WildFX: A DAW-Powered Pipeline for In-the-Wild Audio FX Graph Modeling
This work addresses the problem of bridging AI research with practical digital signal processing demands for audio professionals, though it appears incremental as it focuses on dataset generation rather than a new AI method.
The paper tackles the challenge of AI-driven modeling of professional audio effect graphs by introducing WildFX, a pipeline that generates multi-track audio mixing datasets using a professional DAW backend, demonstrating its validity through blind estimation of mixing graphs and plugin parameters.
Despite rapid progress in end-to-end AI music generation, AI-driven modeling of professional Digital Signal Processing (DSP) workflows remains challenging. In particular, while there is growing interest in neural black-box modeling of audio effect graphs (e.g. reverb, compression, equalization), AI-based approaches struggle to replicate the nuanced signal flow and parameter interactions used in professional workflows. Existing differentiable plugin approaches often diverge from real-world tools, exhibiting inferior performance relative to simplified neural controllers under equivalent computational constraints. We introduce WildFX, a pipeline containerized with Docker for generating multi-track audio mixing datasets with rich effect graphs, powered by a professional Digital Audio Workstation (DAW) backend. WildFX supports seamless integration of cross-platform commercial plugins or any plugins in the wild, in VST/VST3/LV2/CLAP formats, enabling structural complexity (e.g., sidechains, crossovers) and achieving efficient parallelized processing. A minimalist metadata interface simplifies project/plugin configuration. Experiments demonstrate the pipeline's validity through blind estimation of mixing graphs, plugin/gain parameters, and its ability to bridge AI research with practical DSP demands. The code is available on: https://github.com/IsaacYQH/WildFX.