Macros
#define	MFCC_INIT_Q15(LEN)

Functions
riscv_status	riscv_mfcc_init_q15 (riscv_mfcc_instance_q15 S, uint32_t fftLen, uint32_t nbMelFilters, uint32_t nbDctOutputs, const q15_t dctCoefs, const uint32_t filterPos, const uint32_t filterLengths, const q15_t filterCoefs, const q15_t windowCoefs)
	Generic initialization of the MFCC Q15 instance structure. More...

	MFCC_INIT_Q15 (32)
	Initialization of the MFCC Q15 instance structure for 32 samples MFCC. More...

	MFCC_INIT_Q15 (64)
	Initialization of the MFCC Q15 instance structure for 64 samples MFCC. More...

	MFCC_INIT_Q15 (128)
	Initialization of the MFCC Q15 instance structure for 128 samples MFCC. More...

	MFCC_INIT_Q15 (256)
	Initialization of the MFCC Q15 instance structure for 256 samples MFCC. More...

	MFCC_INIT_Q15 (512)
	Initialization of the MFCC Q15 instance structure for 512 samples MFCC. More...

	MFCC_INIT_Q15 (1024)
	Initialization of the MFCC Q15 instance structure for 1024 samples MFCC. More...

	MFCC_INIT_Q15 (2048)
	Initialization of the MFCC Q15 instance structure for 2048 samples MFCC. More...

	MFCC_INIT_Q15 (4096)
	Initialization of the MFCC Q15 instance structure for 4096 samples MFCC. More...

riscv_status	riscv_mfcc_q15 (const riscv_mfcc_instance_q15 S, q15_t pSrc, q15_t pDst, q31_t pTmp)
	MFCC Q15. More...

Detailed Description

Macro Definition Documentation

◆ MFCC_INIT_Q15

#define MFCC_INIT_Q15 ( LEN )

Function Documentation

◆ MFCC_INIT_Q15() [1/8]

MFCC_INIT_Q15 ( 1024 )

Initialization of the MFCC Q15 instance structure for 1024 samples MFCC.

Parameters

[out]	S	points to the mfcc instance structure
[in]	nbMelFilters	number of Mel filters
[in]	nbDctOutputs	number of Dct outputs
[in]	dctCoefs	points to an array of DCT coefficients
[in]	filterPos	points of the array of filter positions
[in]	filterLengths	points to the array of filter lengths
[in]	filterCoefs	points to the array of filter coefficients
[in]	windowCoefs	points to the array of window coefficients

Returns: error status

Description: The matrix of Mel filter coefficients is sparse. Most of the coefficients are zero. To avoid multiplying the spectrogram by those zeros, the filter is applied only to a given position in the spectrogram and on a given number of FFT bins (the filter length). It is the reason for the arrays filterPos and filterLengths.

window coefficients can describe (for instance) a Hamming window. The array has the same size as the FFT length.

The folder Scripts is containing a Python script which can be used to generate the filter, dct and window arrays.

◆ MFCC_INIT_Q15() [2/8]

MFCC_INIT_Q15 ( 128 )

Initialization of the MFCC Q15 instance structure for 128 samples MFCC.

Parameters

[out]	S	points to the mfcc instance structure
[in]	nbMelFilters	number of Mel filters
[in]	nbDctOutputs	number of Dct outputs
[in]	dctCoefs	points to an array of DCT coefficients
[in]	filterPos	points of the array of filter positions
[in]	filterLengths	points to the array of filter lengths
[in]	filterCoefs	points to the array of filter coefficients
[in]	windowCoefs	points to the array of window coefficients

Returns: error status

Description: The matrix of Mel filter coefficients is sparse. Most of the coefficients are zero. To avoid multiplying the spectrogram by those zeros, the filter is applied only to a given position in the spectrogram and on a given number of FFT bins (the filter length). It is the reason for the arrays filterPos and filterLengths.

window coefficients can describe (for instance) a Hamming window. The array has the same size as the FFT length.

The folder Scripts is containing a Python script which can be used to generate the filter, dct and window arrays.

◆ MFCC_INIT_Q15() [3/8]

MFCC_INIT_Q15 ( 2048 )

Initialization of the MFCC Q15 instance structure for 2048 samples MFCC.

