--- license: mit tags: - small audio-language model - ALM - audio - music - sound events - audio reasoning - audio captioning - audio question answering - zero-shot - audio-text --- # Mellow: a small audio language model for reasoning [[`Paper`](https://arxiv.org/abs/2503.08540)] [[`GitHub`](https://github.com/soham97/Mellow)] [[`Checkpoint`](https://huggingface.co/soham97/Mellow)] [[`Zenodo`](https://zenodo.org/records/15002886)] Mellow is a small Audio-Language Model that takes in two audios and a text prompt as input and produces free-form text as output. It is a 167M parameter model and trained on ~155 hours of audio (AudioCaps and Clotho), and achieves SoTA performance on different tasks with 50x fewer parameters. ![alt text](resource/image.png) ## Index * [Setup](#setup) * [Usage](#usage) * [Examples](#example) * [ReasonAQA](#reasonaqa) * [Limitation](#limitation) ## Setup 1. Install the required dependencies: `pip install -r requirements.txt`. For [conda](https://www.anaconda.com), run the following: ```shell cd Mellow && \ conda create -n mellow python=3.10.14 && \ conda activate mellow && \ pip install -r requirements.txt ``` 2. To test the setup is complete, run: ```shell python example.py ``` ## Usage The MellowWrapper class allows easy interaction with the model. To use the wrapper, inputs required are: - `config`: The option supported is "v0" - `model`: The option supported is "v0" - `examples`: List of examples. Each example is a list containing three entries: audiopath1, audiopath2, prompt Supported functions: - `generate`: Produces text response for the given audio inputs and text prompt ## Example Mellow supports open-ended questions-answering and can produce response based on the user's prompt. Below, we provide some example questions for testing Mellow on different tasks. ```python import torch from pathlib import Path import os from mellow import MellowWrapper # setup cuda and device cuda = torch.cuda.is_available() device = 0 if cuda else "cpu" # setup mellow mellow = MellowWrapper( config="v0", model = "v0", device=device, use_cuda=cuda, ) # pick up audio file paths parent_path = Path(os.path.realpath(__file__)).parent path1 = os.path.join(parent_path, "resource", "1.wav") path2 = os.path.join(parent_path, "resource", "2.wav") # list of filepaths and prompts examples = [ [path1, path2, "what can you infer about the surroundings from the audio?"], [path1, path2, "is there a cat in the audio? answer yes or no"], [path1, path2, "caption the audio."] [path1, path2, "Based on the audio, what can be said about the hypothesis - \"A farmer is giving a tour of his ranch while chickens roam nearby\"? a) It is definitely true b) It is definitely false c) It is plausible d) I cannot determine"], [path1, path2, "explain the difference between the two audios in detail."], [path1, path2, "what is the primary sound event present in the clip? a) dog barking b) chirping birds c) car engine d) clapping"], ] # generate response response = mellow.generate(examples=examples, max_len=300, top_p=0.8, temperature=1.0) print(f"\noutput: {response}") ``` ## Limitation With Mellow, we aim to showcase that small audio-language models can engage in reasoning. As a research prototype, Mellow has not been trained at scale on publicly available audio datasets, resulting in a limited understanding of audio concepts. Therefore, we advise caution when considering its use in production settings. Ultimately, we hope this work inspires researchers to explore small audio-language models for multitask capabilities, complementing ongoing research on general-purpose audio assistants. ## Citation ``` @misc{mellow, title={Mellow: a small audio language model for reasoning}, author={Soham Deshmukh and Satvik Dixit and Rita Singh and Bhiksha Raj}, year={2025}, eprint={2503.08540}, archivePrefix={arXiv}, primaryClass={cs.SD}, url={https://arxiv.org/abs/2503.08540}, } ```