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PixelThresholdClusterizer Class Referencefinal

A specific threshold-based pixel clustering algorithm. More...

#include <PixelThresholdClusterizer.h>

Inheritance diagram for PixelThresholdClusterizer:
PixelClusterizerBase

Public Member Functions

void clusterizeDetUnit (const edm::DetSet< PixelDigi > &input, const PixelGeomDetUnit *pixDet, const TrackerTopology *tTopo, const std::vector< short > &badChannels, edmNew::DetSetVector< SiPixelCluster >::FastFiller &output) override
 
void clusterizeDetUnit (const edmNew::DetSet< SiPixelCluster > &input, const PixelGeomDetUnit *pixDet, const TrackerTopology *tTopo, const std::vector< short > &badChannels, edmNew::DetSetVector< SiPixelCluster >::FastFiller &output) override
 
 PixelThresholdClusterizer (edm::ParameterSet const &conf)
 
 ~PixelThresholdClusterizer () override
 
- Public Member Functions inherited from PixelClusterizerBase
void setSiPixelGainCalibrationService (SiPixelGainCalibrationServiceBase *in)
 
virtual ~PixelClusterizerBase ()
 

Static Public Member Functions

static void fillDescriptions (edm::ConfigurationDescriptions &descriptions)
 

Private Member Functions

int calibrate (int adc, int col, int row)
 
void clear_buffer (DigiIterator begin, DigiIterator end)
 Clear the internal buffer array. More...
 
void clear_buffer (ClusterIterator begin, ClusterIterator end)
 
template<typename T >
void clusterizeDetUnitT (const T &input, const PixelGeomDetUnit *pixDet, const TrackerTopology *tTopo, const std::vector< short > &badChannels, edmNew::DetSetVector< SiPixelCluster >::FastFiller &output)
 Cluster pixels. This method operates on a matrix of pixels and finds the largest contiguous cluster around each seed pixel. Input and output data stored in DetSet. More...
 
void copy_to_buffer (DigiIterator begin, DigiIterator end)
 Copy adc counts from PixelDigis into the buffer, identify seeds. More...
 
void copy_to_buffer (ClusterIterator begin, ClusterIterator end)
 
SiPixelCluster make_cluster (const SiPixelCluster::PixelPos &pix, edmNew::DetSetVector< SiPixelCluster >::FastFiller &output)
 The actual clustering algorithm: group the neighboring pixels around the seed. More...
 
bool setup (const PixelGeomDetUnit *pixDet)
 Private helper methods: More...
 

Private Attributes

bool bufferAlreadySet
 
bool dead_flag
 
uint32_t detid_
 
const bool doMissCalibrate
 
const bool doSplitClusters
 
int layer_
 
SiPixelArrayBuffer theBuffer
 Data storage. More...
 
std::vector< SiPixelClustertheClusters
 
const int theClusterThreshold
 
const int theClusterThreshold_L1
 
float theClusterThresholdInNoiseUnits
 
const int theConversionFactor
 
const int theConversionFactor_L1
 
const double theElectronPerADCGain_
 
const int theFirstStack_
 
int theNumOfCols
 
int theNumOfRows
 Geometry-related information. More...
 
const int theOffset
 
const int theOffset_L1
 
const int thePixelThreshold
 
float thePixelThresholdInNoiseUnits
 Clustering-related quantities: More...
 
std::vector< SiPixelCluster::PixelPostheSeeds
 
const int theSeedThreshold
 
float theSeedThresholdInNoiseUnits
 
const int theStackADC_
 

Additional Inherited Members

- Public Types inherited from PixelClusterizerBase
typedef edmNew::DetSet< SiPixelCluster >::const_iterator ClusterIterator
 
typedef edm::DetSet< PixelDigi >::const_iterator DigiIterator
 
- Protected Attributes inherited from PixelClusterizerBase
SiPixelGainCalibrationServiceBasetheSiPixelGainCalibrationService_
 

Detailed Description

A specific threshold-based pixel clustering algorithm.

An explicit threshold-based clustering algorithm.

General logic of PixelThresholdClusterizer:

The clusterization is performed on a matrix with size equal to the size of the pixel detector, each cell containing the ADC count of the corresponding pixel. The matrix is reset after each clusterization.

The search starts from seed pixels, i.e. pixels with sufficiently large amplitudes, found at the time of filling of the matrix and stored in a SiPixelArrayBuffer.

Translate the pixel charge to electrons, we are suppose to do the calibrations ADC->electrons here. Modify the thresholds to be in electrons, convert adc to electrons. d.k. 20/3/06 Get rid of the noiseVector. d.k. 28/3/06

A threshold-based clustering algorithm which clusters SiPixelDigis into SiPixelClusters for each DetUnit. The algorithm is straightforward and purely topological: the clustering process starts with seed pixels and continues by adding adjacent pixels above the pixel threshold. Once the cluster is made, it has to be above the cluster threshold as well.

The clusterization is performed on a matrix with size equal to the size of the pixel detector, each cell containing the ADC count of the corresponding pixel. The matrix is reset after each clusterization.

