Source code for gammapy.modeling.sampling

# Licensed under a 3-clause BSD style license - see LICENSE.rst
"""MCMC sampling helper functions using ``emcee``."""
import logging
import numpy as np

__all__ = ["uniform_prior", "run_mcmc", "plot_trace", "plot_corner"]

log = logging.getLogger(__name__)


# TODO: so far only works with a uniform prior on parameters
# as there is no way yet to enter min,mean,max in parameters for normal prior
# lnprob() uses a uniform prior. hard coded for now.


[docs]def uniform_prior(value, umin, umax): """Uniform prior distribution.""" if umin <= value <= umax: return 0.0 else: return -np.inf
def normal_prior(value, mean, sigma): """Normal prior distribution.""" return -0.5 * (2 * np.pi * sigma) - (value - mean) ** 2 / (2.0 * sigma) def par_to_model(dataset, pars): """Update model in dataset with a list of free parameters factors""" for i, p in enumerate(dataset.models.parameters.free_parameters): p.factor = pars[i] def ln_uniform_prior(dataset): """LogLike associated with prior and data/model evaluation. Return probability of parameter values according to prior knowledge. Parameter limits should be done here through uniform prior ditributions """ logprob = 0 for par in dataset.models.parameters.free_parameters: logprob += uniform_prior(par.value, par.min, par.max) return logprob def lnprob(pars, dataset): """Estimate the likelihood of a model including prior on parameters.""" # Update model parameters factors inplace for factor, par in zip(pars, dataset.models.parameters.free_parameters): par.factor = factor lnprob_priors = ln_uniform_prior(dataset) # dataset.likelihood returns Cash statistics values # emcee will maximisise the LogLikelihood so we need -dataset.likelihood total_lnprob = -dataset.stat_sum() + lnprob_priors return total_lnprob
[docs]def run_mcmc(dataset, nwalkers=8, nrun=1000, threads=1): """Run the MCMC sampler. Parameters ---------- dataset : `~gammapy.modeling.Dataset` Dataset nwalkers : int Number of walkers nrun : int Number of steps each walker takes threads : (optional) Number of threads or processes to use Returns ------- sampler : `emcee.EnsembleSampler` sampler object containing the trace of all walkers. """ import emcee dataset.models.parameters.autoscale() # Autoscale parameters # Initialize walkers in a ball of relative size 0.5% in all dimensions if the # parameters have been fit, or to 10% otherwise # Handle source position spread differently with a spread of 0.1° # TODO: the spread of 0.5% below is valid if a pre-fit of the model has been obtained. # currently the run_mcmc() doesn't know the status of previous fit. p0var = [] pars = [] spread = 0.5 / 100 spread_pos = 0.1 # in degrees for par in dataset.models.parameters.free_parameters: pars.append(par.factor) if par.name in ["lon_0", "lat_0"]: p0var.append(spread_pos / par.scale) else: p0var.append(spread * par.factor) ndim = len(pars) p0 = emcee.utils.sample_ball(pars, p0var, nwalkers) labels = [] for par in dataset.models.parameters.free_parameters: labels.append(par.name) if (par.min is np.nan) and (par.max is np.nan): log.warning( f"Missing prior for parameter: {par.name}.\nMCMC will likely fail!" ) log.info(f"Free parameters: {labels}") sampler = emcee.EnsembleSampler( nwalkers, ndim, lnprob, args=[dataset], threads=threads ) log.info(f"Starting MCMC sampling: nwalkers={nwalkers}, nrun={nrun}") for idx, result in enumerate(sampler.sample(p0, iterations=nrun)): if idx % (nrun / 4) == 0: log.info("{:5.0%}".format(idx / nrun)) log.info("100% => sampling completed") return sampler
[docs]def plot_trace(sampler, dataset): """ Plot the trace of walkers for every steps Parameters ---------- sampler : `emcee.EnsembleSampler` Sampler object containing the trace of all walkers dataset : `~gammapy.modeling.Dataset` Dataset """ import matplotlib.pyplot as plt labels = [par.name for par in dataset.models.parameters.free_parameters] fig, axes = plt.subplots(len(labels), sharex=True) for idx, ax in enumerate(axes): ax.plot(sampler.chain[:, :, idx].T, "-k", alpha=0.2) ax.set_ylabel(labels[idx]) plt.xlabel("Nrun") plt.show()
[docs]def plot_corner(sampler, dataset, nburn=0): """Corner plot for each parameter explored by the walkers. Parameters ---------- sampler : `emcee.EnsembleSampler` Sampler object containing the trace of all walkers dataset : `~gammapy.modeling.Dataset` Dataset nburn : int Number of runs to discard, because considered part of the burn-in phase """ from corner import corner labels = [par.name for par in dataset.models.parameters.free_parameters] samples = sampler.chain[:, nburn:, :].reshape((-1, len(labels))) corner(samples, labels=labels, quantiles=[0.16, 0.5, 0.84], show_titles=True)