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L1GctGlobalEnergyAlgos.cc
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2 
4 
8 
10 
11 using std::endl;
12 using std::max;
13 using std::ostream;
14 using std::vector;
15 
16 L1GctGlobalEnergyAlgos::L1GctGlobalEnergyAlgos(const std::vector<L1GctWheelEnergyFpga*>& wheelFpga,
17  const std::vector<L1GctWheelJetFpga*>& wheelJetFpga)
18  : L1GctProcessor(),
19  m_plusWheelFpga(wheelFpga.at(1)),
20  m_minusWheelFpga(wheelFpga.at(0)),
21  m_plusWheelJetFpga(wheelJetFpga.at(1)),
22  m_minusWheelJetFpga(wheelJetFpga.at(0)),
23  m_metComponents(0, 0, L1GctMet::cordicTranslate),
24  m_mhtComponents(0, 0, L1GctMet::useHtMissLut),
25  m_exValPlusWheel(),
26  m_eyValPlusWheel(),
27  m_etValPlusWheel(),
28  m_htValPlusWheel(),
29  m_exVlMinusWheel(),
30  m_eyVlMinusWheel(),
31  m_etVlMinusWheel(),
32  m_htVlMinusWheel(),
33  m_exValPlusPipe(),
34  m_eyValPlusPipe(),
35  m_etValPlusPipe(),
36  m_htValPlusPipe(),
37  m_exVlMinusPipe(),
38  m_eyVlMinusPipe(),
39  m_etVlMinusPipe(),
40  m_htVlMinusPipe(),
41  m_outputEtMiss(),
42  m_outputEtMissPhi(),
43  m_outputEtSum(),
44  m_outputEtHad(),
45  m_setupOk(true) {
46  if (wheelFpga.size() != 2) {
47  m_setupOk = false;
48  if (m_verbose) {
49  edm::LogWarning("L1GctSetupError") << "L1GctGlobalEnergyAlgos::L1GctGlobalEnergyAlgos() : Global Energy Algos "
50  "has been incorrectly constructed!\n"
51  << "This class needs two wheel card pointers. "
52  << "Number of wheel card pointers present is " << wheelFpga.size() << ".\n";
53  }
54  }
55 
56  if (wheelJetFpga.size() != 2) {
57  m_setupOk = false;
58  if (m_verbose) {
59  edm::LogWarning("L1GctSetupError") << "L1GctGlobalEnergyAlgos::L1GctGlobalEnergyAlgos() : Global Energy Algos "
60  "has been incorrectly constructed!\n"
61  << "This class needs two wheel jet fpga pointers. "
62  << "Number of wheel jet fpga pointers present is " << wheelJetFpga.size()
63  << ".\n";
64  }
65  }
66 
67  if (m_plusWheelFpga == nullptr) {
68  m_setupOk = false;
69  if (m_verbose) {
70  edm::LogWarning("L1GctSetupError")
71  << "L1GctGlobalEnergyAlgos::L1GctGlobalEnergyAlgos() has been incorrectly constructed!\n"
72  << "Plus Wheel Fpga pointer has not been set!\n";
73  }
74  }
75  if (m_minusWheelFpga == nullptr) {
76  m_setupOk = false;
77  if (m_verbose) {
78  edm::LogWarning("L1GctSetupError")
79  << "L1GctGlobalEnergyAlgos::L1GctGlobalEnergyAlgos() has been incorrectly constructed!\n"
80  << "Minus Wheel Fpga pointer has not been set!\n";
81  }
82  }
83  if (m_plusWheelJetFpga == nullptr) {
84  m_setupOk = false;
85  if (m_verbose) {
86  edm::LogWarning("L1GctSetupError")
87  << "L1GctGlobalEnergyAlgos::L1GctGlobalEnergyAlgos() has been incorrectly constructed!\n"
88  << "Plus Wheel Jet Fpga pointer has not been set!\n";
89  }
90  }
91  if (m_minusWheelJetFpga == nullptr) {
92  m_setupOk = false;
93  if (m_verbose) {
94  edm::LogWarning("L1GctSetupError")
95  << "L1GctGlobalEnergyAlgos::L1GctGlobalEnergyAlgos() has been incorrectly constructed!\n"
96  << "Minus Wheel Jet Fpga pointer has not been set!\n";
97  }
98  }
99 
100  // Set the scale for missing Et and missing Ht
101  // Missing Et has one extra bit of precision added in the (Ex, Ey)
102  // conversion step, so we reverse this here.
