[u/mrichter/AliRoot.git] / PHOS / AliPHOSSimParam.h

#ifndef ALIPHOSSIMPARAM_H
#define ALIPHOSSIMPARAM_H
/* Copyright(c) 2007, ALICE Experiment at CERN, All rights reserved. *
 * See cxx source for full Copyright notice                          */

/* $Id: AliPHOSSimParam.h 23530 2008-01-25 06:46:13Z prsnko $ */
                                              
// Base class for the PHOS simulation parameters.
// Do not use in the reconstruction; use derivative classes instead.

#include "TNamed.h"
#include "TMath.h"

class AliPHOSSimParam : public TNamed {

public:

  AliPHOSSimParam();
  AliPHOSSimParam(const AliPHOSSimParam& recoParam);
  AliPHOSSimParam& operator = (const AliPHOSSimParam& recoParam);
  virtual ~AliPHOSSimParam() {}

  static AliPHOSSimParam * GetInstance() ;

  //Parameters used in conversion of deposited energy to APD response [see AliPHOSv1 for details]
  void SetMeanLightYield(Float_t ly=47000.){fLightYieldMean=ly; //recalculate now dependencies
                                            fLightFactor = fLightYieldMean * fIntrinsicAPDEfficiency ; 
                                            fAPDFactor   = (13.418/fLightYieldMean/100.) * 300. ; }
  void SetAPDEfficiency(Float_t eff=0.02655){fIntrinsicAPDEfficiency=eff;
                                             fLightFactor = fLightYieldMean * fIntrinsicAPDEfficiency ;}
  Float_t GetLightFactor(void) const { return fLightFactor ;}
  Float_t GetAPDFactor(void) const { return fAPDFactor ;}

  //Parameters use in EMC noise calculation [see AliPHOSDigitizer for details]
  Float_t GetAPDNoise() const { return fAPDNoise;  }          //RMS of APD noise
  void SetAPDNoise(Float_t noise=0.012){fAPDNoise = noise;  }

  Float_t GetEmcDigitsThreshold() const { return fEMCDigitThreshold ; }  //Minimal energy to keep digit
  void SetEMCDigitsThreshold(Float_t thresh=0.01){fEMCDigitThreshold=thresh;} 

  //Parameters for energy digitization [see AliPHOSDigitizer for details]
  void SetADCchannelW(Float_t width=0.005){fEMCADCchannel=width ;} //EMC channel width
  Float_t GetADCchannelW(void) const {return fEMCADCchannel; }

  void SetEDigitizationOn(Bool_t on=kTRUE){fDigitizeE=on ;}   //Use digitization in simulation or left it
  Bool_t IsEDigitizationOn(void)const {return fDigitizeE ;}   //for Digits2Raw->Digits procedure

  //Parameters for EMC TOF resolution [see AliPHOSDigitizer::TimeResolution()]
  Float_t GetTOFa()const{return fTOFa ;}  //constant term
  Float_t GetTOFb()const{return fTOFb ;}  //stohastic term
  void SetTOFparameters(Float_t a=0.5e-9, Float_t b=1.5e-9){fTOFa=a; fTOFb=b; }

  //Parameters for CPV noise and digitization  [see AliPHOSDigitizer for details] 
  Float_t GetCPVNoise() const {return fCPVNoise ;}           //RMS of CPV noise in
  void SetCPVNoise(Float_t noise=0.01){ fCPVNoise = noise ;} //CPV popugais

  Float_t GetCpvDigitsThreshold() const {return fCPVDigitThreshold ;}           //Minimal energy to keep digit in
  void SetCpvDigitsThreshold(Float_t thresh=0.09){fCPVDigitThreshold = thresh;} //CPV popugais

  Float_t GetADCpedestalCpv() const {return fADCpedestalCpv ;}      //CPV pedestal value 
  void SetADCpedestalCpv(Float_t ped=0.012){ fADCpedestalCpv=ped ;} //in CPV popugais

  Float_t GetADCchanelCpv() const {return fADCchanelCpv;}     //Price of one ADC channel 
  void SetADCchanelCpv(Float_t w=0.0012) {fADCchanelCpv=w; }  //for CPV

  Int_t GetNADCcpv() const {return fNADCcpv ;}                         //Max number of channels
  void SettNADCcpv(Int_t n=12) { fNADCcpv=(Int_t)TMath::Power(2,n) ; } //in CPV  ADC

