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/data/refman/pasoursint/CMSSW_5_3_10_patch1/src/RecoLuminosity/LumiProducer/interface/LumiRawDataStructures.h

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00001 #ifndef RecoLuminosity_LumiProducer_LUMIRAWDATASTRUCTURES_H
00002 #define RecoLuminosity_LumiProducer_LUMIRAWDATASTRUCTURES_H
00003 //Note: this header file corresponds to svn.cern.ch/reps/Luminosity/HLXReadOut/HLXCoreLibs/include/LumiStructures.hh - Revision 512 LumiDAQ
00004 /*
00005   LumiNibble structure definitions
00006 */
00007 
00008 // The string and stream definitions
00009 // Type definitions used by the HAL, etc...
00010 
00011 #define HCAL_HLX_MAX_BUNCHES 4096
00012 #define HCAL_HLX_MAX_HLXS 36
00013 
00014 // Changes
00015 // Namespace for the HCAL HLX
00016 #include <stdint.h>
00017 
00018 namespace HCAL_HLX{
00019 
00020   struct DAQ_HEART_BEAT {
00021 
00022     uint32_t runNumber;
00023     uint32_t sectionNumber;
00024     uint32_t bCMSLive;
00025 
00026     uint32_t timestamp;
00027     uint32_t timestamp_micros;
00028   };
00029 
00030   struct RUN_SUMMARY {
00031 
00032     char runSequenceName[128];
00033     uint32_t HLTConfigId;
00034     uint32_t timestamp;
00035     uint32_t timestamp_micros;
00036     uint32_t startOrbitNumber;
00037     uint32_t endOrbitnumber;
00038 
00039     uint32_t runNumber;
00040     uint32_t fillNumber;
00041 
00042     uint32_t numberCMSLumiSections;  // number of lumi sections from the trigger
00043     uint32_t numberLumiDAQLumiSections;
00044   };
00045 
00046   struct RUN_QUALITY {
00047     uint32_t runNumber;
00048     uint32_t sectionNumber;
00049 
00050     int HLX;
00051     int HFLumi;
00052     int ECAL;
00053     int HCAL;
00054     int Tracker;
00055     int RPC;
00056     int DT;
00057     int CSC;
00058   };
00059 
00060   struct RCMS_CONFIG {
00061 
00062     uint32_t runNumber;
00063     
00064     char CMSSW_Tag[32];
00065     char TriDAS_Tag[32];
00066     
00067     uint32_t FirmwareVersion;
00068     uint32_t ExpectedFirmwareVersion;
00069     char AddressTablePath[256];
00070     
00071     char CfgDBTag[64];
00072     char CfgDBAccessor[64];
00073     bool UseConfigDB;
00074     
00075     uint32_t DestIPHigh;
00076     uint32_t DestIPLow;
00077     
00078     uint32_t SrcIPBaseHigh;
00079     uint32_t SrcIPBaseLow;
00080     
00081     uint32_t DestMacAddrHigh;
00082     uint32_t DestMacAddrMed;
00083     uint32_t DestMacAddrLow;
00084     
00085     uint32_t SrcMacAddrHigh;
00086     uint32_t SrcMacAddrMed;
00087     uint32_t SrcMacAddrLow;
00088     
00089     uint32_t SrcPort;
00090     uint32_t DestPort;
00091     
00092     uint32_t DebugData;
00093     uint32_t DebugReadout;
00094     uint32_t DebugSingleCycle;
00095     
00096     uint32_t NumOrbits;
00097     uint32_t OrbitPeriod;
00098     
00099     uint32_t Id;
00100     
00101     uint32_t TTCBC0Pattern;
00102     uint32_t TTCSTARTPattern;
00103     uint32_t TTCSTOPPattern;
00104     
00105     uint32_t BC0Delay;
00106     
00107     uint32_t OccThresholdLowBottom;
00108     uint32_t OccThresholdLowTop;
00109     uint32_t OccThresholdHighBottom;
00110     uint32_t OccThresholdHighTop;
00111     
00112     uint32_t LHCThresholdBottom;
00113     uint32_t LHCThresholdTop;
00114     
00115     uint32_t ETSumCutoffBottom;
00116     uint32_t ETSumCutoffTop;
00117     
00118     uint32_t OCCMaskBottom;
