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25354ff4 | 1 | #ifndef ALIPHOSTrigger_H |
2 | #define ALIPHOSTrigger_H | |
59264fa6 | 3 | /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * |
4 | * See cxx source for full Copyright notice */ | |
5 | ||
dab66d03 | 6 | /* $Id$ */ |
25354ff4 | 7 | |
8 | //____________________________________________________________ | |
9 | // Class for trigger analysis. | |
64df000d | 10 | // |
dab66d03 | 11 | // -- Author: Gustavo Conesa & Yves Schutz (IFIC, SUBATECH, CERN) |
59264fa6 | 12 | // Digits are grouped in TRU's (Trigger Units). A TRU consist of 16x28 |
dab66d03 | 13 | // crystals ordered fNTRUPhi x fNTRUZ matrix. The algorithm searches all possible |
64df000d | 14 | // 2x2 and nxn (n multiple of 4) crystal combinations per each TRU, adding the |
15 | // digits amplitude and finding the maximum. Iti is found is maximum is isolated. | |
16 | // Maxima are transformed in ADC time samples. Each time bin is compared to the trigger | |
17 | // threshold until it is larger and then, triggers are set. Thresholds need to be fixed. | |
bb38a8fc | 18 | // Usage: |
19 | // | |
20 | // //Inside the event loop | |
64df000d | 21 | // AliEMCALTrigger *tr = new AliEMCALTrigger();//Init Trigger |
59264fa6 | 22 | // tr->SetL0Threshold(100); |
bb38a8fc | 23 | // tr->SetL1JetLowPtThreshold(1000); |
dab66d03 | 24 | // tr->SetL1JetMediumPtThreshold(10000); |
bb38a8fc | 25 | // tr->SetL1JetHighPtThreshold(20000); |
64df000d | 26 | // .... |
bb38a8fc | 27 | // tr->Trigger(); //Execute Trigger |
64df000d | 28 | // tr->Print(""); //Print data members after calculation. |
29 | // | |
25354ff4 | 30 | // --- ROOT system --- |
25354ff4 | 31 | |
b165f59d | 32 | class TClonesArray ; |
59264fa6 | 33 | #include "TMatrixD.h" |
b165f59d | 34 | |
25354ff4 | 35 | // --- AliRoot header files --- |
b165f59d | 36 | #include "AliTriggerDetector.h" |
37 | ||
38 | class AliPHOSGeometry ; | |
25354ff4 | 39 | |
b165f59d | 40 | class AliPHOSTrigger : public AliTriggerDetector { |
25354ff4 | 41 | |
59264fa6 | 42 | public: |
43 | ||
25354ff4 | 44 | AliPHOSTrigger() ; // ctor |
45 | AliPHOSTrigger(const AliPHOSTrigger & trig) ; // cpy ctor | |
316c6cd9 | 46 | virtual ~AliPHOSTrigger(); |
3663622c | 47 | |
59264fa6 | 48 | virtual void CreateInputs(); //Define trigger inputs for Central Trigger Processor |
49 | void Print(const Option_t * opt ="") const ; | |
bfae5a5d | 50 | virtual void Trigger() {} //Make PHOS trigger |
51 | void Trigger(TClonesArray *digits); //Make PHOS trigger | |
59264fa6 | 52 | |
53 | //Getters | |
0b2ec9f7 | 54 | Float_t Get2x2MaxAmplitude() const {return f2x2MaxAmp ; } |
55 | Float_t GetnxnMaxAmplitude() const {return fnxnMaxAmp ; } | |
59264fa6 | 56 | Int_t Get2x2CrystalPhi() const {return f2x2CrystalPhi ; } |
0b2ec9f7 | 57 | Int_t GetnxnCrystalPhi() const {return fnxnCrystalPhi ; } |
59264fa6 | 58 | Int_t Get2x2CrystalEta() const {return f2x2CrystalEta ; } |
0b2ec9f7 | 59 | Int_t GetnxnCrystalEta() const {return fnxnCrystalEta ; } |
59264fa6 | 60 | Int_t Get2x2SuperModule() const {return f2x2SM ; } |
0b2ec9f7 | 61 | Int_t GetnxnSuperModule() const {return fnxnSM ; } |
59264fa6 | 62 | |
63 | Int_t * GetADCValuesLowGainMax2x2Sum() {return fADCValuesLow2x2; } | |
64 | Int_t * GetADCValuesHighGainMax2x2Sum() {return fADCValuesHigh2x2; } | |
