| ▼General Packages | This package provides general-purpose routines for simulation of signals and noise |
| ▼Header LALSimNeutronStar.h | Provides routines for neutron star physical parameters |
| Module LALSimNeutronStarEOS.c | Provides routines for handling neutron star equations of state |
| Module LALSimNeutronStarTOV.c | Provides routines for solving the Tolman-Oppenheimer-Volkov equation |
| Module LALSimNeutronStarFamily.c | Provides routines for one-parameter families of neutron stars of a given equation of state |
| Header LALSimSphHarmMode.h | Routines to construct waveforms from spherical harmonic mode decompositions |
| Header LALSimSphHarmSeries.h | Routines for manipulating spherical harmonic time- and frequency-series |
| Header LALSimulationVCSInfo.h | VCS and build information for LALSimulation |
| Module LALSimBHNSRemnantFits.c | Provides routines for NSBH remnant fits |
| Module LALSimNSBHProperties.c | Provides routines for NSBH waveform models |
| Header LALSimulation.h | Routines to calculate detector strain for general waveforms |
| Header LALSimUtils.h | Miscellaneous routines |
| ▼Burst Simulation Packages | This package provides routines for generating simulated generic burst gravitational waveforms |
| Header LALSimBurst.h | Routines to generate burst waveforms |
| ▼Inspiral Simulation Packages | This package provides routines for generating simulated gravitational waveforms from binary inspiral |
| ▼Header LALSimIMR.h | Routines for generating inspiral-merger-ringdown waveforms |
| ▼LALSimIMRPhenom.c | Routines to produce IMRPhenom-family of phenomenological inspiral-merger-ringdown waveforms |
| XLALSimIMRPhenomNSBHUtility | C code for utility routines for IMRPhenomNSBH phenomenological waveform model |
| LALSimIMRPhenomX.c | Routines to produce IMRPhenomX-family of phenomenological inspiral-merger-ringdown waveforms |
| LALSimIMRPhenomTHM.c | Routines to produce IMRPhenomT-family of phenomenological inspiral-merger-ringdown waveforms |
| LALSimIMREOBNRv2.c | Functions to generate the EOBNRv2 waveforms, as defined in Pan et al, PRD84, 124052(2011) |
| LALSimIMRSpinAlignedEOB.c | Functions for producing SEOBNRv1 and v2 waveforms |
| LALSimIMRSpinPrecEOB.c | Functions for producing SEOBNRv3 waveforms for precessing binaries of spinning compact objects, as described in Pan et al. ( PRD 89, 084006 (2014) ) == YPP |
| LALSimIMRSpinPrecEOBv4P.c | Functions for producing SEOBNRv4P(HM) waveforms for precessing binaries of spinning compact objects |
| LALSimIMRSEOBNRvxROMXXX.c | Functions for producing SEOBNRv1 and v2 waveforms using reduced order models |
| LALSimIMRSEOBNRv4HMROM.c | C code for SEOBNRv4HM reduced order model See Phys.Rev.D 101 (2020) 12, 124040, arXiv:2003.12079 for references |
| LALSimIMRSEOBNRv5HMROM.c | C code for SEOBNRv5HM reduced order model * |
| LALSimIMRSEOBNRv2ChirpTime.c | C code for SEOBNRv2 chirp time interpolant |
| LALSimIMRPSpinInspiralRD.c | |
| LALSimIMRLackeyTidal2013.c | |
| LALSimIMRPrecessingNRSur.c | |
| LALSimIMRNRWaveforms.c | |
| LALSimIMRTEOBResumS.c | Routines to generate time-domain effective-one-body gravitational waveforms for coalescing compact binaries with non-precessing spins, tides and self-spin effects |
| ▼Header LALSimInspiral.h | Routines for generating binary inspiral gravitational waveforms |
| Module LALSimInspiral.c | General routines for generating binary inspiral waveforms |
| Module LALSimInspiralPNMode.c | Routines for mode decompositions of post-Newtonian waveforms |
| Module LALSimInspiralTaylorXX.c | Routines to produce Taylor -T1, -T2, -T3, -T4, -F2, and -Et inspiral waveforms |
| Module LALSimInspiralTaylorF2Ecc.c | Routines for generating eccentric TaylorF2 waveforms |
| Module LALSimInspiralSpinTaylor.c | Routines for generating spin precessing Taylor waveforms |
