d8/d14/GEMAMC_8h_source.html

 #ifndef DataFormats_GEMDigi_GEMAMC_h
 #define DataFormats_GEMDigi_GEMAMC_h
 #include "GEMOptoHybrid.h"
 #include <vector>

 class GEMAMC {
 public:
   union AMCheader1 {
     uint64_t word;
     struct {
       uint64_t dataLength : 20;  // Always 0xfffff, use trailer dataLengthT
       uint64_t bxID : 12;        // Bunch crossing ID
       uint64_t l1AID : 24;       // L1A number – basically this is like event number, but reset by resync
       uint64_t AMCnum : 4;       // Slot number of the AMC
       uint64_t reserved : 4;     // not used
     };
   };
   union AMCheader2 {
     uint64_t word;
     // v301 dataformat
     struct {
       uint64_t boardID : 16;   // 8bit long GLIB serial number
       uint64_t orbitNum : 16;  // Orbit number, Reset by EC0
       uint64_t param3 : 8;     // RunPar - Controlled by software, normally used only for calibrations
       uint64_t param2 : 8;     // RunPar - Controlled by software, normally used only for calibrations
       uint64_t param1 : 8;     // RunPar - Controlled by software, normally used only for calibrations
       uint64_t runType : 4;    // run types like physics, cosmics, threshold scan, latency scan, etc..
       uint64_t formatVer : 4;  // Current format version = 0x0
     };
     // v302 dataformat
     struct {
       uint64_t softSrcId : 12;     // FED ID - Configruation Error if does not match with CDF header
       uint64_t softSlot : 4;       // AMC slot number - Configuation Error if does not match with AMC13 AHn header
       uint64_t orbitNumV302 : 32;  // Orbit counter, Reset by EC0 - Error if does not match AMC BH header
       uint64_t : 12;               // unused
       uint64_t FVv302 : 4;         // Current version = 0x1
     };
   };
   union AMCTrailer {
     uint64_t word;
     struct {
       uint64_t dataLength : 20;  // Number of 64bit words in this event
       uint64_t : 4;              // unused
       uint64_t l1AID : 8;        // L1A number (first 8 bits)
       uint64_t crc : 32;         // CRC added by the AMC13
     };
   };
   union EventHeader {
     uint64_t word;
     struct {
       uint64_t ttsState : 4;  // GLIB TTS state at the moment when this event was built.
       uint64_t pType : 4;     // Payload type: can be one refering to different zero suppression schemes
       // in normal data taking or calibration type.
       // Note in calibration type the entire GCT (GEM Chamber Trailer) is skipped
       uint64_t pVer : 3;        // Version of the payload type
       uint64_t davCnt : 5;      // Number of chamber blocks in this event
       uint64_t buffState : 24;  // Buffer status, Always 0 in current fw
       uint64_t davList : 24;    // Data Available list: a bitmask indicating which chambers have data in this event
     };
   };
   union EventTrailer {
     uint64_t word;
     // v301 dataformat
     struct {
       uint64_t BCL : 4;  // 1st bit, BC0 locked - If 0, this is a bad condition indicating a
       // problem in the clock or TTC command stream (critical condition)
       uint64_t DR : 1;        // DAQ Ready - If 0, this means that AMC13 is not ready to take data (critical condition)
       uint64_t CL : 1;        // DAQ clock locked- If 0, this indicates a problem in the DAQ clock (critical condition)
       uint64_t ML : 1;        // MMCM locked - Should always be 1
       uint64_t BP : 1;        // Backpressure - If this is 1, it means that we are receiving backpressure from AMC13
       uint64_t oosGlib : 32;  // GLIB is out‐of‐sync (critical): L1A ID is different for
       // different chambers in this event (1 bit)
       uint64_t linkTo : 24;  // Link timeout flags (one bit for each link indicating timeout condition)
     };
     // v302 dataformat
     struct {
       uint64_t L1aNF : 1;    // L1A FIFO near full - Warning
       uint64_t L1aF : 1;     // L1A FIFO full - Error
       uint64_t : 1;          // unused
       uint64_t BCLv302 : 1;  // BC0 locked - If 0, this is a bad condition indicating a
       // problem in the clock or TTC command stream (critical condition)
       uint64_t DRv302 : 1;   // DAQ Ready - If 0, this means that AMC13 is not ready to take data (critical condition)
       uint64_t CLv302 : 1;   // DAQ clock locked- If 0, this indicates a problem in the DAQ clock (critical condition)
       uint64_t MLv302 : 1;   // MMCM locked - Should always be 1
       uint64_t BPv302 : 1;   // Backpressure - If this is 1, it means that we are receiving backpressure from AMC13
       uint64_t param3 : 8;   // RunPar - Controlled by software, normally used only for calibrations
       uint64_t param2 : 8;   // RunPar - Controlled by software, normally used only for calibrations
       uint64_t param1 : 8;   // RunPar - Controlled by software, normally used only for calibrations
       uint64_t runType : 4;  // Type of Run - Controlled by software, “physics” is assigned 0x1,
       // hits from events with other run types should be discarded
       uint64_t : 4;              // unused
       uint64_t linkToV302 : 24;  // Link timeout flags (one bit for each link indicating timeout condition)
     };
   };

