Esempio n. 1
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def configureDigitization(
    trackingGeometry: acts.TrackingGeometry,
    field: acts.MagneticFieldProvider,
    outputDir: Path,
    particlesInput: Optional[Path] = None,
    outputRoot: bool = True,
    outputCsv: bool = True,
    s: Optional[acts.examples.Sequencer] = None,
) -> acts.examples.Sequencer:

    from particle_gun import addParticleGun, EtaConfig, PhiConfig, ParticleConfig
    from fatras import addFatras

    s = s or acts.examples.Sequencer(
        events=100, numThreads=-1, logLevel=acts.logging.INFO
    )
    rnd = acts.examples.RandomNumbers(seed=42)

    if particlesInput is None:
        s = addParticleGun(
            s,
            EtaConfig(-2.0, 2.0),
            ParticleConfig(4, acts.PdgParticle.eMuon, True),
            PhiConfig(0.0, 360.0 * u.degree),
            multiplicity=2,
            rnd=rnd,
        )
    else:
        # Read input from input collection (e.g. Pythia8 output)
        evGen = acts.examples.RootParticleReader(
            level=s.config.logLevel,
            particleCollection="particles_input",
            filePath=str(particlesInput),
            orderedEvents=False,
        )
        s.addReader(evGen)

    outputDir = Path(outputDir)
    s = addFatras(
        s,
        trackingGeometry,
        field,
        rnd=rnd,
    )

    s = addDigitization(
        s,
        trackingGeometry,
        field,
        digiConfigFile=Path(__file__).resolve().parent.parent.parent.parent
        / "Examples/Algorithms/Digitization/share/default-smearing-config-generic.json",
        outputDirCsv=outputDir / "csv" if outputCsv else None,
        outputDirRoot=outputDir if outputRoot else None,
        rnd=rnd,
    )

    return s
Esempio n. 2
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def runFatras(trackingGeometry,
              field,
              outputDir,
              s: acts.examples.Sequencer = None):
    from particle_gun import addParticleGun, EtaConfig

    s = s or acts.examples.Sequencer(events=100, numThreads=-1)
    s.config.logLevel = acts.logging.INFO
    rnd = acts.examples.RandomNumbers()
    s = addParticleGun(
        s,
        EtaConfig(-2.0, 2.0),
        rnd=rnd,
    )
    outputDir = Path(outputDir)
    return addFatras(
        s,
        trackingGeometry,
        field,
        outputDirCsv=outputDir / "csv",
        outputDirRoot=outputDir,
        rnd=rnd,
    )
Esempio n. 3
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def runCKFTracks(
    trackingGeometry,
    decorators,
    geometrySelection: Path,
    digiConfigFile: Path,
    field,
    outputDir: Path,
    truthSmearedSeeded=False,
    truthEstimatedSeeded=False,
    outputCsv=True,
    inputParticlePath: Optional[Path] = None,
    s=None,
):

    from particle_gun import addParticleGun, EtaConfig, PhiConfig, ParticleConfig
    from fatras import addFatras
    from digitization import addDigitization
    from seeding import (
        addSeeding,
        TruthSeedRanges,
        ParticleSmearingSigmas,
        SeedfinderConfigArg,
        SeedingAlgorithm,
        TrackParamsEstimationConfig,
    )

    s = s or acts.examples.Sequencer(
        events=100, numThreads=-1, logLevel=acts.logging.INFO)
    for d in decorators:
        s.addContextDecorator(d)
    rnd = acts.examples.RandomNumbers(seed=42)
    outputDir = Path(outputDir)

    if inputParticlePath is None:
        s = addParticleGun(
            s,
            EtaConfig(-2.0, 2.0),
            ParticleConfig(4, acts.PdgParticle.eMuon, True),
            PhiConfig(0.0, 360.0 * u.degree),
            multiplicity=2,
            rnd=rnd,
        )
    else:
        acts.logging.getLogger("CKFExample").info("Reading particles from %s",
                                                  inputParticlePath.resolve())
        assert inputParticlePath.exists()
        s.addReader(
            RootParticleReader(
                level=acts.logging.INFO,
                filePath=str(inputParticlePath.resolve()),
                particleCollection="particles_input",
                orderedEvents=False,
            ))

