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SiStripEventSummary.cc
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1 
5 #include <iostream>
6 #include <iomanip>
7 
8 using namespace sistrip;
9 
10 // -----------------------------------------------------------------------------
11 //
13  valid_(true),
14  triggerFed_(0),
15  runType_(sistrip::UNDEFINED_RUN_TYPE),
16  event_(0),
17  bx_(0),
18  spillNumber_(0),
19  nDataSenders_(0),
20  fedReadoutMode_(sistrip::UNDEFINED_FED_READOUT_MODE),
21  apvReadoutMode_(sistrip::UNDEFINED_APV_READOUT_MODE),
22  apveAddress_(0),
23  nApvsInSync_(0),
24  nApvsOutOfSync_(0),
25  nApvsErrors_(0),
26  params_(5,0)
27 {;}
28 
29 // -----------------------------------------------------------------------------
30 //
31 void SiStripEventSummary::commissioningInfo( const uint32_t* const buffer,
32  const uint32_t& event ) {
33 
34  // Set RunType
35  uint16_t run = static_cast<uint16_t>( buffer[10] & 0xFFFF );
37 
38  // Set spill number
39  spillNumber_ = buffer[0];
40 
41  // Set number of DataSenders
42  nDataSenders_ = buffer[20];
43 
44  // Set FED readout mode
45  if ( buffer[15] == 0 ) { fedReadoutMode_ = sistrip::FED_SCOPE_MODE; }
46  else if ( buffer[15] == 1 ) { fedReadoutMode_ = sistrip::FED_VIRGIN_RAW; }
47  else if ( buffer[15] == 2 ) { fedReadoutMode_ = sistrip::FED_PROC_RAW; }
48  else if ( buffer[15] == 3 ) { fedReadoutMode_ = sistrip::FED_ZERO_SUPPR; }
49  else if ( buffer[15] == 4 ) { fedReadoutMode_ = sistrip::FED_ZERO_SUPPR_LITE; }
51 
52  // Set hardware parameters
58 
59  params_[0] = buffer[11]; // latency
60  params_[1] = buffer[12]; // cal_chan
61  params_[2] = buffer[13]; // cal_sel
62  params_[3] = buffer[15]; // isha
63  params_[4] = buffer[16]; // vfs
64 
65  } else if ( runType_ == sistrip::OPTO_SCAN ) {
66 
67  params_[0] = buffer[11]; // opto gain
68  params_[1] = buffer[12]; // opto bias
69 
70  } else if ( runType_ == sistrip::APV_TIMING ||
72  params_[0] = buffer[11]; // pll coarse delay
73  params_[1] = buffer[12]; // pll fine delay
74  params_[2] = buffer[13]; // ttcrx delay
75  } else if ( runType_ == sistrip::FINE_DELAY || //@@ layer
78  params_[0] = buffer[11]; // pll coarse delay
79  params_[1] = buffer[12]; // pll fine delay
80  params_[2] = buffer[13]; // ttcrx delay
81  params_[3] = buffer[14]; // layer (private format: DDSSLLLL, det, side, layer)
82 
83  } else if ( runType_ == sistrip::FAST_CABLING ) {
84 
85  params_[0] = buffer[11]; // bin number
86  params_[1] = buffer[12]; // fec instance
87  params_[2] = buffer[13]; // fec ip
88  params_[3] = buffer[14]; // dcu hard id
89 
90  } else if ( runType_ == sistrip::FED_CABLING ||
92 
94 
95  uint16_t ii = 0;
96  bool found = false;
97  while ( !found && ii < 20 ) {
98  uint32_t dcu = buffer[21+3*ii];
99  uint32_t key = buffer[21+3*ii+1];
100  uint32_t evt = buffer[21+3*ii+2];
101  if ( evt == event ) {
102  params_[0] = key; // device id
103  params_[1] = 0; // process id
104  params_[2] = 0; // process ip
105  params_[3] = dcu; // dcu hard id
106  found = true;
107  }
108  ii++;
109  }
110  if ( !found ) {
111  if ( edm::isDebugEnabled() ) {
112  std::stringstream ss;
113  ss << "[SiStripEventSummary::" << __func__ << "]"
114  << " Did not find DeviceId/DCUid for event "
115  << event << "!";
116  edm::LogWarning(mlDigis_) << ss.str();
117  }
118  params_[0] = 0;
119  params_[1] = 0;
120  params_[2] = 0;
121  params_[3] = 0;
122  } else {
123  if ( edm::isDebugEnabled() ) {
124  std::stringstream ss;
125  ss << "[SiStripEventSummary::" << __func__ << "]"
126  << " Found DeviceId/DCUid for event "
127  << event << ": 0x"
128  << std::hex << std::setw(8) << std::setfill('0') << params_[0] << std::dec
129  << "/0x"
130  << std::hex << std::setw(8) << std::setfill('0') << params_[3] << std::dec;
131  LogTrace(mlDigis_) << ss.str();
132  }
133  }
134 
135  } else {
136 
137  params_[0] = buffer[11]; // device id
138  params_[1] = buffer[12]; // process id
139  params_[2] = buffer[13]; // process ip
140  params_[3] = buffer[14]; // dcu hard id
141 
142  }
143 
144  } else if ( runType_ == sistrip::VPSP_SCAN ) {
145 
146  params_[0] = buffer[11]; // vpsp value
147  params_[1] = buffer[12]; // ccu channel
148 
149  } else if ( runType_ == sistrip::DAQ_SCOPE_MODE ) {
150 
151  // nothing interesting!
