Table of Contents
Table of contents
Classes
- MuonPdtAlis Defines complete set of Alignment constants for the PDT
- MuonPdtAlisets Set for alignment parameters
- MuonPdtAtdcs The Axial Time-To-Distance Conversion is defined as the relationship between the difference of the T0-Subtracted measured times of a pair of wires and the corresponding axial position of a hit along the hit wire, with respect to the IP.
- MuonPdtCalibrater Servant for top level calibrator. Allows to refresh calibration parameters when necessary in accordance with run number.
- MuonPdtCals Defines complete set of calibration constants for the PDT.
- MuonPdtChns Address of a channel as it is seen by unpacking package.
- MuonPdtChnsetRunsetMaps Set of calibration parameters used to build PDT calibration.
- MuonPdtChnsets Subset of calibration parameters used to build PDT calibration.
- MuonPdtDtdcs The Drift Time-To-Distance conversion is defined as the relationship between the measured, T0_subtracted, axial-position-corrected drift time and the corresponding drift distance perpendicular to the PDT wire.
- MuonPdtFebs Address of each FEB as seen by unpacking package.
- MuonPdtGains Gain value and error for a particular channel.
- MuonPdtMods Address of each module as seen by unpacking package.
- MuonPdtRecoCalibrater PDT calibrator interface for reco.
- MuonPdtRunsets Subset of calibration parameters used to build PDT calibration.
- MuonPdtT0Chns The channel-wise T0 adjustment accounts for channel to channel differences in the PDT analog front-end electronics.
- MuonPdtT0Febs The FEB-wise cable length adjustment accounts for differences in cable length between the FEB's and the PDT service cards, and between the service cards and the individual wires.
- MuonPdtT0Mods The module-wise T0 offset accounts for the offset between the PDT-T0_FEB and PDT_T0_CHN adjusted times and the beam crossing time.
- MuonPdtT0Modsets Subset of calibration parameters used to build PDT calibration.
hierarchy of classes
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