    s = addFatras(
        s,
        trackingGeometry,
        field,
        rnd=rnd,
    )

    s = addDigitization(
        s,
        trackingGeometry,
        field,
        digiConfigFile=digiConfigFile,
        rnd=rnd,
    )

    s = addSeeding(
        s,
        trackingGeometry,
        field,
        TruthSeedRanges(pt=(500.0 * u.MeV, None), nHits=(9, None)),
        ParticleSmearingSigmas(
            pRel=0.01),  # only used by SeedingAlgorithm.TruthSmeared
        SeedfinderConfigArg(
            r=(None, 200 * u.mm),  # rMin=default, 33mm
            deltaR=(1 * u.mm, 60 * u.mm),
            collisionRegion=(-250 * u.mm, 250 * u.mm),
            z=(-2000 * u.mm, 2000 * u.mm),
            maxSeedsPerSpM=1,
            sigmaScattering=50,
            radLengthPerSeed=0.1,
            minPt=500 * u.MeV,
            bFieldInZ=1.99724 * u.T,
            impactMax=3 * u.mm,
        ),
        TrackParamsEstimationConfig(deltaR=(10.0 * u.mm, None)),
        seedingAlgorithm=SeedingAlgorithm.TruthSmeared
        if truthSmearedSeeded else SeedingAlgorithm.TruthEstimated
        if truthEstimatedSeeded else SeedingAlgorithm.Default,
        geoSelectionConfigFile=geometrySelection,
        outputDirRoot=outputDir,
        rnd=rnd,  # only used by SeedingAlgorithm.TruthSmeared
    )

    s = addCKFTracks(
        s,
        trackingGeometry,
        field,
        CKFPerformanceConfig(ptMin=400.0 * u.MeV, nMeasurementsMin=6),
        outputDirRoot=outputDir,
        outputDirCsv=outputDir / "csv" if outputCsv else None,
    )

    return s
Esempio n. 4
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def runSeeding(
    trackingGeometry,
    field,
    outputDir,
    s=None,
    seedingAlgorithm=SeedingAlgorithm.Default,
):

    from particle_gun import addParticleGun, EtaConfig, PhiConfig, ParticleConfig
    from fatras import addFatras
    from digitization import addDigitization

    s = s or acts.examples.Sequencer(
        events=100, numThreads=-1, logLevel=acts.logging.INFO)
    rnd = acts.examples.RandomNumbers(seed=42)
    outputDir = Path(outputDir)

    s = addParticleGun(
        s,
        EtaConfig(-2.0, 2.0),
        ParticleConfig(4, acts.PdgParticle.eMuon, True),
        PhiConfig(0.0, 360.0 * u.degree),
        multiplicity=2,
        outputDirCsv=outputDir / "csv",
        outputDirRoot=outputDir,
        rnd=rnd,
    )

    s = addFatras(
        s,
        trackingGeometry,
        field,
        outputDirCsv=outputDir / "csv",
        outputDirRoot=outputDir,
        rnd=rnd,
        preselectParticles=False,
    )

    srcdir = Path(__file__).resolve().parent.parent.parent.parent
    s = addDigitization(
        s,
        trackingGeometry,
        field,
        digiConfigFile=srcdir /
        "Examples/Algorithms/Digitization/share/default-smearing-config-generic.json",
        rnd=rnd,
    )

    s = addSeeding(
        s,
        trackingGeometry,
        field,
        TruthSeedRanges(pt=(1.0 * u.GeV, None),
                        eta=(-2.5, 2.5),
                        nHits=(9, None)),
        ParticleSmearingSigmas(
            pRel=0.01),  # only used by SeedingAlgorithm.TruthSmeared
        SeedfinderConfigArg(
            r=(None, 200 * u.mm),  # rMin=default, 33mm
            deltaR=(1 * u.mm, 60 * u.mm),
            collisionRegion=(-250 * u.mm, 250 * u.mm),
            z=(-2000 * u.mm, 2000 * u.mm),
            maxSeedsPerSpM=1,
            sigmaScattering=50,
            radLengthPerSeed=0.1,
            minPt=500 * u.MeV,
            bFieldInZ=1.99724 * u.T,
            impactMax=3 * u.mm,
        ),
        acts.logging.VERBOSE,
        seedingAlgorithm=seedingAlgorithm,
        geoSelectionConfigFile=srcdir /
        "Examples/Algorithms/TrackFinding/share/geoSelection-genericDetector.json",
        inputParticles=
        "particles_final",  # use this to reproduce the original root_file_hashes.txt - remove to fix
        outputDirRoot=outputDir,
    )
    return s
Esempio n. 5
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detector, trackingGeometry, decorators = itk.buildITkGeometry(geo_dir)
field = acts.ConstantBField(acts.Vector3(0.0, 0.0, 2.0 * u.T))
rnd = acts.examples.RandomNumbers(seed=42)