The search starts from seed pixels, i.e. pixels with sufficiently large amplitudes, found at the time of filling of the matrix and stored in a

At this point the noise and dead channels are ignored, but soon they won't be.

SiPixelCluster contains a barrycenter, but it should be noted that that information is largely useless. One must use a PositionEstimator class to compute the RecHit position and its error for every given cluster.

Author
Largely copied from NewPixelClusterizer in ORCA written by Danek Kotlinski (PSI). Ported to CMSSW by Petar Maksimovic (JHU). DetSetVector data container implemented by V.Chiochia (Uni Zurich)

Sets the PixelArrayBuffer dimensions and pixel thresholds. Makes clusters and stores them in theCache if the option useCache has been set.

Definition at line 59 of file PixelThresholdClusterizer.h.

Constructor & Destructor Documentation

PixelThresholdClusterizer::PixelThresholdClusterizer ( edm::ParameterSet const &  conf)

Constructor: Initilize the buffer to hold pixels from a detector module. This is a vector of 44k ints, stays valid all the time.

Definition at line 44 of file PixelThresholdClusterizer.cc.

44  :
45  bufferAlreadySet(false),
46  // Get thresholds in electrons
47  thePixelThreshold( conf.getParameter<int>("ChannelThreshold") ),
48  theSeedThreshold( conf.getParameter<int>("SeedThreshold") ),
49  theClusterThreshold( conf.getParameter<int>("ClusterThreshold") ),
50  theClusterThreshold_L1( conf.getParameter<int>("ClusterThreshold_L1") ),
51  theConversionFactor( conf.getParameter<int>("VCaltoElectronGain") ),
52  theConversionFactor_L1( conf.getParameter<int>("VCaltoElectronGain_L1") ),
53  theOffset( conf.getParameter<int>("VCaltoElectronOffset") ),
54  theOffset_L1( conf.getParameter<int>("VCaltoElectronOffset_L1") ),
55  theStackADC_( conf.exists("AdcFullScaleStack") ? conf.getParameter<int>("AdcFullScaleStack") : 255 ),
56  theFirstStack_( conf.exists("FirstStackLayer") ? conf.getParameter<int>("FirstStackLayer") : 5 ),
57  theElectronPerADCGain_( conf.exists("ElectronPerADCGain") ? conf.getParameter<double>("ElectronPerADCGain") : 135. ),
58  theNumOfRows(0), theNumOfCols(0), detid_(0),
59  // Get the constants for the miss-calibration studies
60  doMissCalibrate( conf.getUntrackedParameter<bool>("MissCalibrate",true) ),
61  doSplitClusters( conf.getParameter<bool>("SplitClusters") )
62 {
64 }
SiPixelArrayBuffer theBuffer
Data storage.
int theNumOfRows
Geometry-related information.
void setSize(int rows, int cols)
PixelThresholdClusterizer::~PixelThresholdClusterizer ( )
override

Definition at line 66 of file PixelThresholdClusterizer.cc.

66 {}

Member Function Documentation

int PixelThresholdClusterizer::calibrate ( int  adc,
int  col,
int  row 
)
private

Definition at line 313 of file PixelThresholdClusterizer.cc.

References electrons_cff::electrons, muonCSCDigis_cfi::gain, createfilelist::int, sistrip::layer_, and muonCSCDigis_cfi::pedestal.

314 {
315  int electrons = 0;
316 
317  if ( doMissCalibrate )
318  {
319  // do not perform calibration if pixel is dead!
320 
323  {
324 
325  // Linear approximation of the TANH response
326  // Pixel(0,0,0)
327  //const float gain = 2.95; // 1 ADC = 2.95 VCALs (1/0.339)
328  //const float pedestal = -83.; // -28/0.339
329  // Roc-0 average
330  //const float gain = 1./0.357; // 1 ADC = 2.80 VCALs
331  //const float pedestal = -28.2 * gain; // -79.
332 
333  float DBgain = theSiPixelGainCalibrationService_->getGain(detid_, col, row);
335  float DBpedestal = pedestal * DBgain;
336 
337  // Roc-6 average
338  //const float gain = 1./0.313; // 1 ADC = 3.19 VCALs
339  //const float pedestal = -6.2 * gain; // -19.8
340  //
341  float vcal = adc * DBgain - DBpedestal;
342 
343  // atanh calibration
344  // Roc-6 average
345  //const float p0 = 0.00492;
346  //const float p1 = 1.998;
347  //const float p2 = 90.6;
348  //const float p3 = 134.1;
349  // Roc-6 average
350  //const float p0 = 0.00382;
351  //const float p1 = 0.886;
352  //const float p2 = 112.7;
353  //const float p3 = 113.0;
354  //float vcal = ( atanh( (adc-p3)/p2) + p1)/p0;
355 
356  if (layer_==1) {
357  electrons = int( vcal * theConversionFactor_L1 + theOffset_L1);
358  } else {
359  electrons = int( vcal * theConversionFactor + theOffset);
360  }
361 
362  }
363  }
364  else
365  { // No misscalibration in the digitizer
366  // Simple (default) linear gain
367  const float gain = theElectronPerADCGain_; // default: 1 ADC = 135 electrons
368  const float pedestal = 0.; //
369  electrons = int(adc * gain + pedestal);
370  if (layer_>=theFirstStack_) {
371  if (theStackADC_==1&&adc==1)
372  {
373  electrons = int(255*135); // Arbitrarily use overflow value.
374  }
375  if (theStackADC_>1&&theStackADC_!=255&&adc>=1)
376  {
377  const float gain = theElectronPerADCGain_; // default: 1 ADC = 135 electrons
378  electrons = int((adc-1) * gain * 255/float(theStackADC_-1));
379  }
380  }
381  }
382 
383  return electrons;
384 }
int adc(sample_type sample)
get the ADC sample (12 bits)
virtual bool isDead(const uint32_t &detID, const int &col, const int &row)=0
virtual float getPedestal(const uint32_t &detID, const int &col, const int &row)=0
SiPixelGainCalibrationServiceBase * theSiPixelGainCalibrationService_
col
Definition: cuy.py:1008
virtual float getGain(const uint32_t &detID, const int &col, const int &row)=0
virtual bool isNoisy(const uint32_t &detID, const int &col, const int &row)=0
void PixelThresholdClusterizer::clear_buffer ( DigiIterator  begin,
DigiIterator  end 
)
private

