/** * @file AddTaskFMDELoss.C * @author Christian Holm Christensen * @date Wed Mar 23 12:14:03 2011 * * @brief * * * @ingroup pwglf_forward_scripts_tasks */ /** * @defgroup pwglf_forward_eloss Energy Loss Fits * * Fitting the energy loss @f$\Delta/\Delta_{mip}@f$ spectra * * @ingroup pwglf_forward_topical */ /** * This is the macro to include the FMD energy fitter in a train. * * @param useTuple If true, create NTuple of hits * @param debug Debug level * * @return Newly created task * * @ingroup pwglf_forward_eloss */ AliAnalysisTask* AddTaskFMDMCTracks(Bool_t useTuple=false, UShort_t maxStrips=2, Int_t debug=0) { // --- Load libraries ---------------------------------------------- gROOT->LoadClass("AliFMDMCTrackELoss", "PWGLFforward2"); // --- Get analysis manager ---------------------------------------- AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager(); if (!mgr) { Error("AddTaskFMDELoss", "No analysis manager to connect to."); return NULL; } // --- Make the task and add it to the manager --------------------- AliFMDMCTrackInspectorTask* task = new AliFMDMCTrackInspectorTask("ForwardTracks", useTuple); // --- Set parameters on the algorithms ---------------------------- // Set the number of SPD tracklets for which we consider the event a // low flux event task->GetEventInspector().SetLowFluxCut(1000); // Set the maximum error on v_z [cm] task->GetEventInspector().SetMaxVzErr(0.2); // Set the eta axis to use - note, this overrides whatever is used // by the rest of the algorithms - but only for the energy fitter // algorithm. task->GetTrackInspector().SetEtaAxis(100, -4, 6); // Set maximum energy loss to consider task->GetTrackInspector().SetMaxE(15); // Set number of energy loss bins task->GetTrackInspector().SetNEbins(500); // Set whether to use increasing bin sizes task->GetTrackInspector().SetUseIncreasingBins(true); // Set whether to do fit the energy distributions task->GetTrackInspector().SetDoFits(kTRUE); // Set whether to make the correction object // task->GetTrackInspector().SetDoMakeObject(kTRUE); // Set the low cut used for energy task->GetTrackInspector().SetLowCut(0.05); // Set the number of bins to subtract from maximum of distributions // to get the lower bound of the fit range task->GetTrackInspector().SetFitRangeBinWidth(4); // Set the maximum number of landaus to try to fit (max 5) task->GetTrackInspector().SetNParticles(1); // Set the minimum number of entries in the distribution before // trying to fit to the data - 10K seems the absolute minimum task->GetTrackInspector().SetMinEntries(3000 /*10000*/); // Set maximum number of strips per 'cluster' task->GetTrackInspector().GetTracker().SetMaxConsequtiveStrips(maxStrips); // If set, only collect statistics for MB. This is to prevent a // bias when looping over data where the MB trigger is downscaled. // task->SetOnlyMB(onlyMB); // Debug task->SetDebug(debug); // --- Set limits on fits the energy ------------------------------- // DO NOT CHANGE THESE UNLESS YOU KNOW WHAT YOU ARE DOING // Maximum relative error on parameters // AliFMDCorrELossFit::ELossFit::fgMaxRelError = .12; // Least weight to use // AliFMDCorrELossFit::ELossFit::fgLeastWeight = 1e-5; // Maximum value of reduced chi^2 // AliFMDCorrELossFit::ELossFit::fgMaxChi2nu = 20; // --- Make the output container and connect it -------------------- task->Connect(0,0); if (useTuple) { AliAnalysisDataContainer* tuple = mgr->CreateContainer("tuple", TTree::Class(), AliAnalysisManager::kOutputContainer, "forward_tuple.root" /*AliAnalysisManager::GetCommonFileName()*/); mgr->ConnectOutput(task, 3, tuple); } Printf("Returning task %p", task); return task; } // // EOF //