   GEMAMC() : amch1_(0), amch2_(0), amct_(0), eh_(0), et_(0){};
   ~GEMAMC() { gebd_.clear(); }

   int status();

   void setAMCheader1(uint64_t word) { amch1_ = word; }
   void setAMCheader1(uint32_t dataLength, uint16_t bxID, uint32_t l1AID, uint8_t AMCnum);
   uint64_t getAMCheader1() const { return amch1_; }

   void setAMCheader2(uint64_t word) { amch2_ = word; }
   void setAMCheader2(uint16_t boardID, uint16_t orbitNum, uint8_t runType);
   uint64_t getAMCheader2() const { return amch2_; }

   void setAMCTrailer(uint64_t word) { amct_ = word; }
   uint64_t getAMCTrailer() const { return amct_; }

   void setGEMeventHeader(uint64_t word) { eh_ = word; }
   void setGEMeventHeader(uint8_t davCnt, uint32_t davList);
   uint64_t getGEMeventHeader() const { return eh_; }

   void setGEMeventTrailer(uint64_t word) { et_ = word; }
   uint64_t getGEMeventTrailer() const { return et_; }

   // v301
   uint32_t dataLength() const { return AMCTrailer{amct_}.dataLength; }
   uint16_t bunchCrossing() const { return AMCheader1{amch1_}.bxID; }
   uint32_t lv1Id() const { return AMCheader1{amch1_}.l1AID; }
   uint8_t amcNum() const { return AMCheader1{amch1_}.AMCnum; }

   uint16_t boardId() const { return AMCheader2{amch2_}.boardID; }
   uint32_t orbitNumber() const {
     if (formatVer() == 0)
       return AMCheader2{amch2_}.orbitNum;
     return AMCheader2{amch2_}.orbitNumV302;
   }
   uint8_t param3() const {
     if (formatVer() == 0)
       return AMCheader2{amch2_}.param3;
     return EventTrailer{et_}.param3;
   }
   uint8_t param2() const {
     if (formatVer() == 0)
       return AMCheader2{amch2_}.param2;
     return EventTrailer{et_}.param2;
   }
   uint8_t param1() const {
     if (formatVer() == 0)
       return AMCheader2{amch2_}.param1;
     return EventTrailer{et_}.param1;
   }
   uint8_t runType() const {
     if (formatVer() == 0)
       return AMCheader2{amch2_}.runType;
     return EventTrailer{et_}.runType;
   }
   // SAME in V301 and V302
   uint8_t formatVer() const { return AMCheader2{amch2_}.formatVer; }

   uint8_t lv1Idt() const { return AMCTrailer{amct_}.l1AID; }
   uint32_t crc() const { return AMCTrailer{amct_}.crc; }

   uint16_t ttsState() const { return EventHeader{eh_}.ttsState; }
   uint8_t davCnt() const { return EventHeader{eh_}.davCnt; }
   uint32_t buffState() const { return EventHeader{eh_}.buffState; }
   uint32_t davList() const { return EventHeader{eh_}.davList; }

   uint8_t bc0locked() const { return EventTrailer{et_}.BCL; }
   uint8_t daqReady() const { return EventTrailer{et_}.DR; }
   uint8_t daqClockLocked() const { return EventTrailer{et_}.CL; }
   uint8_t mmcmLocked() const { return EventTrailer{et_}.ML; }
   uint8_t backPressure() const { return EventTrailer{et_}.BP; }
   uint8_t oosGlib() const { return EventTrailer{et_}.oosGlib; }
   uint32_t linkTo() const { return EventTrailer{et_}.linkTo; }

