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ThroughputService.cc
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1 // C++ headers
2 #include <algorithm>
3 #include <chrono>
4 #include <ctime>
5 
6 // {fmt} headers
7 #include <fmt/printf.h>
8 
9 // CMSSW headers
14 #include "ThroughputService.h"
15 
16 // describe the module's configuration
19  desc.addUntracked<uint32_t>("eventRange", 10000)->setComment("Preallocate a buffer for N events");
20  desc.addUntracked<uint32_t>("eventResolution", 1)->setComment("Sample the processing time every N events");
21  desc.addUntracked<bool>("printEventSummary", false);
22  desc.ifValue(edm::ParameterDescription<bool>("enableDQM", true, false), // "false" means untracked
23  // parameters if "enableDQM" is "true"
24  true >> (edm::ParameterDescription<bool>("dqmPathByProcesses", false, false) and
25  edm::ParameterDescription<std::string>("dqmPath", "HLT/Throughput", false) and
26  edm::ParameterDescription<double>("timeRange", 60000.0, false) and
27  edm::ParameterDescription<double>("timeResolution", 10.0, false)) or
28  // parameters if "enableDQM" is "false"
29  false >> edm::EmptyGroupDescription());
30  descriptions.add("ThroughputService", desc);
31 }
32 
34  : // startup time
35  m_startup(std::chrono::system_clock::now()),
36  // configuration
37  m_resolution(config.getUntrackedParameter<uint32_t>("eventResolution")),
38  m_counter(0),
39  m_events(config.getUntrackedParameter<uint32_t>("eventRange") / m_resolution), // allocate initial size
40  m_print_event_summary(config.getUntrackedParameter<bool>("printEventSummary")),
41  m_enable_dqm(config.getUntrackedParameter<bool>("enableDQM")),
42  m_dqm_bynproc(m_enable_dqm ? config.getUntrackedParameter<bool>("dqmPathByProcesses") : false),
43  m_dqm_path(m_enable_dqm ? config.getUntrackedParameter<std::string>("dqmPath") : ""),
44  m_time_range(m_enable_dqm ? config.getUntrackedParameter<double>("timeRange") : 0.),
45  m_time_resolution(m_enable_dqm ? config.getUntrackedParameter<double>("timeResolution") : 0.) {
46  m_events.clear(); // erases all elements, but does not free internal arrays
51 }
52 
54  auto concurrent_streams = bounds.maxNumberOfStreams();
55  auto concurrent_threads = bounds.maxNumberOfThreads();
56 
58  m_dqm_path += fmt::sprintf(
59  "/Running on %s with %d streams on %d threads", processor_model, concurrent_streams, concurrent_threads);
60 }
61 
63  // if the DQMStore is available, book the DQM histograms
64  // check that the DQMStore service is available
65  if (m_enable_dqm and not edm::Service<dqm::legacy::DQMStore>().isAvailable()) {
66  // the DQMStore is not available, disable all DQM plots
67  m_enable_dqm = false;
68  edm::LogWarning("ThroughputService") << "The DQMStore is not avalable, the DQM plots will not be generated";
69  }
70 
71  if (m_enable_dqm) {
72  std::string y_axis_title = fmt::sprintf("events / %g s", m_time_resolution);
73  unsigned int bins = std::round(m_time_range / m_time_resolution);
74  double range = bins * m_time_resolution;
75 
76  // define a callback that can book the histograms
77  auto bookTransactionCallback = [&, this](DQMStore::IBooker& booker, DQMStore::IGetter&) {
79  m_sourced_events = booker.book1D("throughput_sourced", "Throughput (sourced events)", bins, 0., range);
80  m_sourced_events->setXTitle("time [s]");
81  m_sourced_events->setYTitle(y_axis_title);
82  m_retired_events = booker.book1D("throughput_retired", "Throughput (retired events)", bins, 0., range);
83  m_retired_events->setXTitle("time [s]");
84  m_retired_events->setYTitle(y_axis_title);
85  };
86 
87  // book MonitorElement's for this run
88  edm::Service<DQMStore>()->meBookerGetter(bookTransactionCallback);
89  } else {
90  m_sourced_events = nullptr;
91  m_retired_events = nullptr;
92  }
93 }
94 
97  auto interval = std::chrono::duration_cast<std::chrono::duration<double>>(timestamp - m_startup).count();
98  if (m_enable_dqm) {
100  }
101 }
102 
105  auto interval = std::chrono::duration_cast<std::chrono::duration<double>>(timestamp - m_startup).count();
106  if (m_enable_dqm) {
108  }
109  ++m_counter;
110  if (m_counter % m_resolution == 0) {
111  m_events.push_back(timestamp);
112  }
113 }
114 
116  if (m_counter < 2 * m_resolution) {
117  // not enough mesurements to estimate the throughput
118  edm::LogWarning("ThroughputService") << "Not enough events to measure the throughput with a resolution of "
119  << m_resolution << " events";
120  return;
121  }
122 
123  edm::LogInfo info("ThroughputService");
124 
125  if (m_print_event_summary) {
126  for (uint32_t i = 0; i < m_events.size(); ++i) {
127  info << std::setw(8) << (i + 1) * m_resolution << ", " << std::setprecision(6) << edm::TimeOfDay(m_events[i])
128  << "\n";
129  }
130  info << '\n';
131  }
132 
133  // measure the time to process each block of m_resolution events
134  uint32_t blocks = m_counter / m_resolution - 1;
135  std::vector<double> delta(blocks);
136  for (uint32_t i = 0; i < blocks; ++i) {
137  delta[i] = std::chrono::duration_cast<std::chrono::duration<double>>(m_events[i + 1] - m_events[i]).count();
138  }
139  // measure the average and standard deviation of the time to process m_resolution
140  double time_avg = TMath::Mean(delta.begin(), delta.begin() + blocks);
141  double time_dev = TMath::StdDev(delta.begin(), delta.begin() + blocks);
142  // compute the throughput and its standard deviation across the job
143  double throughput_avg = double(m_resolution) / time_avg;
144  double throughput_dev = double(m_resolution) * time_dev / time_avg / time_avg;
145 
146  info << "Average throughput: " << throughput_avg << " ± " << throughput_dev << " ev/s";
147 }
148 
149 // declare ThroughputService as a framework Service
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Definition: ThroughputService.h:63
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Definition: ThroughputService.h:62
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Definition: ThroughputService.h:56
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