104  // Missing Ht has its own bit shifting before the LUT, so we don't
105  // need any extra
107 
108  // Setup to perform the Hf sums
109  m_hfSumProcessor = new L1GctGlobalHfSumAlgos(wheelJetFpga);
110 
112 
113  if (!m_setupOk && m_verbose) {
114  edm::LogError("L1GctSetupError") << "L1GctGlobalEnergyAlgos has been incorrectly constructed";
115  }
116 }
117 
119  if (m_hfSumProcessor != nullptr) {
120  delete m_hfSumProcessor;
121  }
122 }
123 
124 ostream& operator<<(ostream& os, const L1GctGlobalEnergyAlgos& fpga) {
125  os << "===L1GctGlobalEnergyAlgos===" << endl;
126  os << "WheelEnergyFpga* minus = " << fpga.m_minusWheelFpga << endl;
127  os << "WheelEnergyFpga* plus = " << fpga.m_plusWheelFpga << endl;
128  os << "WheelJetFpga* minus = " << fpga.m_minusWheelJetFpga << endl;
129  os << "WheelJetFpga* plus = " << fpga.m_plusWheelJetFpga << endl;
130  os << "Inputs from Plus wheel:" << endl;
131  os << " Ex " << fpga.m_exValPlusWheel << "\n Ey " << fpga.m_eyValPlusWheel << endl;
132  os << " Et " << fpga.m_etValPlusWheel << "\n Ht " << fpga.m_htValPlusWheel << endl;
133  os << "Inputs from Minus wheel:" << endl;
134  os << " Ex " << fpga.m_exVlMinusWheel << "\n Ey " << fpga.m_eyVlMinusWheel << endl;
135  os << " Et " << fpga.m_etVlMinusWheel << "\n Ht " << fpga.m_htVlMinusWheel << endl;
136  int bxZero = -fpga.bxMin();
137  if (bxZero >= 0 && bxZero < fpga.numOfBx()) {
138  os << "Output Etmiss " << fpga.m_outputEtMiss.contents.at(bxZero) << endl;
139  os << "Output Etmiss Phi " << fpga.m_outputEtMissPhi.contents.at(bxZero) << endl;
140  os << "Output EtSum " << fpga.m_outputEtSum.contents.at(bxZero) << endl;
141  os << "Output EtHad " << fpga.m_outputEtHad.contents.at(bxZero) << endl;
142  }
143  os << *fpga.m_hfSumProcessor;
144 
145  return os;
146 }
147 
152 }
153 
155 void L1GctGlobalEnergyAlgos::setBxRange(const int firstBx, const int numberOfBx) {
156  L1GctProcessor::setBxRange(firstBx, numberOfBx);
157  m_hfSumProcessor->setBxRange(firstBx, numberOfBx);
158 }
159 
163 }
164 
178 }
179 
181  m_outputEtMiss.reset(numOfBx());
182  m_outputEtMissPhi.reset(numOfBx());
183  m_outputEtSum.reset(numOfBx());
184  m_outputEtHad.reset(numOfBx());
185  m_outputHtMiss.reset(numOfBx());
186  m_outputHtMissPhi.reset(numOfBx());
187 
188  m_exValPlusPipe.reset(numOfBx());
189  m_eyValPlusPipe.reset(numOfBx());
190  m_etValPlusPipe.reset(numOfBx());
191  m_htValPlusPipe.reset(numOfBx());
192  m_hxValPlusPipe.reset(numOfBx());
193  m_hyValPlusPipe.reset(numOfBx());
194 
195  m_exVlMinusPipe.reset(numOfBx());
196  m_eyVlMinusPipe.reset(numOfBx());
197  m_etVlMinusPipe.reset(numOfBx());
198  m_htVlMinusPipe.reset(numOfBx());
199  m_hxVlMinusPipe.reset(numOfBx());
200  m_hyVlMinusPipe.reset(numOfBx());
201 }
202 
204  if (m_setupOk) {
205  // input from WheelEnergyFpgas
212 
219 
221  }
222 }
223 
224 // process the event
226  if (m_setupOk) {
227  // Store the inputs in pipelines
234 
241 
242  // Process to produce the outputs
243  etComponentType ExSum, EySum;
244  etmiss_vec EtMissing, HtMissing;
245 
246  //
247  //-----------------------------------------------------------------------------
248  // Form the Ex and Ey sums
251  // Execute the missing Et algorithm
252  // Rotate by pi to evaluate MISSING Et.
