icefall contains ASR recipes for various datasets using https://github.com/k2-fsa/k2.
You can use https://github.com/k2-fsa/sherpa to deploy models trained with icefall.
You can try pre-trained models from within your browser without the need to download or install anything by visiting https://huggingface.co/spaces/k2-fsa/automatic-speech-recognition See https://k2-fsa.github.io/icefall/huggingface/spaces.html for more details.
Please refer to https://icefall.readthedocs.io/en/latest/installation/index.html for installation.
Please refer to https://icefall.readthedocs.io/en/latest/recipes/index.html for more information.
We provide the following recipes:
- yesno
- LibriSpeech
- Aishell
- TIMIT
- TED-LIUM3
- GigaSpeech
- Aidatatang_200zh
- WenetSpeech
- Alimeeting
- Aishell4
- TAL_CSASR
This is the simplest ASR recipe in icefall and can be run on CPU.
Training takes less than 30 seconds and gives you the following WER:
[test_set] %WER 0.42% [1 / 240, 0 ins, 1 del, 0 sub ]
We do provide a Colab notebook for this recipe.
Please see https://github.com/k2-fsa/icefall/blob/master/egs/librispeech/ASR/RESULTS.md for the latest results.
We provide 4 models for this recipe:
- conformer CTC model
- TDNN LSTM CTC model
- Transducer: Conformer encoder + LSTM decoder
- Transducer: Conformer encoder + Embedding decoder
The best WER we currently have is:
| test-clean | test-other | |
|---|---|---|
| WER | 2.42 | 5.73 |
We provide a Colab notebook to run a pre-trained conformer CTC model:
The WER for this model is:
| test-clean | test-other | |
|---|---|---|
| WER | 6.59 | 17.69 |
We provide a Colab notebook to run a pre-trained TDNN LSTM CTC model:
Using Conformer as encoder and LSTM as decoder.
The best WER with greedy search is:
| test-clean | test-other | |
|---|---|---|
| WER | 3.07 | 7.51 |
We provide a Colab notebook to run a pre-trained RNN-T conformer model:
Using Conformer as encoder. The decoder consists of 1 embedding layer and 1 convolutional layer.
The best WER using modified beam search with beam size 4 is:
| test-clean | test-other | |
|---|---|---|
| WER | 2.56 | 6.27 |
Note: No auxiliary losses are used in the training and no LMs are used in the decoding.
We provide a Colab notebook to run a pre-trained transducer conformer + stateless decoder model:
| test-clean | test-other | |
|---|---|---|
| WER | 2.57 | 5.95 |
| test-clean | test-other | |
|---|---|---|
| WER | 2.00 | 4.63 |
We provide two models for this recipe: conformer CTC model and TDNN LSTM CTC model.
The best CER we currently have is:
| test | |
|---|---|
| CER | 4.26 |
We provide a Colab notebook to run a pre-trained conformer CTC model: 
| Dev | Test-Net | Test-Meeting | |
|---|---|---|---|
| greedy search | 7.80 | 8.75 | 13.49 |
| modified beam search | 7.76 | 8.71 | 13.41 |
| fast beam search | 7.94 | 8.74 | 13.80 |
Pruned stateless RNN-T_5: Conformer encoder + Embedding decoder + k2 pruned RNN-T loss (trained with L subset)
Streaming:
| Dev | Test-Net | Test-Meeting | |
|---|---|---|---|
| greedy_search | 8.78 | 10.12 | 16.16 |
| modified_beam_search | 8.53 | 9.95 | 15.81 |
| fast_beam_search | 9.01 | 10.47 | 16.28 |
We provide a Colab notebook to run a pre-trained Pruned Transducer Stateless2 model:
We provide one model for this recipe: Pruned stateless RNN-T: Conformer encoder + Embedding decoder + k2 pruned RNN-T loss.
Pruned stateless RNN-T: Conformer encoder + Embedding decoder + k2 pruned RNN-T loss (trained with far subset)
| Eval | Test-Net | |
|---|---|---|
| greedy search | 31.77 | 34.66 |
| fast beam search | 31.39 | 33.02 |
| modified beam search | 30.38 | 34.25 |
We provide a Colab notebook to run a pre-trained Pruned Transducer Stateless model:
We provide one model for this recipe: Pruned stateless RNN-T: Conformer encoder + Embedding decoder + k2 pruned RNN-T loss.
Pruned stateless RNN-T: Conformer encoder + Embedding decoder + k2 pruned RNN-T loss (trained with all subsets)
The best CER(%) results:
| test | |
|---|---|
| greedy search | 29.89 |
| fast beam search | 28.91 |
| modified beam search | 29.08 |
We provide a Colab notebook to run a pre-trained Pruned Transducer Stateless model:
We provide one model for this recipe: Pruned stateless RNN-T: Conformer encoder + Embedding decoder + k2 pruned RNN-T loss.
The best results for Chinese CER(%) and English WER(%) respectivly (zh: Chinese, en: English):
| decoding-method | dev | dev_zh | dev_en | test | test_zh | test_en |
|---|---|---|---|---|---|---|
| greedy_search | 7.30 | 6.48 | 19.19 | 7.39 | 6.66 | 19.13 |
| modified_beam_search | 7.15 | 6.35 | 18.95 | 7.22 | 6.50 | 18.70 |
| fast_beam_search | 7.18 | 6.39 | 18.90 | 7.27 | 6.55 | 18.77 |
We provide a Colab notebook to run a pre-trained Pruned Transducer Stateless model:
Once you have trained a model in icefall, you may want to deploy it with C++, without Python dependencies.
Please refer to the documentation https://icefall.readthedocs.io/en/latest/recipes/librispeech/conformer_ctc.html#deployment-with-c for how to do this.
We also provide a Colab notebook, showing you how to run a torch scripted model in k2 with C++.
Please see: