lib Directory Reference

Files
file	BandPassInspiralTemplate.c [code]
file	BBHPhenomCoeffs.h [code]
file	CoincInspiralEllipsoid.h [code]
file	FindChirp.h [code]
file	FindChirpPhenomWaveform.c [code]
file	FindChirpPTF.h [code]
file	FindChirpPTFWaveform.c [code]
	Provides functions to create physical template family templates in a form that can be used by the FindChirpPTFFilter() function.
file	FindChirpSimulation.c [code]
	Provides an interface between code build from findchirp and various simulation packages for injecting chirps into data.
file	GenerateInspiral.c [code]
file	GenerateInspiral.h [code]
file	GenerateInspRing.c [code]
file	GenerateInspRing.h [code]
file	GeneratePPNAmpCorInspiral.c [code]
file	GeneratePPNInspiral.c [code]
file	GeneratePPNInspiral.h [code]
file	GetErrorMatrixFromSnglInspiral.c [code]
	Blah.
file	GetInspiralParams.c [code]
file	InspiralBankGeneration.c [code]
file	InspiralInjectionParams.c [code]
	Functions for generating random distributions of inspiral parameters for injection purposes.
file	InspiralInjectionParams.h [code]
file	InspiralSpinBank.c [code]
file	LALBCVWaveform.c [code]
	This module contains a single function LALBCVWaveform().
file	LALEOBGetFactorizedWaveform.c [code]
file	LALEOBNonQCCorrection.c [code]
file	LALEOBNRv2Waveform.h [code]
file	LALEOBPPWaveform.c [code]
	Functions to generate the EOBNRv2 waveforms, as defined in Pan et al, arXiv:1106.1021v1 [gr-qc].
file	LALEOBWaveform.c [code]
	Module to generate effective-one-body waveforms.
file	LALEtaTau02.c [code]
	Given \(\tau_0\) and \(\tau_2\) compute the mass ratio \(\eta.\).
file	LALEtaTau04.c [code]
	Given \(\tau_0\) and \(\tau_4\) solve for the mass ratio \(\eta.\).
file	LALFactorizedFlux.c [code]
file	LALHexagonVertices.c [code]
	Module to find the vertices of an hexagon inscribed in an ellipse given its centre, half side-lengths and orientation angle.
file	LALInsidePolygon.c [code]
file	LALInspiral.h [code]
file	LALInspiralAmplitude.c [code]
	Given an inspiral template structure containing the binary distance and a set of mass parameters, that module provides functions to compute the related amplitude.
file	LALInspiralAmplitudeCorrectedWave.c [code]
	The code LALInspiralAmplitudeCorrectedWave generates an time-domain inspiral waveform corresponding to the approximant TaylorT1 and PadeT1 as outlined in the documentation for the function LALInspiralWave.
file	LALInspiralBank.h [code]
file	LALInspiralBankList.c [code]
file	LALInspiralBankUtils.c [code]
file	LALInspiralBCVBank.c [code]
file	LALInspiralChooseModel.c [code]
	Module to set the pointers to the required energy and flux functions. Normally, a user is not required to call this function to generate a waveform.
file	LALInspiralComputeMetric.c [code]
file	LALInspiralComputeParams.c [code]
file	LALInspiralComputePTFMetric.c [code]
	Module to compute the components of the metric which is used to describe distances on Physical Template Family signal manifold.
file	LALInspiralConfig.h [code]
file	LALInspiralCreateCoarseBank.c [code]
file	LALInspiralCreateFineBank.c [code]
file	LALInspiralDerivatives.c [code]
	Module to calculate the RHS of the differential equations in Eq. \eqref{eq_ode2}.
file	LALInspiralEccentricity.c [code]
	The code LALInspiralEccentricity generates a time-domain inspiral waveform corresponding to the approximant Eccentricity as outlined PRD 60 for the Newtonian case.