   // v302
   uint16_t softSrcId() const { return AMCheader2{amch2_}.softSrcId; }
   uint8_t softSlot() const { return AMCheader2{amch2_}.softSlot; }

   uint8_t l1aNF() const { return EventTrailer{et_}.L1aNF; }
   uint8_t l1aF() const { return EventTrailer{et_}.L1aF; }

   void addGEB(GEMOptoHybrid g) { gebd_.push_back(g); }
   const std::vector<GEMOptoHybrid>* gebs() const { return &gebd_; }
   void clearGEBs() { gebd_.clear(); }

 private:
   uint64_t amch1_;
   uint64_t amch2_;
   uint64_t amct_;
   uint64_t eh_;
   uint64_t et_;

   std::vector<GEMOptoHybrid> gebd_;
 };
 #endif
GEMAMC::AMCheader2::softSlot
uint64_t softSlot
Definition: GEMAMC.h:33

GEMAMC::buffState
uint32_t buffState() const
Definition: GEMAMC.h:159

GEMAMC::setAMCheader1
void setAMCheader1(uint64_t word)
Definition: GEMAMC.h:101

GEMAMC::amch2_
uint64_t amch2_
Definition: GEMAMC.h:186

GEMAMC::AMCheader2::formatVer
uint64_t formatVer
Definition: GEMAMC.h:28

GEMAMC::getAMCheader1
uint64_t getAMCheader1() const
Definition: GEMAMC.h:103

GEMAMC::EventHeader::ttsState
uint64_t ttsState
Definition: GEMAMC.h:51

GEMAMC::EventHeader
Definition: GEMAMC.h:48

GEMAMC::setAMCheader2
void setAMCheader2(uint64_t word)
Definition: GEMAMC.h:105

GEMAMC::AMCheader2::param2
uint64_t param2
Definition: GEMAMC.h:25

GEMAMC::getGEMeventHeader
uint64_t getGEMeventHeader() const
Definition: GEMAMC.h:114

GEMAMC::bc0locked
uint8_t bc0locked() const
Definition: GEMAMC.h:162

GEMAMC::crc
uint32_t crc() const
Definition: GEMAMC.h:155

GEMAMC::~GEMAMC
~GEMAMC()
Definition: GEMAMC.h:97

GEMAMC::linkTo
uint32_t linkTo() const
Definition: GEMAMC.h:168

GEMAMC::EventTrailer::BCL
uint64_t BCL
Definition: GEMAMC.h:65

GEMAMC::gebs
const std::vector< GEMOptoHybrid > * gebs() const
Returns a vector of GEB data.
Definition: GEMAMC.h:180