253  // Implement this in the same way as the firmware
254  m_metComponents.setComponents(ExSum, EySum);
255  EtMissing = m_metComponents.metVector();
256  if (EtMissing.phi.value() > 35) {
257  EtMissing.phi.setValue(EtMissing.phi.value() - 36);
258  } else {
259  EtMissing.phi.setValue(EtMissing.phi.value() + 36);
260  }
261  if (EtMissing.mag.value() == etMissMaxValue)
262  EtMissing.mag.setOverFlow(true);
263 
264  m_outputEtMiss.store(EtMissing.mag, bxRel());
265  m_outputEtMissPhi.store(EtMissing.phi, bxRel());
266 
267  //
268  //-----------------------------------------------------------------------------
269  // Form the Hx and Hy sums
272  // Execute the missing Et algorithm
273  // Implement this in the same way as the firmware
274  m_mhtComponents.setComponents(ExSum, EySum);
275  HtMissing = m_mhtComponents.metVector();
276  if (HtMissing.phi.value() > 8) {
277  HtMissing.phi.setValue(HtMissing.phi.value() - 9);
278  } else {
279  HtMissing.phi.setValue(HtMissing.phi.value() + 9);
280  }
281 
282  // Store 7 bits of magnitude and 5 bits of phi angle.
283  static const unsigned MAX_HT_VALUE = 0x7f;
284  static const unsigned PHI_HT_MASK = 0x1f;
285  if ((HtMissing.mag.value() > MAX_HT_VALUE) || (HtMissing.mag.overFlow())) {
286  HtMissing.mag.setValue(MAX_HT_VALUE);
287  }
288  HtMissing.phi.setValue(HtMissing.phi.value() & PHI_HT_MASK);
289  m_outputHtMiss.store(HtMissing.mag, bxRel());
290  m_outputHtMissPhi.store(HtMissing.phi, bxRel());
291 
292  //
293  //-----------------------------------------------------------------------------
294  // Form the Et and Ht sums
296  if (ettTemp.overFlow())
297  ettTemp.setValue(etTotalMaxValue);
299  if (httTemp.overFlow())
300  httTemp.setValue(etHadMaxValue);
301  m_outputEtSum.store(ettTemp, bxRel());
302  m_outputEtHad.store(httTemp, bxRel());
303 
305  }
306 }
307 
308 //----------------------------------------------------------------------------------------------
309 // load setup info (for HtMiss calculation)
310 //
312  // The jetFinders add an LSB when converting to x and y components,
313  // so the scale lsb for htx and hty is half the lsb for htt.
315 }
316 
318 
319 //----------------------------------------------------------------------------------------------
320 // check setup
321 //
323  return (m_setupOk && m_hfSumProcessor != nullptr && m_hfSumProcessor->setupOk());
324 }
325 
326 //----------------------------------------------------------------------------------------------
327 // set input data per wheel: x component of missing Et
328 //
329 void L1GctGlobalEnergyAlgos::setInputWheelEx(unsigned wheel, int energy, bool overflow) {
330  if (wheel == 0) {
332  m_exValPlusWheel.setOverFlow(overflow);
333  } else if (wheel == 1) {
335  m_exVlMinusWheel.setOverFlow(overflow);
336  }
337 }
338 
339 //----------------------------------------------------------------------------------------------
340 // set input data per wheel: y component of missing Et
341 //
342 void L1GctGlobalEnergyAlgos::setInputWheelEy(unsigned wheel, int energy, bool overflow) {
343  if (wheel == 0) {
345  m_eyValPlusWheel.setOverFlow(overflow);
346  } else if (wheel == 1) {
348  m_eyVlMinusWheel.setOverFlow(overflow);
349  }
350 }
351 
