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250 lines
10 KiB
C++
250 lines
10 KiB
C++
#ifndef NETGEN_CORE_SIMD_AVX512_HPP
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#define NETGEN_CORE_SIMD_AVX512_HPP
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/**************************************************************************/
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/* File: simd_avx512.hpp */
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/* Author: Joachim Schoeberl, Matthias Hochsteger */
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/* Date: 25. Mar. 16 */
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/**************************************************************************/
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#include <immintrin.h>
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namespace ngcore
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{
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template <>
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class SIMD<mask64,8>
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{
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__mmask8 mask;
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public:
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SIMD (size_t i)
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: mask(_mm512_cmpgt_epi64_mask(_mm512_set1_epi64(i),
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_mm512_set_epi64(7, 6, 5, 4, 3, 2, 1, 0)))
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{ ; }
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SIMD (int i)
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: mask(_mm512_cmpgt_epi64_mask(_mm512_set1_epi64(i),
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_mm512_set_epi64(7, 6, 5, 4, 3, 2, 1, 0)))
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{ ; }
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SIMD (int64_t i)
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: mask(_mm512_cmpgt_epi64_mask(_mm512_set1_epi64(i),
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_mm512_set_epi64(7, 6, 5, 4, 3, 2, 1, 0)))
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{ ; }
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SIMD (__mmask8 _mask) : mask(_mask) { ; }
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__mmask8 Data() const { return mask; }
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static constexpr int Size() { return 8; }
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static NETGEN_INLINE SIMD<mask64, 8> GetMaskFromBits (unsigned int i)
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{
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return SIMD<mask64, 8>(__mmask8(i));
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}
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};
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template<>
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class alignas(64) SIMD<int64_t,8>
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{
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__m512i data;
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public:
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static constexpr int Size() { return 8; }
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SIMD () {}
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SIMD (const SIMD &) = default;
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SIMD & operator= (const SIMD &) = default;
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SIMD (int64_t val) { data = _mm512_set1_epi64(val); }
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SIMD (int64_t v0, int64_t v1, int64_t v2, int64_t v3, int64_t v4, int64_t v5, int64_t v6, int64_t v7) { data = _mm512_set_epi64(v7,v6,v5,v4,v3,v2,v1,v0); }
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SIMD (__m512i _data) { data = _data; }
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template<typename T, typename std::enable_if<std::is_convertible<T, std::function<int64_t(int)>>::value, int>::type = 0>
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SIMD (const T & func)
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{
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data = _mm512_set_epi64(func(7), func(6), func(5), func(4), func(3), func(2), func(1), func(0));
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}
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NETGEN_INLINE auto operator[] (int i) const { return ((int64_t*)(&data))[i]; }
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NETGEN_INLINE __m512i Data() const { return data; }
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NETGEN_INLINE __m512i & Data() { return data; }
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static SIMD FirstInt() { return { 0, 1, 2, 3, 4, 5, 6, 7 }; }
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};
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NETGEN_INLINE SIMD<int64_t,8> operator-(SIMD<int64_t,8> a) { return _mm512_sub_epi64(_mm512_setzero_si512(), a.Data()); }
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NETGEN_INLINE SIMD<int64_t,8> operator+ (SIMD<int64_t,8> a, SIMD<int64_t,8> b) { return _mm512_add_epi64(a.Data(),b.Data()); }
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NETGEN_INLINE SIMD<int64_t,8> operator- (SIMD<int64_t,8> a, SIMD<int64_t,8> b) { return _mm512_sub_epi64(a.Data(),b.Data()); }
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NETGEN_INLINE SIMD<int64_t,8> If (SIMD<mask64,8> a, SIMD<int64_t,8> b, SIMD<int64_t,8> c)
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{ return _mm512_mask_blend_epi64(a.Data(), c.Data(), b.Data()); }
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template<>
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class alignas(64) SIMD<double,8>
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{
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__m512d data;
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public:
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static constexpr int Size() { return 8; }
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SIMD () {}
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SIMD (const SIMD &) = default;
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SIMD & operator= (const SIMD &) = default;
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SIMD (double val) { data = _mm512_set1_pd(val); }
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SIMD (int val) { data = _mm512_set1_pd(val); }
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SIMD (size_t val) { data = _mm512_set1_pd(val); }
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SIMD (double const * p) { data = _mm512_loadu_pd(p); }