0b2ec9f7 | 65 | Int_t * GetADCValuesLowGainMaxnxnSum() {return fADCValuesLownxn; } |
66 | Int_t * GetADCValuesHighGainMaxnxnSum() {return fADCValuesHighnxn; } | |
59264fa6 | 67 | |
dab66d03 | 68 | void GetCrystalPhiEtaIndexInModuleFromTRUIndex(Int_t itru, Int_t iphitru, Int_t ietatru,Int_t &ietaMod,Int_t &iphiMod) const ; |
59264fa6 | 69 | |
dab66d03 | 70 | Float_t GetL0Threshold() const {return fL0Threshold ; } |
71 | Float_t GetL1JetLowPtThreshold() const {return fL1JetLowPtThreshold ; } | |
72 | Float_t GetL1JetMediumPtThreshold() const {return fL1JetMediumPtThreshold ; } | |
73 | Float_t GetL1JetHighPtThreshold() const {return fL1JetHighPtThreshold ; } | |
59264fa6 | 74 | |
dab66d03 | 75 | Int_t GetNTRU() const {return fNTRU ; } |
76 | Int_t GetNTRUZ() const {return fNTRUZ ; } | |
77 | Int_t GetNTRUPhi() const {return fNTRUPhi ; } | |
0b2ec9f7 | 78 | |
dab66d03 | 79 | Int_t GetPatchSize() const {return fPatchSize ; } |
80 | Int_t GetIsolPatchSize() const {return fIsolPatchSize ; } | |
64df000d | 81 | |
dab66d03 | 82 | Float_t Get2x2AmpOutOfPatch() const {return f2x2AmpOutOfPatch; } |
83 | Float_t GetnxnAmpOutOfPatch() const {return fnxnAmpOutOfPatch; } | |
84 | Float_t Get2x2AmpOutOfPatchThres() const {return f2x2AmpOutOfPatchThres; } | |
85 | Float_t GetnxnAmpOutOfPatchThres() const {return fnxnAmpOutOfPatchThres; } | |
64df000d | 86 | |
dab66d03 | 87 | Bool_t Is2x2Isol() const {return fIs2x2Isol; } |
88 | Bool_t IsnxnIsol() const {return fIsnxnIsol; } | |
59264fa6 | 89 | |
dab66d03 | 90 | Bool_t IsSimulation() const {return fSimulation ; } |
91 | Bool_t IsIsolatedInModule() const {return fIsolateInModule ; } | |
59264fa6 | 92 | |
dab66d03 | 93 | //Setters |
59264fa6 | 94 | void SetDigitsList(TClonesArray * digits) |
95 | {fDigitsList = digits ; } | |
96 | ||
59264fa6 | 97 | void SetNTRU(Int_t ntru) {fNTRU = ntru ; } |
98 | void SetNTRUZ(Int_t ntru) {fNTRUZ = ntru ; } | |
99 | void SetNTRUPhi(Int_t ntru) {fNTRUPhi = ntru ; } | |
100 | ||
101 | void SetL0Threshold(Int_t amp) | |
102 | {fL0Threshold = amp ; } | |
103 | void SetL1JetLowPtThreshold(Int_t amp) | |
104 | {fL1JetLowPtThreshold = amp ; } | |
dab66d03 | 105 | void SetL1JetMediumPtThreshold(Int_t amp) |
106 | {fL1JetMediumPtThreshold = amp; } | |
59264fa6 | 107 | void SetL1JetHighPtThreshold(Int_t amp) |
108 | {fL1JetHighPtThreshold = amp ; } | |
109 | ||
dab66d03 | 110 | void SetPatchSize(Int_t ps) { fPatchSize = ps ; } |
111 | void SetIsolPatchSize(Int_t ps) { fIsolPatchSize = ps ; } | |
64df000d | 112 | void Set2x2AmpOutOfPatchThres(Float_t th) { f2x2AmpOutOfPatchThres = th; } |
113 | void SetnxnAmpOutOfPatchThres(Float_t th) { fnxnAmpOutOfPatchThres = th; } | |
dab66d03 | 114 | void SetSimulation(Bool_t sim ) { fSimulation = sim ; } |
115 | void SetIsolateInModule(Bool_t isol ) { fIsolateInModule = isol ; } | |
25354ff4 | 116 | |
117 | private: | |
25354ff4 | 118 | |
3663622c | 119 | AliPHOSTrigger & operator = (const AliPHOSTrigger & trig) ;//cpy assignment |
120 | ||
6483babc | 121 | void FillTRU(const TClonesArray * digits, const AliPHOSGeometry * geom) const ; |
59264fa6 | 122 | |
6483babc | 123 | Bool_t IsPatchIsolated(Int_t iPatchType, const Int_t imod, const Int_t mtru, const Float_t maxamp, const Int_t maxphi, const Int_t maxeta) ; |
64df000d | 124 | |
6483babc | 125 | void MakeSlidingCell(Int_t mod, TMatrixD &max2, TMatrixD &maxn) ; |
59264fa6 | 126 | |
