Package xal.smf.impl
package xal.smf.impl
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ClassDescriptionBend is used to represent a normal horizontal dipole magnet rather than a corrector.The implementation of the BLM class.The implementation of the BPM class.Representation of a Bunch Shape MonitorCCL class to represent the CCL.The implementation of the Current Monitor class.The CvgGauge Class element.The implementation of the Dipole element.Base class for dipole correctors.The implementation of the DTLTank sequence, which derives from the AcceleratorSeq class.Electromagnet is the base class representation of an electromagnet.the extraction kicker represents a pulsed magnet for extracting the beam vertically from the ringGenericNode represents a node whose properties are defined by the data input.The implementation of the Horizontal Dipole corrector element.The IonGauge Class element.The abstract Magnet Class element.MainMagnetSupply represents a power supply that is the main supply for a magnet.PowerSupply is the abstract super class of all power supplies.TrimMagnetSupply is a power supply that represents a trim magnet supply.node representing a simple markerThe implementation of the Neutron Detector class.PermanentMagnet is the superclass of all permanent magnet classes.PermQuadrupole implements an Permanent magnet Quadrupole.This class is a container for fit information coming from the profile monitors.Represents the wire scanner device using the original APIQuadrupole implements an Electromagnet Quadrupole supplied by a single power supply.The implementation of the RF Cavity element.The implementation of the RF gap element.This class is for SNS Ring BPMs.SCLCavity class is used to represent an SCL RF cavity.Sextupole magnet node.interface for trimmable magnetsTrimmedQuadrupole is a subclass of Quadrupole that has a trim power supply in addition to a main power supply.The abstract Vacuum Class element.The implementation of the Vertical Dipole corrector element.Wire Harp HardwareWire Scanner CommandsClass
WireHarp.DaqConfig.Structure for maintaining aWireHarpprofile data fits.Structure for maintaining aWireHarpprofile data measurement.Data structure containing the configuration parameters for aWireHarpdevice.Contains device status parameters.Data structure containing the profile signal characteristics.Wire Scanner HardwareThis class is a data structure for managing scan actuator configuration data parameters.Wire Scanner CommandsValid arguments to commands accepting arguments.A class-level representation of a wire-scanner command.Data structure containing the fitted profile data available after data acquisition (i.e., the profile fit as computed by the acquisition software).Data structure contain the profile data available during data acquisition in a point-by-point fashion (i.e., as the scan progress).Data structure contain the profile data available during data acquisition in a point-by-point fashion (i.e., as the scan progress).Data structure containing the profile data available after data acquisition (i.e., once the scan is complete).Data structure containing the profile data characteristics when modelled as a Double Gaussian signal.Contains device status parameters.Data structure containing the profile data characteristics when modeled as a Gaussian signal.Data structure containing the configuration parameters for the on-board data processing and analysis.This class is a data structure for managing scan configuration parameters.Data structure containing the sampling parameters for data acquisition.Data structure containing the profile data characteristics when modelled as a Double Gaussian signal.Data structure containing the last available raw data trace as defined by the sample rate and duration.Data structure containing configuration parameters for DAQ triggering.