Clear the internal buffer array.

Pixels which are not part of recognized clusters are NOT ERASED during the cluster finding. Erase them now.

TO DO: ask Danek... wouldn't it be faster to simply memcopy() zeros into the whole buffer array?

Definition at line 200 of file PixelThresholdClusterizer.cc.

References end.

201 {
202  for(DigiIterator di = begin; di != end; ++di )
203  {
204  theBuffer.set_adc( di->row(), di->column(), 0 ); // reset pixel adc to 0
205  }
206 }
SiPixelArrayBuffer theBuffer
Data storage.
void set_adc(int row, int col, int adc)
edm::DetSet< PixelDigi >::const_iterator DigiIterator
#define end
Definition: vmac.h:39
#define begin
Definition: vmac.h:32
void PixelThresholdClusterizer::clear_buffer ( ClusterIterator  begin,
ClusterIterator  end 
)
private

Definition at line 208 of file PixelThresholdClusterizer.cc.

References end, mps_fire::i, digitizers_cfi::pixel, SiPixelCluster::Pixel::x, and SiPixelCluster::Pixel::y.

209 {
210  for(ClusterIterator ci = begin; ci != end; ++ci )
211  {
212  for(int i = 0; i < ci->size(); ++i)
213  {
214  const SiPixelCluster::Pixel pixel = ci->pixel(i);
215 
216  theBuffer.set_adc( pixel.x, pixel.y, 0 ); // reset pixel adc to 0
217  }
218  }
219 }
SiPixelArrayBuffer theBuffer
Data storage.
void set_adc(int row, int col, int adc)
#define end
Definition: vmac.h:39
edmNew::DetSet< SiPixelCluster >::const_iterator ClusterIterator
#define begin
Definition: vmac.h:32
void PixelThresholdClusterizer::clusterizeDetUnit ( const edm::DetSet< PixelDigi > &  input,
const PixelGeomDetUnit pixDet,
const TrackerTopology tTopo,
const std::vector< short > &  badChannels,
edmNew::DetSetVector< SiPixelCluster >::FastFiller &  output 
)
inlineoverridevirtual

Implements PixelClusterizerBase.

Definition at line 66 of file PixelThresholdClusterizer.h.

70  { clusterizeDetUnitT(input, pixDet, tTopo, badChannels, output); }
void clusterizeDetUnitT(const T &input, const PixelGeomDetUnit *pixDet, const TrackerTopology *tTopo, const std::vector< short > &badChannels, edmNew::DetSetVector< SiPixelCluster >::FastFiller &output)
Cluster pixels. This method operates on a matrix of pixels and finds the largest contiguous cluster a...
void PixelThresholdClusterizer::clusterizeDetUnit ( const edmNew::DetSet< SiPixelCluster > &  input,
const PixelGeomDetUnit pixDet,
const TrackerTopology tTopo,
const std::vector< short > &  badChannels,
edmNew::DetSetVector< SiPixelCluster >::FastFiller &  output 
)
inlineoverridevirtual

Implements PixelClusterizerBase.

Definition at line 71 of file PixelThresholdClusterizer.h.

References fillDescriptions(), input, and convertSQLitetoXML_cfg::output.

