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Grid/lib/simd/Grid_neon.h

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/*************************************************************************************
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Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/simd/Grid_neon.h
Copyright (C) 2015
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Author: Nils Meyer <nils.meyer@ur.de>
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
Author: neo <cossu@post.kek.jp>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
See the full license in the file "LICENSE" in the top level distribution directory
*************************************************************************************/
/* END LEGAL */
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/*
ARMv8 NEON intrinsics layer by
Nils Meyer <nils.meyer@ur.de>,
University of Regensburg, Germany
SFB/TRR55
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*/
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#ifndef GEN_SIMD_WIDTH
#define GEN_SIMD_WIDTH 16u
#endif
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#include "Grid_generic_types.h"
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#include <arm_neon.h>
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namespace Grid {
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namespace Optimization {
template<class vtype>
union uconv {
float32x4_t f;
vtype v;
};
union u128f {
float32x4_t v;
float f[4];
};
union u128d {
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float64x2_t v;
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double f[2];
};
// half precision
union u128h {
float16x8_t v;
uint16_t f[8];
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};
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struct Vsplat{
//Complex float
inline float32x4_t operator()(float a, float b){
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float tmp[4]={a,b,a,b};
return vld1q_f32(tmp);
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}
// Real float
inline float32x4_t operator()(float a){
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return vdupq_n_f32(a);
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}
//Complex double
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inline float64x2_t operator()(double a, double b){
double tmp[2]={a,b};
return vld1q_f64(tmp);
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}
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//Real double
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inline float64x2_t operator()(double a){
return vdupq_n_f64(a);
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}
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//Integer
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inline uint32x4_t operator()(Integer a){
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return vdupq_n_u32(a);
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}
};
struct Vstore{
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//Float
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inline void operator()(float32x4_t a, float* F){
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vst1q_f32(F, a);
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}
//Double
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inline void operator()(float64x2_t a, double* D){
vst1q_f64(D, a);
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}
//Integer
inline void operator()(uint32x4_t a, Integer* I){
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vst1q_u32(I, a);
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}
};
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struct Vstream{ // N:equivalents to _mm_stream_p* in NEON?
//Float // N:generic
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inline void operator()(float * a, float32x4_t b){
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memcpy(a,&b,4*sizeof(float));
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}
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//Double // N:generic
inline void operator()(double * a, float64x2_t b){
memcpy(a,&b,2*sizeof(double));
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}
};
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// Nils: Vset untested; not used currently in Grid at all;
// git commit 4a8c4ccfba1d05159348d21a9698028ea847e77b
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struct Vset{
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// Complex float
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inline float32x4_t operator()(Grid::ComplexF *a){
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float tmp[4]={a[1].imag(),a[1].real(),a[0].imag(),a[0].real()};
return vld1q_f32(tmp);
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}
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// Complex double
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inline float64x2_t operator()(Grid::ComplexD *a){
double tmp[2]={a[0].imag(),a[0].real()};
return vld1q_f64(tmp);
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}
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// Real float
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inline float32x4_t operator()(float *a){
