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Merge pull request #760 from Ka-zam/rcp_avx512
New AVX512F implementation
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/* -*- c++ -*- */ | ||
/* | ||
* Copyright 2024 Magnus Lundmark <magnuslundmark@gmail.com> | ||
* | ||
* This file is part of VOLK | ||
* | ||
* SPDX-License-Identifier: LGPL-3.0-or-later | ||
*/ | ||
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/*! | ||
* \page volk_32f_reciprocal_32f | ||
* | ||
* \b Overview | ||
* | ||
* Computes the reciprocal of the input vector and stores the results | ||
* in the output vector. For the AVX512F implementation the relative | ||
* error is < 2**(-14) = 6.1e-05 | ||
* | ||
* <b>Dispatcher Prototype</b> | ||
* \code | ||
* void volk_32f_reciprocal_32f(float* out, const float* in, unsigned int num_points) | ||
* \endcode | ||
* | ||
* \b Inputs | ||
* \li in: A pointer to the input vector of floats. | ||
* \li num_points: The number of data points. | ||
* | ||
* \b Outputs | ||
* \li bVector: A pointer to the output vector of floats. | ||
* | ||
* \b Example | ||
* \code | ||
int N = 10; | ||
unsigned int alignment = volk_get_alignment(); | ||
float* in = (float*)volk_malloc(sizeof(float)*N, alignment); | ||
float* out = (float*)volk_malloc(sizeof(float)*N, alignment); | ||
for(unsigned int ii = 1; ii < N; ++ii){ | ||
in[ii] = (float)(ii*ii); | ||
} | ||
volk_32f_reciprocal_32f(out, in, N); | ||
for(unsigned int ii = 0; ii < N; ++ii){ | ||
printf("out(%i) = %f\n", ii, out[ii]); | ||
} | ||
volk_free(in); | ||
volk_free(out); | ||
* \endcode | ||
*/ | ||
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#ifndef INCLUDED_volk_32f_reciprocal_32f_a_H | ||
#define INCLUDED_volk_32f_reciprocal_32f_a_H | ||
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#ifdef LV_HAVE_GENERIC | ||
static inline void | ||
volk_32f_reciprocal_32f_generic(float* out, const float* in, unsigned int num_points) | ||
{ | ||
for (unsigned int i = 0; i < num_points; i++) { | ||
out[i] = 1.f / in[i]; | ||
} | ||
} | ||
#endif /* LV_HAVE_GENERIC */ | ||
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#ifdef LV_HAVE_SSE | ||
#include <xmmintrin.h> | ||
static inline void | ||
volk_32f_reciprocal_32f_a_sse(float* out, const float* in, unsigned int num_points) | ||
{ | ||
const __m128 ONE = _mm_set_ps1(1.f); | ||
const unsigned int quarter_points = num_points / 4; | ||
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for (unsigned int number = 0; number < quarter_points; number++) { | ||
__m128 x = _mm_load_ps(in); | ||
in += 4; | ||
__m128 r = _mm_div_ps(ONE, x); | ||
_mm_store_ps(out, r); | ||
out += 4; | ||
} | ||
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const unsigned int done = quarter_points * 4; | ||
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volk_32f_reciprocal_32f_generic(out, in, num_points - done); | ||
} | ||
#endif /* LV_HAVE_SSE */ | ||
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#ifdef LV_HAVE_AVX | ||
#include <immintrin.h> | ||
static inline void | ||
volk_32f_reciprocal_32f_a_avx(float* out, const float* in, unsigned int num_points) | ||
{ | ||
const __m256 ONE = _mm256_set1_ps(1.f); | ||
const unsigned int eighth_points = num_points / 8; | ||
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for (unsigned int number = 0; number < eighth_points; number++) { | ||
__m256 x = _mm256_load_ps(in); | ||
in += 8; | ||
__m256 r = _mm256_div_ps(ONE, x); | ||
_mm256_store_ps(out, r); | ||
out += 8; | ||
} | ||
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const unsigned int done = eighth_points * 8; | ||
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volk_32f_reciprocal_32f_generic(out, in, num_points - done); | ||
} | ||
#endif /* LV_HAVE_AVX */ | ||