75  { clusterizeDetUnitT(input, pixDet, tTopo, badChannels, output); }
void clusterizeDetUnitT(const T &input, const PixelGeomDetUnit *pixDet, const TrackerTopology *tTopo, const std::vector< short > &badChannels, edmNew::DetSetVector< SiPixelCluster >::FastFiller &output)
Cluster pixels. This method operates on a matrix of pixels and finds the largest contiguous cluster a...
template<typename T >
void PixelThresholdClusterizer::clusterizeDetUnitT ( const T input,
const PixelGeomDetUnit pixDet,
const TrackerTopology tTopo,
const std::vector< short > &  badChannels,
edmNew::DetSetVector< SiPixelCluster >::FastFiller &  output 
)
private

Cluster pixels. This method operates on a matrix of pixels and finds the largest contiguous cluster around each seed pixel. Input and output data stored in DetSet.

Definition at line 129 of file PixelThresholdClusterizer.cc.

References begin, edmNew::DetSetVector< T >::FastFiller::begin(), SiPixelCluster::charge(), GetRecoTauVFromDQM_MC_cff::cl2, edmNew::DetSetVector< T >::FastFiller::empty(), end, edmNew::DetSetVector< T >::FastFiller::end(), mps_fire::i, sistrip::layer_, SiPixelCluster::minPixelRow(), eostools::move(), edmNew::DetSetVector< T >::FastFiller::push_back(), TrackerTopology::pxbLayer(), GeneralSetup::setup(), and DetId::subdetId().

133  {
134 
135  typename T::const_iterator begin = input.begin();
136  typename T::const_iterator end = input.end();
137 
138  // Do not bother for empty detectors
139  //if (begin == end) cout << " PixelThresholdClusterizer::clusterizeDetUnit - No digis to clusterize";
140 
141  // Set up the clusterization on this DetId.
142  if ( !setup(pixDet) )
143  return;
144 
145  detid_ = input.detId();
146 
147  // Set separate cluster threshold for L1 (needed for phase1)
148  auto clusterThreshold = theClusterThreshold;
149  layer_ = (DetId(detid_).subdetId()==1) ? tTopo->pxbLayer(detid_) : 0;
150  if (layer_==1) clusterThreshold = theClusterThreshold_L1;
151 
152  // Copy PixelDigis to the buffer array; select the seed pixels
153  // on the way, and store them in theSeeds.
154  copy_to_buffer(begin, end);
155 
156  assert(output.empty());
157  // Loop over all seeds. TO DO: wouldn't using iterators be faster?
158  // edm::LogError("PixelThresholdClusterizer") << "Starting clusterizing" << endl;
159  for (unsigned int i = 0; i < theSeeds.size(); i++)
160  {
161 
162  // Gavril : The charge of seeds that were already inlcuded in clusters is set to 1 electron
163  // so we don't want to call "make_cluster" for these cases
164  if ( theBuffer(theSeeds[i]) >= theSeedThreshold )
165  { // Is this seed still valid?
166  // Make a cluster around this seed
167  SiPixelCluster && cluster = make_cluster( theSeeds[i] , output);
168 
169  // Check if the cluster is above threshold
170  // (TO DO: one is signed, other unsigned, gcc warns...)
171  if ( cluster.charge() >= clusterThreshold)
172  {
173  // std::cout << "putting in this cluster " << i << " " << cluster.charge() << " " << cluster.pixelADC().size() << endl;
174  // sort by row (x)
175  output.push_back( std::move(cluster) );
176  std::push_heap(output.begin(),output.end(),[](SiPixelCluster const & cl1,SiPixelCluster const & cl2) { return cl1.minPixelRow() < cl2.minPixelRow();});
177  }
178  }
179  }
180  // sort by row (x) maybe sorting the seed would suffice....
181  std::sort_heap(output.begin(),output.end(),[](SiPixelCluster const & cl1,SiPixelCluster const & cl2) { return cl1.minPixelRow() < cl2.minPixelRow();});
182 
183  // Erase the seeds.
184  theSeeds.clear();
185 
186  // Need to clean unused pixels from the buffer array.
187  clear_buffer(begin, end);
188 
189 }
void push_back(data_type const &d)
SiPixelArrayBuffer theBuffer
Data storage.
SiPixelCluster make_cluster(const SiPixelCluster::PixelPos &pix, edmNew::DetSetVector< SiPixelCluster >::FastFiller &output)
The actual clustering algorithm: group the neighboring pixels around the seed.
int charge() const
static std::string const input
Definition: EdmProvDump.cc:44
int minPixelRow() const
#define end
Definition: vmac.h:39
int subdetId() const
get the contents of the subdetector field (not cast into any detector&#39;s numbering enum) ...
Definition: DetId.h:38
unsigned int pxbLayer(const DetId &id) const
Definition: DetId.h:18
void clear_buffer(DigiIterator begin, DigiIterator end)
Clear the internal buffer array.
Pixel cluster – collection of neighboring pixels above threshold.
#define begin
Definition: vmac.h:32
bool setup(const PixelGeomDetUnit *pixDet)
Private helper methods:
std::vector< SiPixelCluster::PixelPos > theSeeds
def move(src, dest)
Definition: eostools.py:510
void copy_to_buffer(DigiIterator begin, DigiIterator end)
Copy adc counts from PixelDigis into the buffer, identify seeds.
void PixelThresholdClusterizer::copy_to_buffer ( DigiIterator  begin,
DigiIterator  end 
)
private

Copy adc counts from PixelDigis into the buffer, identify seeds.