00119     uint32_t OCCMaskTop;
00120     
00121     uint32_t LHCMaskLowBottom;
00122     uint32_t LHCMaskLowTop;
00123     uint32_t LHCMaskHighBottom;
00124     uint32_t LHCMaskHighTop;
00125     
00126     uint32_t SumETMaskLowBottom;
00127     uint32_t SumETMaskLowTop;
00128     uint32_t SumETMaskHighBottom;
00129     uint32_t SumETMaskHighTop;
00130   };
00131   
00132   struct LUMI_SUMMARY {
00133 
00134     float DeadTimeNormalization; 
00135     float LHCNormalization; // recieved from LHC 
00136 
00137     float InstantLumi;
00138     float InstantLumiErr;
00139     int16_t InstantLumiQlty;
00140 
00141     float InstantETLumi;
00142     float InstantETLumiErr;
00143     int16_t InstantETLumiQlty;
00144     float ETNormalization;  // Calculated
00145 
00146     float InstantOccLumi[2];
00147     float InstantOccLumiErr[2];
00148     int16_t InstantOccLumiQlty[2];
00149     float OccNormalization[2];
00150 
00151     float lumiNoise[2];
00152   };
00153 
00154   struct LUMI_DETAIL {
00155 
00156     float LHCLumi[HCAL_HLX_MAX_BUNCHES]; // Sum of LHC.data over all HLX's
00157 
00158     float ETLumi[HCAL_HLX_MAX_BUNCHES];
00159     float ETLumiErr[HCAL_HLX_MAX_BUNCHES];
00160     int16_t ETLumiQlty[HCAL_HLX_MAX_BUNCHES];
00161     float ETBXNormalization[HCAL_HLX_MAX_BUNCHES];
00162 
00163     float OccLumi[2][HCAL_HLX_MAX_BUNCHES];
00164     float OccLumiErr[2][HCAL_HLX_MAX_BUNCHES];
00165     int16_t OccLumiQlty[2][HCAL_HLX_MAX_BUNCHES];
00166     float OccBXNormalization[2][HCAL_HLX_MAX_BUNCHES];
00167   };
00168 
00169   /**************** Trigger *********************/
00170 
00171   struct LEVEL1_PATH {
00172 
00173     char pathName[128];
00174     uint64_t counts;
00175     uint64_t prescale;
00176   };
00177 
00178   struct LEVEL1_TRIGGER {
00179     uint32_t runNumber;
00180     uint32_t sectionNumber; // Lumi section number recorded by the daq.
00181 
00182     uint32_t timestamp;
00183     uint32_t timestamp_micros;
00184 
00185     uint64_t deadtimecount;
00186 
00187     char GTLumiInfoFormat[32];
00188    
00189     LEVEL1_PATH GTAlgo[128];
00190     LEVEL1_PATH GTTech[64];
00191   };
00192 
00193   struct HLT_PATH {  // only object that uses STL and is variable size.
00194     char PathName[128]; //This is the name of trigger path
00195     uint32_t L1Pass;      //Number of times the path was entered
00196     uint32_t PSPass;      //Number after prescaling
00197     uint32_t PAccept;     //Number of accepts by the trigger path
00198     uint32_t PExcept;     //Number of exceptional event encountered
00199     uint32_t PReject;     
00200     char PrescalerModule[64]; //Name of the prescale module in the path
00201     uint32_t PSIndex;     //Index into the set of pre defined prescales
00202     uint32_t Prescale;
00203 
00204     uint32_t HLTConfigId;
00205   };
00206 
00207   struct HLTRIGGER {
00208     uint32_t runNumber;
00209     uint32_t sectionNumber;
00210     uint32_t numPaths;
00211 
00212     HLT_PATH HLTPaths[256];
00213   };
00214 
00215   /***************** Internal use ****************/
00216   struct LUMI_RAW_HEADER { // Used in NibbleCollector 
00217     uint16_t marker;
00218     uint8_t  hlxID;
00219     uint8_t  packetID;
00220     uint32_t startOrbit;
00221     uint16_t numOrbits;
00222     uint16_t startBunch; // Starting bunch in this packet
00223     uint16_t numBunches; // Total number of bunches in histogram