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SIMD (double const * p, SIMD<mask64,8> mask)
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{ data = _mm512_mask_loadu_pd(_mm512_setzero_pd(), mask.Data(), p); }
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SIMD (__m512d _data) { data = _data; }
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template<typename T, typename std::enable_if<std::is_convertible<T, std::function<double(int)>>::value, int>::type = 0>
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SIMD (const T & func)
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{
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data = _mm512_set_pd(func(7), func(6), func(5), func(4), func(3), func(2), func(1), func(0));
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}
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void Store (double * p) { _mm512_storeu_pd(p, data); }
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void Store (double * p, SIMD<mask64,8> mask) { _mm512_mask_storeu_pd(p, mask.Data(), data); }
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template <typename Function>
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void SIMD_function (const Function & func, std::true_type)
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{
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data = (__m512){ func(7), func(6), func(5), func(4),
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func(3), func(2), func(1), func(0) };
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}
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// not a function
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void SIMD_function (double const * p, std::false_type)
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{
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data = _mm512_loadu_pd(p);
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}
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void SIMD_function (double val, std::false_type)
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{
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data = _mm512_set1_pd(val);
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}
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void SIMD_function (__m512d _data, std::false_type)
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{
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data = _data;
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}
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NETGEN_INLINE double operator[] (int i) const { return ((double*)(&data))[i]; }
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NETGEN_INLINE __m512d Data() const { return data; }
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NETGEN_INLINE __m512d & Data() { return data; }
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};
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NETGEN_INLINE SIMD<double,8> operator- (SIMD<double,8> a) { return -a.Data(); }
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NETGEN_INLINE SIMD<double,8> operator+ (SIMD<double,8> a, SIMD<double,8> b) { return _mm512_add_pd(a.Data(),b.Data()); }
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NETGEN_INLINE SIMD<double,8> operator- (SIMD<double,8> a, SIMD<double,8> b) { return _mm512_sub_pd(a.Data(),b.Data()); }
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NETGEN_INLINE SIMD<double,8> operator* (SIMD<double,8> a, SIMD<double,8> b) { return _mm512_mul_pd(a.Data(),b.Data()); }
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NETGEN_INLINE SIMD<double,8> operator/ (SIMD<double,8> a, SIMD<double,8> b) { return _mm512_div_pd(a.Data(),b.Data()); }
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NETGEN_INLINE SIMD<double,8> operator* (double a, SIMD<double,8> b) { return _mm512_set1_pd(a)*b.Data(); }
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NETGEN_INLINE SIMD<double,8> operator* (SIMD<double,8> b, double a) { return _mm512_set1_pd(a)*b.Data(); }
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NETGEN_INLINE SIMD<double,8> sqrt (SIMD<double,8> a) { return _mm512_sqrt_pd(a.Data()); }
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NETGEN_INLINE SIMD<double,8> floor (SIMD<double,8> a) { return _mm512_floor_pd(a.Data()); }
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NETGEN_INLINE SIMD<double,8> ceil (SIMD<double,8> a) { return _mm512_ceil_pd(a.Data()); }
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NETGEN_INLINE SIMD<double,8> fabs (SIMD<double,8> a) { return _mm512_max_pd(a.Data(), -a.Data()); }
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NETGEN_INLINE SIMD<mask64,8> operator<= (SIMD<double,8> a , SIMD<double,8> b)
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{ return _mm512_cmp_pd_mask (a.Data(), b.Data(), _CMP_LE_OQ); }
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NETGEN_INLINE SIMD<mask64,8> operator< (SIMD<double,8> a , SIMD<double,8> b)
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{ return _mm512_cmp_pd_mask (a.Data(), b.Data(), _CMP_LT_OQ); }
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NETGEN_INLINE SIMD<mask64,8> operator>= (SIMD<double,8> a , SIMD<double,8> b)
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{ return _mm512_cmp_pd_mask (a.Data(), b.Data(), _CMP_GE_OQ); }
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NETGEN_INLINE SIMD<mask64,8> operator> (SIMD<double,8> a , SIMD<double,8> b)
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{ return _mm512_cmp_pd_mask (a.Data(), b.Data(), _CMP_GT_OQ); }
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NETGEN_INLINE SIMD<mask64,8> operator== (SIMD<double,8> a , SIMD<double,8> b)
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{ return _mm512_cmp_pd_mask (a.Data(), b.Data(), _CMP_EQ_OQ); }
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NETGEN_INLINE SIMD<mask64,8> operator!= (SIMD<double,8> a , SIMD<double,8> b)
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{ return _mm512_cmp_pd_mask (a.Data(), b.Data(), _CMP_NEQ_OQ); }
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NETGEN_INLINE SIMD<mask64,8> operator<= (SIMD<int64_t,8> a , SIMD<int64_t,8> b)
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{ return _mm512_cmp_epi64_mask (a.Data(), b.Data(), _MM_CMPINT_LE); }
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NETGEN_INLINE SIMD<mask64,8> operator< (SIMD<int64_t,8> a , SIMD<int64_t,8> b)
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{ return _mm512_cmp_epi64_mask (a.Data(), b.Data(), _MM_CMPINT_LT); }
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NETGEN_INLINE SIMD<mask64,8> operator>= (SIMD<int64_t,8> a , SIMD<int64_t,8> b)
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{ return _mm512_cmp_epi64_mask (a.Data(), b.Data(), _MM_CMPINT_NLT); }
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NETGEN_INLINE SIMD<mask64,8> operator> (SIMD<int64_t,8> a , SIMD<int64_t,8> b)