6483babc | 127 | void SetTriggers(Int_t iMod, const TMatrixD &max2,const TMatrixD &maxn) ; |
25354ff4 | 128 | |
bfae5a5d | 129 | void DoIt() ; |
ec24419a | 130 | |
25354ff4 | 131 | private: |
25354ff4 | 132 | |
59264fa6 | 133 | Float_t f2x2MaxAmp ; //! Maximum 2x2 added amplitude (not overlapped) |
134 | Int_t f2x2CrystalPhi ; //! upper right cell, row(phi) | |
135 | Int_t f2x2CrystalEta ; //! and column(eta) | |
136 | Int_t f2x2SM ; //! Module where maximum is found | |
0b2ec9f7 | 137 | Float_t fnxnMaxAmp ; //! Maximum nxn added amplitude (overlapped) |
138 | Int_t fnxnCrystalPhi ; //! upper right cell, row(phi) | |
139 | Int_t fnxnCrystalEta ; //! and column(eta) | |
140 | Int_t fnxnSM ; //! Module where maximum is found | |
59264fa6 | 141 | |
0b2ec9f7 | 142 | Int_t* fADCValuesHighnxn ; //! Sampled ADC high gain values for the nxn crystals amplitude sum |
143 | Int_t* fADCValuesLownxn ; //! " low gain " | |
59264fa6 | 144 | Int_t* fADCValuesHigh2x2 ; //! " high gain " 2x2 " |
145 | Int_t* fADCValuesLow2x2 ; //! " low gaing " " | |
146 | ||
6483babc | 147 | TClonesArray* fDigitsList ; // Array of digits |
148 | TClonesArray* fAmptrus ; //! Array of matrices with amplitudes per TRU | |
149 | TClonesArray* fAmpmods ; //! Array of matrices with amplitudes per module | |
150 | TClonesArray* fTimeRtrus ; //! Array of matrices with time | |
151 | ||
59264fa6 | 152 | |
dab66d03 | 153 | Float_t fL0Threshold ; //! L0 trigger energy threshold |
154 | Float_t fL1JetLowPtThreshold ; //! L1 Low pT trigger threshold | |
155 | Float_t fL1JetMediumPtThreshold ; //! L1 Medium pT trigger threshold | |
156 | Float_t fL1JetHighPtThreshold ; //! L1 High pT trigger threshold | |
59264fa6 | 157 | |
dab66d03 | 158 | Int_t fNTRU ; //! Number of TRUs per module |
159 | Int_t fNTRUZ ; //! Number of crystal rows per Z in one TRU | |
64df000d | 160 | Int_t fNTRUPhi ; //! Number of crystal rows per Phi in one TRU |
dab66d03 | 161 | Int_t fNCrystalsPhi; //! Number of rows in a TRU |
162 | Int_t fNCrystalsZ; //! Number of columns in a TRU | |
64df000d | 163 | |
dab66d03 | 164 | Int_t fPatchSize; //! Trigger patch factor, to be multiplied to 2x2 cells |
165 | // 0 means 2x2, 1 means 4x4, 2 means 6x6 ... | |
166 | Int_t fIsolPatchSize ; // Isolation patch size, number of rows or columns to add to | |
167 | // the 2x2 or nxn maximum amplitude patch. | |
168 | // 1 means a patch around max amplitude of 2x2 of 4x4 and around | |
169 | // max ampl patch of 4x4 of 8x8 | |
64df000d | 170 | |
dab66d03 | 171 | Float_t f2x2AmpOutOfPatch; // Amplitude in isolation cone minus maximum amplitude of the reference patch |
64df000d | 172 | Float_t fnxnAmpOutOfPatch; |
dab66d03 | 173 | Float_t f2x2AmpOutOfPatchThres; // Threshold to select a trigger as isolated on f2x2AmpOutOfPatch value |
64df000d | 174 | Float_t fnxnAmpOutOfPatchThres; |
dab66d03 | 175 | Float_t fIs2x2Isol; //Patch is isolated if f2x2AmpOutOfPatchThres threshold is passed |
64df000d | 176 | Float_t fIsnxnIsol ; |
177 | ||
59264fa6 | 178 | Bool_t fSimulation ; //! Flag to do the trigger during simulation or reconstruction |
dab66d03 | 179 | Bool_t fIsolateInModule; //! Flag to isolate trigger patch in Module or in TRU acceptance |
552c2d0e | 180 | |
6483babc | 181 | ClassDef(AliPHOSTrigger,5) |
25354ff4 | 182 | } ; |
183 | ||
184 | ||
185 | #endif //ALIPHOSTrigger_H |