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@ -44,22 +44,22 @@ class Spectrogram(nn.Layer):
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The spectorgram is defined as the complex norm of the short-time
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The spectorgram is defined as the complex norm of the short-time
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Fourier transformation.
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Fourier transformation.
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Parameters:
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Parameters:
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n_fft(int): the number of frequency components of the discrete Fourier transform.
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n_fft (int): the number of frequency components of the discrete Fourier transform.
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The default value is 2048,
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The default value is 2048,
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hop_length(int|None): the hop length of the short time FFT. If None, it is set to win_length//4.
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hop_length (int|None): the hop length of the short time FFT. If None, it is set to win_length//4.
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The default value is None.
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The default value is None.
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win_length: the window length of the short time FFt. If None, it is set to same as n_fft.
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win_length: the window length of the short time FFt. If None, it is set to same as n_fft.
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The default value is None.
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The default value is None.
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window(str): the name of the window function applied to the single before the Fourier transform.
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window (str): the name of the window function applied to the single before the Fourier transform.
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The folllowing window names are supported: 'hamming','hann','kaiser','gaussian',
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The folllowing window names are supported: 'hamming','hann','kaiser','gaussian',
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'exponential','triang','bohman','blackman','cosine','tukey','taylor'.
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'exponential','triang','bohman','blackman','cosine','tukey','taylor'.
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The default value is 'hann'
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The default value is 'hann'
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center(bool): if True, the signal is padded so that frame t is centered at x[t * hop_length].
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center (bool): if True, the signal is padded so that frame t is centered at x[t * hop_length].
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If False, frame t begins at x[t * hop_length]
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If False, frame t begins at x[t * hop_length]
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The default value is True
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The default value is True
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pad_mode(str): the mode to pad the signal if necessary. The supported modes are 'reflect'
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pad_mode (str): the mode to pad the signal if necessary. The supported modes are 'reflect'
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and 'constant'. The default value is 'reflect'.
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and 'constant'. The default value is 'reflect'.
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dtype(str): the data type of input and window.
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dtype (str): the data type of input and window.
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Notes:
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Notes:
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The Spectrogram transform relies on STFT transform to compute the spectrogram.
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The Spectrogram transform relies on STFT transform to compute the spectrogram.
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By default, the weights are not learnable. To fine-tune the Fourier coefficients,
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By default, the weights are not learnable. To fine-tune the Fourier coefficients,
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@ -190,39 +190,39 @@ class LogMelSpectrogram(nn.Layer):
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"""Compute log-mel-spectrogram(also known as LogFBank) feature of a given signal,
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"""Compute log-mel-spectrogram(also known as LogFBank) feature of a given signal,
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typically an audio waveform.
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typically an audio waveform.
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Parameters:
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Parameters:
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sr(int): the audio sample rate.
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sr (int): the audio sample rate.
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The default value is 22050.
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The default value is 22050.
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n_fft(int): the number of frequency components of the discrete Fourier transform.
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n_fft (int): the number of frequency components of the discrete Fourier transform.
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The default value is 2048,
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The default value is 2048,
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hop_length(int|None): the hop length of the short time FFT. If None, it is set to win_length//4.
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hop_length (int|None): the hop length of the short time FFT. If None, it is set to win_length//4.
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The default value is None.
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The default value is None.
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win_length: the window length of the short time FFt. If None, it is set to same as n_fft.
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win_length: the window length of the short time FFt. If None, it is set to same as n_fft.
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The default value is None.
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The default value is None.
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window(str): the name of the window function applied to the single before the Fourier transform.
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window (str): the name of the window function applied to the single before the Fourier transform.
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The folllowing window names are supported: 'hamming','hann','kaiser','gaussian',
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The folllowing window names are supported: 'hamming','hann','kaiser','gaussian',
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'exponential','triang','bohman','blackman','cosine','tukey','taylor'.
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'exponential','triang','bohman','blackman','cosine','tukey','taylor'.
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The default value is 'hann'
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The default value is 'hann'
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center(bool): if True, the signal is padded so that frame t is centered at x[t * hop_length].
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center (bool): if True, the signal is padded so that frame t is centered at x[t * hop_length].
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If False, frame t begins at x[t * hop_length]
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If False, frame t begins at x[t * hop_length]
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The default value is True
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The default value is True
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pad_mode(str): the mode to pad the signal if necessary. The supported modes are 'reflect'
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pad_mode (str): the mode to pad the signal if necessary. The supported modes are 'reflect'
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and 'constant'.
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and 'constant'.
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The default value is 'reflect'.
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The default value is 'reflect'.
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n_mels(int): the mel bins.
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n_mels (int): the mel bins.
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f_min(float): the lower cut-off frequency, below which the filter response is zero.
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f_min (float): the lower cut-off frequency, below which the filter response is zero.
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f_max(float): the upper cut-off frequency, above which the filter response is zeros.
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f_max (float): the upper cut-off frequency, above which the filter response is zeros.
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ref_value(float): the reference value. If smaller than 1.0, the db level
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htk (bool): whether to use HTK formula in computing fbank matrix.
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htk(bool): whether to use HTK formula in computing fbank matrix.
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norm (str|float): the normalization type in computing fbank matrix. Slaney-style is used by default.
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norm(str|float): the normalization type in computing fbank matrix. Slaney-style is used by default.
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You can specify norm=1.0/2.0 to use customized p-norm normalization.
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You can specify norm=1.0/2.0 to use customized p-norm normalization.
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dtype(str): the datatype of fbank matrix used in the transform. Use float64 to increase numerical
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ref_value (float): the reference value. If smaller than 1.0, the db level
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accuracy. Note that the final transform will be conducted in float32 regardless of dtype of fbank matrix.