  //Mark streams for mixing as streams contaning Digits (true) or SDigits (false)
  //Streamt numbering the same as in StreamManager
  void    SetStreamDigits(Int_t i){if(i<10)fDStream[i]=kTRUE;}
  Bool_t  IsStreamDigits(Int_t i){return fDStream[i]; }

private:

  AliPHOSSimParam(Int_t i); //True constructor which should be called by GetInstance()

private:

  //Parameters used in conversion of deposited energy to APD response (AliPHOSv1)
  Float_t  fLightYieldMean ;        //Average number of photoelectrons per GeV
  Float_t  fIntrinsicAPDEfficiency; //APD efficiency including geometric coverage
  Float_t  fLightFactor ;           //Average number of photons collected by APD per GeV deposited energy
  Float_t  fAPDFactor ;             //factor relating light yield and APD response 
 
  //Parameters used in electronic noise calculation and thresholds for EMC (AliPHOSDigitizer)
  Float_t fAPDNoise;            //RMS of APD noise
  Float_t fEMCDigitThreshold ;  //minimal energy to keep digit 
  Float_t fEMCADCchannel ;      //width of ADC channel in GeV
  Float_t fTOFa  ;              //constant term of TOF resolution 
  Float_t fTOFb  ;              //stohastic term of TOF resolution 

  //CPV parameters
  Float_t fADCpedestalCpv ;    //Pedestal value
  Float_t fADCchanelCpv ;      //ADC channel width
  Float_t fCPVNoise ;          //RMS of CPV noise 
  Float_t fCPVDigitThreshold ; //Minimal energy to keep digit 
  Int_t   fNADCcpv ;           //Max number of channels in CPV ADC
 
  Bool_t fDStream[10] ;   //Mark mixing stream contains digits or SDigits
  Bool_t fDigitizeE ;     //Use energy digitization in simulation or left to Digits2Raw()

  static AliPHOSSimParam * fgSimParam ; // pointer to the unique instance of the class

  ClassDef(AliPHOSSimParam,1)
};

