CLiENT: A new tool for emulating cosmological likelihoods using deep neural networks

Abstract

Cosmological emulation of observables such as the Cosmic Microwave Background (CMB) spectra and matter power spectra have become increasingly common in recent years because of the potential for saving computation time in connection with cosmological parameter inference or model comparison. In this paper we present CLiENT (Cosmological Likelihood Emulator using Neural networks with TensorFlow), a new method which circumvents the computation of observables in favour of directly emulating the likelihood function for a data set given a model parameter vector. We find that the method is competitive with observable emulators in terms of the required number of function evaluations, but has the distinct advantage of producing a surrogate likelihood which is completely auto-differentiable. Using less than 2 × 104 function evaluations CLiENT typically achieves credible intervals within better than 0.1 σ of those obtained using the true likelihood and single-point emulator precision better than Δχ2 0.5 across relevant regions in parameter space.