#ifndef VREALD_H #define VREALD_H #include "Grid.h" namespace Grid { class vRealD { public: dvec v; // dvec is double precision vector public: typedef dvec vector_type; typedef RealD scalar_type; vRealD(){}; vRealD(RealD a){ vsplat(*this,a); }; friend inline void mult(vRealD * __restrict__ y,const vRealD * __restrict__ l,const vRealD *__restrict__ r) {*y = (*l) * (*r);} friend inline void sub (vRealD * __restrict__ y,const vRealD * __restrict__ l,const vRealD *__restrict__ r) {*y = (*l) - (*r);} friend inline void add (vRealD * __restrict__ y,const vRealD * __restrict__ l,const vRealD *__restrict__ r) {*y = (*l) + (*r);} friend inline vRealD adj(const vRealD &in) { return in; } friend inline vRealD conj(const vRealD &in){ return in; } friend inline void mac (vRealD &y,const vRealD a,const vRealD x){ #if defined (AVX1) || defined (SSE4) y = a*x+y; #endif #ifdef AVX2 // AVX 2 introduced FMA support. FMA4 eliminates a copy, but AVX only has FMA3 // accelerates multiply accumulate, but not general multiply add y.v = _mm256_fmadd_pd(a.v,x.v,y.v); #endif #ifdef AVX512 // here precision of vector are still single y.v = _mm512_fmadd_pd(a.v,x.v,y.v); #endif #ifdef QPX y.v = vec_madd(a.v,x.v,y.v); #endif } ////////////////////////////////// // Initialise to 1,0 ////////////////////////////////// friend inline void vone (vRealD &ret){ vsplat(ret,1.0);} friend inline void vzero(vRealD &ret){ vsplat(ret,0.0);} //////////////////////////////////// // Arithmetic operator overloads +,-,* //////////////////////////////////// friend inline vRealD operator + (vRealD a, vRealD b) { vRealD ret; #if defined (AVX1)|| defined (AVX2) ret.v = _mm256_add_pd(a.v,b.v); #endif #ifdef SSE4 ret.v = _mm_add_pd(a.v,b.v); #endif #ifdef AVX512 ret.v = _mm512_add_pd(a.v,b.v); #endif #ifdef QPX ret.v = vec_add(a.v,b.v); #endif return ret; }; friend inline vRealD operator - (vRealD a, vRealD b) { vRealD ret; #if defined (AVX1)|| defined (AVX2) ret.v = _mm256_sub_pd(a.v,b.v); #endif #ifdef SSE4 ret.v = _mm_sub_pd(a.v,b.v); #endif #ifdef AVX512 ret.v = _mm512_sub_pd(a.v,b.v); #endif #ifdef QPX ret.v = vec_sub(a.v,b.v); #endif return ret; }; friend inline vRealD operator * (vRealD a, vRealD b) { vRealD ret; #if defined (AVX1)|| defined (AVX2) ret.v = _mm256_mul_pd(a.v,b.v); #endif #ifdef SSE4 ret.v = _mm_mul_pd(a.v,b.v); #endif #ifdef AVX512 ret.v = _mm512_mul_pd(a.v,b.v); #endif #ifdef QPX ret.v = vec_mul(a.v,b.v); #endif return ret; }; //////////////////////////////////////////////////////////////////// // General permute; assumes vector length is same across // all subtypes; may not be a good assumption, but could // add the vector width as a template param for BG/Q for example //////////////////////////////////////////////////////////////////// friend inline void permute(vRealD &y,vRealD b,int perm) { Gpermute(y,b,perm); } friend inline void merge(vRealD &y,std::vector &extracted) { Gmerge(y,extracted); } friend inline void extract(const vRealD &y,std::vector &extracted) { Gextract(y,extracted); } friend inline void merge(vRealD &y,std::vector &extracted) { Gmerge(y,extracted); } friend inline void extract(const vRealD &y,std::vector &extracted) { Gextract(y,extracted); } friend inline void vsplat(vRealD &ret,double a){ #if defined (AVX1)|| defined (AVX2) ret.v = _mm256_set_pd(a,a,a,a); #endif #ifdef SSE4 ret.v = _mm_set_pd(a,a); #endif #ifdef AVX512 ret.v = _mm512_set1_pd(a); #endif #ifdef QPX ret.v = {a,a,a,a}; #endif } friend inline void vset(vRealD &ret, double *a){ #if defined (AVX1)|| defined (AVX2) ret.v = _mm256_set_pd(a[3],a[2],a[1],a[0]); #endif #ifdef SSE4 ret.v = _mm_set_pd(a[0],a[1]); #endif #ifdef AVX512 ret.v = _mm512_set_pd(a[7],a[6],a[5],a[4],a[3],a[2],a[1],a[0]); // Note v has a0 a1 a2 a3 a4 a5 a6 a7 #endif #ifdef QPX ret.v = {a[0],a[1],a[2],a[3]}; #endif } friend inline void vstore(const vRealD &ret, double *a){ #if defined (AVX1)|| defined (AVX2) _mm256_store_pd(a,ret.v); #endif #ifdef SSE4 _mm_store_pd(a,ret.v); #endif #ifdef AVX512 _mm512_store_pd(a,ret.v); // Note v has a7 a6 a5ba4 a3 a2 a1 a0 #endif #ifdef QPX assert(0); #endif } friend inline void vprefetch(const vRealD &v) { _mm_prefetch((const char*)&v.v,_MM_HINT_T0); } // Unary negation friend inline vRealD operator -(const vRealD &r) { vRealD ret; vzero(ret); ret = ret - r; return ret; } friend inline RealD Reduce(const vRealD & in) { #if defined (AVX1) || defined(AVX2) typedef union { uint64_t l; double d; } my_conv_t; my_conv_t converter; // more reduce_add /* __attribute__ ((aligned(32))) double c_[16]; __m256d tmp = _mm256_permute2f128_pd(in.v,in.v,0x01); // tmp 1032; in= 3210 __m256d hadd = _mm256_hadd_pd(in.v,tmp); // hadd = 1+0,3+2,3+2,1+0 tmp = _mm256_permute2f128_pd(hadd,hadd,0x01);// tmp = 3+2,1+0,1+0,3+2 hadd = _mm256_hadd_pd(tmp,tmp); // tmp = 3+2+1+0,3+2+1+0,1+0+3+2,1+0+3+2 _mm256_store_pd(c_,hadd);ô return c[0] */ __m256d tmp = _mm256_permute2f128_pd(in.v,in.v,0x01); // tmp 1032; in= 3210 __m256d hadd = _mm256_hadd_pd(in.v,tmp); // hadd = 1+0,3+2,3+2,1+0 hadd = _mm256_hadd_pd(hadd,hadd); // hadd = 1+0+3+2... converter.l = _mm256_extract_epi64(hadd,0); return converter.d; #endif #ifdef AVX512 return _mm512_reduce_add_pd(in.v); /* __attribute__ ((aligned(32))) double c_[8]; _mm512_store_pd(c_,in.v); return c_[0]+c_[1]+c_[2]+c_[3]+c_[4]+c_[5]+c_[6]+c_[7]; */ #endif #ifdef QPX #endif } // *=,+=,-= operators inline vRealD &operator *=(const vRealD &r) { *this = (*this)*r; return *this; } inline vRealD &operator +=(const vRealD &r) { *this = *this+r; return *this; } inline vRealD &operator -=(const vRealD &r) { *this = *this-r; return *this; } public: static int Nsimd(void) { return sizeof(dvec)/sizeof(double);} }; inline vRealD innerProduct(const vRealD & l, const vRealD & r) { return conj(l)*r; } inline void zeroit(vRealD &z){ vzero(z);} inline vRealD outerProduct(const vRealD &l, const vRealD& r) { return l*r; } inline vRealD trace(const vRealD &arg){ return arg; } } #endif