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https://github.com/gnss-sdr/gnss-sdr
synced 2024-12-14 20:20:35 +00:00
Add AVX and unaligned protokernels
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438ba45c16
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@ -59,6 +59,140 @@
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#include <inttypes.h>
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#include <stdio.h>
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#ifdef LV_HAVE_AVX
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#include <immintrin.h>
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static inline void volk_gnsssdr_32f_index_max_32u_a_avx(uint32_t* target, const float* src0, uint32_t num_points)
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{
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if(num_points > 0)
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{
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uint32_t number = 0;
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const uint32_t quarterPoints = num_points / 8;
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float* inputPtr = (float*)src0;
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__m256 indexIncrementValues = _mm256_set1_ps(8);
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__m256 currentIndexes = _mm256_set_ps(-1,-2,-3,-4,-5,-6,-7,-8);
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float max = src0[0];
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float index = 0;
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__m256 maxValues = _mm256_set1_ps(max);
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__m256 maxValuesIndex = _mm256_setzero_ps();
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__m256 compareResults;
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__m256 currentValues;
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__VOLK_ATTR_ALIGNED(32) float maxValuesBuffer[8];
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__VOLK_ATTR_ALIGNED(32) float maxIndexesBuffer[8];
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for(;number < quarterPoints; number++)
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{
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currentValues = _mm256_load_ps(inputPtr); inputPtr += 8;
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currentIndexes = _mm256_add_ps(currentIndexes, indexIncrementValues);
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//compareResults = _mm_cmpgt_ps(maxValues, currentValues);
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compareResults = _mm256_cmp_ps(maxValues, currentValues, 0x1e);
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maxValuesIndex = _mm256_blendv_ps(currentIndexes, maxValuesIndex, compareResults);
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maxValues = _mm256_blendv_ps(currentValues, maxValues, compareResults);
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}
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// Calculate the largest value from the remaining 8 points
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_mm256_store_ps(maxValuesBuffer, maxValues);
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_mm256_store_ps(maxIndexesBuffer, maxValuesIndex);
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for(number = 0; number < 8; number++)
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{
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if(maxValuesBuffer[number] > max)
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{
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index = maxIndexesBuffer[number];
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max = maxValuesBuffer[number];
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}
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}
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number = quarterPoints * 8;
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for(;number < num_points; number++)
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{
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if(src0[number] > max)
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{
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index = number;
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max = src0[number];
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}
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}
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target[0] = (uint32_t)index;
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}
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}
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#endif /*LV_HAVE_AVX*/
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#ifdef LV_HAVE_AVX
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#include <immintrin.h>
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static inline void volk_gnsssdr_32f_index_max_32u_u_avx(uint32_t* target, const float* src0, uint32_t num_points)
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{
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if(num_points > 0)
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{
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uint32_t number = 0;
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const uint32_t quarterPoints = num_points / 8;
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float* inputPtr = (float*)src0;
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__m256 indexIncrementValues = _mm256_set1_ps(8);
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__m256 currentIndexes = _mm256_set_ps(-1,-2,-3,-4,-5,-6,-7,-8);
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float max = src0[0];
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float index = 0;
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__m256 maxValues = _mm256_set1_ps(max);
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__m256 maxValuesIndex = _mm256_setzero_ps();
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__m256 compareResults;
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__m256 currentValues;
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__VOLK_ATTR_ALIGNED(32) float maxValuesBuffer[8];
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__VOLK_ATTR_ALIGNED(32) float maxIndexesBuffer[8];
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for(;number < quarterPoints; number++)
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{
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currentValues = _mm256_loadu_ps(inputPtr); inputPtr += 8;
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currentIndexes = _mm256_add_ps(currentIndexes, indexIncrementValues);
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//compareResults = _mm_cmpgt_ps(maxValues, currentValues);
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compareResults = _mm256_cmp_ps(maxValues, currentValues, 0x1e);
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maxValuesIndex = _mm256_blendv_ps(currentIndexes, maxValuesIndex, compareResults);
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maxValues = _mm256_blendv_ps(currentValues, maxValues, compareResults);
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}
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// Calculate the largest value from the remaining 8 points
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_mm256_store_ps(maxValuesBuffer, maxValues);
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_mm256_store_ps(maxIndexesBuffer, maxValuesIndex);
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for(number = 0; number < 8; number++)
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{
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if(maxValuesBuffer[number] > max)
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{
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index = maxIndexesBuffer[number];
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max = maxValuesBuffer[number];
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}
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}
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number = quarterPoints * 8;
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for(;number < num_points; number++)
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{
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if(src0[number] > max)
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{
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index = number;
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max = src0[number];
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}
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}
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target[0] = (uint32_t)index;
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}
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}
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#endif /*LV_HAVE_AVX*/
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#ifdef LV_HAVE_SSE4_1
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#include<smmintrin.h>