Definition at line 224 of file PixelThresholdClusterizer.cc.

References ecalMGPA::adc(), begin, cuy::col, gather_cfg::cout, metsig::electron, end, muonCSCDigis_cfi::gain, mps_fire::i, recoMuon::in, createfilelist::int, sistrip::layer_, and muonCSCDigis_cfi::pedestal.

225 {
226 #ifdef PIXELREGRESSION
227  static std::atomic<int> s_ic=0;
228  in ic = ++s_ic;
229  if (ic==1) {
230  // std::cout << (doMissCalibrate ? "VI from db" : "VI linear") << std::endl;
231  }
232 #endif
233  int electron[end-begin]; // pixel charge in electrons
234  memset(electron, 0, sizeof(electron));
235  if ( doMissCalibrate ) {
236  if (layer_==1) {
237  (*theSiPixelGainCalibrationService_).calibrate(detid_,begin,end,theConversionFactor_L1, theOffset_L1,electron);
238  } else {
239  (*theSiPixelGainCalibrationService_).calibrate(detid_,begin,end,theConversionFactor, theOffset, electron);
240  }
241  } else {
242  int i=0;
243  for(DigiIterator di = begin; di != end; ++di) {
244  auto adc = di->adc();
245  const float gain = theElectronPerADCGain_; // default: 1 ADC = 135 electrons
246  const float pedestal = 0.; //
247  electron[i] = int(adc * gain + pedestal);
248  if (layer_>=theFirstStack_) {
249  if (theStackADC_==1&&adc==1) {
250  electron[i] = int(255*135); // Arbitrarily use overflow value.
251  }
252  if (theStackADC_>1&&theStackADC_!=255&&adc>=1){
253  const float gain = theElectronPerADCGain_; // default: 1 ADC = 135 electrons
254  electron[i] = int((adc-1) * gain * 255/float(theStackADC_-1));
255  }
256  }
257  ++i;
258  }
259  assert(i==(end-begin));
260  }
261 
262  int i=0;
263 #ifdef PIXELREGRESSION
264  static std::atomic<int> eqD=0;
265 #endif
266  for(DigiIterator di = begin; di != end; ++di) {
267  int row = di->row();
268  int col = di->column();
269  int adc = electron[i++]; // this is in electrons
270 
271 #ifdef PIXELREGRESSION
272  int adcOld = calibrate(di->adc(),col,row);
273  //assert(adc==adcOld);
274  if (adc!=adcOld) std::cout << "VI " << eqD <<' '<< ic <<' '<< end-begin <<' '<< i <<' '<< di->adc() <<' ' << adc <<' '<< adcOld << std::endl; else ++eqD;
275 #endif
276 
277  if(adc<100) adc=100; // put all negative pixel charges into the 100 elec bin
278  /* This is semi-random good number. The exact number (in place of 100) is irrelevant from the point
279  of view of the final cluster charge since these are typically >= 20000.
280  */
281 
282  if ( adc >= thePixelThreshold) {
283  theBuffer.set_adc( row, col, adc);
284  if ( adc >= theSeedThreshold) theSeeds.push_back( SiPixelCluster::PixelPos(row,col) );
285  }
286  }
287  assert(i==(end-begin));
288 
289 }
int adc(sample_type sample)
get the ADC sample (12 bits)
SiPixelArrayBuffer theBuffer
Data storage.
void set_adc(int row, int col, int adc)
edm::DetSet< PixelDigi >::const_iterator DigiIterator
#define end
Definition: vmac.h:39
#define begin
Definition: vmac.h:32
col
Definition: cuy.py:1008
int calibrate(int adc, int col, int row)
std::vector< SiPixelCluster::PixelPos > theSeeds
void PixelThresholdClusterizer::copy_to_buffer ( ClusterIterator  begin,
ClusterIterator  end 
)
private

Definition at line 291 of file PixelThresholdClusterizer.cc.

References ecalMGPA::adc(), SiPixelCluster::Pixel::adc, cuy::col, end, mps_fire::i, digitizers_cfi::pixel, SiPixelCluster::Pixel::x, and SiPixelCluster::Pixel::y.

292 {
293  // loop over clusters
294  for(ClusterIterator ci = begin; ci != end; ++ci) {
295  // loop over pixels
296  for(int i = 0; i < ci->size(); ++i) {
297  const SiPixelCluster::Pixel pixel = ci->pixel(i);
298 
299  int row = pixel.x;
300  int col = pixel.y;
301  int adc = pixel.adc;
302  if ( adc >= thePixelThreshold) {
303  theBuffer.add_adc( row, col, adc);
304  if ( adc >= theSeedThreshold) theSeeds.push_back( SiPixelCluster::PixelPos(row,col) );
305  }
306  }
307  }
308 }
int adc(sample_type sample)
get the ADC sample (12 bits)
SiPixelArrayBuffer theBuffer
Data storage.
void add_adc(int row, int col, int adc)
#define end
Definition: vmac.h:39
edmNew::DetSet< SiPixelCluster >::const_iterator ClusterIterator
#define begin
Definition: vmac.h:32
col
Definition: cuy.py:1008
std::vector< SiPixelCluster::PixelPos > theSeeds
void PixelThresholdClusterizer::fillDescriptions ( edm::ConfigurationDescriptions descriptions)
static

Definition at line 71 of file PixelThresholdClusterizer.cc.