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float tmp[4]={a[3],a[2],a[1],a[0]};
return vld1q_f32(tmp);
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}
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// Real double
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inline float64x2_t operator()(double *a){
double tmp[2]={a[1],a[0]};
return vld1q_f64(tmp);
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}
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// Integer
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inline uint32x4_t operator()(Integer *a){
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return vld1q_dup_u32(a);
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}
};
template <typename Out_type, typename In_type>
struct Reduce{
//Need templated class to overload output type
//General form must generate error if compiled
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inline Out_type operator()(In_type in){
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printf("Error, using wrong Reduce function\n");
exit(1);
return 0;
}
};
/////////////////////////////////////////////////////
// Arithmetic operations
/////////////////////////////////////////////////////
struct Sum{
//Complex/Real float
inline float32x4_t operator()(float32x4_t a, float32x4_t b){
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return vaddq_f32(a,b);
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}
//Complex/Real double
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inline float64x2_t operator()(float64x2_t a, float64x2_t b){
return vaddq_f64(a,b);
}
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//Integer
inline uint32x4_t operator()(uint32x4_t a, uint32x4_t b){
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return vaddq_u32(a,b);
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}
};
struct Sub{
//Complex/Real float
inline float32x4_t operator()(float32x4_t a, float32x4_t b){
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return vsubq_f32(a,b);
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}
//Complex/Real double
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inline float64x2_t operator()(float64x2_t a, float64x2_t b){
return vsubq_f64(a,b);
}
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//Integer
inline uint32x4_t operator()(uint32x4_t a, uint32x4_t b){
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return vsubq_u32(a,b);
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}
};
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struct MultRealPart{
inline float32x4_t operator()(float32x4_t a, float32x4_t b){
float32x4_t re = vtrn1q_f32(a, a);
return vmulq_f32(re, b);
}
inline float64x2_t operator()(float64x2_t a, float64x2_t b){
float64x2_t re = vzip1q_f64(a, a);
return vmulq_f64(re, b);
}
};
struct MaddRealPart{
inline float32x4_t operator()(float32x4_t a, float32x4_t b, float32x4_t c){
float32x4_t re = vtrn1q_f32(a, a);
return vfmaq_f32(c, re, b);
}
inline float64x2_t operator()(float64x2_t a, float64x2_t b, float64x2_t c){
float64x2_t re = vzip1q_f64(a, a);
return vfmaq_f64(c, re, b);
}
};
struct Div{
// Real float
inline float32x4_t operator()(float32x4_t a, float32x4_t b){
return vdivq_f32(a, b);
}
// Real double
inline float64x2_t operator()(float64x2_t a, float64x2_t b){
return vdivq_f64(a, b);
}
};
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struct MultComplex{
// Complex float
inline float32x4_t operator()(float32x4_t a, float32x4_t b){
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float32x4_t r0, r1, r2, r3, r4;
// a = ar ai Ar Ai
// b = br bi Br Bi
// collect real/imag part, negate bi and Bi
r0 = vtrn1q_f32(b, b); // br br Br Br
r1 = vnegq_f32(b); // -br -bi -Br -Bi
r2 = vtrn2q_f32(b, r1); // bi -bi Bi -Bi
// the fun part
r3 = vmulq_f32(r2, a); // bi*ar -bi*ai ...
r4 = vrev64q_f32(r3); // -bi*ai bi*ar ...
// fma(a,b,c) = a+b*c
return vfmaq_f32(r4, r0, a); // ar*br-ai*bi ai*br+ar*bi ...
// no fma, use mul and add
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// float32x4_t r5;
// r5 = vmulq_f32(r0, a);
// return vaddq_f32(r4, r5);
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}
// Complex double
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inline float64x2_t operator()(float64x2_t a, float64x2_t b){
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float64x2_t r0, r1, r2, r3, r4;
// b = br bi
// collect real/imag part, negate bi
r0 = vtrn1q_f64(b, b); // br br
r1 = vnegq_f64(b); // -br -bi
r2 = vtrn2q_f64(b, r1); // bi -bi
// the fun part
r3 = vmulq_f64(r2, a); // bi*ar -bi*ai
r4 = vextq_f64(r3,r3,1); // -bi*ai bi*ar
// fma(a,b,c) = a+b*c
return vfmaq_f64(r4, r0, a); // ar*br-ai*bi ai*br+ar*bi
// no fma, use mul and add
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// float64x2_t r5;
// r5 = vmulq_f64(r0, a);
// return vaddq_f64(r4, r5);
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}
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};
struct Mult{
// Real float
inline float32x4_t mac(float32x4_t a, float32x4_t b, float32x4_t c){
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//return vaddq_f32(vmulq_f32(b,c),a);
return vfmaq_f32(a, b, c);
}
inline float64x2_t mac(float64x2_t a, float64x2_t b, float64x2_t c){
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//return vaddq_f64(vmulq_f64(b,c),a);