152 
153  } else if ( runType_ == sistrip::PHYSICS ||
156 
157  //@@ do anything?...
158 
159  } else {
160 
161  if ( edm::isDebugEnabled() ) {
163  << "[SiStripEventSummary::" << __func__ << "]"
164  << " Unexpected commissioning task: "
165  << runType_;
166  }
167 
168  }
169 
170 }
171 
172 // -----------------------------------------------------------------------------
173 //
174 
175 // -----------------------------------------------------------------------------
176 //
177 void SiStripEventSummary::commissioningInfo( const uint32_t& daq1,
178  const uint32_t& daq2 ) {
179 
180  // Extract if commissioning info are valid or not
181  uint16_t temp = static_cast<uint16_t>( (daq1>>8)&0x3 );
182  if ( temp == uint16_t(1) ) { valid_ = true; }
183  else if ( temp == uint16_t(2) ) { valid_ = false; }
184  else if ( temp == uint16_t(3) &&
185  daq1 == sistrip::invalid32_ ) {
186  if ( edm::isDebugEnabled() ) {
188  << "[SiStripEventSummary::" << __func__ << "]"
189  << " DAQ register contents set to invalid: 0x"
190  << std::hex
191  << std::setw(8) << std::setfill('0') << daq1
192  << std::dec;
193  }
194  valid_ = false;
195  } else {
196  if ( edm::isDebugEnabled() ) {
198  << "[SiStripEventSummary::" << __func__ << "]"
199  << " Unexpected bit pattern set in DAQ1: 0x"
200  << std::hex
201  << std::setw(8) << std::setfill('0') << daq1
202  << std::dec;
203  }
204  valid_ = false;
205  }
206 
207  // Set RunType
208  uint16_t run = static_cast<uint16_t>( daq1&0xFF );
210 
211  // Set hardware parameters
212  if ( runType_ == sistrip::PHYSICS ) {
213  } else if ( runType_ == sistrip::PHYSICS_ZS ) {
214  } else if ( runType_ == sistrip::PEDESTALS ) {
215  } else if ( runType_ == sistrip::DAQ_SCOPE_MODE ) {
216  } else if ( runType_ == sistrip::CALIBRATION ) {
217  } else if ( runType_ == sistrip::CALIBRATION_DECO ) {
218  params_[0] = (daq2>>8)&0xFF; // latency
219  params_[1] = (daq2>>4)&0x0F; // cal_chan
220  params_[2] = (daq2>>0)&0x0F; // cal_sel
221  } else if ( runType_ == sistrip::CALIBRATION_SCAN ) {
222  params_[0] = (daq2>>8)&0xFF; // latency
223  params_[1] = (daq2>>4)&0x0F; // cal_chan
224  params_[2] = (daq2>>0)&0x0F; // cal_sel
225  } else if ( runType_ == sistrip::OPTO_SCAN ) {
226  params_[0] = (daq2>>8)&0xFF; // opto gain
227  params_[1] = (daq2>>0)&0xFF; // opto bias
228  } else if ( runType_ == sistrip::APV_TIMING ) {
229  params_[1] = (daq2>>0)&0xFF; // pll fine delay
230  } else if ( runType_ == sistrip::APV_LATENCY ) {
231  params_[0] = (daq2>>0)&0xFF; // latency
232  } else if ( runType_ == sistrip::FINE_DELAY_PLL ) {
233  } else if ( runType_ == sistrip::FINE_DELAY_TTC ) {
234  } else if ( runType_ == sistrip::FINE_DELAY ) { //@@ layer
235  params_[2] = (daq2>>0 )&0xFFFF; // ttcrx delay
236  params_[0] = params_[2]/25; // pll coarse delay
237  params_[1] = uint32_t((params_[2]%25)*24./25.); // pll fine delay
238  params_[3] = (daq2>>0)&0xFFFF0000; // layer (private format: DDSSLLLL (det, side, layer)
239  } else if ( runType_ == sistrip::FED_TIMING ) {
240  params_[1] = (daq2>>0)&0xFF; // pll fine delay
241  } else if ( runType_ == sistrip::VPSP_SCAN ) {
242  params_[0] = (daq2>>8)&0xFF; // vpsp value