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@ -125,6 +259,72 @@ static inline void volk_gnsssdr_32f_index_max_32u_a_sse4_1(uint32_t* target, con
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#endif /*LV_HAVE_SSE4_1*/
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#ifdef LV_HAVE_SSE4_1
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#include<smmintrin.h>
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static inline void volk_gnsssdr_32f_index_max_32u_u_sse4_1(uint32_t* target, const float* src0, uint32_t num_points)
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{
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if(num_points > 0)
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{
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uint32_t number = 0;
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const uint32_t quarterPoints = num_points / 4;
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float* inputPtr = (float*)src0;
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__m128 indexIncrementValues = _mm_set1_ps(4);
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__m128 currentIndexes = _mm_set_ps(-1,-2,-3,-4);
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float max = src0[0];
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float index = 0;
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__m128 maxValues = _mm_set1_ps(max);
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__m128 maxValuesIndex = _mm_setzero_ps();
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__m128 compareResults;
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__m128 currentValues;
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__VOLK_ATTR_ALIGNED(16) float maxValuesBuffer[4];
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__VOLK_ATTR_ALIGNED(16) float maxIndexesBuffer[4];
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for(;number < quarterPoints; number++)
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{
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currentValues = _mm_loadu_ps(inputPtr); inputPtr += 4;
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currentIndexes = _mm_add_ps(currentIndexes, indexIncrementValues);
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compareResults = _mm_cmpgt_ps(maxValues, currentValues);
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maxValuesIndex = _mm_blendv_ps(currentIndexes, maxValuesIndex, compareResults);
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maxValues = _mm_blendv_ps(currentValues, maxValues, compareResults);
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}
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// Calculate the largest value from the remaining 4 points
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_mm_store_ps(maxValuesBuffer, maxValues);
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_mm_store_ps(maxIndexesBuffer, maxValuesIndex);
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for(number = 0; number < 4; number++)
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{
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if(maxValuesBuffer[number] > max)
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{
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index = maxIndexesBuffer[number];
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max = maxValuesBuffer[number];
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}
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}
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number = quarterPoints * 4;
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for(;number < num_points; number++)
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{
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if(src0[number] > max)
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{
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index = number;
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max = src0[number];
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}
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}
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target[0] = (uint32_t)index;
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}
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}
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#endif /*LV_HAVE_SSE4_1*/
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#ifdef LV_HAVE_SSE
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#include<xmmintrin.h>
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@ -192,6 +392,73 @@ static inline void volk_gnsssdr_32f_index_max_32u_a_sse(uint32_t* target, const
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#endif /*LV_HAVE_SSE*/
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#ifdef LV_HAVE_SSE
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#include<xmmintrin.h>
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static inline void volk_gnsssdr_32f_index_max_32u_u_sse(uint32_t* target, const float* src0, uint32_t num_points)
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{
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if(num_points > 0)
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{
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uint32_t number = 0;
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const uint32_t quarterPoints = num_points / 4;
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float* inputPtr = (float*)src0;
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__m128 indexIncrementValues = _mm_set1_ps(4);
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__m128 currentIndexes = _mm_set_ps(-1,-2,-3,-4);
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float max = src0[0];
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float index = 0;
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__m128 maxValues = _mm_set1_ps(max);
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__m128 maxValuesIndex = _mm_setzero_ps();
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__m128 compareResults;
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__m128 currentValues;
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__VOLK_ATTR_ALIGNED(16) float maxValuesBuffer[4];
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__VOLK_ATTR_ALIGNED(16) float maxIndexesBuffer[4];
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for(;number < quarterPoints; number++)
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{
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currentValues = _mm_loadu_ps(inputPtr); inputPtr += 4;
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currentIndexes = _mm_add_ps(currentIndexes, indexIncrementValues);
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compareResults = _mm_cmpgt_ps(maxValues, currentValues);
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maxValuesIndex = _mm_or_ps(_mm_and_ps(compareResults, maxValuesIndex) , _mm_andnot_ps(compareResults, currentIndexes));
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maxValues = _mm_or_ps(_mm_and_ps(compareResults, maxValues) , _mm_andnot_ps(compareResults, currentValues));
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}
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// Calculate the largest value from the remaining 4 points
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_mm_store_ps(maxValuesBuffer, maxValues);
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_mm_store_ps(maxIndexesBuffer, maxValuesIndex);
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for(number = 0; number < 4; number++)
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{
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if(maxValuesBuffer[number] > max)
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{
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index = maxIndexesBuffer[number];
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max = maxValuesBuffer[number];
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}
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}
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number = quarterPoints * 4;
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for(;number < num_points; number++)
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{
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if(src0[number] > max)
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{
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index = number;
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max = src0[number];
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}
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}
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target[0] = (uint32_t)index;
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}
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}
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#endif /*LV_HAVE_SSE*/
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#ifdef LV_HAVE_GENERIC
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static inline void volk_gnsssdr_32f_index_max_32u_generic(uint32_t* target, const float* src0, uint32_t num_points)
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