCLink()<<"\n";
765  }
766  break;
767  case 1:
768  switch( itr->getMPCLink() + (3*(CSCTriggerNumbering::triggerSubSectorFromLabels(CSCDetId(itr->getDetId().rawId())) - 1)) ){
769  case 6: if( (kill_fiber&0x0020)==0 && QualityEnableME1f&(1<<itr->getQuality()) ) stub_vec_filtered.push_back(*itr); break;
770  case 5: if( (kill_fiber&0x0010)==0 && QualityEnableME1e&(1<<itr->getQuality()) ) stub_vec_filtered.push_back(*itr); break;
771  case 4: if( (kill_fiber&0x0008)==0 && QualityEnableME1d&(1<<itr->getQuality()) ) stub_vec_filtered.push_back(*itr); break;
772  case 3: if( (kill_fiber&0x0004)==0 && QualityEnableME1c&(1<<itr->getQuality()) ) stub_vec_filtered.push_back(*itr); break;
773  case 2: if( (kill_fiber&0x0002)==0 && QualityEnableME1b&(1<<itr->getQuality()) ) stub_vec_filtered.push_back(*itr); break;
774  case 1: if( (kill_fiber&0x0001)==0 && QualityEnableME1a&(1<<itr->getQuality()) ) stub_vec_filtered.push_back(*itr); break;
775  default: edm::LogWarning("CSCTFSectorProcessor::run()") << "No MPC sorting for LCT: link="<<itr->getMPCLink()<<"\n";
776  }
777  break;
778  default: edm::LogWarning("CSCTFSectorProcessor::run()") << "Invalid station # encountered: "<<itr->station()<<"\n";
779  }
780 
789  for(std::vector<csctf::TrackStub>::iterator itr=stub_vec_filtered.begin(); itr!=stub_vec_filtered.end(); itr++)
790  {
791  if(itr->station() != 5)
792  {
793  CSCDetId id(itr->getDetId().rawId());
794  unsigned fpga = (id.station() == 1) ? CSCTriggerNumbering::triggerSubSectorFromLabels(id) - 1 : id.station();
795 
796  lclphidat lclPhi;
797  try {
798  lclPhi = srLUTs_[FPGAs[fpga]]->localPhi(itr->getStrip(), itr->getPattern(), itr->getQuality(), itr->getBend(), m_gangedME1a);
799  } catch( cms::Exception &e ) {
800  bzero(&lclPhi,sizeof(lclPhi));
801  edm::LogWarning("CSCTFSectorProcessor:run()") << "Exception from LocalPhi LUT in " << FPGAs[fpga]
802  << "(strip="<<itr->getStrip()<<",pattern="<<itr->getPattern()<<",quality="<<itr->getQuality()<<",bend="<<itr->getBend()<<")" <<std::endl;
803  }
804 
805  gblphidat gblPhi;
806  try {
807  unsigned csc_id = itr->cscid();
808  if (!m_gangedME1a) csc_id = itr->cscidSeparateME1a();
809  //std::cout << "station="<<id.station()<<" ring="<<id.ring()<<" strip="<<itr->getStrip()<<" WG="<<itr->getKeyWG()<<std::endl;
810  //std::cout << "csc_id=" << csc_id << std::endl;
811  gblPhi = srLUTs_[FPGAs[fpga]]->globalPhiME(lclPhi.phi_local, itr->getKeyWG(), csc_id, m_gangedME1a);
812 
813  } catch( cms::Exception &e ) {
814  bzero(&gblPhi,sizeof(gblPhi));
815  edm::LogWarning("CSCTFSectorProcessor:run()") << "Exception from GlobalPhi LUT in " << FPGAs[fpga]
816  << "(phi_local="<<lclPhi.phi_local<<",KeyWG="<<itr->getKeyWG()<<",csc="<<itr->cscid()<<")"<<std::endl;
817  }
818 
819  gbletadat gblEta;
820  try {
821  unsigned csc_id = itr->cscid();
822  if (!m_gangedME1a) csc_id = itr->cscidSeparateME1a();
823  gblEta = srLUTs_[FPGAs[fpga]]->globalEtaME(lclPhi.phi_bend_local, lclPhi.phi_local, itr->getKeyWG(), csc_id, m_gangedME1a);
824  //gblEta = srLUTs_[FPGAs[fpga]]->globalEtaME(lclPhi.phi_bend_local, lclPhi.phi_local, itr->getKeyWG(), itr->cscid());
825  } catch( cms::Exception &e ) {
826  bzero(&gblEta,sizeof(gblEta));
827  edm::LogWarning("CSCTFSectorProcessor:run()") << "Exception from GlobalEta LUT in " << FPGAs[fpga]
828  << "(phi_bend_local="<<lclPhi.phi_bend_local<<",phi_local="<<lclPhi.phi_local<<",KeyWG="<<itr->getKeyWG()<<",csc="<<itr->cscid()<<")"<<std::endl;
829  }
830 
831  gblphidat gblPhiDT;
832  try {
