Python begin 예제들

프로그래밍 언어: Python

네임스페이스/패키지 이름: NuRadioReco.modules.efieldToVoltageConverter

메소드/함수: begin

hotexamples.com에서의 예제들: 4

Python begin - 4개의 예제가 발견되었습니다. 이것들은 오픈소스 프로젝트에서 추출된 Python의 NuRadioReco.modules.efieldToVoltageConverter.begin에 대한 실세계 최고 등급의 예제들입니다. 예제들을 평가하여 예제의 품질 향상에 도움을 줄 수 있습니다.

예제 #1

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det = detector.Detector(json_filename=detector_file)  # detector file
det.update(datetime.datetime(2018, 10, 1))

dir_path = os.path.dirname(
    os.path.realpath(__file__))  # get the directory of this file

# initialize all modules that are needed for processing
# provide input parameters that are to remain constant during processung
readCoREAS = NuRadioReco.modules.io.coreas.readCoREAS.readCoREAS()
readCoREAS.begin([input_file], station_id, n_cores=10, max_distance=None)
simulationSelector = NuRadioReco.modules.io.coreas.simulationSelector.simulationSelector(
)
simulationSelector.begin()
efieldToVoltageConverter = NuRadioReco.modules.efieldToVoltageConverter.efieldToVoltageConverter(
)
efieldToVoltageConverter.begin(debug=False)
hardwareResponseIncorporator = NuRadioReco.modules.ARIANNA.hardwareResponseIncorporator.hardwareResponseIncorporator(
)
channelGenericNoiseAdder = NuRadioReco.modules.channelGenericNoiseAdder.channelGenericNoiseAdder(
)
triggerSimulator = NuRadioReco.modules.trigger.simpleThreshold.triggerSimulator(
)
triggerSimulator.begin()
channelBandPassFilter = NuRadioReco.modules.channelBandPassFilter.channelBandPassFilter(
)
channelBandPassFilter.begin()
eventTypeIdentifier = NuRadioReco.modules.eventTypeIdentifier.eventTypeIdentifier(
)
channelStopFilter = NuRadioReco.modules.channelStopFilter.channelStopFilter()
channelSignalReconstructor = NuRadioReco.modules.channelSignalReconstructor.channelSignalReconstructor(
)

예제 #2

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파일: runsimtest.py 프로젝트: neharty/NMRC

import NuRadioReco.modules.channelResampler
import NuRadioReco.modules.channelBandPassFilter
import NuRadioReco.modules.channelGenericNoiseAdder
import NuRadioReco.modules.custom.deltaT.calculateAmplitudePerRaySolution
from NuRadioReco.utilities import units
from NuRadioMC.simulation import simulation2 as simulation
from NuRadioReco.framework.parameters import channelParameters as chp
import numpy as np
import logging
logging.basicConfig(level=logging.WARNING)
logger = logging.getLogger("runstrawman")
# initialize detector sim modules
#efieldToVoltageConverterPerChannel = NuRadioReco.modules.efieldToVoltageConverterPerChannel.efieldToVoltageConverterPerChannel()
efieldToVoltageConverter = NuRadioReco.modules.efieldToVoltageConverter.efieldToVoltageConverter()
#efieldToVoltageConverterPerChannel.begin(debug=False, time_resolution=1*units.ns)
efieldToVoltageConverter.begin(debug=False, time_resolution=1*units.ns)
triggerSimulator = NuRadioReco.modules.triggerSimulator.triggerSimulator()
triggerSimulatorARIANNA = NuRadioReco.modules.ARIANNA.triggerSimulator.triggerSimulator()
channelResampler = NuRadioReco.modules.channelResampler.channelResampler()
channelBandPassFilter = NuRadioReco.modules.channelBandPassFilter.channelBandPassFilter()
channelGenericNoiseAdder = NuRadioReco.modules.channelGenericNoiseAdder.channelGenericNoiseAdder()
calculateAmplitudePerRaySolution = NuRadioReco.modules.custom.deltaT.calculateAmplitudePerRaySolution.calculateAmplitudePerRaySolution()

class mySimulation(simulation.simulation):

    def _detector_simulation(self):
        calculateAmplitudePerRaySolution.run(self._evt, self._station, self._det)
        # save the amplitudes to output hdf5 file
        # save amplitudes per ray tracing solution to hdf5 data output
        if('max_amp_ray_solution' not in self._mout):
            self._mout['max_amp_ray_solution'] = np.zeros((self._n_events, self._n_antennas, 2)) * np.nan

