SIMD相關頭文件包括：

//#include <ivec.h>//MMX
//#include <fvec.h>//SSE(also include ivec.h)
//#include <dvec.h>//SSE2(also include fvec.h)#include <mmintrin.h> //MMX
#include <xmmintrin.h> //SSE(include mmintrin.h)
#include <emmintrin.h> //SSE2(include xmmintrin.h)
#include <pmmintrin.h> //SSE3(include emmintrin.h)
#include <tmmintrin.h>//SSSE3(include pmmintrin.h)
#include <smmintrin.h>//SSE4.1(include tmmintrin.h)
#include <nmmintrin.h>//SSE4.2(include smmintrin.h)
#include <wmmintrin.h>//AES(include nmmintrin.h)
#include <immintrin.h>//AVX(include wmmintrin.h)
#include <intrin.h>//(include immintrin.h)

mmintrin.h為MMX 頭文件，其中__m64的定義為：

typedef union __declspec(intrin_type) _CRT_ALIGN(8) __m64
{unsigned __int64    m64_u64;float               m64_f32[2];__int8              m64_i8[8];__int16             m64_i16[4];__int32             m64_i32[2];    __int64             m64_i64;unsigned __int8     m64_u8[8];unsigned __int16    m64_u16[4];unsigned __int32    m64_u32[2];
} __m64;

xmmintrin.h為SSE 頭文件，此頭文件里包含MMX頭文件，其中__m128的定義為：

typedef union __declspec(intrin_type) _CRT_ALIGN(16) __m128 {float               m128_f32[4];unsigned __int64    m128_u64[2];__int8              m128_i8[16];__int16             m128_i16[8];__int32             m128_i32[4];__int64             m128_i64[2];unsigned __int8     m128_u8[16];unsigned __int16    m128_u16[8];unsigned __int32    m128_u32[4];} __m128;

emmintrin.h為SSE2頭文件，此頭文件里包含SSE頭文件，其中__m128i和__m128d的定義為：

typedef union __declspec(intrin_type) _CRT_ALIGN(16) __m128i {__int8              m128i_i8[16];__int16             m128i_i16[8];__int32             m128i_i32[4];    __int64             m128i_i64[2];unsigned __int8     m128i_u8[16];unsigned __int16    m128i_u16[8];unsigned __int32    m128i_u32[4];unsigned __int64    m128i_u64[2];
} __m128i;typedef struct __declspec(intrin_type) _CRT_ALIGN(16) __m128d {double              m128d_f64[2];
} __m128d;

emmintrin.h文件中各函數的介紹：

	/*----Floating-Point Intrinsics Using Streaming SIMD Extension 2 Instructions----*///Arithmetic Operations(Floating Point):add、sub、mul、div、sqrt、min、max//返回一個__m128d的寄存器，r0=_A0+_B0, r1=_A1extern __m128d _mm_add_sd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=_A0+_B0, r1=_A1+_B1extern __m128d _mm_add_pd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=_A0-_B0, r1=_A1extern __m128d _mm_sub_sd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=_A0-_B0, r1=_A1-_B1extern __m128d _mm_sub_pd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=_A0*_B0, r1=_A1extern __m128d _mm_mul_sd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=_A0*_B0, r1=_A1*_B1extern __m128d _mm_mul_pd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=sqrt(_B0), r1=_A1extern __m128d _mm_sqrt_sd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=sqrt(_A0), r1=sqrt(_A1)extern __m128d _mm_sqrt_pd(__m128d _A);//返回一個__m128d的寄存器，r0=_A0/_B0, r1=_A1extern __m128d _mm_div_sd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=_A0/_B0, r1=_A1/_B1extern __m128d _mm_div_pd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=min(_A0,_B0), r1=_A1extern __m128d _mm_min_sd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=min(_A0,_B0), r1=min(_A1,_B1)extern __m128d _mm_min_pd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=max(_A0,_B0), r1=_A1extern __m128d _mm_max_sd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=max(_A0,_B0), r1=max(_A1,_B1)extern __m128d _mm_max_pd(__m128d _A, __m128d _B);//Logical Operations(Floating Point SSE2 Intrinsics):and、or、xor、 andnot//返回一個__m128d的寄存器，r0=_A0 & _B0, r1=_A1 & _B1extern __m128d _mm_and_pd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=(~_A0) & _B0, r1=(~_A1) & _B1extern __m128d _mm_andnot_pd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=_A0 | _B0, r1=_A1 | _B1extern __m128d _mm_or_pd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=_A0 ^ _B0, r1=_A1 ^ _B1extern __m128d _mm_xor_pd(__m128d _A, __m128d _B);//Comparisions:==、<、<=、>、>=、!=//返回一個__m128d的寄存器，r0=(_A0 == _B0) ? 0xffffffffffffffff : 0x0, r1=_A1extern __m128d _mm_cmpeq_sd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=(_A0 == _B0) ? 0xffffffffffffffff : 0x0, //r1=(_A1 == _B1) ? 0xffffffffffffffff : 0x0extern __m128d _mm_cmpeq_pd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=(_A0 < _B0) ? 0xffffffffffffffff : 0x0, r1=_A1extern __m128d _mm_cmplt_sd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=(_A0 < _B0) ? 0xffffffffffffffff : 0x0, //r1=(_A1 < _B1) ? 0xffffffffffffffff : 0x0extern __m128d _mm_cmplt_pd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=(_A0 <= _B0) ? 0xffffffffffffffff : 0x0, r1=_A1extern __m128d _mm_cmple_sd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=(_A0 <= _B0) ? 0xffffffffffffffff : 0x0, //r1=(_A1 <= _B1) ? 0xffffffffffffffff : 0x0extern __m128d _mm_cmple_pd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=(_A0 > _B0) ? 0xffffffffffffffff : 0x0, r1=_A1extern __m128d _mm_cmpgt_sd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=(_A0 > _B0) ? 0xffffffffffffffff : 0x0, //r1=(_A1 > _B1) ? 0xffffffffffffffff : 0x0extern __m128d _mm_cmpgt_pd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=(_A0 >= _B0) ? 0xffffffffffffffff : 0x0, r1=_A1extern __m128d _mm_cmpge_sd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=(_A0 >= _B0) ? 0xffffffffffffffff : 0x0, //r1=(_A1 >= _B1) ? 0xffffffffffffffff : 0x0extern __m128d _mm_cmpge_pd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=(_A0 != _B0) ? 0xffffffffffffffff : 0x0, r1=_A1extern __m128d _mm_cmpneq_sd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=(_A0 != _B0) ? 0xffffffffffffffff : 0x0, //r1=(_A1 != _B1) ? 0xffffffffffffffff : 0x0extern __m128d _mm_cmpneq_pd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=!(_A0 < _B0) ? 0xffffffffffffffff : 0x0, r1=_A1extern __m128d _mm_cmpnlt_sd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=!(_A0 < _B0) ? 0xffffffffffffffff : 0x0, //r1=!(_A1 < _B1) ? 0xffffffffffffffff : 0x0extern __m128d _mm_cmpnlt_pd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=!(_A0 <= _B0) ? 0xffffffffffffffff : 0x0, r1=_A1extern __m128d _mm_cmpnle_sd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=!(_A0 <= _B0) ? 0xffffffffffffffff : 0x0, //r1=!(_A1 <= _B1) ? 0xffffffffffffffff : 0x0extern __m128d _mm_cmpnle_pd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=!(_A0 > _B0) ? 0xffffffffffffffff : 0x0, r1=_A1extern __m128d _mm_cmpngt_sd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=!