Parameters

[out]	S	points to the mfcc instance structure
[in]	nbMelFilters	number of Mel filters
[in]	nbDctOutputs	number of Dct outputs
[in]	dctCoefs	points to an array of DCT coefficients
[in]	filterPos	points of the array of filter positions
[in]	filterLengths	points to the array of filter lengths
[in]	filterCoefs	points to the array of filter coefficients
[in]	windowCoefs	points to the array of window coefficients

Returns: error status

Description: The matrix of Mel filter coefficients is sparse. Most of the coefficients are zero. To avoid multiplying the spectrogram by those zeros, the filter is applied only to a given position in the spectrogram and on a given number of FFT bins (the filter length). It is the reason for the arrays filterPos and filterLengths.

window coefficients can describe (for instance) a Hamming window. The array has the same size as the FFT length.

The folder Scripts is containing a Python script which can be used to generate the filter, dct and window arrays.

◆ MFCC_INIT_Q15() [4/8]

MFCC_INIT_Q15 ( 256 )

Initialization of the MFCC Q15 instance structure for 256 samples MFCC.

Parameters

[out]	S	points to the mfcc instance structure
[in]	nbMelFilters	number of Mel filters
[in]	nbDctOutputs	number of Dct outputs
[in]	dctCoefs	points to an array of DCT coefficients
[in]	filterPos	points of the array of filter positions
[in]	filterLengths	points to the array of filter lengths
[in]	filterCoefs	points to the array of filter coefficients
[in]	windowCoefs	points to the array of window coefficients

Returns: error status

Description: The matrix of Mel filter coefficients is sparse. Most of the coefficients are zero. To avoid multiplying the spectrogram by those zeros, the filter is applied only to a given position in the spectrogram and on a given number of FFT bins (the filter length). It is the reason for the arrays filterPos and filterLengths.

window coefficients can describe (for instance) a Hamming window. The array has the same size as the FFT length.

The folder Scripts is containing a Python script which can be used to generate the filter, dct and window arrays.

◆ MFCC_INIT_Q15() [5/8]

MFCC_INIT_Q15 ( 32 )

Initialization of the MFCC Q15 instance structure for 32 samples MFCC.

Parameters

[out]	S	points to the mfcc instance structure
[in]	nbMelFilters	number of Mel filters
[in]	nbDctOutputs	number of Dct outputs
[in]	dctCoefs	points to an array of DCT coefficients
[in]	filterPos	points of the array of filter positions
[in]	filterLengths	points to the array of filter lengths
[in]	filterCoefs	points to the array of filter coefficients
[in]	windowCoefs	points to the array of window coefficients

Returns: error status

Description: The matrix of Mel filter coefficients is sparse. Most of the coefficients are zero. To avoid multiplying the spectrogram by those zeros, the filter is applied only to a given position in the spectrogram and on a given number of FFT bins (the filter length). It is the reason for the arrays filterPos and filterLengths.

window coefficients can describe (for instance) a Hamming window. The array has the same size as the FFT length.

The folder Scripts is containing a Python script which can be used to generate the filter, dct and window arrays.

◆ MFCC_INIT_Q15() [6/8]

MFCC_INIT_Q15 ( 4096 )

Initialization of the MFCC Q15 instance structure for 4096 samples MFCC.

Parameters

[out]	S	points to the mfcc instance structure
[in]	nbMelFilters	number of Mel filters
[in]	nbDctOutputs	number of Dct outputs
[in]	dctCoefs	points to an array of DCT coefficients
[in]	filterPos	points of the array of filter positions
[in]	filterLengths	points to the array of filter lengths
[in]	filterCoefs	points to the array of filter coefficients
[in]	windowCoefs	points to the array of window coefficients

Returns: error status

Description: The matrix of Mel filter coefficients is sparse. Most of the coefficients are zero. To avoid multiplying the spectrogram by those zeros, the filter is applied only to a given position in the spectrogram and on a given number of FFT bins (the filter length). It is the reason for the arrays filterPos and filterLengths.

window coefficients can describe (for instance) a Hamming window. The array has the same size as the FFT length.

The folder Scripts is containing a Python script which can be used to generate the filter, dct and window arrays.

◆ MFCC_INIT_Q15() [7/8]

MFCC_INIT_Q15 ( 512 )

Initialization of the MFCC Q15 instance structure for 512 samples MFCC.

Parameters

[out]	S	points to the mfcc instance structure
[in]	nbMelFilters	number of Mel filters
[in]	nbDctOutputs	number of Dct outputs
[in]	dctCoefs	points to an array of DCT coefficients
[in]	filterPos	points of the array of filter positions
[in]	filterLengths	points to the array of filter lengths
[in]	filterCoefs	points to the array of filter coefficients
[in]	windowCoefs	points to the array of window coefficients

Returns: error status

Description: The matrix of Mel filter coefficients is sparse. Most of the coefficients are zero. To avoid multiplying the spectrogram by those zeros, the filter is applied only to a given position in the spectrogram and on a given number of FFT bins (the filter length). It is the reason for the arrays filterPos and filterLengths.

window coefficients can describe (for instance) a Hamming window. The array has the same size as the FFT length.