return vfmaq_f64(a, b, c);
}
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inline float32x4_t operator()(float32x4_t a, float32x4_t b){
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return vmulq_f32(a,b);
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}
// Real double
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inline float64x2_t operator()(float64x2_t a, float64x2_t b){
return vmulq_f64(a,b);
}
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// Integer
inline uint32x4_t operator()(uint32x4_t a, uint32x4_t b){
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return vmulq_u32(a,b);
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}
};
struct Conj{
// Complex single
inline float32x4_t operator()(float32x4_t in){
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// ar ai br bi -> ar -ai br -bi
float32x4_t r0, r1;
r0 = vnegq_f32(in); // -ar -ai -br -bi
r1 = vrev64q_f32(r0); // -ai -ar -bi -br
return vtrn1q_f32(in, r1); // ar -ai br -bi
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}
// Complex double
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inline float64x2_t operator()(float64x2_t in){
float64x2_t r0, r1;
r0 = vextq_f64(in, in, 1); // ai ar
r1 = vnegq_f64(r0); // -ai -ar
return vextq_f64(r0, r1, 1); // ar -ai
}
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// do not define for integer input
};
struct TimesMinusI{
//Complex single
inline float32x4_t operator()(float32x4_t in, float32x4_t ret){
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// ar ai br bi -> ai -ar ai -br
float32x4_t r0, r1;
r0 = vnegq_f32(in); // -ar -ai -br -bi
r1 = vrev64q_f32(in); // ai ar bi br
return vtrn1q_f32(r1, r0); // ar -ai br -bi
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}
//Complex double
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inline float64x2_t operator()(float64x2_t in, float64x2_t ret){
// a ib -> b -ia
float64x2_t tmp;
tmp = vnegq_f64(in);
return vextq_f64(in, tmp, 1);
}
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};
struct TimesI{
//Complex single
inline float32x4_t operator()(float32x4_t in, float32x4_t ret){
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// ar ai br bi -> -ai ar -bi br
float32x4_t r0, r1;
r0 = vnegq_f32(in); // -ar -ai -br -bi
r1 = vrev64q_f32(r0); // -ai -ar -bi -br
return vtrn1q_f32(r1, in); // -ai ar -bi br
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}
//Complex double
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inline float64x2_t operator()(float64x2_t in, float64x2_t ret){
// a ib -> -b ia
float64x2_t tmp;
tmp = vnegq_f64(in);
return vextq_f64(tmp, in, 1);
}
};
struct Permute{
static inline float32x4_t Permute0(float32x4_t in){ // N:ok
// AB CD -> CD AB
return vextq_f32(in, in, 2);
};
static inline float32x4_t Permute1(float32x4_t in){ // N:ok
// AB CD -> BA DC
return vrev64q_f32(in);
};
static inline float32x4_t Permute2(float32x4_t in){ // N:not used by Boyle
return in;
};
static inline float32x4_t Permute3(float32x4_t in){ // N:not used by Boyle
return in;
};
static inline float64x2_t Permute0(float64x2_t in){ // N:ok
// AB -> BA
return vextq_f64(in, in, 1);
};
static inline float64x2_t Permute1(float64x2_t in){ // N:not used by Boyle
return in;
};
static inline float64x2_t Permute2(float64x2_t in){ // N:not used by Boyle
return in;
};
static inline float64x2_t Permute3(float64x2_t in){ // N:not used by Boyle
return in;
};
};
struct Rotate{
static inline float32x4_t rotate(float32x4_t in,int n){ // N:ok
switch(n){
case 0: // AB CD -> AB CD
return tRotate<0>(in);
break;
case 1: // AB CD -> BC DA
return tRotate<1>(in);
break;
case 2: // AB CD -> CD AB
return tRotate<2>(in);
break;
case 3: // AB CD -> DA BC
return tRotate<3>(in);
break;
default: assert(0);
}
}
static inline float64x2_t rotate(float64x2_t in,int n){ // N:ok
switch(n){
case 0: // AB -> AB
return tRotate<0>(in);
break;
case 1: // AB -> BA
return tRotate<1>(in);
break;
default: assert(0);
}
}
template<int n> static inline float32x4_t tRotate(float32x4_t in){ return vextq_f32(in,in,n%4); };
template<int n> static inline float64x2_t tRotate(float64x2_t in){ return vextq_f64(in,in,n%2); };
};
struct PrecisionChange {
static inline float16x8_t StoH (const float32x4_t &a,const float32x4_t &b) {
float16x4_t h = vcvt_f16_f32(a);
return vcvt_high_f16_f32(h, b);
}
static inline void HtoS (float16x8_t h,float32x4_t &sa,float32x4_t &sb) {
sb = vcvt_high_f32_f16(h);
// there is no direct conversion from lower float32x4_t to float64x2_t
// vextq_f16 not supported by clang 3.8 / 4.0 / arm clang
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// float16x8_t h1 = vextq_f16(h, h, 4); // correct, but not supported by clang
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// workaround for clang
uint32x4_t h1u = reinterpret_cast<uint32x4_t>(h);
float16x8_t h1 = reinterpret_cast<float16x8_t>(vextq_u32(h1u, h1u, 2));
sa = vcvt_high_f32_f16(h1);
}
static inline float32x4_t DtoS (float64x2_t a,float64x2_t b) {
float32x2_t s = vcvt_f32_f64(a);
return vcvt_high_f32_f64(s, b);
}
static inline void StoD (float32x4_t s,float64x2_t &a,float64x2_t &b) {
b = vcvt_high_f64_f32(s);
// there is no direct conversion from lower float32x4_t to float64x2_t
float32x4_t s1 = vextq_f32(s, s, 2);
a = vcvt_high_f64_f32(s1);
}
