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// Class: SiStripPulseShape
//
/**\class SiStripPulseShape SiStripPulseShape.h myTestArea/SiStripPulseShape/src/SiStripPulseShape.h
Description: analog pulse shape at the ouput of the APV.
Implementation:
This class allows to access the pulse shape at the APV. This is usefull to take into account
timing effects in the tracker.
*/
//
// Original Author: Christophe Delaere
// Created: Thu Nov 5 17:02:15 CEST 2006
// Revision Author: Georg Auzinger
// Created: Thu Nov 5 17:02:15 CEST 2006
// Updated: Fri Jun 2 16:00:00 CEST 2017
//
#ifndef SiStripPulseShape_h_
#define SiStripPulseShape_h_
double fpeak(double *x, double *par);
double fdeconv(double *x, double *par);
double fturnOn(double *x, double *par);
double fdecay(double *x, double *par);
double fpeak_convoluted(double *x, double *par);
double fdeconv_convoluted(double *x, double *par);
double pulse_raw(double x, double y, double z, double t);
double pulse_x0(double y, double z, double t);
double pulse_yz(double x, double z, double t);
double pulse_x0_yz(double z, double t);
double pulse(double x, double y, double z, double t);
class SiStripPulseShape {
public:
enum mode { peak, deconvolution };
SiStripPulseShape() : mode_(deconvolution) {}
virtual ~SiStripPulseShape() {}
inline void setMode(const mode theMode) { mode_ = theMode; }
inline mode getMode() const { return mode_; }
inline double getNormalizedValue(const double &t) const {
double parameters[5] = {0., -2.82, 0.066, 50, 20};
double time = t;
switch (mode_) {
case peak: {
return fpeak(&time, parameters);
}
case deconvolution: {
return fdeconv(&time, parameters);
}
}
}
private:
mode mode_;
};
#endif
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