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#ifdef LV_HAVE_AVX512F | ||
#include <immintrin.h> | ||
static inline void | ||
volk_32f_reciprocal_32f_a_avx512(float* out, const float* in, unsigned int num_points) | ||
{ | ||
const unsigned int sixteenth_points = num_points / 16; | ||
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for (unsigned int number = 0; number < sixteenth_points; number++) { | ||
__m512 x = _mm512_load_ps(in); | ||
in += 16; | ||
__m512 r = _mm512_rcp14_ps(x); | ||
_mm512_store_ps(out, r); | ||
out += 16; | ||
} | ||
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const unsigned int done = sixteenth_points * 16; | ||
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volk_32f_reciprocal_32f_generic(out, in, num_points - done); | ||
} | ||
#endif /* LV_HAVE_AVX512F */ | ||
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#endif /* INCLUDED_volk_32f_reciprocal_32f_a_H */ | ||
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#ifndef INCLUDED_volk_32f_reciprocal_32f_u_H | ||
#define INCLUDED_volk_32f_reciprocal_32f_u_H | ||
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#ifdef LV_HAVE_SSE | ||
#include <xmmintrin.h> | ||
static inline void | ||
volk_32f_reciprocal_32f_u_sse(float* out, const float* in, unsigned int num_points) | ||
{ | ||
const __m128 ONE = _mm_set_ps1(1.f); | ||
const unsigned int quarter_points = num_points / 4; | ||
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for (unsigned int number = 0; number < quarter_points; number++) { | ||
__m128 x = _mm_loadu_ps(in); | ||
in += 4; | ||
__m128 r = _mm_div_ps(ONE, x); | ||
_mm_storeu_ps(out, r); | ||
out += 4; | ||
} | ||
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const unsigned int done = quarter_points * 4; | ||
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volk_32f_reciprocal_32f_generic(out, in, num_points - done); | ||
} | ||
#endif /* LV_HAVE_SSE */ | ||
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#ifdef LV_HAVE_AVX | ||
#include <immintrin.h> | ||
static inline void | ||
volk_32f_reciprocal_32f_u_avx(float* out, const float* in, unsigned int num_points) | ||
{ | ||
const __m256 ONE = _mm256_set1_ps(1.f); | ||
const unsigned int eighth_points = num_points / 8; | ||
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for (unsigned int number = 0; number < eighth_points; number++) { | ||
__m256 x = _mm256_loadu_ps(in); | ||
in += 8; | ||
__m256 r = _mm256_div_ps(ONE, x); | ||
_mm256_storeu_ps(out, r); | ||
out += 8; | ||
} | ||
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const unsigned int done = eighth_points * 8; | ||
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volk_32f_reciprocal_32f_generic(out, in, num_points - done); | ||
} | ||
#endif /* LV_HAVE_AVX */ | ||
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#ifdef LV_HAVE_AVX512F | ||
#include <immintrin.h> | ||
static inline void | ||
volk_32f_reciprocal_32f_u_avx512(float* out, const float* in, unsigned int num_points) | ||
{ | ||
const unsigned int sixteenth_points = num_points / 16; | ||
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for (unsigned int number = 0; number < sixteenth_points; number++) { | ||
__m512 x = _mm512_loadu_ps(in); | ||
in += 16; | ||
__m512 r = _mm512_rcp14_ps(x); | ||
_mm512_storeu_ps(out, r); | ||
out += 16; | ||
} | ||
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const unsigned int done = sixteenth_points * 16; | ||
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volk_32f_reciprocal_32f_generic(out, in, num_points - done); | ||
} | ||
#endif /* LV_HAVE_AVX512F */ | ||
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#endif /* INCLUDED_volk_32f_reciprocal_32f_u_H */ |
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