833  gblPhiDT = srLUTs_[FPGAs[fpga]]->globalPhiMB(lclPhi.phi_local, itr->getKeyWG(), itr->cscid(), m_gangedME1a);
834  } catch( cms::Exception &e ) {
835  bzero(&gblPhiDT,sizeof(gblPhiDT));
836  edm::LogWarning("CSCTFSectorProcessor:run()") << "Exception from GlobalPhi DT LUT in " << FPGAs[fpga]
837  << "(phi_local="<<lclPhi.phi_local<<",KeyWG="<<itr->getKeyWG()<<",csc="<<itr->cscid()<<")"<<std::endl;
838  }
839 
840  itr->setEtaPacked(gblEta.global_eta);
841 
842  if(itr->station() == 1 ) {
843  //&& itr->cscId() > 6) { //only ring 3
844  itr->setPhiPacked(gblPhiDT.global_phi);// convert the DT to convert
845  dt_stubs.push_back(*itr); // send stubs to DT
846  }
847 
848  //reconvert the ME1 LCT to the CSCTF units.
849  //the same iterator is used to fill two containers,
850  //the CSCTF one (stub_vec_filtered) and LCTs sent to DTTF (dt_stubs)
851  itr->setPhiPacked(gblPhi.global_phi);
852 
853  LogDebug("CSCTFSectorProcessor:run()") << "LCT found, processed by FPGA: " << FPGAs[fpga] << std::endl
854  << " LCT now has (eta, phi) of: (" << itr->etaValue() << "," << itr->phiValue() <<")\n";
855  }
856  }
857 
859 
866  std::vector<csc::L1Track> tftks;
867 
868  if(run_core){
870  // core_->loadData(processedStubs, m_endcap, m_sector, m_minBX, m_maxBX, true);
872  m_etamin[0], m_etamin[1], m_etamin[2], m_etamin[3],
873  m_etamin[4], m_etamin[5], m_etamin[6], m_etamin[7],
874  m_etamax[0], m_etamax[1], m_etamax[2], m_etamax[3],
875  m_etamax[4], m_etamax[5], m_etamax[6], m_etamax[7],
876  m_etawin[0], m_etawin[1], m_etawin[2],
877  m_etawin[3], m_etawin[4], m_etawin[5], m_etawin[6],
887  m_minBX, m_maxBX) )
888  {
889  l1_tracks = core_->tracks();
890  }
891 
892  tftks = l1_tracks.get();
893 
899  std::vector<csc::L1Track>::iterator titr = tftks.begin();
900 
901  for(; titr != tftks.end(); titr++)
902  {
903  ptadd thePtAddress(titr->ptLUTAddress());
904  ptdat thePtData = ptLUT_->Pt(thePtAddress);
905  if(thePtAddress.track_fr)
906  {
907  titr->setRank(thePtData.front_rank);
908  titr->setChargeValidPacked(thePtData.charge_valid_front);
909  }
910  else
911  {
912  titr->setRank(thePtData.rear_rank);
913  titr->setChargeValidPacked(thePtData.charge_valid_rear);
914  }
915 
916  if( ((titr->ptLUTAddress()>>16)&0xf)==15 )
917  {
918  int unmodBx = titr->bx();
919  titr->setBx(unmodBx+2);
920  }
921  }
922  } //end of if(run_core)
923 
924  l1_tracks = tftks;
925 
926 
927  // Add-on for singles:
928  CSCTriggerContainer<csctf::TrackStub> myStubContainer[7]; //[BX]
929  // Loop over CSC LCTs if triggering on them:
931  for(std::vector<csctf::TrackStub>::iterator itr=stub_vec_filtered.begin(); itr!=stub_vec_filtered.end(); itr++){
932  int station = itr->station()-1;
933  if(station != 4){
934  int subSector = CSCTriggerNumbering::triggerSubSectorFromLabels(CSCDetId(itr->getDetId().rawId()));
935  int mpc = ( subSector ? subSector-1 : station+1 );
936  if( (mpc==0&&trigger_on_ME1a) || (mpc==1&&trigger_on_ME1b) ||
937  (mpc==2&&trigger_on_ME2) || (mpc==3&&trigger_on_ME3) ||
938  (mpc==4&&trigger_on_ME4) ||
939  (mpc==5&& ( (trigger_on_MB1a&&subSector%2==1) || (trigger_on_MB1d&&subSector%2==0) ) ) ){
940  int bx = itr->getBX() - m_minBX;
941  if( bx<0 || bx>=7 ) edm::LogWarning("CSCTFTrackBuilder::buildTracks()") << " LCT BX is out of ["<<m_minBX<<","<<m_maxBX<<") range: "<<itr->getBX();
942  else
943  if( itr->isValid() ) myStubContainer[bx].push_back(*itr);
944  }
945  }
946  }
947 
948  // Core's input was loaded in a relative time window BX=[0-7)