file	LALInspiralFrequency3.c [code]
	The code LALInspiralFrequency3.c calculates the frequency the waveform from an inspiralling binary system as a function of time up to 3.5 post-Nowtonian order.
file	LALInspiralGetApproximantString.c [code]
	Function for creating the approximant string which gets written to output files for a given approximant and PN order of the phasing.
file	LALInspiralHexagonalBank.c [code]
	NONE.
file	LALInspiralHybridHexagonalBank.c [code]
file	LALInspiralIIR.c [code]
file	LALInspiralInit.c [code]
	Module to initialize some parameters for waveform generation.
file	LALInspiralLongestTemplateInBank.c [code]
file	LALInspiralMoments.c [code]
file	LALInspiralNextTemplate.c [code]
file	LALInspiralNinjaInject.c [code]
file	LALInspiralParameterCalc.c [code]
	Given a pair of masses (or other equivalent parameters) compute related chirp parameters.
file	LALInspiralPhasing1.c [code]
	This module is used to set the phase of the waveform so that it is equal to the user specified phase \(\phi_0\) when the ‘velocity’ of the system is equal to \(v.\).
file	LALInspiralPhasing2.c [code]
	The code LALInspiralPhasing2.c calculates the phase of an inspiral waveform as a function of the instantaneous frequency of the wave, up to \(2^{nd}\) post–Newtonian order.
file	LALInspiralPhasing3.c [code]
	The code LALInspiralPhasing3.c calculates the phase the waveform from an inspiralling binary system as a function of time up to second post-Nowtonian order.
file	LALInspiralPhiofVIntegrand.c [code]
	The function XLALInspiralPhiofVIntegrand() calculates the quantity \(v^{3} E^{\prime}(v)/\mathcal{F}(v)\).
file	LALInspiralPolarizations.c [code]
	This code generates the two GW polarizations of the inspiral waveform for a given phase model.
file	LALInspiralRingdownWave.c [code]
	Module to compute the ring-down waveform as linear combination of quasi-normal-modes decaying waveforms, which can be attached to the inspiral part of the compat binary coalescing waveform.
file	LALInspiralSBankOverlap.c [code]
file	LALInspiralSBankOverlap.h [code]
file	LALInspiralSetParams.c [code]
file	LALInspiralSetSearchLimits.c [code]
file	LALInspiralSetup.c [code]
	Module to generate all the Taylor and Pade coefficients needed in waveform generation.
file	LALInspiralSpinningBHBinary.c [code]
	This module generates the inspiral waveform from a binary consisting of two spinning compact stars.
file	LALInspiralStationaryPhaseApprox1.c [code]
	This module computes the stationary phase approximation to the Fourier transform of a chirp waveform by integrating Eq. \eqref{eq_InspiralFourierPhase}.
file	LALInspiralStationaryPhaseApprox2.c [code]
	This module computes the usual stationary phase approximation to the Fourier transform of a chirp waveform given by Eq. \eqref{eq_InspiralFourierPhase_f2}.
file	LALInspiralTaylorEtWaveform.c [code]
	NONE.
file	LALInspiralTaylorNWaveform.c [code]
	NONE.
file	LALInspiralTaylorT4Waveform.c [code]
	NONE.
file	LALInspiralTiming2.c [code]
	Module used in solving the timing and phasing functions in quadrature for the Approximant TaylorT2.
file	LALInspiralTofV.c [code]
	NONE.
file	LALInspiralTofVIntegrand.c [code]
	The function LALInspiralTofVIntegrand() calculates the quantity \(E^{\prime}(v)/\mathcal{F}(v)\).
file	LALInspiralUpdateParams.c [code]
file	LALInspiralValidParams.c [code]
file	LALInspiralValidTemplate.c [code]
file	LALInspiralVCSInfo.h [code]
file	LALInspiralVCSInfoHeader.h [code]
file	LALInspiralVelocity.c [code]
	The function XLALInspiralVelocity() calculates the velocity \(v\) which corresponds to a time \(t\) in the inspiralling binary system.
