Vector Addition

Element-by-element addition of two vectors. More...

Functions
DSP_FUNC_SCOPE void	zdsp_add_f32 (const DSP_DATA float32_t *src_a, const DSP_DATA float32_t *src_b, DSP_DATA float32_t *dst, uint32_t block_size)
	Floating-point vector addition.
DSP_FUNC_SCOPE void	zdsp_add_q7 (const DSP_DATA q7_t *src_a, const DSP_DATA q7_t *src_b, DSP_DATA q7_t *dst, uint32_t block_size)
	Q7 vector addition.
DSP_FUNC_SCOPE void	zdsp_add_q15 (const DSP_DATA q15_t *src_a, const DSP_DATA q15_t *src_b, DSP_DATA q15_t *dst, uint32_t block_size)
	Q15 vector addition.
DSP_FUNC_SCOPE void	zdsp_add_q31 (const DSP_DATA q31_t *src_a, const DSP_DATA q31_t *src_b, DSP_DATA q31_t *dst, uint32_t block_size)
	Q31 vector addition.
DSP_FUNC_SCOPE void	zdsp_add_f16 (const float16_t *src_a, const float16_t *src_b, float16_t *dst, uint32_t block_size)
	Floating-point vector addition.

Detailed Description

Element-by-element addition of two vectors.

    dst[n] = src_a[n] + src_b[n],   0 <= n < block_size.

There are separate functions for floating-point, Q7, Q15, and Q31 data types.

Function Documentation

zdsp_add_f16()

DSP_FUNC_SCOPE void zdsp_add_f16	(	const float16_t *	src_a,
		const float16_t *	src_b,
		float16_t *	dst,
		uint32_t	block_size
	)

#include <include/zephyr/dsp/basicmath_f16.h>

Floating-point vector addition.

Parameters

[in]	src_a	points to the first input vector
[in]	src_b	points to the second input vector
[out]	dst	points to the output vector
[in]	block_size	number of samples in each vector

zdsp_add_f32()

DSP_FUNC_SCOPE void zdsp_add_f32	(	const DSP_DATA float32_t *	src_a,
		const DSP_DATA float32_t *	src_b,
		DSP_DATA float32_t *	dst,
		uint32_t	block_size
	)

#include <include/zephyr/dsp/basicmath.h>

Floating-point vector addition.

Parameters

[in]	src_a	points to the first input vector
[in]	src_b	points to the second input vector
[out]	dst	points to the output vector
[in]	block_size	number of samples in each vector

zdsp_add_q15()

DSP_FUNC_SCOPE void zdsp_add_q15	(	const DSP_DATA q15_t *	src_a,
		const DSP_DATA q15_t *	src_b,
		DSP_DATA q15_t *	dst,
		uint32_t	block_size
	)

#include <include/zephyr/dsp/basicmath.h>

Q15 vector addition.

Scaling and Overflow Behavior

The function uses saturating arithmetic. Results outside of the allowable Q15 range [0x8000 0x7FFF] are saturated.

Parameters

[in]	src_a	points to the first input vector
[in]	src_b	points to the second input vector
[out]	dst	points to the output vector
[in]	block_size	number of samples in each vector

zdsp_add_q31()

DSP_FUNC_SCOPE void zdsp_add_q31	(	const DSP_DATA q31_t *	src_a,
		const DSP_DATA q31_t *	src_b,
		DSP_DATA q31_t *	dst,
		uint32_t	block_size
	)

#include <include/zephyr/dsp/basicmath.h>

Q31 vector addition.

Scaling and Overflow Behavior

The function uses saturating arithmetic. Results outside of the allowable Q31 range [0x80000000 0x7FFFFFFF] are saturated.

Parameters

[in]	src_a	points to the first input vector
[in]	src_b	points to the second input vector
[out]	dst	points to the output vector
[in]	block_size	number of samples in each vector

zdsp_add_q7()

DSP_FUNC_SCOPE void zdsp_add_q7	(	const DSP_DATA q7_t *	src_a,
		const DSP_DATA q7_t *	src_b,
		DSP_DATA q7_t *	dst,
		uint32_t	block_size
	)

#include <include/zephyr/dsp/basicmath.h>

Q7 vector addition.

Scaling and Overflow Behavior

The function uses saturating arithmetic. Results outside of the allowable Q7 range [0x80 0x7F] are saturated.

Parameters

[in]	src_a	points to the first input vector
[in]	src_b	points to the second input vector
[out]	dst	points to the output vector
[in]	block_size	number of samples in each vector