Audio Flamingo 3: Advancing Audio Intelligence with Fully Open Large Audio Language Models
This work addresses the need for improved reasoning and understanding across speech, sound, and music for applications in audio AI, representing a significant advancement rather than an incremental improvement.
The paper tackles the problem of advancing audio intelligence by developing Audio Flamingo 3, a fully open large audio-language model that achieves state-of-the-art results on over 20 audio understanding and reasoning benchmarks, including long audio up to 10 minutes.
We present Audio Flamingo 3 (AF3), a fully open state-of-the-art (SOTA) large audio-language model that advances reasoning and understanding across speech, sound, and music. AF3 introduces: (i) AF-Whisper, a unified audio encoder trained using a novel strategy for joint representation learning across all 3 modalities of speech, sound, and music; (ii) flexible, on-demand thinking, allowing the model to do chain-of-thought-type reasoning before answering; (iii) multi-turn, multi-audio chat; (iv) long audio understanding and reasoning (including speech) up to 10 minutes; and (v) voice-to-voice interaction. To enable these capabilities, we propose several large-scale training datasets curated using novel strategies, including AudioSkills-XL, LongAudio-XL, AF-Think, and AF-Chat, and train AF3 with a novel five-stage curriculum-based training strategy. Trained on only open-source audio data, AF3 achieves new SOTA results on over 20+ (long) audio understanding and reasoning benchmarks, surpassing both open-weight and closed-source models trained on much larger datasets.