#endif
Commit	Line	Data
f898e0f3	1	#ifndef ALIPHOSSIMPARAM_H
	2	#define ALIPHOSSIMPARAM_H
	3	/* Copyright(c) 2007, ALICE Experiment at CERN, All rights reserved. *
	4	* See cxx source for full Copyright notice */
	5
	6	/* $Id: AliPHOSSimParam.h 23530 2008-01-25 06:46:13Z prsnko $ */
	7
	8	// Base class for the PHOS simulation parameters.
	9	// Do not use in the reconstruction; use derivative classes instead.
	10
	11	#include "TNamed.h"
	12	#include "TMath.h"
	13
	14	class AliPHOSSimParam : public TNamed {
	15
	16	public:
	17
	18	AliPHOSSimParam();
	19	AliPHOSSimParam(const AliPHOSSimParam& recoParam);
	20	AliPHOSSimParam& operator = (const AliPHOSSimParam& recoParam);
	21	virtual ~AliPHOSSimParam() {}
	22
	23	static AliPHOSSimParam * GetInstance() ;
	24
	25	//Parameters used in conversion of deposited energy to APD response [see AliPHOSv1 for details]
	26	void SetMeanLightYield(Float_t ly=47000.){fLightYieldMean=ly; //recalculate now dependencies
	27	fLightFactor = fLightYieldMean * fIntrinsicAPDEfficiency ;
	28	fAPDFactor = (13.418/fLightYieldMean/100.) * 300. ; }
	29	void SetAPDEfficiency(Float_t eff=0.02655){fIntrinsicAPDEfficiency=eff;
	30	fLightFactor = fLightYieldMean * fIntrinsicAPDEfficiency ;}
	31	Float_t GetLightFactor(void) const { return fLightFactor ;}
	32	Float_t GetAPDFactor(void) const { return fAPDFactor ;}
	33
	34	//Parameters use in EMC noise calculation [see AliPHOSDigitizer for details]
	35	Float_t GetAPDNoise() const { return fAPDNoise; } //RMS of APD noise
	36	void SetAPDNoise(Float_t noise=0.012){fAPDNoise = noise; }
	37
	38	Float_t GetEmcDigitsThreshold() const { return fEMCDigitThreshold ; } //Minimal energy to keep digit
	39	void SetEMCDigitsThreshold(Float_t thresh=0.01){fEMCDigitThreshold=thresh;}
	40
	41	//Parameters for energy digitization [see AliPHOSDigitizer for details]
	42	void SetADCchannelW(Float_t width=0.005){fEMCADCchannel=width ;} //EMC channel width
	43	Float_t GetADCchannelW(void) const {return fEMCADCchannel; }
	44
	45	void SetEDigitizationOn(Bool_t on=kTRUE){fDigitizeE=on ;} //Use digitization in simulation or left it
	46	Bool_t IsEDigitizationOn(void)const {return fDigitizeE ;} //for Digits2Raw->Digits procedure
	47
	48	//Parameters for EMC TOF resolution [see AliPHOSDigitizer::TimeResolution()]
	49	Float_t GetTOFa()const{return fTOFa ;} //constant term
	50	Float_t GetTOFb()const{return fTOFb ;} //stohastic term
	51	void SetTOFparameters(Float_t a=0.5e-9, Float_t b=1.5e-9){fTOFa=a; fTOFb=b; }
	52
	53	//Parameters for CPV noise and digitization [see AliPHOSDigitizer for details]
	54	Float_t GetCPVNoise() const {return fCPVNoise ;} //RMS of CPV noise in
	55	void SetCPVNoise(Float_t noise=0.01){ fCPVNoise = noise ;} //CPV popugais
	56
	57	Float_t GetCpvDigitsThreshold() const {return fCPVDigitThreshold ;} //Minimal energy to keep digit in
	58	void SetCpvDigitsThreshold(Float_t thresh=0.09){fCPVDigitThreshold = thresh;} //CPV popugais
	59
	60	Float_t GetADCpedestalCpv() const {return fADCpedestalCpv ;} //CPV pedestal value
	61	void SetADCpedestalCpv(Float_t ped=0.012){ fADCpedestalCpv=ped ;} //in CPV popugais
	62
	63	Float_t GetADCchanelCpv() const {return fADCchanelCpv;} //Price of one ADC channel
	64	void SetADCchanelCpv(Float_t w=0.0012) {fADCchanelCpv=w; } //for CPV
65
66	Int_t GetNADCcpv() const {return fNADCcpv ;} //Max number of channels
67	void SettNADCcpv(Int_t n=12) { fNADCcpv=(Int_t)TMath::Power(2,n) ; } //in CPV ADC
68
69	//Mark streams for mixing as streams contaning Digits (true) or SDigits (false)
70	//Streamt numbering the same as in StreamManager
71	void SetStreamDigits(Int_t i){if(i<10)fDStream[i]=kTRUE;}
72	Bool_t IsStreamDigits(Int_t i){return fDStream[i]; }
73
74	private:
75
76	AliPHOSSimParam(Int_t i); //True constructor which should be called by GetInstance()
77
78	private:
79
80	//Parameters used in conversion of deposited energy to APD response (AliPHOSv1)
81	Float_t fLightYieldMean ; //Average number of photoelectrons per GeV
82	Float_t fIntrinsicAPDEfficiency; //APD efficiency including geometric coverage
83	Float_t fLightFactor ; //Average number of photons collected by APD per GeV deposited energy
84	Float_t fAPDFactor ; //factor relating light yield and APD response
85
86	//Parameters used in electronic noise calculation and thresholds for EMC (AliPHOSDigitizer)
87	Float_t fAPDNoise; //RMS of APD noise
88	Float_t fEMCDigitThreshold ; //minimal energy to keep digit
89	Float_t fEMCADCchannel ; //width of ADC channel in GeV
90	Float_t fTOFa ; //constant term of TOF resolution
91	Float_t fTOFb ; //stohastic term of TOF resolution
92
93	//CPV parameters
94	Float_t fADCpedestalCpv ; //Pedestal value
95	Float_t fADCchanelCpv ; //ADC channel width
96	Float_t fCPVNoise ; //RMS of CPV noise
97	Float_t fCPVDigitThreshold ; //Minimal energy to keep digit
98	Int_t fNADCcpv ; //Max number of channels in CPV ADC
99
100	Bool_t fDStream[10] ; //Mark mixing stream contains digits or SDigits
101	Bool_t fDigitizeE ; //Use energy digitization in simulation or left to Digits2Raw()
102
103	static AliPHOSSimParam * fgSimParam ; // pointer to the unique instance of the class
104
105	ClassDef(AliPHOSSimParam,1)
106	};
107
108	#endif