@inproceedings{gui2024adapting, author = {Gui, Azalea and Gamper, Hannes and Braun, Sebastian and Emmanouilidou, Dimitra}, title = {Adapting Frechet Audio Distance for Generative Music Evaluation}, booktitle = {IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP)}, year = {2024}, month = {April}, abstract = {The growing popularity of generative music models underlines the need for perceptually relevant, objective music quality metrics. The Frechet Audio Distance (FAD) is commonly used for this purpose even though its correlation with perceptual quality is understudied. We show that FAD performance may be hampered by sample size bias, poor choice of audio embeddings, or the use of biased or low-quality reference sets. We propose reducing sample size bias by extrapolating scores towards an infinite sample size. Through comparisons with MusicCaps labels and a listening test we identify audio embeddings and music reference sets that yield FAD scores well-correlated with acoustic and musical quality. Our results suggest that per-song FAD can be useful to identify outlier samples and predict perceptual quality for a range of music sets and generative models. Finally, we release a toolkit that allows adapting FAD for generative music evaluation. Link to the FAD toolkit: fadtk on github}, publisher = {IEEE}, url = {http://approjects.co.za/?big=en-us/research/publication/adapting-frechet-audio-distance-for-generative-music-evaluation/}, }