(_A0 > _B0) ? 0xffffffffffffffff : 0x0, //r1=!(_A1 > _B1) ? 0xffffffffffffffff : 0x0extern __m128d _mm_cmpngt_pd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=!(_A0 >= _B0) ? 0xffffffffffffffff : 0x0, r1=_A1extern __m128d _mm_cmpnge_sd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=!(_A0 >= _B0) ? 0xffffffffffffffff : 0x0,//r1=!(_A1 >= _B1) ? 0xffffffffffffffff : 0x0extern __m128d _mm_cmpnge_pd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=(_A0 ord _B0) ? 0xffffffffffffffff : 0x0, //r1=(_A1 ord _B1) ? 0xffffffffffffffff : 0x0extern __m128d _mm_cmpord_pd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=(_A0 ord _B0) ? 0xffffffffffffffff : 0x0, r1=_A1extern __m128d _mm_cmpord_sd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=(_A0 unord _B0) ? 0xffffffffffffffff : 0x0, //r1=(_A1 unord _B1) ? 0xffffffffffffffff : 0x0extern __m128d _mm_cmpunord_pd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=(_A0 unord _B0) ? 0xffffffffffffffff : 0x0, r1=_A1extern __m128d _mm_cmpunord_sd(__m128d _A, __m128d _B);//返回一個0或1的整數，r=(_A0 != _B0) ? 0x1 : 0x0, If _A and _B is a NaN, 1 is returnedextern int _mm_comieq_sd(__m128d _A, __m128d _B);//返回一個0或1的整數，r=(_A0 < _B0) ? 0x1 : 0x0, If _A and _B is a NaN, 1 is returnedextern int _mm_comilt_sd(__m128d _A, __m128d _B);//返回一個0或1的整數，r=(_A0 <= _B0) ? 0x1 : 0x0, If _A and _B is a NaN, 1 is returnedextern int _mm_comile_sd(__m128d _A, __m128d _B);//返回一個0或1的整數，r=(_A0 > _B0) ? 0x1 : 0x0, If _A and _B is a NaN, 0 is returnedextern int _mm_comigt_sd(__m128d _A, __m128d _B);//返回一個0或1的整數，r=(_A0 >= _B0) ? 0x1 : 0x0, If _A and _B is a NaN, 0 is returnedextern int _mm_comige_sd(__m128d _A, __m128d _B);//返回一個0或1的整數，r=(_A0 != _B0) ? 0x1 : 0x0, If _A and _B is a NaN, 0 is returnedextern int _mm_comineq_sd(__m128d _A, __m128d _B);//返回一個0或1的整數，r=(_A0 == _B0) ? 0x1 : 0x0, If _A and _B is a NaN, 1 is returnedextern int _mm_ucomieq_sd(__m128d _A, __m128d _B);//返回一個0或1的整數，r=(_A0 < _B0) ? 0x1 : 0x0, If _A and _B is a NaN, 1 is returnedextern int _mm_ucomilt_sd(__m128d _A, __m128d _B);//返回一個0或1的整數，r=(_A0 <= _B0) ? 0x1 : 0x0, If _A and _B is a NaN, 1 is returnedextern int _mm_ucomile_sd(__m128d _A, __m128d _B);//返回一個0或1的整數，r=(_A0 > _B0) ? 0x1 : 0x0, If _A and _B is a NaN, 0 is returnedextern int _mm_ucomigt_sd(__m128d _A, __m128d _B);//返回一個0或1的整數，r=(_A0 >= _B0) ? 0x1 : 0x0, If _A and _B is a NaN, 0 is returnedextern int _mm_ucomige_sd(__m128d _A, __m128d _B);//返回一個0或1的整數，r=(_A0 != _B0) ? 0x1 : 0x0, If _A and _B is a NaN, 0 is returnedextern int _mm_ucomineq_sd(__m128d _A, __m128d _B);//Conversion Operations//返回一個__m128d的寄存器，r0=(dobule)_A0, r1=(double)_A1extern __m128d _mm_cvtepi32_pd(__m128i _A);//返回一個__m128i的寄存器，r0=(int)_A0, r1=(int)_A1, r2=0x0, r3=0x0extern __m128i _mm_cvtpd_epi32(__m128d _A);//返回一個__m128i的寄存器，r0=(int)_A0, r1=(int)_A1, r2=0x0, r3=0x0,using truncateextern __m128i _mm_cvttpd_epi32(__m128d _A);//返回一個__m128的寄存器，r0=(flaot)_A0, r1=(float)_A1, r2=(float)_A2, r3=(float)_A3extern __m128 _mm_cvtepi32_ps(__m128i _A);//返回一個__m128i的寄存器，r0=(int)_A0, r1=(int)_A1, r2=(int)_A2, r3=(int)_A3extern __m128i _mm_cvtps_epi32(__m128 _A);//返回一個__m128i的寄存器，r0=(int)_A0, r1=(int)_A1, r2=(int)_A2, r3=(int)_A3,using