file	LALInspiralWave.c [code]
	Interface routine needed to generate all waveforms in the Inspiral Waveforms package.
file	LALInspiralWave1.c [code]
	The code LALInspiralWave1() generates an time-domain inspiral waveform corresponding to the Approximant TaylorT1 and PadeT1 as outlined in the documentation for the function LALInspiralWave().
file	LALInspiralWave2.c [code]
	These modules generate a time-domain chirp waveform of type TaylorT2.
file	LALInspiralWave3.c [code]
	These modules generate a time-domain chirp waveform of type TaylorT3.
file	LALInspiralWaveCorrelate.c [code]
	Module to compute the correlation of two data sets.
file	LALInspiralWaveLength.c [code]
	Module to calculate the number of data points (to the nearest power of 2) needed to store a waveform.
file	LALInspiralWaveNormalise.c [code]
	Module to find the norm of a signal and to return a normalised array. The original signal is left untouched.
file	LALInspiralWaveNormaliseLSO.c [code]
	Module to find the norm of a signal and to return a normaliseLSOd array. The original signal is left untouched.
file	LALInspiralWaveOverlap.c [code]
	Module to compute the overlap of a given data set with two orthogonal inspiral signals of specified parameters with a weight specified in a psd array. The code also returns in a parameter structure the maximum of the overlap, the bin where the maximum occured and the phase at the maximum.
file	LALNewtonianMultipole.c [code]
file	LALNoiseModelsInspiral.h [code]
file	LALPhenomWaveform.c [code]
file	LALPrintTimeseries.c [code]
file	LALPSpinInspiralRD.c [code]
file	LALPSpinInspiralRingdownWave.c [code]
	Module to compute the ring-down waveform as linear combination of quasi-normal-modes decaying waveforms, which can be attached to the phenomenological spin Taylor waveform.
file	LALRectangleVertices.c [code]
file	LALRungeKutta4.c [code]
	NONE.
file	LALSQTPNIntegrator.c [code]
	Contains the function definitions needed by the integration method.
file	LALSQTPNIntegrator.h [code]
file	LALSQTPNWaveform.c [code]
	Contains the function definition to create GWforms.
file	LALSQTPNWaveform.h [code]
file	LALSQTPNWaveformInterface.c [code]
	Contains function definitions to integrate the SpinQuadTaylor code into the other parts of the LALSuit.
file	LALSQTPNWaveformInterface.h [code]
file	LALSTPNWaveform.c [code]
	Module to generate STPN (spinning binaries) waveforms in agreement with the injecttion package (return a CoherentGW structure).
file	LALSTPNWaveform2.c [code]
file	LALSTPNWaveform2.h [code]
file	LALSTPNWaveformErrors.h [code]
file	LALSTPNWaveformFrameless.c [code]
file	LALSTPNWaveformFrameless.h [code]
file	LALTaylorF2ReducedSpin.c [code]
file	LALTrigScanCluster.c [code]
	Functions for trigScan clustering.
file	LALTrigScanCluster.h [code]
file	LIGOMetadataInspiralUtils.h [code]
file	LIGOMetadataRingdownUtils.h [code]
file	NDTemplateBank.c [code]
	This module handles template bank generation for up to searches with \(<=\) 12 dimensional parameter spaces.
file	NRWaveInject.c [code]
file	NRWaveInject.h [code]
file	NRWaveIO.c [code]
	Functions for reading/writing numerical relativity waveforms.
file	NRWaveIO.h [code]
file	RingUtils.c [code]
file	RingUtils.h [code]
file	SimInspiralUtils.c [code]
	Provides a set of utilities for manipulating simInspiralTables.
file	SnglInspiralUtils.c [code]
	Provides a set of utilities for manipulating snglInspiralTables.
file	TemplateBankGeneration.h [code]
file	TrigScanEThincaCommon.c [code]
	Provides helper functions used in TrigScan and E-thinca.
file	TrigScanEThincaCommon.h [code]