English

MultiSpeech: Multi-Speaker Text to Speech with Transformer

Audio and Speech Processing 2020-08-04 v2 Computation and Language Machine Learning Sound

Abstract

Transformer-based text to speech (TTS) model (e.g., Transformer TTS~\cite{li2019neural}, FastSpeech~\cite{ren2019fastspeech}) has shown the advantages of training and inference efficiency over RNN-based model (e.g., Tacotron~\cite{shen2018natural}) due to its parallel computation in training and/or inference. However, the parallel computation increases the difficulty while learning the alignment between text and speech in Transformer, which is further magnified in the multi-speaker scenario with noisy data and diverse speakers, and hinders the applicability of Transformer for multi-speaker TTS. In this paper, we develop a robust and high-quality multi-speaker Transformer TTS system called MultiSpeech, with several specially designed components/techniques to improve text-to-speech alignment: 1) a diagonal constraint on the weight matrix of encoder-decoder attention in both training and inference; 2) layer normalization on phoneme embedding in encoder to better preserve position information; 3) a bottleneck in decoder pre-net to prevent copy between consecutive speech frames. Experiments on VCTK and LibriTTS multi-speaker datasets demonstrate the effectiveness of MultiSpeech: 1) it synthesizes more robust and better quality multi-speaker voice than naive Transformer based TTS; 2) with a MutiSpeech model as the teacher, we obtain a strong multi-speaker FastSpeech model with almost zero quality degradation while enjoying extremely fast inference speed.

Keywords

Cite

@article{arxiv.2006.04664,
  title  = {MultiSpeech: Multi-Speaker Text to Speech with Transformer},
  author = {Mingjian Chen and Xu Tan and Yi Ren and Jin Xu and Hao Sun and Sheng Zhao and Tao Qin and Tie-Yan Liu},
  journal= {arXiv preprint arXiv:2006.04664},
  year   = {2020}
}
R2 v1 2026-06-23T16:08:59.098Z