truncateextern __m128i _mm_cvttps_epi32(__m128 _A);//返回一個__m128的寄存器，r0=(flaot)_A0, r1=(float)_A1, r2=0.0, r3=0.0extern __m128 _mm_cvtpd_ps(__m128d _A);//返回一個__m128d的寄存器，r0=(dobule)_A0, r1=(double)_A1extern __m128d _mm_cvtps_pd(__m128 _A);//返回一個__m128的寄存器，r0=(float)_B0, r1=_B1, r2=_B2, r3=_B3extern __m128 _mm_cvtsd_ss(__m128 _A, __m128d _B);//返回一個__m128d的寄存器，r0=(double)_B0, r1=_A1extern __m128d _mm_cvtss_sd(__m128d _A, __m128 _B);//返回一個32bit整數，r=(int)_A0extern int _mm_cvtsd_si32(__m128d _A);//返回一個32bit整數，r=(int)_A0,using truncateextern int _mm_cvttsd_si32(__m128d _A);//返回一個__m128d的寄存器，r0=(double)_B, r1=_A1extern __m128d _mm_cvtsi32_sd(__m128d _A, int _B);//返回一個__m64的寄存器，r0=(int)_A0, r1=(int)_A1extern __m64 _mm_cvtpd_pi32(__m128d _A);//返回一個__m64的寄存器，r0=(int)_A0, r1=(int)_A1,using truncateextern __m64 _mm_cvttpd_pi32(__m128d _A);//返回一個__m128d的寄存器，r0=(dobule)_A0, r1=(double)_A1extern __m128d _mm_cvtpi32_pd(__m64 _A);//Miscellaneous Operations(Floating-Point SSE2 Intrinsics)//返回一個__m128d的寄存器，r0=_A1, r1=_B1extern __m128d _mm_unpackhi_pd(__m128d _A, __m128d _B);//返回一個__m128d的寄存器，r0=_A0, r1=_B0extern __m128d _mm_unpacklo_pd(__m128d _A, __m128d _B);//返回一個2bit整數，r=sign(_A1) << 1 | sign(_A0)extern int _mm_movemask_pd(__m128d _A);//返回一個__m128d的寄存器，Selects two specific double-precision,// floating-point values from _A and _B, based on the mask _I,//The mask must be an immediateextern __m128d _mm_shuffle_pd(__m128d _A, __m128d _B, int _I);//Load Operations(Floating-Point SSE2 Intrinsics)//返回一個__m128d的寄存器，r0=_Dp[0], r1=_Dp[1], The address _Dp must be 16-byte alignedextern __m128d _mm_load_pd(double const*_Dp);//返回一個__m128d的寄存器，r0=*_Dp, r1=*_Dp, The address _Dp does not need//to be 16-byte alignedextern __m128d _mm_load1_pd(double const*_Dp);//返回一個__m128d的寄存器，r0=_Dp[1], r1=_Dp[0], The address _Dp must be 16-byte alignedextern __m128d _mm_loadr_pd(double const*_Dp);//返回一個__m128d的寄存器，r0=_Dp[0], r1=_Dp[1], The address _Dp does not //need to be 16-byte alignedextern __m128d _mm_loadu_pd(double const*_Dp);//返回一個__m128d的寄存器，r0=*_Dp, r1=0.0, The address _Dp does not //need to be 16-byte alignedextern __m128d _mm_load_sd(double const*_Dp);//返回一個__m128d的寄存器，r0=_A0, r1=*_Dp, The address _Dp does not //need to be 16-byte alignedextern __m128d _mm_loadh_pd(__m128d _A, double const*_Dp);//返回一個__m128d的寄存器，r0=*_Dp, r1=_A1, The address _Dp does not//need to be 16-byte alignedextern __m128d _mm_loadl_pd(__m128d _A, double const*_Dp);//Set Operations(Floating-Point SSE2 Intrinsics)//返回一個__m128d的寄存器，r0=_W, r1=0.0extern __m128d _mm_set_sd(double _W);//返回一個__m128d的寄存器，r0=_A, r1=_Aextern __m128d _mm_set1_pd(double _A);//返回一個__m128d的寄存器，r0=_Y, r1=_Zextern __m128d _mm_set_pd(double _Z, double _Y);//返回一個__m128d的寄存器，r0=_Y, r1=_Zextern __m128d _mm_setr_pd(double _Y, double _Z);//返回一個__m128d的寄存器，r0=0.0, r1=0.0extern __m128d _mm_setzero_pd(void);//返回一個__m128d的寄存器，r0=_B0, r1=_A1extern __m128d _mm_move_sd(__m128d _A, __m128d _B);//Store Operations(Floating-Point SSE2 Intrinsics)//返回為空，*_Dp=_A0, The address _Dp does not need to be 16-byte alignedextern void _mm_store_sd(double *_Dp, __m128d _A);//返回為空，_Dp[0]=_A0, _Dp[1]=_A0, The address _Dp must be 16-byte alignedextern void _mm_store1_pd(double *_Dp, __m128d _A);//返回為空，_Dp[0]=_A0, _Dp[1]=_A1, The address _Dp must be 16-byte alignedextern void _mm_store_pd(double *_Dp, __m128d _A);//返回為空，_Dp[0]=_A0, _Dp[1]=_A1, The address _Dp does not need to be 16-byte alignedextern void _mm_storeu_pd(double *_Dp, __m128d _A);//返回為空，_Dp[0]=_A1, _Dp[1]=_A0, The address _Dp must be 16-byte alignedextern void _mm_storer_pd(double *_Dp, __m128d _A);//返回為空，*_Dp=_A1extern void _mm_storeh_pd(double *_Dp, __m128d _A);//返回為空，*_Dp=_A0extern void _mm_storel_pd(double *_Dp, __m128d _A);//new convert to float//返回一個64bit double類型，r=_A0, Extracts the lower order floating point valueextern double _mm_cvtsd_f64(__m128d _A);//Cache Support for Streaming SIMD Extensions 2 Floating-Point Operations//返回為空，_Dp[0]=_A0, _Dp[1]=_A1, Stores the data in _A to the address _Dp without//polluting caches. The address _Dp must be 16-byte aligned. If the cache line //containing address _Dp is already in the cache, the cache will be updatedextern void _mm_stream_pd(double *_Dp, __m128d _A);/*------------Integer Intrinsics Using Streaming SIMD Extensions 2-------------*///Arithmetic Operations(Integer SSE2 Intrinsics):add、sub、mul、avg、min、max//返回一個__m128i的寄存器，r0=_A0+_B0, r1=_A1+_B1, ... r15=_A15+_B15extern __m128i _mm_add_epi8(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，將_A和_B中對應位置的16bit有符號或無符號整數分別相加，//即ri=_Ai+_Bi(r0=_A0+_B0, r1=_A1+_B1, ... r7=_A7+_B7)extern __m128i _mm_add_epi16(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，r0=_A0+_B0, r1=_A1+_B1, r2=_A2+_B2, r3=_A3+_B3extern __m128i _mm_add_epi32(__m128i _A, __m128i _B);//返回一個__m64的寄存器，r=_A+_Bextern __m64 _mm_add_si64(__m64 _A, __m64 _B);//返回一個__m128i的寄存器，r0=_A0+_B0, r1=_A1+_B1extern __m128i _mm_add_epi64(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，r0=SignedSaturate(_A0+_B0), r1=SignedSaturate(_A1+_B1), ... //r15=SignedSaturate(_A15+_B15), saturatesextern __m128i _mm_adds_epi8(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，將_A和_B中對應位置的16bit有符號或無符號整數分別相加，//r0=SignedSaturate(_A0+_B0), r1=SignedSaturate(_A1+_B1), ... //r7=SignedSaturate(_A7+_B7), 當計算結果溢出時將其置為邊界值(saturates)extern __m128i _mm_adds_epi16(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，r0=UnsignedSaturate(_A0+_B0), r1=UnsignedSaturate(_A1+_B1), ... //r15=UnsignedSaturate(_A15+_B15), saturatesextern __m128i _mm_adds_epu8(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，r0=UnsignedSaturate(_A0+_B0), r1=UnsignedSaturate(_A1+_B1), ... //r7=UnsignedSaturate(_A7+_B7), saturatesextern __m128i _mm_adds_epu16(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，r0=(_A0+_B0)/2, r1=(_A1+_B1)/2, ... r15=(_A15+_B15)/2, roundsextern __m128i _mm_avg_epu8(__m128i _A, __m128i _B); //返回一個__m128i的寄存器，將_A和_B中對應位置的16bit無符號整數取平均，//即ri=(_Ai+_Bi)/2(r0=(_A0+_B0)/2, r1=(_A1+_B1)/2, ... r7=(_A7+_B7)/2), roundsextern __m128i _mm_avg_epu16(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，它含有4個有符號或無符號32bit的整數，//分別滿足：r0=(_A0*_B0)+(_A1*_B1), r1=(_A2*_B2)+(_A3*_B3), //r2=(_A4*_B4)+(_A5*_B5), r3=(_A6*_B6)+(_A7*_B7)extern __m128i _mm_madd_epi16(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，取_A和_B中對應位置的16bit有符號或無符號整數的最大值，//即ri=max(_Ai,_Bi) (r0=max(_A0,_B1), r1=max(_A1,_B1), ... r7=max(_A7,_B7))extern __m128i _mm_max_epi16(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，r0=max(_A0,_B1), r1=max(_A1,_B1), ... r15=max(_A15,_B15)extern __m128i _mm_max_epu8(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，取_A和_B中對應位置的16bit有符號或無符號整數的最小值，//即ri=min(_Ai, _Bi)(r0=min(_A0,_B1), r1=min(_A1,_B1), ... r7=min(_A7,_B7))extern __m128i _mm_min_epi16(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，r0=min(_A0,_B1), r1=min(_A1,_B1), ... r15=min(_A15,_B15)extern __m128i _mm_min_epu8(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，它含8個有符號或無符號16bit的整數，分別為_A和_B對應位置的16bit//有符號或無符號整數相乘結果的高16bit數據，即ri=(_Ai*_Bi)[31:16](r0=(_A0*_B0)[31:16], //r1=(_A1*_B1)[31:16] ... r7=(_A7*_B7)[31:16])extern __m128i _mm_mulhi_epi16(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，r0=(_A0*_B0)[31:16], r1=(_A1*_B1)[31:16] ... r7=(_A7*_B7)[31:16]extern __m128i _mm_mulhi_epu16(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，它含8個有符號或無符號16bit的整數，分別為_A和_B對應位置的16bit//有符號或無符號整數相乘結果的低16bit數據，即ri=(_Ai*_Bi)[15:0](r0=(_A0*_B0)[15:0], //r1=(_A1*_B1)[15:0] ... r7=(_A7*_B7)[15:0])extern __m128i _mm_mullo_epi16(__m128i _A, __m128i _B);//返回一個__m64的寄存器，r=_A0*_B0extern __m64 _mm_mul_su32(__m64 _A, __m64 _B);//返回一個__m128i的寄存器，r0=_A0*_B0, r1=_A2*_B2extern __m128i _mm_mul_epu32(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，r0=abs(_A0-_B0) + abs(_A1-_B1) + ... + abs(_A7-_B7), //r1=0x0,r2=0x0, r3=0x0, r4=abs(_A8-_B8) + abs(_A9-_B9) + ... + abs(_A15-_B15), //r5=0x0, r6=0x0, r7=0x0extern __m128i _mm_sad_epu8(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，r0=_A0-_B0, r1=_A1-_B1, ... r15=_A15-_B15extern __m128i _mm_sub_epi8(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，將_A和_B中對應位置的16bit有符號或無符號整數分別相減，//即ri=_Ai-_Bi(r0=_A0-_B0, r1=_A1-_B1, ... r7=_A7-_B7)extern __m128i _mm_sub_epi16(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，r0=_A0-_B0, r1=_A1-_B1, r2=_A2-_B2, r3=_A3-_B3extern __m128i _mm_sub_epi32(__m128i _A, __m128i _B);//返回一個__m64的寄存器，r=_A-_Bextern __m64 _mm_sub_si64(__m64 _A, __m64 _B);//返回一個__m128i的寄存器，r0=_A0-_B0, r1=_A1-_B1extern __m128i _mm_sub_epi64(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，r0=SignedSaturate(_A0-_B0), r1=SignedSaturate(_A1-_B1), ... //r15=SignedSaturate(_A15-_B15), saturateextern __m128i _mm_subs_epi8(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，將_A和_B中對應位置的16bit有符號或無符號整數分別相減，//當計算結果溢出時將其置為邊界值(saturate), r0=SignedSaturate(_A0-_B0), //r1=SignedSaturate(_A1-_B1), ... r7=SignedSaturate(_A7-_B7)extern __m128i _mm_subs_epi16(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，r0=UnsignedSaturate(_A0-_B0), r1=UnsignedSaturate(_A1-_B1), ...//r15=UnsignedSaturate(_A15-_B15), saturateextern __m128i _mm_subs_epu8(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，r0=UnsignedSaturate(_A0-_B0), r1=UnsignedSaturate(_A1-_B1), ... //r15=UnsignedSaturate(_A7-_B7), saturateextern __m128i _mm_subs_epu16(__m128i _A, __m128i _B);//Logical Operations(Integer SSE2 Intrinsics):and、or、xor、andnot//返回一個__m128i的寄存器，將寄存器_A和寄存器_B的對應位進行按位與運算, r=_A & _Bextern __m128i _mm_and_si128(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，將寄存器_A每一位取非，然后和寄存器_B的每一位進行按位與運算,//r=(~_A) & _Bextern __m128i _mm_andnot_si128(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，將寄存器_A和寄存器_B的對應位進行按位或運算, r=_A | _Bextern __m128i _mm_or_si128(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，將寄存器_A和寄存器_B的對應位進行按位異或運算, r=_A ^ _Bextern __m128i _mm_xor_si128(__m128i _A, __m128i _B);//Shift Operations//返回一個__m128i的寄存器，r=_A << (_Imm * 8),  _Imm must be an immediate,  //shifting in zerosextern __m128i _mm_slli_si128(__m128i _A, int _Imm);//返回一個__m128i的寄存器，將寄存器_A中的8個16bit整數按照_Count進行相同的邏輯左移,//r0=_A0 << _Count, r1=_A1 << _Count, ... r7=_A7 << count,  shifting in zerosextern __m128i _mm_slli_epi16(__m128i _A, int _Count);//返回一個__m128i的寄存器，將寄存器_A中的8個16bit整數按照_Count寄存器中對應位置的整數//進行邏輯左移, r0=_A0 << _Count, r1=_A1 << _Count, ... r7=_A7 << count,  shifting in zerosextern __m128i _mm_sll_epi16(__m128i _A, __m128i _Count);//返回一個__m128i的寄存器，r0=_A0 << _Count, r1=_A1 << _Count, r2=_A2 << count, //r3=_A3 << count,  shifting in zerosextern __m128i _mm_slli_epi32(__m128i _A, int _Count);//返回一個__m128i的寄存器，r0=_A0 << _Count, r1=_A1 << _Count, r2=_A2 << count, //r3=_A3 << count,  shifting in zerosextern __m128i _mm_sll_epi32(__m128i _A, __m128i _Count);//返回一個__m128i的寄存器，r0=_A0 << _Count, r1=_A1 << _Count,  shifting in zerosextern __m128i _mm_slli_epi64(__m128i _A, int _Count);//返回一個__m128i的寄存器，r0=_A0 << _Count, r1=_A1 << _Count,  shifting in zerosextern __m128i _mm_sll_epi64(__m128i _A, __m128i _Count);//返回一個__m128i的寄存器，將寄存器_A中的8個16bit整數按照_Count進行相同的算術右移,//r0=_A0 >> _Count, r1=_A1 >> _Count, ... r7=_A7 >> count,  shifting in the sign bitextern __m128i _mm_srai_epi16(__m128i _A, int _Count);//返回一個__m128i的寄存器，將寄存器_A中的8個16bit整數按照_Count寄存器中對應位置的整數進行//算術右移,r0=_A0 >> _Count, r1=_A1 >> _Count, ... r7=_A7 >> count,  shifting in the sign bitextern __m128i _mm_sra_epi16(__m128i _A, __m128i _Count);//返回一個__m128i的寄存器，r0=_A0 >> _Count, r1=_A1 >> _Count, r3=_A3 >> count, //r4=_A4 >> count,  shifting in the sign bitextern __m128i _mm_srai_epi32(__m128i _A, int _Count);//返回一個__m128i的寄存器，r0=_A0 >> _Count, r1=_A1 >> _Count, r3=_A3 >> count,//r4=_A4 >> count,  shifting in the sign bitextern __m128i _mm_sra_epi32(__m128i _A, __m128i _Count);//返回一個__m128i的寄存器，r=srl(_A, _Imm * 8),   _Imm must be an immediate,  //shifting in zerosextern __m128i _mm_srli_si128(__m128i _A, int _Imm);//返回一個__m128i的寄存器，將寄存器_A中的8個16bit整數按照_Count進行相同的邏輯右移，//移位填充值為0,r0=srl(_A0, _Count), r1=srl(_A1, _Count), ... r7=srl(_A7, _Count), //shifting in zerosextern __m128i _mm_srli_epi16(__m128i _A, int _Count);//返回一個__m128i的寄存器，將寄存器_A中的8個16bit整數按照_Count寄存器中對應位置的整數//進行邏輯右移，移位填充值為0, r0=srl(_A0, _Count), r1=srl(_A1, _Count), ... //r7=srl(_A7, _Count),  shifting in zerosextern __m128i _mm_srl_epi16(__m128i _A, __m128i _Count);//返回一個__m128i的寄存器，r0=srl(_A0, _Count), r1=srl(_A1, _Count), r2=srl(_A2, _Count),//r3=srl(_A3, _Count),  shifting in zerosextern __m128i _mm_srli_epi32(__m128i _A, int _Count);//返回一個__m128i的寄存器，r0=srl(_A0, _Count), r1=srl(_A1, _Count), r2=srl(_A2, _Count),//r3=srl(_A3, _Count),  shifting in zerosextern __m128i _mm_srl_epi32(__m128i _A, __m128i _Count);//返回一個__m128i的寄存器，r0=srl(_A0, _Count), r1=srl(_A1, _Count), shifting in zerosextern __m128i _mm_srli_epi64(__m128i _A, int _Count);//返回一個__m128i的寄存器，r0=srl(_A0, _Count), r1=srl(_A1, _Count), shifting in zerosextern __m128i _mm_srl_epi64(__m128i _A, __m128i _Count);//Comparison Intrinsics(SSE2):==、>、<//返回一個__m128i的寄存器，r0=(_A0 == _B0) ? 