| Module LALSimInspiralEccentricTD.c | Routines to generate time-domain eccentric inspiral waveforms |
| Module LALSimInspiralEccentricityFD.c | Routines to generate frequency-domain eccentric inspiral waveforms |
| Module LALSimInspiralSpinDominatedWaveform.c | |
| Module LALSimInspiralTaylorF2ReducedSpin.c | Routines for generating TaylorF2 reduced spin inspiral waveforms |
| Module LALSimInspiralHGimri.c | Routines for generating the Huerta-Gair Intermediate-Mass-Ratio Inspiral model |
| Module LALSimInspiralWaveformFlags.c | Routines to manipulate inspiral waveform flags structures |
| Module LALSimInspiralTestGRParams.c | Routines to manipulate non-GR parameter key-value pairs |
| Module LALSimInspiralWaveformTaper.c | The code XLALInspiralREAL4WaveformTaper() and XLALInspiralREAL8WaveTaper() impose a smooth time tapering at the beginning and/or the end of REAL4 or REAL8 waveforms in the time domain |
| Module LALSimInspiralNRSur4d2s.c | |
| Module LALSimIMRNRHybSur3dq8.c | |
| Header LALSimInspiralPrecess.h | Functions to take an arbitrary waveform time series and impose the effects of causing the viewing angle to precess about a cone of L around J. The cone currently has a constant opening angle |
| Header LALSimInspiralWaveformCache.h | Routines for saving previously-computed waveforms for reuse |
| Header LALSimBlackHoleRingdown.h | Routines to generate black hole ringdown waveforms |
| ▼Stochastic Background Simulation Packages | This package provides routines for generating simulated gravitational wave stochastic background noise |
| ▼Header LALSimSGWB.h | Routines for simulating a stochastic gravitational-wave background |
| Module LALSimSGWB.c | Routines to compute a stochastic gravitational-wave background power spectrum and to produce a continuous stream of simulated gravitational-wave detector strain |
| Module LALSimSGWBORF.c | Routines to compute the Overlap Reduction Function for stochastic background gravitational waves between two detectors |
| ▼Noise Simulation Packages | This package provides routines for generating simulated gravitational wave detector noise |
| ▼Header LALSimNoise.h | Routines for simulating gravitational wave detector noise |
| Module LALSimNoise.c | Routines to produce a continuous stream of simulated gravitational-wave detector noise |
| Module LALSimNoisePSD.c | Routines to compute noise power spectral densities for gravitational-wave detectors |
| ▼SWIG Interfaces | This package provides Octave and Python wrappings of LALSimulation functions and data structures generated using SWIG |
| Interface SWIGLALSimulationAlpha.i | SWIG code which must appear before the LALSimulation headers |
| Interface SWIGLALSimulationOmega.i | SWIG code which must appear after the LALSimulation headers |
| Python Packages | |
| ▼Programs | |
| lalsim-bh-qnmode | Computes the quasi-normal modes of a black hole |
| lalsim-bh-ringdown | Simulates a gravitational waveform from black hole ringdown |
| lalsim-bh-sphwf | Evaluates a spin-weighted spheroidal wave function |
| lalsim-burst | Simulates a generic burst gravitational waveformS |
| lalsim-detector-noise | Simulates detector noise |
| lalsim-detector-strain | Computes the strain on a detector given a gravitational waveform |
| lalsim-inject | Injects an induced gravitational wave strain into detector data |
| lalsim-inspiral | Simulates a gravitational waveform from binary inspiral |
| lalsim-sgwb | Simulates a stochastic gravitational wave background |
| LALSimulation-LALInference parameter transformations | Functions to transform waveform parameters between LALSimulation and LALInference coordinate conventions |
| LALSimIMRTIDAL_c | |
| LALSimNRSur7dq2_c | |
| LALSimIMRSEOBNRv4TSurrogate_c | C code for SEOBNRv4T surrogate model See arXiv:1812.08643 |
| LALSimInspiralTEOBResumROM_c | |
1.9.4