00224     uint8_t  histogramSet;
00225     uint8_t  histogramSequence;
00226     uint16_t allA;
00227     uint16_t allF;
00228   };
00229 
00230   struct LUMI_NIBBLE_HEADER {
00231     uint32_t  startOrbit;
00232     uint16_t  numOrbits;
00233     uint16_t  numBunches; // Number of bunches histogrammed
00234     bool bCMSLive;
00235     bool bOC0;
00236   };
00237   
00238   struct ET_SUM_NIBBLE {
00239     LUMI_NIBBLE_HEADER hdr;
00240     uint32_t data[HCAL_HLX_MAX_BUNCHES];
00241   };
00242   
00243   struct OCCUPANCY_NIBBLE {
00244     LUMI_NIBBLE_HEADER hdr;
00245     uint16_t data[6][HCAL_HLX_MAX_BUNCHES];
00246   };
00247 
00248   struct LHC_NIBBLE {
00249     LUMI_NIBBLE_HEADER hdr;
00250     uint16_t data[HCAL_HLX_MAX_BUNCHES];
00251   };
00252 
00253   //***********************************************************
00254 
00255   struct LUMI_SECTION_HEADER {
00256     uint32_t timestamp;
00257     uint32_t timestamp_micros;
00258 
00259     uint32_t  runNumber;   // Run number
00260     uint32_t  sectionNumber; // Section number
00261 
00262     uint32_t  startOrbit;  // Start orbit of lumi section
00263     uint32_t  numOrbits;   // Total number of orbits recorded in lumi section
00264     uint16_t  numBunches;  // Total number of bunches (from start of orbit)
00265     uint16_t  numHLXs;     // Number of HLXs in lumi section
00266 
00267     bool bCMSLive;    // Is CMS taking data?
00268     bool bOC0;        // Was section initialised by an OC0?
00269   };
00270 
00271   struct LUMI_SECTION_SUB_HEADER {
00272     uint32_t  numNibbles;  // Number of nibbles in this histogram
00273     bool bIsComplete; // Is this histogram complete (i.e. no missing nibbles)
00274   };
00275 
00276   struct ET_SUM_SECTION {
00277     LUMI_SECTION_SUB_HEADER hdr;
00278     float data[HCAL_HLX_MAX_BUNCHES];
00279   };
00280 
00281   struct OCCUPANCY_SECTION {
00282     LUMI_SECTION_SUB_HEADER hdr;
00283     uint32_t data[6][HCAL_HLX_MAX_BUNCHES];
00284   };
00285 
00286   struct LHC_SECTION {
00287     LUMI_SECTION_SUB_HEADER hdr;
00288     uint32_t data[HCAL_HLX_MAX_BUNCHES];
00289   };
00290 
00291   struct LUMI_SECTION {
00292     LUMI_SECTION_HEADER hdr;
00293     LUMI_SUMMARY lumiSummary;
00294     LUMI_DETAIL  lumiDetail;
00295 
00296     ET_SUM_SECTION etSum[HCAL_HLX_MAX_HLXS];
00297     OCCUPANCY_SECTION occupancy[HCAL_HLX_MAX_HLXS];
00298     LHC_SECTION lhc[HCAL_HLX_MAX_HLXS];
00299   };
00300 
00301   struct DIP_STRUCT_BASE { 
00302     int MessageQuality;     
00303     uint32_t timestamp;
00304     uint32_t timestamp_micros;
00305     uint32_t runNumber;
00306     uint32_t sectionNumber;
00307   };
00308   
00309     struct VDM_SCAN_DATA: public DIP_STRUCT_BASE {
00310     bool VdmMode; //True when a scan at one of the IPs is imminent, false otherwise
00311     int IP;
00312     bool RecordDataFlag; // True while data for one of the scan points at one of the IPs is being taken, false otherwise   
00313     double BeamSeparation; //separation in sigma for the scan point  
00314     bool isXaxis; //true if scanning xaxis, otherwise yaxis is being scanned 
00315     int Beam; 
00316     double StepProgress;
00317   };
00318 
00319   struct BRAN_DATA: public DIP_STRUCT_BASE {
00320     double MeanCrossingAngle;
00321     int AcqMode; 
00322     double MeanLuminosity;
00323  };
00324 
00325   struct BRAN_BX_DATA: public DIP_STRUCT_BASE {
00326     double bunchByBunchLuminosity[3564];
00327     int AcqMode;
00328   };
00329 
00330   struct LHC_BEAM_CONFIG: public DIP_STRUCT_BASE {
00331     int beamConfig[3564];
00332   };
00333 
00334   struct LHC_FILL_DATA: public DIP_STRUCT_BASE {
00335     uint32_t FillNumber;
00336   };
00337 
00338 
00339   struct CMS_LUMI_DIP_DATA: public DIP_STRUCT_BASE {
00340     uint32_t numHLXs;
00341     uint32_t startOrbit;
00342     uint32_t numOrbits;
00343     uint32_t numBunches;
00344     float instantLumi;
00345     float instantLumiErr;
00346   };
00347 
00348   struct CMS_LUMI_LH_DIP_DATA: public DIP_STRUCT_BASE {
00349     float lumiHisto[3564];
00350     uint32_t numBunches;
00351   };
00352 
00353   struct CMS_STATUS_DATA: public DIP_STRUCT_BASE {
00354     char status[64];
00355   };
00356 
00357   struct TRIGGER_LUMI_SEGMENT: public DIP_STRUCT_BASE {
00358     char state[64];
00359     uint32_t deadtime;
00360     uint32_t deadtimeBeamActive;
00361     uint32_t lumiSegmentNumber;
00362     
00363   };
00364 
00365   struct LHC_BEAM_MODE_DATA: public DIP_STRUCT_BASE {
00366     char beamMode[64];
00367   };
00368 
00369   struct LHC_BEAM_ENERGY_DATA: public DIP_STRUCT_BASE {
00370     float singleBeamEnergy; //GeV
00371   };
00372 
00373   struct LHC_BEAM_INTENSITY_DATA: public DIP_STRUCT_BASE {
00374     double beamIntensity; //total num protons in beam summed over all bxs
00375     double primitiveLifetime;
00376     uint64_t acqTimeStamp;
00377   };
00378 
00379   struct LHC_BEAM_FBCT_INTENSITY_DATA: public DIP_STRUCT_BASE {
00380     double bestLifetime; 
00381     double averageBeamIntensity;
00382     float averageBunchIntensities[3564];
00383   };
00384 
00385   struct CMS_SCAN_TUNE_DATA: public DIP_STRUCT_BASE {
00386     double IntTime; 
00387     double CollRate;
00388     double CollRateErr;
00389     bool Preferred;
00390     char Source[64];
00391   };
00392 
00393   struct DIP_ACQUISITION_MODE: public DIP_STRUCT_BASE {
00394     char mode[64];
00395   };
00396 
00397   struct BEAM_INFO {
00398     double totalIntensity;
00399     double primitiveLifetime;
00400     double bestLifeTime;
00401     double averageBeamIntensity;
00402     float orbitFrequency;
00403     float averageBunchIntensities[3564];
00404     int beamConfig[3564];
00405   };
00406   
00407   
00408   struct BRANA_INFO {
00409     double meanCrossingAngle;
00410     int acqMode;
00411     double meanLuminosity;
00412     double bunchByBunchLuminosity[3564];
00413   };
00414 
00415   struct BRANP_INFO {
00416     double meanCrossingAngle;
00417     int acqMode;
00418     int counterAcquisition;
00419     double meanLuminosity;
00420     double meanCrossingAngleError;
00421     double meanLuminosityError;
00422     double bunchByBunchLuminosity[3564];
00423   };
00424 
00425   struct BRAN_INFO {
00426 
00427     BRANA_INFO branA;
00428     BRANP_INFO branP;
00429   };
00430 
00431   struct DIP_COMBINED_DATA: public DIP_STRUCT_BASE {
00432 
00433      char beamMode[128];
00434 
00435      float Energy;
00436 
00437     uint32_t FillNumber;
00438 
00439      BEAM_INFO Beam[2];
00440 
00441      BRAN_INFO BRAN4L1;
00442      BRAN_INFO BRAN4R1;
00443      BRAN_INFO BRAN4L5;
00444      BRAN_INFO BRAN4R5;
00445 
00446      VDM_SCAN_DATA VdMScan;
00447 
00448   };
00449 
00450 }//~namespace HCAL_HLX
00451 
00452 #endif //RecoLuminosity_LumiProducer_LUMIRAWDATASTRUCTURES_H