from particle_gun import addParticleGun, MomentumConfig, EtaConfig, ParticleConfig
from fatras import addFatras
from digitization import addDigitization
from seeding import addSeeding, SeedingAlgorithm, TruthSeedRanges
from ckf_tracks import addCKFTracks

s = acts.examples.Sequencer(events=100, numThreads=-1)
s = addParticleGun(
    s,
    MomentumConfig(1.0 * u.GeV, 10.0 * u.GeV, True),
    EtaConfig(-4.0, 4.0, True),
    ParticleConfig(1, acts.PdgParticle.eMuon, True),
    rnd=rnd,
)
s = addFatras(
    s,
    trackingGeometry,
    field,
    outputDirRoot=outputDir,
    rnd=rnd,
)
s = addDigitization(
    s,
    trackingGeometry,
    field,
    digiConfigFile=geo_dir / "atlas/itk-hgtd/itk-smearing-config.json",
Esempio n. 6
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def runGsfTracks(
    trackingGeometry,
    decorators,
    geometrySelection: Path,
    digiConfigFile: Path,
    field,
    outputDir: Path,
    truthSmearedSeeded=False,
    truthEstimatedSeeded=False,
    outputCsv=True,
    inputParticlePath: Optional[Path] = None,
    s=None,
):

    from particle_gun import addParticleGun, EtaConfig, PhiConfig, ParticleConfig
    from fatras import addFatras
    from digitization import addDigitization
    from seeding import addSeeding, SeedingAlgorithm

    s = s or acts.examples.Sequencer(
        events=100, numThreads=-1, logLevel=acts.logging.INFO
    )

    for d in decorators:
        s.addContextDecorator(d)

    rnd = acts.examples.RandomNumbers(seed=42)
    outputDir = Path(outputDir)

    if inputParticlePath is None:
        s = addParticleGun(
            s,
            EtaConfig(-2.0, 2.0),
            ParticleConfig(4, acts.PdgParticle.eMuon, True),
            PhiConfig(0.0, 360.0 * u.degree),
            multiplicity=2,
            rnd=rnd,
        )
    else:
        acts.logging.getLogger("GSF Example").info(
            "Reading particles from %s", inputParticlePath.resolve()
        )
        assert inputParticlePath.exists()
        s.addReader(
            RootParticleReader(
                level=acts.logging.INFO,
                filePath=str(inputParticlePath.resolve()),
                particleCollection="particles_input",
                orderedEvents=False,
            )
        )

    s = addFatras(
        s,
        trackingGeometry,
        field,
        rnd=rnd,
    )

    s = addDigitization(
        s,
        trackingGeometry,
        field,
        digiConfigFile=digiConfigFile,
        rnd=rnd,
    )

    s = addSeeding(
        s,
        trackingGeometry,
        field,
        seedingAlgorithm=SeedingAlgorithm.TruthSmeared,
    )

    truthTrkFndAlg = acts.examples.TruthTrackFinder(
        level=acts.logging.INFO,
        inputParticles="truth_seeds_selected",
        inputMeasurementParticlesMap="measurement_particles_map",
        outputProtoTracks="prototracks",
    )

    s.addAlgorithm(truthTrkFndAlg)

    s = addGsfTracks(s, trackingGeometry, field)