243  params_[1] = (daq2>>0)&0xFF; // ccu channel
244  } else if ( runType_ == sistrip::FED_CABLING ) {
245  } else if ( runType_ == sistrip::QUITE_FAST_CABLING ) {
246  } else if ( runType_ == sistrip::FAST_CABLING ) {
247  params_[0] = (daq2>>0)&0xFF; // key
248  } else {
249  if ( edm::isDebugEnabled() ) {
251  << "[SiStripEventSummary::" << __func__ << "]"
252  << " Unexpected commissioning task: "
253  << runType_;
254  }
255  }
256 
257 }
258 
259 // -----------------------------------------------------------------------------
260 //
261 void SiStripEventSummary::fedReadoutMode( const uint16_t& mode ) {
262  if ( mode == 1 ) { fedReadoutMode_ = sistrip::FED_SCOPE_MODE; }
263  else if ( mode == 2 ) { fedReadoutMode_ = sistrip::FED_VIRGIN_RAW; }
264  else if ( mode == 6 ) { fedReadoutMode_ = sistrip::FED_PROC_RAW; }
265  else if ( mode == 10 ) { fedReadoutMode_ = sistrip::FED_ZERO_SUPPR; }
266  else if ( mode == 12 ) { fedReadoutMode_ = sistrip::FED_ZERO_SUPPR_LITE; }
268 }
269 
270 // -----------------------------------------------------------------------------
271 //
272 std::ostream& operator<< ( std::ostream& os, const SiStripEventSummary& input ) {
273  return os << "[SiStripEventSummary::" << __func__ << "]" << std::endl
274  << " isSet : " << std::boolalpha << input.isSet() << std::noboolalpha << std::endl
275  << " Trigger FED id : " << input.triggerFed() << std::endl
276  << " isValid : " << std::boolalpha << input.valid() << std::noboolalpha << std::endl
277  << " Run type : " << SiStripEnumsAndStrings::runType( input.runType() ) << std::endl
278  << " Event number : " << input.event() << std::endl
279  << " Bunch crossing : " << input.bx() << std::endl
280  << " FED readout mode : " << SiStripEnumsAndStrings::fedReadoutMode( input.fedReadoutMode() ) << std::endl
281  << " APV readout mode : " << SiStripEnumsAndStrings::apvReadoutMode( input.apvReadoutMode() ) << std::endl
282  << " Commissioning params : "
283  << input.params()[0] << ", "
284  << input.params()[1] << ", "
285  << input.params()[2] << ", "
286  << input.params()[3]
287  << std::endl;
288 }
sistrip::FedReadoutMode fedReadoutMode_
bool isDebugEnabled()
std::ostream & operator<<(std::ostream &os, const SiStripEventSummary &input)
static const uint32_t invalid32_
Definition: Constants.h:15
static const char mlDigis_[]
static const uint16_t valid_
Definition: Constants.h:17
sistrip classes
static std::string const input
Definition: EdmProvDump.cc:44
const std::vector< uint32_t > & params() const
static std::string runType(const sistrip::RunType &)
const sistrip::RunType & runType() const
static std::string apvReadoutMode(const sistrip::ApvReadoutMode &)
const uint32_t & bx() const
sistrip::RunType runType_
const uint32_t & event() const
void commissioningInfo(const uint32_t *const buffer, const uint32_t &event)
#define LogTrace(id)
ii
Definition: cuy.py:588
uint16_t triggerFed() const
const sistrip::FedReadoutMode & fedReadoutMode() const
void event_()
const sistrip::ApvReadoutMode & apvReadoutMode() const
std::vector< uint32_t > params_
Definition: event.py:1
static std::string fedReadoutMode(const sistrip::FedReadoutMode &)