[model] name = single_template #; This model precalculates the SNR time series at a fixed rate. #; If you need a higher time resolution, this may be increased sample_rate = 8192 low-frequency-cutoff = 30.0 marginalize_vector_params = tc, ra, dec, polarization marginalize_vector_samples = 1000 # These lines enable the marginalization to only use information # around SNR peaks for drawing possible sky / time positions. Remove # if you want to use the entire prior range as possible peak_lock_snr = 4.0 peak_min_snr = 4.0 marginalize_phase = True marginalize_distance = True marginalize_distance_param = distance marginalize_distance_interpolator = True marginalize_distance_snr_range = 5, 50 marginalize_distance_density = 200, 200 marginalize_distance_samples = 1000 [data] instruments = H1 L1 V1 analysis-start-time = 1187008482 analysis-end-time = 1187008892 psd-estimation = median psd-segment-length = 16 psd-segment-stride = 8 psd-inverse-length = 16 pad-data = 8 channel-name = H1:LOSC-STRAIN L1:LOSC-STRAIN V1:LOSC-STRAIN frame-files = H1:H-H1_LOSC_CLN_4_V1-1187007040-2048.gwf L1:L-L1_LOSC_CLN_4_V1-1187007040-2048.gwf V1:V-V1_LOSC_CLN_4_V1-1187007040-2048.gwf strain-high-pass = 15 sample-rate = 2048 [sampler] name = dynesty dlogz = 0.5 nlive = 100 [variable_params] ; waveform parameters that will vary in MCMC #coa_phase = distance = polarization = inclination = ra = dec = tc = [static_params] ; waveform parameters that will not change in MCMC approximant = TaylorF2 f_lower = 30 mass1 = 1.3757 mass2 = 1.3757 #; we'll choose not to sample over these, but you could #polarization = 0 #ra = 3.44615914 #dec = -0.40808407 #tc = 1187008882.42825 #; You could also set additional parameters if your waveform model supports / requires it. ; spin1z = 0 #[prior-coa_phase] #name = uniform_angle #[prior-ra+dec] #name = uniform_sky [prior-ra] name = uniform_angle [prior-dec] name = cos_angle [prior-tc] #; coalescence time prior name = uniform min-tc = 1187008882.4 max-tc = 1187008882.5 [prior-distance] #; following gives a uniform in volume name = uniform_radius min-distance = 10 max-distance = 60 [prior-polarization] name = uniform_angle [prior-inclination] name = sin_angle