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{ return _mm512_cmp_epi64_mask (a.Data(), b.Data(), _MM_CMPINT_NLE); }
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NETGEN_INLINE SIMD<mask64,8> operator== (SIMD<int64_t,8> a , SIMD<int64_t,8> b)
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{ return _mm512_cmp_epi64_mask (a.Data(), b.Data(), _MM_CMPINT_EQ); }
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NETGEN_INLINE SIMD<mask64,8> operator!= (SIMD<int64_t,8> a , SIMD<int64_t,8> b)
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{ return _mm512_cmp_epi64_mask (a.Data(), b.Data(), _MM_CMPINT_NE); }
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NETGEN_INLINE SIMD<mask64,8> operator&& (SIMD<mask64,8> a, SIMD<mask64,8> b)
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{ return (__mmask8)(a.Data() & b.Data()); }
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NETGEN_INLINE SIMD<mask64,8> operator|| (SIMD<mask64,8> a, SIMD<mask64,8> b)
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{ return (__mmask8)(a.Data() | b.Data()); }
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NETGEN_INLINE SIMD<mask64,8> operator! (SIMD<mask64,8> a)
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{ return (__mmask8)(~a.Data()); }
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NETGEN_INLINE SIMD<double,8> If (SIMD<mask64,8> a, SIMD<double,8> b, SIMD<double,8> c)
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{ return _mm512_mask_blend_pd(a.Data(), c.Data(), b.Data()); }
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NETGEN_INLINE SIMD<double,8> IfPos (SIMD<double,8> a, SIMD<double> b, SIMD<double> c)
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{
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auto k = _mm512_cmp_pd_mask(a.Data(),_mm512_setzero_pd(), _CMP_GT_OS);
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return _mm512_mask_blend_pd(k,c.Data(),b.Data());
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}
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NETGEN_INLINE SIMD<double,8> IfZero (SIMD<double,8> a, SIMD<double,8> b, SIMD<double,8> c)
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{
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auto k = _mm512_cmp_pd_mask(a.Data(),_mm512_setzero_pd(), _CMP_EQ_OS);
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return _mm512_mask_blend_pd(k,c.Data(),b.Data());
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}
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NETGEN_INLINE auto Unpack (SIMD<double,8> a, SIMD<double,8> b)
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{
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return std::make_tuple(SIMD<double,8>(_mm512_unpacklo_pd(a.Data(),b.Data())),
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SIMD<double,8>(_mm512_unpackhi_pd(a.Data(),b.Data())));
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}
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NETGEN_INLINE double HSum (SIMD<double,8> sd)
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{
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SIMD<double,4> low = _mm512_extractf64x4_pd(sd.Data(),0);
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SIMD<double,4> high = _mm512_extractf64x4_pd(sd.Data(),1);
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return HSum(low)+HSum(high);
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}
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NETGEN_INLINE auto HSum (SIMD<double,8> sd1, SIMD<double,8> sd2)
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{
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return SIMD<double,2>(HSum(sd1), HSum(sd2));
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}
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NETGEN_INLINE SIMD<double,4> HSum (SIMD<double,8> v1, SIMD<double,8> v2, SIMD<double,8> v3, SIMD<double,8> v4)
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{
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SIMD<double> lo,hi;
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std::tie(lo,hi) = Unpack(v1, v2);
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SIMD<double> sum01 = lo+hi;
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std::tie(lo,hi) = Unpack(v3, v4);
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SIMD<double> sum23 = lo+hi;
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// sum01 b a b a b a b a
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// sum23 d c d c d c d c
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// __m512 perm = _mm512_permutex2var_pd (sum01.Data(), _mm512_set_epi64(1,2,3,4,5,6,7,8), sum23.Data());
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__m256d ab = _mm512_extractf64x4_pd(sum01.Data(),0) + _mm512_extractf64x4_pd(sum01.Data(),1);
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__m256d cd = _mm512_extractf64x4_pd(sum23.Data(),0) + _mm512_extractf64x4_pd(sum23.Data(),1);
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return _mm256_add_pd (_mm256_permute2f128_pd (ab, cd, 1+2*16), _mm256_blend_pd (ab, cd, 12));
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}
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NETGEN_INLINE SIMD<double,8> FMA (SIMD<double,8> a, SIMD<double,8> b, SIMD<double,8> c)
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{
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return _mm512_fmadd_pd (a.Data(), b.Data(), c.Data());
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}
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NETGEN_INLINE SIMD<double,8> FMA (const double & a, SIMD<double,8> b, SIMD<double,8> c)
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{
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return _mm512_fmadd_pd (_mm512_set1_pd(a), b.Data(), c.Data());
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}
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NETGEN_INLINE SIMD<double,8> FNMA (SIMD<double,8> a, SIMD<double,8> b, SIMD<double,8> c)
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{
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return _mm512_fnmadd_pd (a.Data(), b.Data(), c.Data());
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}
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NETGEN_INLINE SIMD<double,8> FNMA (const double & a, SIMD<double,8> b, SIMD<double,8> c)
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{
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return _mm512_fnmadd_pd (_mm512_set1_pd(a), b.Data(), c.Data());
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}
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}
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#endif // NETGEN_CORE_SIMD_AVX512_HPP
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