The folder Scripts is containing a Python script which can be used to generate the filter, dct and window arrays.

◆ MFCC_INIT_Q15() [8/8]

MFCC_INIT_Q15 ( 64 )

Initialization of the MFCC Q15 instance structure for 64 samples MFCC.

Parameters

[out]	S	points to the mfcc instance structure
[in]	nbMelFilters	number of Mel filters
[in]	nbDctOutputs	number of Dct outputs
[in]	dctCoefs	points to an array of DCT coefficients
[in]	filterPos	points of the array of filter positions
[in]	filterLengths	points to the array of filter lengths
[in]	filterCoefs	points to the array of filter coefficients
[in]	windowCoefs	points to the array of window coefficients

Returns: error status

Description: The matrix of Mel filter coefficients is sparse. Most of the coefficients are zero. To avoid multiplying the spectrogram by those zeros, the filter is applied only to a given position in the spectrogram and on a given number of FFT bins (the filter length). It is the reason for the arrays filterPos and filterLengths.

window coefficients can describe (for instance) a Hamming window. The array has the same size as the FFT length.

The folder Scripts is containing a Python script which can be used to generate the filter, dct and window arrays.

◆ riscv_mfcc_init_q15()

riscv_status riscv_mfcc_init_q15	(	riscv_mfcc_instance_q15 *	S,
		uint32_t	fftLen,
		uint32_t	nbMelFilters,
		uint32_t	nbDctOutputs,
		const q15_t *	dctCoefs,
		const uint32_t *	filterPos,
		const uint32_t *	filterLengths,
		const q15_t *	filterCoefs,
		const q15_t *	windowCoefs
	)

Generic initialization of the MFCC Q15 instance structure.

Parameters

[out]	S	points to the mfcc instance structure
[in]	fftLen	fft length
[in]	nbMelFilters	number of Mel filters
[in]	nbDctOutputs	number of Dct outputs
[in]	dctCoefs	points to an array of DCT coefficients
[in]	filterPos	points of the array of filter positions
[in]	filterLengths	points to the array of filter lengths
[in]	filterCoefs	points to the array of filter coefficients
[in]	windowCoefs	points to the array of window coefficients

Returns: error status

Description: The matrix of Mel filter coefficients is sparse. Most of the coefficients are zero. To avoid multiplying the spectrogram by those zeros, the filter is applied only to a given position in the spectrogram and on a given number of FFT bins (the filter length). It is the reason for the arrays filterPos and filterLengths.

window coefficients can describe (for instance) a Hamming window. The array has the same size as the FFT length.

The folder Scripts is containing a Python script which can be used to generate the filter, dct and window arrays.

: This function should be used only if you don't know the FFT sizes that you'll need at build time. The use of this function will prevent the linker from removing the FFT tables that are not needed and the library code size will be bigger than needed.

: If you use NMSIS-DSP as a static library, and if you know the MFCC sizes that you need at build time, then it is better to use the initialization functions defined for each MFCC size.

◆ riscv_mfcc_q15()

riscv_status riscv_mfcc_q15	(	const riscv_mfcc_instance_q15 *	S,
		q15_t *	pSrc,
		q15_t *	pDst,
		q31_t *	pTmp
	)

MFCC Q15.

Parameters

[in]	S	points to the mfcc instance structure
[in]	pSrc	points to the input samples in Q15
[out]	pDst	points to the output MFCC values in q8.7 format
[in,out]	pTmp	points to a temporary buffer of complex

Returns: none

Description: The number of input samples is the FFT length used when initializing the instance data structure.

The temporary buffer has a 2*fft length.

The source buffer is modified by this function.

The function may saturate. If the FFT length is too big and the number of MEL filters too small then the fixed point computations may saturate.

Macros

Functions

Detailed Description

Macro Definition Documentation

◆ MFCC_INIT_Q15

Function Documentation

◆ MFCC_INIT_Q15() [1/8]

◆ MFCC_INIT_Q15() [2/8]

◆ MFCC_INIT_Q15() [3/8]

◆ MFCC_INIT_Q15() [4/8]

◆ MFCC_INIT_Q15() [5/8]

◆ MFCC_INIT_Q15() [6/8]

◆ MFCC_INIT_Q15() [7/8]

◆ MFCC_INIT_Q15() [8/8]

◆ riscv_mfcc_init_q15()

◆ riscv_mfcc_q15()