References edm::ConfigurationDescriptions::add(), edm::ParameterSetDescription::add(), edm::ParameterSetDescription::addUntracked(), and AlCaHLTBitMon_QueryRunRegistry::string.

71  {
72  // siPixelClusters
74  desc.add<edm::InputTag>("src", edm::InputTag("siPixelDigis"));
75  desc.add<int>("ChannelThreshold", 1000);
76  desc.addUntracked<bool>("MissCalibrate", true);
77  desc.add<bool>("SplitClusters", false);
78  desc.add<int>("VCaltoElectronGain", 65);
79  desc.add<int>("VCaltoElectronGain_L1", 65);
80  desc.add<int>("VCaltoElectronOffset", -414);
81  desc.add<int>("VCaltoElectronOffset_L1", -414);
82  desc.add<std::string>("payloadType", "Offline");
83  desc.add<int>("SeedThreshold", 1000);
84  desc.add<int>("ClusterThreshold_L1", 4000);
85  desc.add<int>("ClusterThreshold", 4000);
86  desc.add<int>("maxNumberOfClusters", -1);
87  descriptions.add("siPixelClusters", desc);
88 }
ParameterDescriptionBase * addUntracked(U const &iLabel, T const &value)
ParameterDescriptionBase * add(U const &iLabel, T const &value)
void add(std::string const &label, ParameterSetDescription const &psetDescription)
SiPixelCluster PixelThresholdClusterizer::make_cluster ( const SiPixelCluster::PixelPos pix,
edmNew::DetSetVector< SiPixelCluster >::FastFiller &  output 
)
private

The actual clustering algorithm: group the neighboring pixels around the seed.

Definition at line 390 of file PixelThresholdClusterizer.cc.

References PixelClusterizerBase::AccretionCluster::adc, PixelClusterizerBase::AccretionCluster::add(), SiPixelCluster::add(), edmNew::DetSetVector< T >::FastFiller::begin(), EnergyCorrector::c, SiPixelCluster::charge(), GetRecoTauVFromDQM_MC_cff::cl2, SiPixelCluster::PixelPos::col(), PixelClusterizerBase::AccretionCluster::empty(), edmNew::DetSetVector< T >::FastFiller::end(), mps_fire::i, PixelClusterizerBase::AccretionCluster::isize, sistrip::layer_, SiStripPI::max, min(), SiPixelCluster::minPixelRow(), SiPixelCluster::pixels(), PixelClusterizerBase::AccretionCluster::pop(), edmNew::DetSetVector< T >::FastFiller::push_back(), alignCSCRings::r, SiPixelCluster::PixelPos::row(), PixelClusterizerBase::AccretionCluster::top(), PixelClusterizerBase::AccretionCluster::x, PixelClusterizerBase::AccretionCluster::xmin, PixelClusterizerBase::AccretionCluster::y, and PixelClusterizerBase::AccretionCluster::ymin.

