Convert TensorFlow DeepSpeech Model¶
DeepSpeech project provides an engine to train speech-to-text models.
Download the Pretrained DeepSpeech Model¶
Create a directory where model and metagraph with pretrained weights will be stored:
mkdir deepspeech cd deepspeech
Pretrained English speech-to-text model is publicly available. To download the model, follow the instruction below:
For UNIX*-like systems, run the following command:
wget -O - https://github.com/mozilla/DeepSpeech/archive/v0.8.2.tar.gz | tar xvfz - wget -O - https://github.com/mozilla/DeepSpeech/releases/download/v0.8.2/deepspeech-0.8.2-checkpoint.tar.gz | tar xvfz -
For Windows* systems:
Download the archive with the model: https://github.com/mozilla/DeepSpeech/archive/v0.8.2.tar.gz.
Download the TensorFlow* MetaGraph with pretrained weights: https://github.com/mozilla/DeepSpeech/releases/download/v0.8.2/deepspeech-0.8.2-checkpoint.tar.gz.
Unpack it with a file archiver application.
Freeze the Model into a *.pb File¶
After unpacking the archives above, you have to freeze the model. Note that this requires TensorFlow* version 1 which is not available under Python 3.8, so you need Python 3.7 or lower. Before freezing, deploy a virtual environment and install the required packages:
virtualenv --python=python3.7 venv-deep-speech source venv-deep-speech/bin/activate cd DeepSpeech-0.8.2 pip3 install -e .
Freeze the model with the following command:
python3 DeepSpeech.py --checkpoint_dir ../deepspeech-0.8.2-checkpoint --export_dir ../
After that, you will get the pretrained frozen model file
output_graph.pb in the directory
deepspeech created at the beginning. The model contains the preprocessing and main parts. The first preprocessing part performs conversion of input spectrogram into a form useful for speech recognition (mel). This part of the model is not convertible into IR because it contains unsupported operations
The main and most computationally expensive part of the model converts the preprocessed audio into text. There are two specificities with the supported part of the model.
The first is that the model contains an input with sequence length. So the model can be converted with a fixed input length shape, thus the model is not reshapeable. Refer to the Using Shape Inference.
The second is that the frozen model still has two variables:
previous_state_h, figure with the frozen *.pb model is below. It means that the model keeps training these variables at each inference.
At the first inference the variables are initialized with zero tensors. After executing, the results of the
BlockLSTM are assigned to cell state and hidden state, which are these two variables.
Convert the Main Part of DeepSpeech Model into IR¶
Model Optimizer assumes that the output model is for inference only. That is why you should cut
previous_state_h variables off and resolve keeping cell and hidden states on the application level.
There are certain limitations for the model conversion:
Time length (
time_len) and sequence length (
seq_len) are equal.
Original model cannot be reshaped, so you should keep original shapes.
To generate the IR, run the Model Optimizer with the following parameters:
mo \ --input_model output_graph.pb \ --input "input_lengths->,input_node[1 16 19 26],previous_state_h[1 2048],previous_state_c[1 2048]" \ --output "cudnn_lstm/rnn/multi_rnn_cell/cell_0/cudnn_compatible_lstm_cell/GatherNd_1,cudnn_lstm/rnn/multi_rnn_cell/cell_0/cudnn_compatible_lstm_cell/GatherNd,logits"
input_lengths->Replaces the input node with name “input_lengths” with a constant tensor of shape  with a single integer value 16. This means that the model now can consume input sequences of length 16 only.
input_node[1 16 19 26],previous_state_h[1 2048],previous_state_c[1 2048]replaces the variables with a placeholder.
--output ".../GatherNd_1,.../GatherNd,logits"output node names.