949  // To relate it to time window of tracks (centred at BX=0) we introduce a shift:
950  int shift = (m_maxBX + m_minBX)/2 - m_minBX;
951 
952  // Now we put tracks from singles in a certain bx
953  // if there were no tracks from the core in this endcap/sector/bx
954  CSCTriggerContainer<csc::L1Track> tracksFromSingles;
955  for(int bx=0; bx<7; bx++)
956  if( myStubContainer[bx].get().size() ){ // VP in this bx
957  bool coreTrackExists = false;
958  // tracks are not ordered to be accessible by bx => loop them all
959  std::vector<csc::L1Track> tracks = l1_tracks.get();
960  for(std::vector<csc::L1Track>::iterator trk=tracks.begin(); trk<tracks.end(); trk++)
961  if( (trk->BX() == bx-shift && trk->outputLink() == singlesTrackOutput)
962  || (((trk->ptLUTAddress()>>16)&0xf)==15 && trk->BX()-2 == bx-shift) ){
963  coreTrackExists = true;
964  break;
965  }
966  if( coreTrackExists == false ){
968  csc::L1Track track(trackId);
969  track.setBx(bx-shift);
970  track.setOutputLink(singlesTrackOutput);
971  //CSCCorrelatedLCTDigiCollection singles;
972  std::vector<csctf::TrackStub> stubs = myStubContainer[bx].get();
973  // Select best quality stub, and assign its eta/phi coordinates to the track
974  int qualityME=0, qualityMB=0, ME=100, MB=100, linkME=7;
975  std::vector<csctf::TrackStub>::const_iterator bestStub=stubs.end();
976  for(std::vector<csctf::TrackStub>::const_iterator st_iter=stubs.begin(); st_iter!=stubs.end(); st_iter++){
977  int station = st_iter->station()-1;
978  int subSector = CSCTriggerNumbering::triggerSubSectorFromLabels(CSCDetId(st_iter->getDetId().rawId()));
979  int mpc = ( subSector ? subSector-1 : station+1 );
980  // Sort MB stubs first (priority: quality OR MB1a > MB1b for the same quality)
981  if( mpc==5 && (st_iter->getQuality()>qualityMB || (st_iter->getQuality()==qualityMB&&subSector<MB)) ){
982  qualityMB = st_iter->getQuality();
983  MB = subSector;
984  if(ME>4) bestStub = st_iter; // do not select this stub if ME already had any candidate
985  }
986  // Sort ME stubs (priority: quality OR ME1a > ME1b > ME2 > ME3 > ME4 for the same quality)
987  if( mpc<5 && (st_iter->getQuality()> qualityME
988  || (st_iter->getQuality()==qualityME && mpc< ME)
989  || (st_iter->getQuality()==qualityME && mpc==ME && st_iter->getMPCLink()<linkME))) {
990  qualityME = st_iter->getQuality();
991  ME = mpc;
992  linkME = st_iter->getMPCLink();
993  bestStub = st_iter;
994  }
995  }
996  unsigned rescaled_phi = 999;
997  if (m_firmSP <= 20100210) {
998  // buggy implementation of the phi for singles in the wrapper...
999  // at the end data/emulator have to agree: e.g. wrong in the same way
1000  // BUG: getting the lowest 7 bits instead the 7 most significant ones.
1001  rescaled_phi = unsigned(24*(bestStub->phiPacked()&0x7f)/128.);
1002  }
1003  else {
1004  // correct implementation :-)
1005  rescaled_phi = unsigned(24*(bestStub->phiPacked()>>5)/128.);
1006  }
1007 
1008  unsigned unscaled_phi = bestStub->phiPacked()>>7 ;
1009  track.setLocalPhi(rescaleSinglesPhi?rescaled_phi:unscaled_phi);
1010  track.setEtaPacked((bestStub->etaPacked()>>2)&0x1f);
1011  switch( bestStub->station() ){
1012  case 1: track.setStationIds(bestStub->getMPCLink(),0,0,0,0); break;
1013  case 2: track.setStationIds(0,bestStub->getMPCLink(),0,0,0); break;
1014  case 3: track.setStationIds(0,0,bestStub->getMPCLink(),0,0); break;
1015  case 4: track.setStationIds(0,0,0,bestStub->getMPCLink(),0); break;
1016  case 5: track.setStationIds(0,0,0,0,bestStub->getMPCLink()); break;
1017  default: edm::LogError("CSCTFSectorProcessor::run()") << "Illegal LCT link="<<bestStub->station()<<"\n"; break;
1018  }
1019  // singles.insertDigi(CSCDetId(st_iter->getDetId().rawId()),*st_iter);
1020  //tracksFromSingles.push_back(L1CSCTrack(track,singles));
1021  track.setPtLUTAddress( (1<<16) | ((bestStub->etaPacked()<<9)&0xf000) );
1022  ptadd thePtAddress( track.ptLUTAddress() );
1023  ptdat thePtData = ptLUT_->Pt(thePtAddress);
1024  if( thePtAddress.track_fr ){
1025  track.setRank(thePtData.front_rank);
1026  track.setChargeValidPacked(thePtData.charge_valid_front);
1027  } else {
1028  track.setRank(thePtData.rear_rank);
1029  track.setChargeValidPacked(thePtData.charge_valid_rear);
1030  }
1031  tracksFromSingles.push_back(track);
1032  }
1033  }
1034  std::vector<csc::L1Track> single_tracks = tracksFromSingles.get();
1035  if( single_tracks.size() ) l1_tracks.push_many(single_tracks);
1036  // End of add-on for singles
1037 
1038  return (l1_tracks.get().size() > 0);
1039 }
#define LogDebug(id)
void loadData(const CSCTriggerContainer< csctf::TrackStub > &, const unsigned &endcap, const unsigned &sector, const int &minBX, const int &maxBX, const bool gangedME1a)
std::vector< T > get() const
ptdat Pt(const ptadd &) const
Definition: CSCTFPtLUT.cc:183
CSCTriggerContainer< csctf::TrackStub > dt_stubs
CSCTFSPCoreLogic * core_
std::vector< csctf::TrackStub > stub_vec_filtered
static const std::string FPGAs[5]
void push_back(const T &data)
Definition: ME.h:11
bool run(const unsigned &endcap, const unsigned &sector, const unsigned &latency, const unsigned &etamin1, const unsigned &etamin2, const unsigned &etamin3, const unsigned &etamin4, const unsigned &etamin5, const unsigned &etamin6, const unsigned &etamin7, const unsigned &etamin8, const unsigned &etamax1, const unsigned &etamax2, const unsigned &etamax3, const unsigned &etamax4, const unsigned &etamax5, const unsigned &etamax6, const unsigned &etamax7, const unsigned &etamax8, const unsigned &etawin1, const unsigned &etawin2, const unsigned &etawin3, const unsigned &etawin4, const unsigned &etawin5, const unsigned &etawin6, const unsigned &etawin7, const unsigned &mindphip, const unsigned &mindetap, const unsigned &mindeta12_accp, const unsigned &maxdeta12_accp, const unsigned &maxdphi12_accp, const unsigned &mindeta13_accp, const unsigned &maxdeta13_accp, const unsigned &maxdphi13_accp, const unsigned &mindeta112_accp, const unsigned &maxdeta112_accp, const unsigned &maxdphi112_accp, const unsigned &mindeta113_accp, const unsigned &maxdeta113_accp, const unsigned &maxdphi113_accp, const unsigned &mindphip_halo, const unsigned &mindetap_halo, const unsigned &straightp, const unsigned &curvedp, const unsigned &mbaPhiOff, const unsigned &mbbPhiOff, const unsigned &m_extend_length, const unsigned &m_allowALCTonly, const unsigned &m_allowCLCTonly, const unsigned &m_preTrigger, const unsigned &m_widePhi, const int &minBX, const int &maxBX)
CSCTriggerContainer< csc::L1Track > l1_tracks
void push_many(const std::vector< T > &data)
std::map< std::string, CSCSectorReceiverLUT * > srLUTs_
class pt_address ptadd
class pt_data ptdat
class global_phi_data gblphidat
class local_phi_data lclphidat
Data Types.
static int triggerSubSectorFromLabels(int station, int chamber)
CSCTriggerContainer< csc::L1Track > tracks() const
MonitorElement ME
static unsigned int const shift
CSCTriggerContainer< csc::L1Track > tracks()
class global_eta_data gbletadat
CSCTriggerContainer<csc::L1Track> CSCTFSectorProcessor::tracks ( void  ) const
inline

