CMS 3D CMS Logo

CTPPSDiamondRecHitProducerAlgorithm.cc
Go to the documentation of this file.
1 /****************************************************************************
2 *
3 * This is a part of PPS offline software.
4 * Authors:
5 * Laurent Forthomme (laurent.forthomme@cern.ch)
6 *
7 ****************************************************************************/
8 
9 #include <memory>
12 
13 //----------------------------------------------------------------------------------------------------
14 
16  : ts_to_ns_(iConfig.getParameter<double>("timeSliceNs")),
17  apply_calib_(iConfig.getParameter<bool>("applyCalibration")) {}
18 
20  const PPSTimingCalibrationLUT& calibLUT) {
21  calib_ = calib;
22  calibLUT_ = calibLUT;
23  calib_fct_ = std::make_unique<reco::FormulaEvaluator>(calib_.formula());
24 }
25 
29  for (const auto& vec : input) {
30  const CTPPSDiamondDetId detid(vec.detId());
31 
32  if (detid.channel() > MAX_CHANNEL) // VFAT-like information, to be ignored
33  continue;
34 
35  // retrieve the geometry element associated to this DetID
36  const DetGeomDesc* det = geom.sensor(detid);
37 
38  const float x_pos = det->translation().x(), y_pos = det->translation().y();
39  float z_pos = 0.;
40  z_pos = det->parentZPosition(); // retrieve the plane position;
41 
42  // parameters stand for half the size
43  const auto& diamondDimensions = det->getDiamondDimensions();
44  const float x_width = 2.0 * diamondDimensions.xHalfWidth;
45  const float y_width = 2.0 * diamondDimensions.yHalfWidth;
46  const float z_width = 2.0 * diamondDimensions.zHalfWidth;
47 
48  const int sector = detid.arm(), station = detid.station(), plane = detid.plane(), channel = detid.channel();
49  //LUT calibration
50  std::vector<double> lut;
51  if (apply_calib_) {
52  lut = calibLUT_.bins(sector, station, plane, channel);
53  if (lut.size() != 1024)
54  lut = std::vector<double>(1024, 0.0);
55  } else
56  lut = std::vector<double>(1024, 0.0);
57 
58  // retrieve the timing calibration part for this channel
59  const auto& ch_params = (apply_calib_) ? calib_.parameters(sector, station, plane, channel) : std::vector<double>{};
60  // default values for offset + time precision if calibration object not found
61  const double ch_t_offset = (apply_calib_) ? calib_.timeOffset(sector, station, plane, channel) : 0.;
62  const double ch_t_precis = (apply_calib_) ? calib_.timePrecision(sector, station, plane, channel) : 0.;
63 
64  edm::DetSet<CTPPSDiamondRecHit>& rec_hits = output.find_or_insert(detid);
65 
66  for (const auto& digi : vec) {
67  const int t_lead = digi.leadingEdge(), t_trail = digi.trailingEdge();
68  // skip invalid digis
69  if (t_lead == 0 && t_trail == 0)
70  continue;
71 
72  double tot = -1., ch_t_twc = 0.;
73  if (t_lead != 0 && t_trail != 0) {
74  tot = (t_trail - t_lead) * ts_to_ns_; // in ns
75  if (calib_fct_ && apply_calib_ && !ch_params.empty()) {
76  // compute the time-walk correction
77  ch_t_twc = calib_fct_->evaluate(std::vector<double>{tot}, ch_params);
78  if (edm::isNotFinite(ch_t_twc))
79  ch_t_twc = 0.;
80  }
81  }
82 
83  const int time_slice =
84  (t_lead != 0) ? (t_lead - ch_t_offset / ts_to_ns_) / 1024 : CTPPSDiamondRecHit::TIMESLICE_WITHOUT_LEADING;
85 
86  // calibrated time of arrival
87  const double t0 = (t_lead % 1024) * ts_to_ns_ + lut[t_lead % 1024] - ch_t_twc;
88  rec_hits.emplace_back(
89  // spatial information
90  x_pos,
91  x_width,
92  y_pos,
93  y_width,
94  z_pos,
95  z_width,
96  // timing information
97  t0,
98  tot,
99  ch_t_precis,
100  time_slice,
101  // readout information
102  digi.hptdcErrorFlags(),
103  digi.multipleHit());
104  }
105  }
106 }
const Translation & translation() const
Definition: DetGeomDesc.h:80
void build(const CTPPSGeometry &, const edm::DetSetVector< CTPPSDiamondDigi > &, edm::DetSetVector< CTPPSDiamondRecHit > &)
constexpr bool isNotFinite(T x)
Definition: isFinite.h:9
double timeOffset(int key1, int key2, int key3, int key4=-1) const
bool apply_calib_
Switch on/off the timing calibration.
void setCalibration(const PPSTimingCalibration &, const PPSTimingCalibrationLUT &)
static std::string const input
Definition: EdmProvDump.cc:47
float parentZPosition() const
Definition: DetGeomDesc.h:106
double ts_to_ns_
Conversion constant between HPTDC time slice and absolute time (in ns)
decltype(auto) emplace_back(Args &&... args)
Definition: DetSet.h:68
std::vector< double > bins(int key1, int key2, int key3, int key4) const
double timePrecision(int key1, int key2, int key3, int key4=-1) const
const DiamondDimensions & getDiamondDimensions() const
Definition: DetGeomDesc.h:90
The manager class for TOTEM RP geometry.
Definition: CTPPSGeometry.h:30
std::unique_ptr< reco::FormulaEvaluator > calib_fct_
std::vector< double > parameters(int key1, int key2, int key3, int key4) const
static constexpr int TIMESLICE_WITHOUT_LEADING
CTPPSDiamondRecHitProducerAlgorithm(const edm::ParameterSet &conf)
Detector ID class for CTPPS Timing Diamond detectors. Bits [19:31] : Assigend in CTPPSDetId Calss Bit...
const std::string & formula() const