352 //----------------------------------------------------------------------------------------------
353 // set input data per wheel: scalar sum of Et
354 //
355 void L1GctGlobalEnergyAlgos::setInputWheelEt(unsigned wheel, unsigned energy, bool overflow) {
356  if (wheel == 0) {
358  m_etValPlusWheel.setOverFlow(overflow);
359  } else if (wheel == 1) {
361  m_etVlMinusWheel.setOverFlow(overflow);
362  }
363 }
364 
365 //----------------------------------------------------------------------------------------------
366 // set input data per wheel: sum of transverse energy in jets (Ht)
367 //
368 void L1GctGlobalEnergyAlgos::setInputWheelHt(unsigned wheel, unsigned energy, bool overflow) {
369  if (wheel == 0) {
371  m_htValPlusWheel.setOverFlow(overflow);
372  } else if (wheel == 1) {
374  m_htVlMinusWheel.setOverFlow(overflow);
375  }
376 }
377 
378 //----------------------------------------------------------------------------------------------
379 // set input data per wheel: x component of Ht
380 //
381 void L1GctGlobalEnergyAlgos::setInputWheelHx(unsigned wheel, unsigned energy, bool overflow) {
382  if (wheel == 0) {
384  m_hxValPlusWheel.setOverFlow(overflow);
385  } else if (wheel == 1) {
387  m_hxVlMinusWheel.setOverFlow(overflow);
388  }
389 }
390 
391 //----------------------------------------------------------------------------------------------
392 // set input data per wheel: y component of Ht
393 //
394 void L1GctGlobalEnergyAlgos::setInputWheelHy(unsigned wheel, unsigned energy, bool overflow) {
395  if (wheel == 0) {
397  m_hyValPlusWheel.setOverFlow(overflow);
398  } else if (wheel == 1) {
400  m_hyVlMinusWheel.setOverFlow(overflow);
401  }
402 }
L1GctGlobalEnergyAlgos::resetPipelines
void resetPipelines() override
Definition: L1GctGlobalEnergyAlgos.cc:180
L1GctGlobalEnergyAlgos::m_setupOk
bool m_setupOk
Definition: L1GctGlobalEnergyAlgos.h:204
L1GctGlobalEnergyAlgos::setInputWheelEt
void setInputWheelEt(unsigned wheel, unsigned energy, bool overflow)
set input Et value per wheel (0 or 1); not used in normal operation
Definition: L1GctGlobalEnergyAlgos.cc:355
L1GctGlobalEnergyAlgos::m_hyVlMinusPipe
Pipeline< etComponentType > m_hyVlMinusPipe
Definition: L1GctGlobalEnergyAlgos.h:194
L1GctGlobalEnergyAlgos::m_metComponents
L1GctMet m_metComponents
Definition: L1GctGlobalEnergyAlgos.h:163
L1GctUnsignedInt::setValue
void setValue(unsigned value)
Set value from unsigned.
Definition: L1GctUnsignedInt.h:111
L1GctGlobalEnergyAlgos::m_hxVlMinusPipe
Pipeline< etComponentType > m_hxVlMinusPipe
Definition: L1GctGlobalEnergyAlgos.h:193
L1GctGlobalEnergyAlgos::reset
void reset()
clear internal buffers
Definition: L1GctGlobalEnergyAlgos.cc:149
MessageLogger.h
L1GctMet::setComponents
void setComponents(const unsigned ex, const unsigned ey)
Definition: L1GctMet.h:41
L1GctGlobalHfSumAlgos::fetchInput
void fetchInput() override
get input data from sources; this is the standard way to provide input
Definition: L1GctGlobalHfSumAlgos.cc:104
L1GctGlobalEnergyAlgos::setInputWheelEx
void setInputWheelEx(unsigned wheel, int energy, bool overflow)
set input Ex value per wheel (0 or 1); not used in normal operation
Definition: L1GctGlobalEnergyAlgos.cc:329
L1GctGlobalHfSumAlgos
Emulates the GCT summing and packing of Hf Et sums and tower-over-threshold counts.