392 {
393 
394  //First we acquire the seeds for the clusters
395  int seed_adc;
396  stack<SiPixelCluster::PixelPos, vector<SiPixelCluster::PixelPos> > dead_pixel_stack;
397 
398  //The individual modules have been loaded into a buffer.
399  //After each pixel has been considered by the clusterizer, we set the adc count to 1
400  //to mark that we have already considered it.
401  //The only difference between dead/noisy pixels and standard ones is that for dead/noisy pixels,
402  //We consider the charge of the pixel to always be zero.
403 
404  /* this is not possible as dead and noisy pixel cannot make it into a seed...
405  if ( doMissCalibrate &&
406  (theSiPixelGainCalibrationService_->isDead(detid_,pix.col(),pix.row()) ||
407  theSiPixelGainCalibrationService_->isNoisy(detid_,pix.col(),pix.row())) )
408  {
409  std::cout << "IMPOSSIBLE" << std::endl;
410  seed_adc = 0;
411  theBuffer.set_adc(pix, 1);
412  }
413  else {
414  */
415  seed_adc = theBuffer(pix.row(), pix.col());
416  theBuffer.set_adc( pix, 1);
417  // }
418 
419  AccretionCluster acluster;
420  acluster.add(pix, seed_adc);
421 
422  //Here we search all pixels adjacent to all pixels in the cluster.
423  bool dead_flag = false;
424  while ( ! acluster.empty())
425  {
426  //This is the standard algorithm to find and add a pixel
427  auto curInd = acluster.top(); acluster.pop();
428  for ( auto c = std::max(0,int(acluster.y[curInd])-1); c < std::min(int(acluster.y[curInd])+2,theBuffer.columns()) ; ++c) {
429  for ( auto r = std::max(0,int(acluster.x[curInd])-1); r < std::min(int(acluster.x[curInd])+2,theBuffer.rows()); ++r) {
430  if ( theBuffer(r,c) >= thePixelThreshold) {
431  SiPixelCluster::PixelPos newpix(r,c);
432  if (!acluster.add( newpix, theBuffer(r,c))) goto endClus;
433  theBuffer.set_adc( newpix, 1);
434  }
435 
436 
437  /* //Commenting out the addition of dead pixels to the cluster until further testing -- dfehling 06/09
438  //Check on the bounds of the module; this is to keep the isDead and isNoisy modules from returning errors
439  else if(r>= 0 && c >= 0 && (r <= (theNumOfRows-1.)) && (c <= (theNumOfCols-1.))){
440  //Check for dead/noisy pixels check that the buffer is not -1 (already considered). Check whether we want to split clusters separated by dead pixels or not.
441  if((theSiPixelGainCalibrationService_->isDead(detid_,c,r) || theSiPixelGainCalibrationService_->isNoisy(detid_,c,r)) && theBuffer(r,c) != 1){
442 
443  //If a pixel is dead or noisy, check to see if we want to split the clusters or not.
444  //Push it into a dead pixel stack in case we want to split the clusters. Otherwise add it to the cluster.
445  //If we are splitting the clusters, we will iterate over the dead pixel stack later.
446 
447  SiPixelCluster::PixelPos newpix(r,c);
448  if(!doSplitClusters){
449 
450  cluster.add(newpix, theBuffer(r,c));}
451  else if(doSplitClusters){
452  dead_pixel_stack.push(newpix);
453  dead_flag = true;}
454 
455  theBuffer.set_adc(newpix, 1);
456  }
457 
458  }
459  */
460 
461 
462 
463  }
464  }
465 
466  } // while accretion
467  endClus:
468  SiPixelCluster cluster(acluster.isize,acluster.adc, acluster.x,acluster.y, acluster.xmin,acluster.ymin);
469  //Here we split the cluster, if the flag to do so is set and we have found a dead or noisy pixel.
470 
471  if (dead_flag && doSplitClusters)
472  {
473  // Set separate cluster threshold for L1 (needed for phase1)
474  auto clusterThreshold = theClusterThreshold;
475  if (layer_==1) clusterThreshold = theClusterThreshold_L1;
476 
477  //Set the first cluster equal to the existing cluster.
478  SiPixelCluster first_cluster = cluster;
479  bool have_second_cluster = false;
480  while ( !dead_pixel_stack.empty() )
481  {
482  //consider each found dead pixel
483  SiPixelCluster::PixelPos deadpix = dead_pixel_stack.top(); dead_pixel_stack.pop();
484  theBuffer.set_adc(deadpix, 1);
485 
486  //Clusterize the split cluster using the dead pixel as a seed
487  SiPixelCluster second_cluster = make_cluster(deadpix, output);
488 
489  //If both clusters would normally have been found by the clusterizer, put them into output
490  if ( second_cluster.charge() >= clusterThreshold &&
491  first_cluster.charge() >= clusterThreshold )
492  {
493  output.push_back( second_cluster );
494  have_second_cluster = true;
495  }
496 
497  //We also want to keep the merged cluster in data and let the RecHit algorithm decide which set to keep
498  //This loop adds the second cluster to the first.
499  const std::vector<SiPixelCluster::Pixel>& branch_pixels = second_cluster.pixels();
500  for ( unsigned int i = 0; i<branch_pixels.size(); i++)
501  {
502  int temp_x = branch_pixels[i].x;
503  int temp_y = branch_pixels[i].y;
504  int temp_adc = branch_pixels[i].adc;
505  SiPixelCluster::PixelPos newpix(temp_x, temp_y);
506  cluster.add(newpix, temp_adc);}
507  }
508 
509  //Remember to also add the first cluster if we added the second one.
510  if ( first_cluster.charge() >= clusterThreshold && have_second_cluster)
511  {
512  output.push_back( first_cluster );
513  std::push_heap(output.begin(),output.end(),[](SiPixelCluster const & cl1,SiPixelCluster const & cl2) { return cl1.minPixelRow() < cl2.minPixelRow();});
514  }
515  }
516 
517  return cluster;
518 }
void push_back(data_type const &d)
SiPixelArrayBuffer theBuffer
Data storage.
SiPixelCluster make_cluster(const SiPixelCluster::PixelPos &pix, edmNew::DetSetVector< SiPixelCluster >::FastFiller &output)
The actual clustering algorithm: group the neighboring pixels around the seed.
int charge() const
void set_adc(int row, int col, int adc)
int minPixelRow() const
T min(T a, T b)
Definition: MathUtil.h:58
constexpr int col() const
Pixel cluster – collection of neighboring pixels above threshold.
constexpr int row() const
const std::vector< Pixel > pixels() const
bool PixelThresholdClusterizer::setup ( const PixelGeomDetUnit pixDet)
private

Private helper methods:

Prepare the Clusterizer to work on a particular DetUnit. Re-init the size of the panel/plaquette (so update nrows and ncols),

Definition at line 94 of file PixelThresholdClusterizer.cc.