Definition at line 46 of file CSCTFSectorProcessor.h.

References l1_tracks.

Referenced by CSCTFTrackBuilder::buildTracks(), and run().

46 { return l1_tracks; }
CSCTriggerContainer< csc::L1Track > l1_tracks

Member Data Documentation

CSCTFSPCoreLogic* CSCTFSectorProcessor::core_
private
CSCTriggerContainer<csctf::TrackStub> CSCTFSectorProcessor::dt_stubs
private

Definition at line 98 of file CSCTFSectorProcessor.h.

Referenced by dtStubs(), and run().

std::map<int, int> CSCTFSectorProcessor::firmSP_Map
private

Definition at line 108 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), and initialize().

const std::string CSCTFSectorProcessor::FPGAs = {"F1","F2","F3","F4","F5"}
staticprivate

Definition at line 101 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), run(), and ~CSCTFSectorProcessor().

bool CSCTFSectorProcessor::initFail_
private

Definition at line 110 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), and run().

bool CSCTFSectorProcessor::initializeFromPSet
private

Definition at line 65 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), and initialize().

bool CSCTFSectorProcessor::isCoreVerbose
private

Definition at line 109 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), and initialize().

int CSCTFSectorProcessor::kill_fiber
private

Definition at line 88 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

CSCTriggerContainer<csc::L1Track> CSCTFSectorProcessor::l1_tracks
private

Definition at line 97 of file CSCTFSectorProcessor.h.

Referenced by run(), and tracks().

int CSCTFSectorProcessor::m_allowALCTonly
private

Definition at line 70 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_allowCLCTonly
private

Definition at line 70 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_bxa_depth
private

Definition at line 70 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_curvedp
private

Definition at line 79 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

unsigned CSCTFSectorProcessor::m_endcap
private

Definition at line 66 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), and run().

int CSCTFSectorProcessor::m_etamax[8]
private

Definition at line 72 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_etamin[8]
private

Definition at line 72 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_etawin[7]
private

Definition at line 72 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_firmDD
private

Definition at line 95 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), and readParameters().

