Deep Speech 2: End-to-End Speech Recognition in English and Mandarin
This work addresses speech recognition for diverse languages and noisy environments, representing a significant but incremental improvement in efficiency and deployment.
The paper tackled end-to-end speech recognition for English and Mandarin using deep learning, achieving competitive performance with human transcription on standard datasets and a 7x speedup over previous systems.
We show that an end-to-end deep learning approach can be used to recognize either English or Mandarin Chinese speech--two vastly different languages. Because it replaces entire pipelines of hand-engineered components with neural networks, end-to-end learning allows us to handle a diverse variety of speech including noisy environments, accents and different languages. Key to our approach is our application of HPC techniques, resulting in a 7x speedup over our previous system. Because of this efficiency, experiments that previously took weeks now run in days. This enables us to iterate more quickly to identify superior architectures and algorithms. As a result, in several cases, our system is competitive with the transcription of human workers when benchmarked on standard datasets. Finally, using a technique called Batch Dispatch with GPUs in the data center, we show that our system can be inexpensively deployed in an online setting, delivering low latency when serving users at scale.