References trackingPlots::ncols, PixelTopology::ncolumns(), PixelTopology::nrows(), and PixelGeomDetUnit::specificTopology().

95 {
96  // Cache the topology.
97  const PixelTopology & topol = pixDet->specificTopology();
98 
99  // Get the new sizes.
100  int nrows = topol.nrows(); // rows in x
101  int ncols = topol.ncolumns(); // cols in y
102 
103  theNumOfRows = nrows; // Set new sizes
105 
106  if ( nrows > theBuffer.rows() ||
107  ncols > theBuffer.columns() )
108  { // change only when a larger is needed
109  //if( nrows != theNumOfRows || ncols != theNumOfCols ) {
110  //cout << " PixelThresholdClusterizer: pixel buffer redefined to "
111  // << nrows << " * " << ncols << endl;
112  //theNumOfRows = nrows; // Set new sizes
113  //theNumOfCols = ncols;
114  // Resize the buffer
115  theBuffer.setSize(nrows,ncols); // Modify
116  bufferAlreadySet = true;
117  }
118 
119  return true;
120 }
virtual int nrows() const =0
SiPixelArrayBuffer theBuffer
Data storage.
int theNumOfRows
Geometry-related information.
void setSize(int rows, int cols)
virtual const PixelTopology & specificTopology() const
Returns a reference to the pixel proxy topology.
virtual int ncolumns() const =0

Member Data Documentation

bool PixelThresholdClusterizer::bufferAlreadySet
private

Definition at line 90 of file PixelThresholdClusterizer.h.

bool PixelThresholdClusterizer::dead_flag
private

Definition at line 117 of file PixelThresholdClusterizer.h.

uint32_t PixelThresholdClusterizer::detid_
private

Definition at line 115 of file PixelThresholdClusterizer.h.

const bool PixelThresholdClusterizer::doMissCalibrate
private

Definition at line 118 of file PixelThresholdClusterizer.h.

const bool PixelThresholdClusterizer::doSplitClusters
private

Definition at line 119 of file PixelThresholdClusterizer.h.

int PixelThresholdClusterizer::layer_
private

Definition at line 116 of file PixelThresholdClusterizer.h.

SiPixelArrayBuffer PixelThresholdClusterizer::theBuffer
private

Data storage.

Definition at line 89 of file PixelThresholdClusterizer.h.

std::vector<SiPixelCluster> PixelThresholdClusterizer::theClusters
private

Definition at line 92 of file PixelThresholdClusterizer.h.

const int PixelThresholdClusterizer::theClusterThreshold
private

Definition at line 101 of file PixelThresholdClusterizer.h.

const int PixelThresholdClusterizer::theClusterThreshold_L1
private

Definition at line 102 of file PixelThresholdClusterizer.h.

float PixelThresholdClusterizer::theClusterThresholdInNoiseUnits
private

Definition at line 97 of file PixelThresholdClusterizer.h.

const int PixelThresholdClusterizer::theConversionFactor
private

Definition at line 103 of file PixelThresholdClusterizer.h.

const int PixelThresholdClusterizer::theConversionFactor_L1
private

Definition at line 104 of file PixelThresholdClusterizer.h.

const double PixelThresholdClusterizer::theElectronPerADCGain_
private

Definition at line 110 of file PixelThresholdClusterizer.h.

const int PixelThresholdClusterizer::theFirstStack_
private

Definition at line 109 of file PixelThresholdClusterizer.h.

int PixelThresholdClusterizer::theNumOfCols
private

Definition at line 114 of file PixelThresholdClusterizer.h.

int PixelThresholdClusterizer::theNumOfRows
private

Geometry-related information.

Definition at line 113 of file PixelThresholdClusterizer.h.

const int PixelThresholdClusterizer::theOffset
private

Definition at line 105 of file PixelThresholdClusterizer.h.

const int PixelThresholdClusterizer::theOffset_L1
private

Definition at line 106 of file PixelThresholdClusterizer.h.

const int PixelThresholdClusterizer::thePixelThreshold
private

Definition at line 99 of file PixelThresholdClusterizer.h.

float PixelThresholdClusterizer::thePixelThresholdInNoiseUnits
private

Clustering-related quantities:

Definition at line 95 of file PixelThresholdClusterizer.h.

std::vector<SiPixelCluster::PixelPos> PixelThresholdClusterizer::theSeeds
private

Definition at line 91 of file PixelThresholdClusterizer.h.

const int PixelThresholdClusterizer::theSeedThreshold
private

Definition at line 100 of file PixelThresholdClusterizer.h.

float PixelThresholdClusterizer::theSeedThresholdInNoiseUnits
private

Definition at line 96 of file PixelThresholdClusterizer.h.

const int PixelThresholdClusterizer::theStackADC_
private

Definition at line 108 of file PixelThresholdClusterizer.h.