GEMAMC::AMCheader2
Definition: GEMAMC.h:18

GEMAMC::mmcmLocked
uint8_t mmcmLocked() const
Definition: GEMAMC.h:165

GEMAMC::EventHeader::pType
uint64_t pType
Definition: GEMAMC.h:52

GEMAMC::ttsState
uint16_t ttsState() const
Definition: GEMAMC.h:157

GEMAMC::setAMCTrailer
void setAMCTrailer(uint64_t word)
Definition: GEMAMC.h:109

GEMAMC::amct_
uint64_t amct_
Definition: GEMAMC.h:187

GEMAMC::AMCTrailer::dataLength
uint64_t dataLength
Definition: GEMAMC.h:42

GEMAMC::AMCTrailer
Definition: GEMAMC.h:39

GEMAMC::AMCTrailer::crc
uint64_t crc
Definition: GEMAMC.h:45

GEMAMC::EventTrailer::runType
uint64_t runType
Definition: GEMAMC.h:89

GEMAMC::AMCheader2::runType
uint64_t runType
Definition: GEMAMC.h:27

GEMAMC::AMCheader1::dataLength
uint64_t dataLength
Definition: GEMAMC.h:11

GEMAMC::getAMCheader2
uint64_t getAMCheader2() const
Definition: GEMAMC.h:107

GEMAMC::AMCTrailer::l1AID
uint64_t l1AID
Definition: GEMAMC.h:44

GEMAMC::et_
uint64_t et_
Definition: GEMAMC.h:189

GEMAMC::EventTrailer::MLv302
uint64_t MLv302
Definition: GEMAMC.h:84

GEMAMC::EventTrailer::L1aF
uint64_t L1aF
Definition: GEMAMC.h:78

g
The Signals That Services Can Subscribe To This is based on ActivityRegistry and is current per Services can connect to the signals distributed by the ActivityRegistry in order to monitor the activity of the application Each possible callback has some defined which we here list in angle e g
Definition: Activities.doc:4

GEMAMC::daqClockLocked
uint8_t daqClockLocked() const
Definition: GEMAMC.h:164

GEMAMC::amcNum
uint8_t amcNum() const
Definition: GEMAMC.h:123

GEMAMC::EventTrailer::param1
uint64_t param1
Definition: GEMAMC.h:88

GEMAMC::param2
uint8_t param2() const
Definition: GEMAMC.h:136

GEMAMC::AMCheader2::orbitNumV302
uint64_t orbitNumV302
Definition: GEMAMC.h:34

GEMAMC::amch1_
uint64_t amch1_
Definition: GEMAMC.h:185

GEMAMC::oosGlib
uint8_t oosGlib() const
Definition: GEMAMC.h:167

GEMAMC::lv1Idt
uint8_t lv1Idt() const
Definition: GEMAMC.h:154

GEMAMC::EventTrailer::BP
uint64_t BP
Definition: GEMAMC.h:70

GEMAMC::davList
uint32_t davList() const
Definition: GEMAMC.h:160

GEMAMC::getGEMeventTrailer
uint64_t getGEMeventTrailer() const
Definition: GEMAMC.h:117

word
uint64_t word
Definition: CTPPSTotemDataFormatter.cc:29

GEMAMC::AMCheader1::reserved
uint64_t reserved
Definition: GEMAMC.h:15

GEMAMC::EventTrailer::oosGlib
uint64_t oosGlib
Definition: GEMAMC.h:71

GEMAMC::EventTrailer::CL
uint64_t CL
Definition: GEMAMC.h:68

GEMAMC::backPressure
uint8_t backPressure() const
Definition: GEMAMC.h:166

GEMAMC::EventTrailer::param2
uint64_t param2
Definition: GEMAMC.h:87

GEMAMC::AMCheader2::softSrcId
uint64_t softSrcId
Definition: GEMAMC.h:32

GEMAMC::AMCheader2::orbitNum
uint64_t orbitNum
Definition: GEMAMC.h:23

GEMAMC::EventTrailer::linkToV302
uint64_t linkToV302
Definition: GEMAMC.h:92

GEMAMC::softSrcId
uint16_t softSrcId() const
Definition: GEMAMC.h:171

GEMAMC::softSlot
uint8_t softSlot() const
Definition: GEMAMC.h:172

GEMAMC::EventHeader::buffState
uint64_t buffState
Definition: GEMAMC.h:57

GEMOptoHybrid
Definition: GEMOptoHybrid.h:6

GEMAMC::status
int status()

GEMAMC::AMCheader2::param1
uint64_t param1
Definition: GEMAMC.h:26

GEMAMC::AMCheader2::param3
uint64_t param3
Definition: GEMAMC.h:24

GEMAMC::EventHeader::pVer
uint64_t pVer
Definition: GEMAMC.h:55

GEMAMC::setGEMeventTrailer
void setGEMeventTrailer(uint64_t word)
Definition: GEMAMC.h:116

