| | |
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| | | ) |
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| | | return model |
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| | | ``` |
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| | | This function defines the detail of the model. For different speech recognition models, the same speech recognition `Task` can usually be shared and the remaining thing needed to be done is to define a specific model in this function. For example, a speech recognition model with a standard encoder-decoder structure has been shown above. Specifically, it first defines each module of the model, including encoder, decoder, etc. and then combine these modules together to generate a complete model. In FunASR, the model needs to inherit `AbsESPnetModel` and the corresponding code can be seen in `funasr/train/abs_espnet_model.py`. The main function needed to be implemented is the `forward` function. |
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| | | This function defines the detail of the model. For different speech recognition models, the same speech recognition `Task` can usually be shared and the remaining thing needed to be done is to define a specific model in this function. For example, a speech recognition model with a standard encoder-decoder structure has been shown above. Specifically, it first defines each module of the model, including encoder, decoder, etc. and then combine these modules together to generate a complete model. In FunASR, the model needs to inherit `AbsESPnetModel` and the corresponding code can be seen in `funasr/train/abs_espnet_model.py`. The main function needed to be implemented is the `forward` function. |
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| | | |
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| | | Next, we take `SANMEncoder` as an example to introduce how to use a custom encoder as a part of the model when defining the specified model and the corresponding code can be seen in `funasr/models/encoder/sanm_encoder.py`. For a custom encoder, in addition to inheriting the common encoder class `AbsEncoder`, it is also necessary to define the `forward` function to achieve the forward computation of the `encoder`. After defining the `encoder`, it should also be registered in the `Task`. The corresponding code example can be seen as below: |
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| | | ```python |
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| | | encoder_choices = ClassChoices( |
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| | | "encoder", |
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| | | classes=dict( |
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| | | conformer=ConformerEncoder, |
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| | | transformer=TransformerEncoder, |
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| | | rnn=RNNEncoder, |
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| | | sanm=SANMEncoder, |
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| | | sanm_chunk_opt=SANMEncoderChunkOpt, |
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| | | data2vec_encoder=Data2VecEncoder, |
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| | | mfcca_enc=MFCCAEncoder, |
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| | | ), |
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| | | type_check=AbsEncoder, |
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| | | default="rnn", |
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| | | ) |
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| | | ``` |
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| | | In this code, `sanm=SANMEncoder` takes the newly defined `SANMEncoder` as an optional choice of the `encoder`. Once the user specifies the `encoder` as `sanm` in the configuration file, the `SANMEncoder` will be correspondingly employed as the `encoder` module of the model. |
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