Definition: L1GctGlobalHfSumAlgos.h:27
L1GctProcessor::setNextBx
void setNextBx(const int bxnum)
clear input data buffers and process a new bunch crossing
Definition: L1GctProcessor.h:51
L1GctWheelEnergyFpga::getOutputEt
etTotalType getOutputEt() const
get output Et value
Definition: L1GctWheelEnergyFpga.h:79
L1GctGlobalEnergyAlgos::m_etVlMinusPipe
Pipeline< etTotalType > m_etVlMinusPipe
Definition: L1GctGlobalEnergyAlgos.h:191
L1GctGlobalHfSumAlgos::setupOk
bool setupOk() const
check setup
Definition: L1GctGlobalHfSumAlgos.h:65
L1GctGlobalEnergyAlgos
Emulates the GCT global energy algorithms.
Definition: L1GctGlobalEnergyAlgos.h:33
L1GctGlobalHfSumAlgos.h
L1GctGlobalEnergyAlgos::m_etValPlusWheel
etTotalType m_etValPlusWheel
Definition: L1GctGlobalEnergyAlgos.h:169
L1GctProcessor::numOfBx
int numOfBx() const
Definition: L1GctProcessor.h:79
L1GctGlobalEnergyAlgos::setJetFinderParams
void setJetFinderParams(const L1GctJetFinderParams *const jfpars)
Definition: L1GctGlobalEnergyAlgos.cc:311
L1GctProcessor::bxRel
int bxRel() const
Definition: L1GctProcessor.h:81
L1GctGlobalEnergyAlgos::m_exValPlusWheel
etComponentType m_exValPlusWheel
Definition: L1GctGlobalEnergyAlgos.h:167
L1GctProcessor::setBxRange
void setBxRange(const int firstBx, const int numberOfBx)
define the bunch crossing range to process
Definition: L1GctProcessor.h:44
L1GctUnsignedInt::value
unsigned value() const
access value as unsigned
Definition: L1GctUnsignedInt.h:53
L1GctGlobalEnergyAlgos::etMissMaxValue
Definition: L1GctGlobalEnergyAlgos.h:45
L1GctGlobalEnergyAlgos::m_exValPlusPipe
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Definition: L1GctGlobalEnergyAlgos.h:182
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double getHtLsbGeV() const
Definition: L1GctJetFinderParams.h:36
L1GctGlobalEnergyAlgos::fetchInput
void fetchInput() override
get input data from sources
Definition: L1GctGlobalEnergyAlgos.cc:203
L1GctMet::setBitShift
void setBitShift(const unsigned nbits)
Definition: L1GctMet.h:62
L1GctGlobalEnergyAlgos::m_outputHtMissPhi
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Definition: L1GctGlobalEnergyAlgos.h:202
L1GctJetFinderParams.h
L1GctGlobalEnergyAlgos::m_hfSumProcessor
L1GctGlobalHfSumAlgos * m_hfSumProcessor
Definition: L1GctGlobalEnergyAlgos.h:160
L1GctGlobalEnergyAlgos::m_outputHtMiss
Pipeline< etMissType > m_outputHtMiss
Definition: L1GctGlobalEnergyAlgos.h:201
L1GctGlobalEnergyAlgos::m_eyVlMinusWheel
etComponentType m_eyVlMinusWheel
Definition: L1GctGlobalEnergyAlgos.h:175
L1GctWheelEnergyFpga::getOutputHt
etHadType getOutputHt() const
get the output Ht
Definition: L1GctWheelEnergyFpga.h:81
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Definition: simKBmtfDigis_cfi.py:55
L1GctGlobalEnergyAlgos.h
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Definition: L1GctGlobalEnergyAlgos.h:190
L1GctWheelEnergyFpga.h
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set value from signed int
Definition: L1GctTwosComplement.h:145
L1GctGlobalEnergyAlgos::m_outputEtHad
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Definition: L1GctGlobalEnergyAlgos.h:200
L1GctGlobalEnergyAlgos::m_hxValPlusWheel
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Definition: L1GctGlobalEnergyAlgos.h:171
L1GctGlobalEnergyAlgos::m_minusWheelJetFpga
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Definition: L1GctGlobalEnergyAlgos.h:157
operator<<
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Definition: L1GctGlobalEnergyAlgos.cc:124
L1GctGlobalEnergyAlgos::setInputWheelHy
void setInputWheelHy(unsigned wheel, unsigned energy, bool overflow)
Definition: L1GctGlobalEnergyAlgos.cc:394
L1GctGlobalEnergyAlgos::L1GctGlobalEnergyAlgos
L1GctGlobalEnergyAlgos(const std::vector< L1GctWheelEnergyFpga * > &WheelFpga, const std::vector< L1GctWheelJetFpga * > &WheelJetFpga)
Constructor needs the Wheel card Fpgas set up first.