GEMAMC::eh_
uint64_t eh_
Definition: GEMAMC.h:188

GEMAMC::EventTrailer::linkTo
uint64_t linkTo
Definition: GEMAMC.h:73

GEMAMC::lv1Id
uint32_t lv1Id() const
Definition: GEMAMC.h:122

GEMAMC::EventTrailer::word
uint64_t word
Definition: GEMAMC.h:62

GEMAMC::davCnt
uint8_t davCnt() const
Definition: GEMAMC.h:158

GEMAMC::orbitNumber
uint32_t orbitNumber() const
Definition: GEMAMC.h:126

GEMAMC::EventTrailer::ML
uint64_t ML
Definition: GEMAMC.h:69

GEMAMC::EventTrailer
Definition: GEMAMC.h:61

GEMAMC::EventHeader::davList
uint64_t davList
Definition: GEMAMC.h:58

GEMAMC::EventTrailer::param3
uint64_t param3
Definition: GEMAMC.h:86

GEMAMC::AMCheader1::bxID
uint64_t bxID
Definition: GEMAMC.h:12

cond::uint64_t
unsigned long long uint64_t
Definition: Time.h:13

GEMAMC::gebd_
std::vector< GEMOptoHybrid > gebd_
Vector of GEB data.
Definition: GEMAMC.h:191

GEMAMC::dataLength
uint32_t dataLength() const
Definition: GEMAMC.h:120

GEMAMC::EventTrailer::BPv302
uint64_t BPv302
Definition: GEMAMC.h:85

GEMAMC::EventHeader::davCnt
uint64_t davCnt
Definition: GEMAMC.h:56

GEMAMC
Definition: GEMAMC.h:6

GEMAMC::setGEMeventHeader
void setGEMeventHeader(uint64_t word)
Definition: GEMAMC.h:112

GEMAMC::formatVer
uint8_t formatVer() const
Definition: GEMAMC.h:152

GEMAMC::AMCheader1::word
uint64_t word
Definition: GEMAMC.h:9

GEMAMC::AMCTrailer::word
uint64_t word
Definition: GEMAMC.h:40

GEMAMC::EventTrailer::CLv302
uint64_t CLv302
Definition: GEMAMC.h:83

GEMAMC::param3
uint8_t param3() const
Definition: GEMAMC.h:131

GEMAMC::EventHeader::word
uint64_t word
Definition: GEMAMC.h:49

GEMAMC::addGEB
void addGEB(GEMOptoHybrid g)
Adds GEB data to vector.
Definition: GEMAMC.h:178

GEMAMC::boardId
uint16_t boardId() const
Definition: GEMAMC.h:125

GEMAMC::l1aF
uint8_t l1aF() const
Definition: GEMAMC.h:175

GEMAMC::EventTrailer::DR
uint64_t DR
Definition: GEMAMC.h:67

GEMAMC::bunchCrossing
uint16_t bunchCrossing() const
Definition: GEMAMC.h:121

GEMAMC::EventTrailer::DRv302
uint64_t DRv302
Definition: GEMAMC.h:82

GEMAMC::EventTrailer::L1aNF
uint64_t L1aNF
Definition: GEMAMC.h:77

GEMAMC::runType
uint8_t runType() const
Definition: GEMAMC.h:146

GEMAMC::l1aNF
uint8_t l1aNF() const
Definition: GEMAMC.h:174

GEMAMC::EventTrailer::BCLv302
uint64_t BCLv302
Definition: GEMAMC.h:80

GEMAMC::clearGEBs
void clearGEBs()
Clear a vector of GEB data.
Definition: GEMAMC.h:182

GEMAMC::GEMAMC
GEMAMC()
Definition: GEMAMC.h:96

GEMAMC::AMCheader1::AMCnum
uint64_t AMCnum
Definition: GEMAMC.h:14

GEMAMC::AMCheader2::FVv302
uint64_t FVv302
Definition: GEMAMC.h:36

GEMOptoHybrid.h

GEMAMC::AMCheader2::boardID
uint64_t boardID
Definition: GEMAMC.h:22

GEMAMC::param1
uint8_t param1() const
Definition: GEMAMC.h:141

GEMAMC::AMCheader2::word
uint64_t word
Definition: GEMAMC.h:19

GEMAMC::AMCheader1
Definition: GEMAMC.h:8

GEMAMC::daqReady
uint8_t daqReady() const
Definition: GEMAMC.h:163

GEMAMC::getAMCTrailer
uint64_t getAMCTrailer() const
Definition: GEMAMC.h:110

GEMAMC::AMCheader1::l1AID
uint64_t l1AID
Definition: GEMAMC.h:13