int CSCTFSectorProcessor::m_firmFA
private

Definition at line 95 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), and readParameters().

int CSCTFSectorProcessor::m_firmSP
private

Definition at line 95 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_firmVM
private

Definition at line 95 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), and readParameters().

bool CSCTFSectorProcessor::m_gangedME1a
private

Definition at line 63 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), and run().

unsigned CSCTFSectorProcessor::m_latency
private

Definition at line 67 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), and run().

int CSCTFSectorProcessor::m_maxBX
private

Definition at line 71 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), maxBX(), and run().

int CSCTFSectorProcessor::m_maxdeta112_accp
private

Definition at line 76 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_maxdeta113_accp
private

Definition at line 77 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_maxdeta12_accp
private

Definition at line 74 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_maxdeta13_accp
private

Definition at line 75 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_maxdphi112_accp
private

Definition at line 76 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_maxdphi113_accp
private

Definition at line 77 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_maxdphi12_accp
private

Definition at line 74 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_maxdphi13_accp
private

Definition at line 75 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_mbaPhiOff
private

Definition at line 80 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_mbbPhiOff
private

Definition at line 80 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_minBX
private

Definition at line 71 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), minBX(), and run().

int CSCTFSectorProcessor::m_mindeta112_accp
private

Definition at line 76 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_mindeta113_accp
private

Definition at line 77 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_mindeta12_accp
private

Definition at line 74 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_mindeta13_accp
private

Definition at line 75 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_mindetap
private

Definition at line 73 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_mindetap_halo
private

Definition at line 78 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_mindphip
private

Definition at line 73 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_mindphip_halo
private

Definition at line 78 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_preTrigger
private

Definition at line 70 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

unsigned CSCTFSectorProcessor::m_sector
private

Definition at line 66 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), and run().

int CSCTFSectorProcessor::m_straightp
private

Definition at line 79 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::m_widePhi
private

Definition at line 81 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

CSCTFPtLUT* CSCTFSectorProcessor::ptLUT_
private
int CSCTFSectorProcessor::QualityEnableME1a
private

Definition at line 84 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::QualityEnableME1b
private

Definition at line 84 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::QualityEnableME1c
private

Definition at line 84 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::QualityEnableME1d
private

Definition at line 84 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::QualityEnableME1e
private

Definition at line 84 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::QualityEnableME1f
private

Definition at line 84 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::QualityEnableME2a
private

Definition at line 85 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::QualityEnableME2b
private

Definition at line 85 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::QualityEnableME2c
private

Definition at line 85 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::QualityEnableME3a
private

Definition at line 86 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::QualityEnableME3b
private

Definition at line 86 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::QualityEnableME3c
private

Definition at line 86 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::QualityEnableME4a
private

Definition at line 87 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::QualityEnableME4b
private

Definition at line 87 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::QualityEnableME4c
private

Definition at line 87 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::rescaleSinglesPhi
private

Definition at line 93 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::run_core
private

Definition at line 89 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

unsigned int CSCTFSectorProcessor::singlesTrackOutput
private

Definition at line 92 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

std::map<std::string, CSCSectorReceiverLUT*> CSCTFSectorProcessor::srLUTs_
private

Definition at line 103 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), run(), and ~CSCTFSectorProcessor().

std::vector<csctf::TrackStub> CSCTFSectorProcessor::stub_vec_filtered
private

Definition at line 99 of file CSCTFSectorProcessor.h.

Referenced by filteredStubs(), and run().

unsigned CSCTFSectorProcessor::TMB07
private

Definition at line 66 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor().

int CSCTFSectorProcessor::trigger_on_MB1a
private

Definition at line 91 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::trigger_on_MB1d
private

Definition at line 91 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::trigger_on_ME1a
private

Definition at line 90 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::trigger_on_ME1b
private

Definition at line 90 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::trigger_on_ME2
private

Definition at line 90 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::trigger_on_ME3
private

Definition at line 90 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().

int CSCTFSectorProcessor::trigger_on_ME4
private

Definition at line 90 of file CSCTFSectorProcessor.h.

Referenced by CSCTFSectorProcessor(), initialize(), readParameters(), and run().