Definition: L1GctGlobalEnergyAlgos.cc:16
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Definition: L1GctGlobalEnergyAlgos.h:177
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Definition: HCALHighEnergyHPDFilter_cfi.py:5
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Definition: L1GctGlobalEnergyAlgos.h:155
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complete reset of processor
Definition: L1GctProcessor.h:28
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Definition: L1GctMet.h:29
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Definition: L1GctGlobalEnergyAlgos.h:170
L1GctGlobalEnergyAlgos::m_plusWheelFpga
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Definition: L1GctGlobalEnergyAlgos.h:154
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Definition: L1GctGlobalEnergyAlgos.h:187
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Definition: L1GctMet.h:28
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Definition: L1GctJetFinderParams.h:10
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Definition: Scenarios_cff.py:2186
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Definition: L1GctGlobalEnergyAlgos.h:156
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Definition: L1GctGlobalEnergyAlgos.h:184
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Definition: L1GctGlobalEnergyAlgos.h:176
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Definition: MessageLogger.h:183
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Definition: L1GctGlobalEnergyAlgos.h:164
L1GctGlobalEnergyAlgos::setupOk
bool setupOk() const
check setup
Definition: L1GctGlobalEnergyAlgos.cc:322
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Definition: L1GctGlobalEnergyAlgos.h:198
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Definition: SiStripPayloadInspectorHelper.h:169
L1GctGlobalEnergyAlgos::setInputWheelEy
void setInputWheelEy(unsigned wheel, int energy, bool overflow)
set input Ey value per wheel (0 or 1); not used in normal operation
Definition: L1GctGlobalEnergyAlgos.cc:342
L1GctProcessor::m_verbose
bool m_verbose
Flag to control output messages.
Definition: L1GctProcessor.h:109
L1GctGlobalEnergyAlgos::etTotalMaxValue
Definition: L1GctGlobalEnergyAlgos.h:43
L1GctGlobalEnergyAlgos::setInputWheelHx
void setInputWheelHx(unsigned wheel, unsigned energy, bool overflow)
set input Ht component values per wheel (0 or 1); not used in normal operation
Definition: L1GctGlobalEnergyAlgos.cc:381
L1GctGlobalEnergyAlgos::setHtMissScale
void setHtMissScale(const L1CaloEtScale *const scale)
Definition: L1GctGlobalEnergyAlgos.cc:317
L1GctProcessor::bxMin
int bxMin() const
Support for multiple beam crossing operation.
Definition: L1GctProcessor.h:77
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Definition: makeMuonMisalignmentScenario.py:319
L1GctGlobalEnergyAlgos::m_exVlMinusPipe
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Definition: L1GctGlobalEnergyAlgos.h:189
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Definition: L1CaloEtScale.h:29
L1GctGlobalEnergyAlgos::setBxRange
void setBxRange(const int firstBx, const int numberOfBx)
define the bunch crossing range to process
Definition: L1GctGlobalEnergyAlgos.cc:155
L1GctGlobalEnergyAlgos::m_htValPlusPipe
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Definition: L1GctGlobalEnergyAlgos.h:185
L1GctGlobalEnergyAlgos::m_hyValPlusWheel
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Definition: L1GctGlobalEnergyAlgos.h:172
L1GctGlobalHfSumAlgos::process
void process() override
process the data, fill output buffers
Definition: L1GctGlobalHfSumAlgos.cc:112
L1GctGlobalEnergyAlgos::setInputWheelHt
void setInputWheelHt(unsigned wheel, unsigned energy, bool overflow)
set input Ht value per wheel (0 or 1); not used in normal operation
Definition: L1GctGlobalEnergyAlgos.cc:368
L1GctGlobalEnergyAlgos::m_eyValPlusPipe
Pipeline< etComponentType > m_eyValPlusPipe
Definition: L1GctGlobalEnergyAlgos.h:183
L1GctMet::setEtComponentLsb
void setEtComponentLsb(const double lsb)
Definition: L1GctMet.cc:304
L1GctUnsignedInt< L1GctEtTotal::kEtTotalNBits >
L1GctWheelEnergyFpga::getOutputEy
etComponentType getOutputEy() const
get output Ey value
Definition: L1GctWheelEnergyFpga.h:77
L1GctGlobalEnergyAlgos::resetProcessor
void resetProcessor() override
Separate reset methods for the processor itself and any data stored in pipelines.
