Piecewise Normalizing Flows
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Normalizing flows are an established approach for modelling complex probability densities through invertible transformations from a base distribution. However, the accuracy with which the target distribution can be captured by the normalizing flow is strongly influenced by the topology of the base distribution. A mismatch between the topology of the target and the base can result in a poor performance, as is the case for multi-modal problems. A number of different works have attempted to modify the topology of the base distribution to better match the target, either through the use of Gaussian Mixture Models [Izmailov et al., 2020, Ardizzone et al., 2020, Hagemann and Neumayer, 2021] or learned accept/reject sampling [Stimper et al., 2022]. We introduce piecewise normalizing flows which divide the target distribution into clusters, with topologies that better match the standard normal base distribution, and train a series of flows to model complex multi-modal targets. The piecewise nature of the flows can be exploited to significantly reduce the computational cost of training through parallelization. We demonstrate the performance of the piecewise flows using standard benchmarks and compare the accuracy of the flows to the approach taken in Stimper et al., 2022 for modelling multi-modal distributions.
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