Loren Lugosch

Jinyu Li

Cem Subakan

Phil Woodland

Minje Kim

Hung-yi Lee

Shinji Watanabe

Yossi Adi … (see 1 more)

Discrete audio tokens are compact representations that aim to preserve perceptual quality, phonetic content, and speaker characteristics whi… (see more)le enabling efficient storage and inference, as well as competitive performance across diverse downstream tasks. They provide a practical alternative to continuous features, enabling the integration of speech and audio into modern large language models (LLMs). As interest in token-based audio processing grows, various tokenization methods have emerged, and several surveys have reviewed the latest progress in the field. However, existing studies often focus on specific domains or tasks and lack a unified comparison across various benchmarks. This paper presents a systematic review and benchmark of discrete audio tokenizers, covering three domains: speech, music, and general audio. We propose a taxonomy of tokenization approaches based on encoder-decoder, quantization techniques, training paradigm, streamability, and application domains. We evaluate tokenizers on multiple benchmarks for reconstruction, downstream performance, and acoustic language modeling, and analyze trade-offs through controlled ablation studies. Our findings highlight key limitations, practical considerations, and open challenges, providing insight and guidance for future research in this rapidly evolving area. For more information, including our main results and tokenizer database, please refer to our website: https://poonehmousavi.github.io/dates-website/.

2025-09-07

TMLR (accepted)

doi.org

openreview.net

Discrete Audio Tokens: More Than a Survey!

Pooneh Mousavi

Gallil Maimon

Adel Moumen

Darius Petermann

Jiatong Shi

Haibin Wu

Haici Yang

Anastasia Kuznetsova

Artem Ploujnikov

Ricard Marxer

Bhuvana Ramabhadran

Benjamin Elizalde

Jinyu Li

Cem Subakan

Phil Woodland

Minje Kim

Hung-yi Lee

Shinji Watanabe

Yossi Adi … (see 1 more)

Discrete audio tokens are compact representations that aim to preserve perceptual quality, phonetic content, and speaker characteristics whi… (see more)le enabling efficient storage and inference, as well as competitive performance across diverse downstream tasks. They provide a practical alternative to continuous features, enabling the integration of speech and audio into modern large language models (LLMs). As interest in token-based audio processing grows, various tokenization methods have emerged, and several surveys have reviewed the latest progress in the field. However, existing studies often focus on specific domains or tasks and lack a unified comparison across various benchmarks. This paper presents a systematic review and benchmark of discrete audio tokenizers, covering three domains: speech, music, and general audio. We propose a taxonomy of tokenization approaches based on encoder-decoder, quantization techniques, training paradigm, streamability, and application domains. We evaluate tokenizers on multiple benchmarks for reconstruction, downstream performance, and acoustic language modeling, and analyze trade-offs through controlled ablation studies. Our findings highlight key limitations, practical considerations, and open challenges, providing insight and guidance for future research in this rapidly evolving area. For more information, including our main results and tokenizer database, please refer to our website: https://poonehmousavi.github.io/dates-website/.

2025-06-12

ArXiv (preprint)

doi.org

Discrete Audio Tokens: More Than a Survey!

Pooneh Mousavi

Gallil Maimon

Adel Moumen

Darius Petermann

Jiatong Shi

Haibin Wu

Haici Yang

Anastasia Kuznetsova

Artem Ploujnikov

Ricard Marxer

Bhuvana Ramabhadran

Benjamin Elizalde

Jinyu Li

Cem Subakan

Phil Woodland

Minje Kim

Hung-yi Lee

Shinji Watanabe

Yossi Adi … (see 1 more)

Discrete audio tokens are compact representations that aim to preserve perceptual quality, phonetic content, and speaker characteristics whi… (see more)le enabling efficient storage and inference, as well as competitive performance across diverse downstream tasks.They provide a practical alternative to continuous features, enabling the integration of speech and audio into modern large language models (LLMs). As interest in token-based audio processing grows, various tokenization methods have emerged, and several surveys have reviewed the latest progress in the field. However, existing studies often focus on specific domains or tasks and lack a unified comparison across various benchmarks. This paper presents a systematic review and benchmark of discrete audio tokenizers, covering three domains: speech, music, and general audio. We propose a taxonomy of tokenization approaches based on encoder-decoder, quantization techniques, training paradigm, streamability, and application domains. We evaluate tokenizers on multiple benchmarks for reconstruction, downstream performance, and acoustic language modeling, and analyze trade-offs through controlled ablation studies. Our findings highlight key limitations, practical considerations, and open challenges, providing insight and guidance for future research in this rapidly evolving area. For more information, including our main results and tokenizer database, please refer to our website: https://poonehmousavi.github.io/dates-website/.

2025-06-12

ArXiv (preprint)

SpeechBrain: A General-Purpose Speech Toolkit

Titouan Parcollet

Peter William VanHarn Plantinga

Aku Rouhe

Samuele Cornell

Chien-Feng Liao

Elena Rastorgueva

Franccois Grondin

William Aris

Hwidong Na

Yan Gao

Renato De Mori … (see 1 more)

Yoshua Bengio

SpeechBrain is an open-source and all-in-one speech toolkit. It is designed to facilitate the research and development of neural speech proc… (see more)essing technologies by being simple, flexible, user-friendly, and well-documented. This paper describes the core architecture designed to support several tasks of common interest, allowing users to naturally conceive, compare and share novel speech processing pipelines. SpeechBrain achieves competitive or state-of-the-art performance in a wide range of speech benchmarks. It also provides training recipes, pretrained models, and inference scripts for popular speech datasets, as well as tutorials which allow anyone with basic Python proficiency to familiarize themselves with speech technologies.

2021-06-08

ArXiv (preprint)

Speech Model Pre-training for End-to-End Spoken Language Understanding

Patrick Ignoto

Vikrant Singh Tomar

Yoshua Bengio

Whereas conventional spoken language understanding (SLU) systems map speech to text, and then text to intent, end-to-end SLU systems map spe… (see more)ech directly to intent through a single trainable model. Achieving high accuracy with these end-to-end models without a large amount of training data is difficult. We propose a method to reduce the data requirements of end-to-end SLU in which the model is first pre-trained to predict words and phonemes, thus learning good features for SLU. We introduce a new SLU dataset, Fluent Speech Commands, and show that our method improves performance both when the full dataset is used for training and when only a small subset is used. We also describe preliminary experiments to gauge the model's ability to generalize to new phrases not heard during training.

2019-09-15

Interspeech 2019 (published)

doi.org