Definition: L1GctGlobalEnergyAlgos.cc:165
L1GctWheelEnergyFpga::getOutputEx
etComponentType getOutputEx() const
get output Ex value
Definition: L1GctWheelEnergyFpga.h:75
L1GctMet
Stores Level-1 missing Et in (Ex, Ey) form, allowing it to be retrieved as (magnitude,...
Definition: L1GctMet.h:20
L1GctGlobalEnergyAlgos::m_exVlMinusWheel
etComponentType m_exVlMinusWheel
Definition: L1GctGlobalEnergyAlgos.h:174
L1GctUnsignedInt::reset
void reset()
reset value and overflow to zero
Definition: L1GctUnsignedInt.h:41
L1GctWheelJetFpga::getOutputHx
htComponentType getOutputHx() const
get the output Ht components
Definition: L1GctWheelJetFpga.h:82
L1GctUnsignedInt::overFlow
bool overFlow() const
access overflow
Definition: L1GctUnsignedInt.h:56
L1GctGlobalEnergyAlgos::m_outputEtMiss
Pipeline< etMissType > m_outputEtMiss
Definition: L1GctGlobalEnergyAlgos.h:197
L1GctUnsignedInt::setOverFlow
void setOverFlow(bool oflow)
set the overflow bit
Definition: L1GctUnsignedInt.h:50
L1GctGlobalEnergyAlgos::process
void process() override
process the data, fill output buffers
Definition: L1GctGlobalEnergyAlgos.cc:225
L1GctWheelJetFpga::getOutputHy
htComponentType getOutputHy() const
Definition: L1GctWheelJetFpga.h:83
L1GctGlobalEnergyAlgos::~L1GctGlobalEnergyAlgos
~L1GctGlobalEnergyAlgos() override
Destructor.
Definition: L1GctGlobalEnergyAlgos.cc:118
L1GctMet::etmiss_vec::phi
etMissPhiType phi
Definition: L1GctMet.h:30
L1GctGlobalEnergyAlgos::m_htVlMinusPipe
Pipeline< etHadType > m_htVlMinusPipe
Definition: L1GctGlobalEnergyAlgos.h:192
L1GctGlobalEnergyAlgos::setNextBx
void setNextBx(const int bx)
partially clear buffers
Definition: L1GctGlobalEnergyAlgos.cc:160
L1GctMet::setEtScale
void setEtScale(const L1CaloEtScale *const fn)
Definition: L1GctMet.cc:302
L1GctTwosComplement::setOverFlow
void setOverFlow(bool oflow)
set the overflow bit
Definition: L1GctTwosComplement.h:53
L1GctGlobalEnergyAlgos::m_hyVlMinusWheel
etComponentType m_hyVlMinusWheel
Definition: L1GctGlobalEnergyAlgos.h:179
L1GctProcessor
ABC for a GCT trigger data processing unit.
Definition: L1GctProcessor.h:22
L1GctGlobalEnergyAlgos::etHadMaxValue
Definition: L1GctGlobalEnergyAlgos.h:44
L1GctGlobalEnergyAlgos::m_hxVlMinusWheel
etComponentType m_hxVlMinusWheel
Definition: L1GctGlobalEnergyAlgos.h:178
L1GctGlobalEnergyAlgos::m_outputEtSum
Pipeline< etTotalType > m_outputEtSum
Definition: L1GctGlobalEnergyAlgos.h:199
L1GctGlobalEnergyAlgos::m_eyValPlusWheel
etComponentType m_eyValPlusWheel
Definition: L1GctGlobalEnergyAlgos.h:168
L1GctGlobalEnergyAlgos::m_hxValPlusPipe
Pipeline< etComponentType > m_hxValPlusPipe
Definition: L1GctGlobalEnergyAlgos.h:186
L1GctMet::metVector
etmiss_vec metVector() const
Definition: L1GctMet.cc:16
L1GctTwosComplement::reset
void reset()
reset value and overflow to zero
Definition: L1GctTwosComplement.h:132