    # Output
    s.addWriter(
        acts.examples.RootTrajectoryStatesWriter(
            level=acts.logging.INFO,
            inputTrajectories="gsf_trajectories",
            inputParticles="truth_seeds_selected",
            inputSimHits="simhits",
            inputMeasurementParticlesMap="measurement_particles_map",
            inputMeasurementSimHitsMap="measurement_simhits_map",
            filePath=str(outputDir / "trackstates_gsf.root"),
        )
    )

    s.addWriter(
        acts.examples.RootTrajectorySummaryWriter(
            level=acts.logging.INFO,
            inputTrajectories="gsf_trajectories",
            inputParticles="truth_seeds_selected",
            inputMeasurementParticlesMap="measurement_particles_map",
            filePath=str(outputDir / "tracksummary_gsf.root"),
        )
    )

    return s
Esempio n. 7
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def runTruthTrackingKalman(
    trackingGeometry: acts.TrackingGeometry,
    field: acts.MagneticFieldProvider,
    outputDir: Path,
    digiConfigFile: Path,
    directNavigation=False,
    reverseFilteringMomThreshold=0 * u.GeV,
    s: acts.examples.Sequencer = None,
    inputParticlePath: Optional[Path] = None,
):
    from particle_gun import addParticleGun, EtaConfig, PhiConfig, ParticleConfig
    from fatras import addFatras
    from digitization import addDigitization
    from seeding import addSeeding, SeedingAlgorithm, TruthSeedRanges

    s = s or acts.examples.Sequencer(
        events=100, numThreads=-1, logLevel=acts.logging.INFO)

    rnd = acts.examples.RandomNumbers()
    outputDir = Path(outputDir)

    if inputParticlePath is None:
        s = addParticleGun(
            s,
            EtaConfig(-2.0, 2.0),
            ParticleConfig(2, acts.PdgParticle.eMuon, False),
            multiplicity=1,
            rnd=rnd,
            outputDirRoot=outputDir,
        )
    else:
        acts.logging.getLogger("Truth tracking example").info(
            "Reading particles from %s", inputParticlePath.resolve())
        assert inputParticlePath.exists()
        s.addReader(
            RootParticleReader(
                level=acts.logging.INFO,
                filePath=str(inputParticlePath.resolve()),
                particleCollection="particles_input",
                orderedEvents=False,
            ))

    s = addFatras(
        s,
        trackingGeometry,
        field,
        rnd=rnd,
    )

    s = addDigitization(
        s,
        trackingGeometry,
        field,
        digiConfigFile=digiConfigFile,
        rnd=rnd,
    )

    s = addSeeding(
        s,
        trackingGeometry,
        field,
        seedingAlgorithm=SeedingAlgorithm.TruthSmeared,
        rnd=rnd,
        truthSeedRanges=TruthSeedRanges(
            pt=(500 * u.MeV, None),
            nHits=(9, None),
        ),
    )

    s = addKalmanTracks(s, trackingGeometry, field, directNavigation,
                        reverseFilteringMomThreshold)

    # Output
    s.addWriter(
        acts.examples.RootTrajectoryStatesWriter(
            level=acts.logging.INFO,
            inputTrajectories="trajectories",
            inputParticles="truth_seeds_selected",
            inputSimHits="simhits",
            inputMeasurementParticlesMap="measurement_particles_map",
            inputMeasurementSimHitsMap="measurement_simhits_map",
            filePath=str(outputDir / "trackstates_fitter.root"),
        ))

    s.addWriter(
        acts.examples.RootTrajectorySummaryWriter(
            level=acts.logging.INFO,
            inputTrajectories="trajectories",
            inputParticles="truth_seeds_selected",
            inputMeasurementParticlesMap="measurement_particles_map",
            filePath=str(outputDir / "tracksummary_fitter.root"),
        ))

    s.addWriter(
        acts.examples.TrackFinderPerformanceWriter(
            level=acts.logging.INFO,
            inputProtoTracks="sortedprototracks"
            if directNavigation else "prototracks",
            inputParticles="truth_seeds_selected",
            inputMeasurementParticlesMap="measurement_particles_map",
            filePath=str(outputDir / "performance_track_finder.root"),
        ))

    s.addWriter(
        acts.examples.TrackFitterPerformanceWriter(
            level=acts.logging.INFO,
            inputTrajectories="trajectories",
            inputParticles="truth_seeds_selected",
            inputMeasurementParticlesMap="measurement_particles_map",
            filePath=str(outputDir / "performance_track_fitter.root"),
        ))

    return s