예제 #3

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import NuRadioReco.modules.efieldToVoltageConverter
import NuRadioReco.modules.channelResampler
import NuRadioReco.modules.channelGenericNoiseAdder
import NuRadioReco.modules.triggerTimeAdjuster
import NuRadioReco.modules.ARIANNA.hardwareResponseIncorporator
import NuRadioReco.modules.trigger.highLowThreshold
from NuRadioReco.utilities import units
from NuRadioMC.simulation import simulation
import logging
logging.basicConfig(level=logging.WARNING)
logger = logging.getLogger("runstrawman")

# initialize detector sim modules
efieldToVoltageConverter = NuRadioReco.modules.efieldToVoltageConverter.efieldToVoltageConverter(
)
efieldToVoltageConverter.begin()
channelResampler = NuRadioReco.modules.channelResampler.channelResampler()
channelGenericNoiseAdder = NuRadioReco.modules.channelGenericNoiseAdder.channelGenericNoiseAdder(
)
hardwareResponseIncorporator = NuRadioReco.modules.ARIANNA.hardwareResponseIncorporator.hardwareResponseIncorporator(
)
triggerSimulator = NuRadioReco.modules.trigger.highLowThreshold.triggerSimulator(
)
triggerTimeAdjuster = NuRadioReco.modules.triggerTimeAdjuster.triggerTimeAdjuster(
)
triggerSimulator.begin(log_level=logging.WARNING)


class mySimulation(simulation.simulation):
    def _detector_simulation_filter_amp(self, evt, station, det):
        hardwareResponseIncorporator.run(evt, station, det, sim_to_data=True)

예제 #4

파일 보기

파일: E06RunSimPreprocess.py 프로젝트: pgiri4/NuRadioMC

# import detector simulation modules
import NuRadioReco.modules.efieldToVoltageConverter
import NuRadioReco.modules.ARIANNA.triggerSimulator
import NuRadioReco.modules.triggerSimulator
import NuRadioReco.modules.channelResampler
import NuRadioReco.modules.channelBandPassFilter
import NuRadioReco.modules.channelGenericNoiseAdder
from NuRadioReco.utilities import units
from NuRadioMC.simulation import as simulation
import logging
logging.basicConfig(level=logging.INFO)
logger = logging.getLogger("runstrawman")

# initialize detector sim modules
efieldToVoltageConverter = NuRadioReco.modules.efieldToVoltageConverter.efieldToVoltageConverter()
efieldToVoltageConverter.begin(debug=False, time_resolution=1 * units.ns,
                                         pre_pulse_time=0 * units.ns, post_pulse_time=0 * units.ns)
triggerSimulator = NuRadioReco.modules.triggerSimulator.triggerSimulator()
triggerSimulatorARIANNA = NuRadioReco.modules.ARIANNA.triggerSimulator.triggerSimulator()
channelResampler = NuRadioReco.modules.channelResampler.channelResampler()
channelBandPassFilter = NuRadioReco.modules.channelBandPassFilter.channelBandPassFilter()
channelGenericNoiseAdder = NuRadioReco.modules.channelGenericNoiseAdder.channelGenericNoiseAdder()


class mySimulation(simulation.simulation):

    def _detector_simulation(self):
        # start detector simulation
        efieldToVoltageConverter.run(self._evt, self._station, self._det)  # convolve efield with antenna pattern
        # downsample trace to internal simulation sampling rate (the efieldToVoltageConverter upsamples the trace to
        # 20 GHz by default to achive a good time resolution when the two signals from the two signal paths are added)
        channelResampler.run(self._evt, self._station, self._det, sampling_rate=1. / self._dt)