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amin (float): the minimum value of input magnitude, below which the input of the signal will be pulled up accordingly.
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amin(float): the minimum value of input magnitude, below which the input of the signal will be pulled up accordingly.
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Otherwise, the db level is pushed down.
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Otherwise, the db level is pushed down.
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magnitude is clipped(to amin). For numerical stability, set amin to a larger value,
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magnitude is clipped(to amin). For numerical stability, set amin to a larger value,
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e.g., 1e-3.
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e.g., 1e-3.
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top_db(float): the maximum db value of resulting spectrum, above which the
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top_db (float): the maximum db value of resulting spectrum, above which the
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spectrum is clipped(to top_db).
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spectrum is clipped(to top_db).
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dtype (str): the datatype of fbank matrix used in the transform. Use float64 to increase numerical
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accuracy. Note that the final transform will be conducted in float32 regardless of dtype of fbank matrix.
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"""
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"""
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super(LogMelSpectrogram, self).__init__()
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super(LogMelSpectrogram, self).__init__()
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@ -260,24 +260,80 @@ class MFCC(nn.Layer):
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def __init__(self,
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def __init__(self,
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sr: int=22050,
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sr: int=22050,
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n_mfcc: int=40,
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n_mfcc: int=40,
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norm: str='ortho',
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n_fft: int=512,
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dtype: str=paddle.float32,
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hop_length: Optional[int]=None,
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**kwargs):
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win_length: Optional[int]=None,
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window: str='hann',
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center: bool=True,
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pad_mode: str='reflect',
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n_mels: int=64,
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f_min: float=50.0,
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f_max: Optional[float]=None,
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htk: bool=False,
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norm: Union[str, float]='slaney',
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ref_value: float=1.0,
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amin: float=1e-10,
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top_db: Optional[float]=None,
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dtype: str=paddle.float32):
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"""Compute mel frequency cepstral coefficients(MFCCs) feature of given waveforms.
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"""Compute mel frequency cepstral coefficients(MFCCs) feature of given waveforms.
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Parameters:
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Parameters:
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sr(int): the audio sample rate.
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sr(int): the audio sample rate.
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The default value is 22050.
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The default value is 22050.
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n_mfcc (int, optional): Number of cepstra in MFCC. Defaults to 40.
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n_mfcc (int, optional): Number of cepstra in MFCC. Defaults to 40.
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norm(str|float): the normalization type in computing fbank matrix. Slaney-style is used by default.
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n_fft (int): the number of frequency components of the discrete Fourier transform.
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The default value is 2048,
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hop_length (int|None): the hop length of the short time FFT. If None, it is set to win_length//4.
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The default value is None.
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win_length: the window length of the short time FFt. If None, it is set to same as n_fft.
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The default value is None.
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window (str): the name of the window function applied to the single before the Fourier transform.
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The folllowing window names are supported: 'hamming','hann','kaiser','gaussian',
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'exponential','triang','bohman','blackman','cosine','tukey','taylor'.
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The default value is 'hann'
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center (bool): if True, the signal is padded so that frame t is centered at x[t * hop_length].
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If False, frame t begins at x[t * hop_length]
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The default value is True
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pad_mode (str): the mode to pad the signal if necessary. The supported modes are 'reflect'
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and 'constant'.
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The default value is 'reflect'.
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n_mels (int): the mel bins.
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f_min (float): the lower cut-off frequency, below which the filter response is zero.
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f_max (float): the upper cut-off frequency, above which the filter response is zeros.
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htk (bool): whether to use HTK formula in computing fbank matrix.
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norm (str|float): the normalization type in computing fbank matrix. Slaney-style is used by default.
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You can specify norm=1.0/2.0 to use customized p-norm normalization.
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You can specify norm=1.0/2.0 to use customized p-norm normalization.
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dtype(str): the datatype of fbank matrix used in the transform. Use float64 to increase numerical
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ref_value (float): the reference value. If smaller than 1.0, the db level
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amin (float): the minimum value of input magnitude, below which the input of the signal will be pulled up accordingly.
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Otherwise, the db level is pushed down.
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magnitude is clipped(to amin). For numerical stability, set amin to a larger value,
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e.g., 1e-3.
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top_db (float): the maximum db value of resulting spectrum, above which the
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spectrum is clipped(to top_db).
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dtype (str): the datatype of fbank matrix used in the transform. Use float64 to increase numerical
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accuracy. Note that the final transform will be conducted in float32 regardless of dtype of fbank matrix.
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accuracy. Note that the final transform will be conducted in float32 regardless of dtype of fbank matrix.
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"""
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"""
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super(MFCC, self).__init__()
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super(MFCC, self).__init__()
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self._log_melspectrogram = LogMelSpectrogram(sr=sr, **kwargs)
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assert n_mfcc <= n_mels, 'n_mfcc cannot be larger than n_mels: %d vs %d' % (
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self.dct_matrix = create_dct(
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n_mfcc, n_mels)
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n_mfcc=n_mfcc, n_mels=self._log_melspectrogram.n_mels, norm=norm)
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self._log_melspectrogram = LogMelSpectrogram(
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sr=sr,
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n_fft=n_fft,
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hop_length=hop_length,
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win_length=win_length,
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window=window,
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center=center,
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pad_mode=pad_mode,
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n_mels=n_mels,
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f_min=f_min,
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f_max=f_max,
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htk=htk,
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norm=norm,
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ref_value=ref_value,
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amin=amin,
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top_db=top_db,
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dtype=dtype)
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self.dct_matrix = create_dct(n_mfcc=n_mfcc, n_mels=n_mels, dtype=dtype)
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self.register_buffer('dct_matrix', self.dct_matrix)
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self.register_buffer('dct_matrix', self.dct_matrix)
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def forward(self, x):
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def forward(self, x):
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