static inline float16x8_t DtoH (float64x2_t a,float64x2_t b,float64x2_t c,float64x2_t d) {
float32x4_t s1 = DtoS(a, b);
float32x4_t s2 = DtoS(c, d);
return StoH(s1, s2);
}
static inline void HtoD (float16x8_t h,float64x2_t &a,float64x2_t &b,float64x2_t &c,float64x2_t &d) {
float32x4_t s1, s2;
HtoS(h, s1, s2);
StoD(s1, a, b);
StoD(s2, c, d);
}
};
//////////////////////////////////////////////
// Exchange support
struct Exchange{
static inline void Exchange0(float32x4_t &out1,float32x4_t &out2,float32x4_t in1,float32x4_t in2){
// in1: ABCD -> out1: ABEF
// in2: EFGH -> out2: CDGH
// z: CDAB
float32x4_t z = vextq_f32(in1, in1, 2);
// out1: ABEF
out1 = vextq_f32(z, in2, 2);
// z: GHEF
z = vextq_f32(in2, in2, 2);
// out2: CDGH
out2 = vextq_f32(in1, z, 2);
};
static inline void Exchange1(float32x4_t &out1,float32x4_t &out2,float32x4_t in1,float32x4_t in2){
// in1: ABCD -> out1: AECG
// in2: EFGH -> out2: BFDH
out1 = vtrn1q_f32(in1, in2);
out2 = vtrn2q_f32(in1, in2);
};
static inline void Exchange2(float32x4_t &out1,float32x4_t &out2,float32x4_t in1,float32x4_t in2){
assert(0);
return;
};
static inline void Exchange3(float32x4_t &out1,float32x4_t &out2,float32x4_t in1,float32x4_t in2){
assert(0);
return;
};
// double precision
static inline void Exchange0(float64x2_t &out1,float64x2_t &out2,float64x2_t in1,float64x2_t in2){
// in1: AB -> out1: AC
// in2: CD -> out2: BD
out1 = vzip1q_f64(in1, in2);
out2 = vzip2q_f64(in1, in2);
};
static inline void Exchange1(float64x2_t &out1,float64x2_t &out2,float64x2_t in1,float64x2_t in2){
assert(0);
return;
};
static inline void Exchange2(float64x2_t &out1,float64x2_t &out2,float64x2_t in1,float64x2_t in2){
assert(0);
return;
};
static inline void Exchange3(float64x2_t &out1,float64x2_t &out2,float64x2_t in1,float64x2_t in2){
assert(0);
return;
};
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};
//////////////////////////////////////////////
// Some Template specialization
//Complex float Reduce
template<>
inline Grid::ComplexF Reduce<Grid::ComplexF, float32x4_t>::operator()(float32x4_t in){
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float32x4_t v1; // two complex
v1 = Optimization::Permute::Permute0(in);
v1 = vaddq_f32(v1,in);
u128f conv; conv.v=v1;
return Grid::ComplexF(conv.f[0],conv.f[1]);
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}
//Real float Reduce
template<>
inline Grid::RealF Reduce<Grid::RealF, float32x4_t>::operator()(float32x4_t in){
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return vaddvq_f32(in);
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}
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//Complex double Reduce
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template<>
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inline Grid::ComplexD Reduce<Grid::ComplexD, float64x2_t>::operator()(float64x2_t in){
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u128d conv; conv.v = in;
return Grid::ComplexD(conv.f[0],conv.f[1]);
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}
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//Real double Reduce
template<>
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inline Grid::RealD Reduce<Grid::RealD, float64x2_t>::operator()(float64x2_t in){
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return vaddvq_f64(in);
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}
//Integer Reduce
template<>
inline Integer Reduce<Integer, uint32x4_t>::operator()(uint32x4_t in){
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return vaddvq_u32(in);
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}
}
//////////////////////////////////////////////////////////////////////////////////////
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// Here assign types
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// typedef Optimization::vech SIMD_Htype; // Reduced precision type
typedef float16x8_t SIMD_Htype; // Half precision type
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typedef float32x4_t SIMD_Ftype; // Single precision type
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typedef float64x2_t SIMD_Dtype; // Double precision type
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typedef uint32x4_t SIMD_Itype; // Integer type
inline void v_prefetch0(int size, const char *ptr){}; // prefetch utilities
inline void prefetch_HINT_T0(const char *ptr){};
// Function name aliases
typedef Optimization::Vsplat VsplatSIMD;
typedef Optimization::Vstore VstoreSIMD;
typedef Optimization::Vset VsetSIMD;
typedef Optimization::Vstream VstreamSIMD;
template <typename S, typename T> using ReduceSIMD = Optimization::Reduce<S,T>;
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// Arithmetic operations
typedef Optimization::Sum SumSIMD;
typedef Optimization::Sub SubSIMD;
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typedef Optimization::Div DivSIMD;
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typedef Optimization::Mult MultSIMD;
typedef Optimization::MultComplex MultComplexSIMD;
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typedef Optimization::MultRealPart MultRealPartSIMD;
typedef Optimization::MaddRealPart MaddRealPartSIMD;
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typedef Optimization::Conj ConjSIMD;
typedef Optimization::TimesMinusI TimesMinusISIMD;
typedef Optimization::TimesI TimesISIMD;
}