0xff : 0x00, //r1=(_A1 == _B1) ? 0xff : 0x0, ... r15=(_A15 == _B15) ? 0xff : 0x0extern __m128i _mm_cmpeq_epi8(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，分別比較寄存器_A和寄存器_B對應位置16bit整數是否相等，若相等，//該位置返回0xffff，否則返回0x0，即ri=(_Ai==_Bi)?0xffff:0x0(r0=(_A0 == _B0) ? 0xffff : 0x00, //r1=(_A1 == _B1) ? 0xffff : 0x0, ... r7=(_A7 == _B7) ? 0xffff : 0x0)extern __m128i _mm_cmpeq_epi16(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，r0=(_A0 == _B0) ? 0xffffffff : 0x00, //r1=(_A1 == _B1) ? 0xffffffff : 0x0,//r2=(_A2 == _B2) ? 0xffffffff : 0x0, r3=(_A3 == _B3) ? 0xffffffff : 0x0extern __m128i _mm_cmpeq_epi32(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，r0=(_A0 > _B0) ? 0xff : 0x00, r1=(_A1 > _B1) ? 0xff : 0x0, ...//r15=(_A15 > _B15) ? 0xff : 0x0extern __m128i _mm_cmpgt_epi8(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，分別比較寄存器_A的每個16bit整數是否大于寄存器_B對應位置16bit的整數，//若大于，該位置返回0xffff，否則返回0x0，//即ri=(_Ai>_Bi)?0xffff:0x0(r0=(_A0 > _B0) ? 0xffff : 0x00, //r1=(_A1 > _B1) ? 0xffff : 0x0, ... r7=(_A7 > _B7) ? 0xffff : 0x0)extern __m128i _mm_cmpgt_epi16(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，r0=(_A0 > _B0) ? 0xffffffff : 0x00,//r1=(_A1 > _B1) ? 0xffffffff : 0x0,//r2=(_A2 > _B2) ? 0xffffffff : 0x0, r3=(_A3 > _B3) ? 0xffffffff : 0x0extern __m128i _mm_cmpgt_epi32(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，r0=(_A0 < _B0) ? 0xff : 0x00, r1=(_A1 < _B1) ? 0xff : 0x0, ... //r15=(_A15 < _B15) ? 0xff : 0x0extern __m128i _mm_cmplt_epi8(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，分別比較寄存器_A的每個16bit整數是否小于寄存器_B對應位置16bit整數，//若小于，該位置返回0xffff，否則返回0x0，//即ri=(_Ai<_Bi)?0xffff:0x0(r0=(_A0 < _B0) ? 0xffff : 0x00, //r1=(_A1 < _B1) ? 0xffff : 0x0, ... r7=(_A7 < _B7) ? 0xffff : 0x0)extern __m128i _mm_cmplt_epi16(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，r0=(_A0 < _B0) ? 0xffffffff : 0x00,//r1=(_A1 < _B1) ? 0xffffffff : 0x0, //r2=(_A2 < _B2) ? 0xffffffff : 0x0, r3=(_A3 < _B3) ? 0xffffffff : 0x0extern __m128i _mm_cmplt_epi32(__m128i _A, __m128i _B);//Conversion Intrinsics: int <-----> __m128i//返回一個__m128i的寄存器，r0=_A, r1=0x0, r2=0x0, r3=0x0extern __m128i _mm_cvtsi32_si128(int _A);//返回一個32bit整數，r=_A0extern int _mm_cvtsi128_si32(__m128i _A);//Miscellaneous Operations(Integer SSE2 Intrinsics)//返回一個__m128i的寄存器，r0=SignedSaturate(_A0), r1=SignedSaturate(_A1), ... //r7=SignedSaturate(_A7), r8=SignedSaturate(_B0), r9=SignedSaturate(_B1), ... //r15=SignedSaturate(_B7),  saturateextern __m128i _mm_packs_epi16(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，r0=SignedSaturate(_A0), r1=SignedSaturate(_A1), //r2=SignedSaturate(_A2),r3=SignedSaturate(_A3), r4=SignedSaturate(_B0), //r5=SignedSaturate(_B1), r6=SignedSaturate(_B2), r7=SignedSaturate(_B3),  saturateextern __m128i _mm_packs_epi32(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，r0=UnsignedSaturate(_A0), r1=UnsignedSaturate(_A1), ... //r7=UnsignedSaturate(_A7),r8=UnsignedSaturate(_B0), r9=UnsignedSaturate(_B1), ... //r15=UnsignedSaturate(_B7),  saturateextern __m128i _mm_packus_epi16(__m128i _A, __m128i _B);//返回一個16bit整數，根據_Imm從_A中8個16bit數中選取對應編號的數,//r=(_Imm == 0) ? _A0 : ((_Imm == 1) ? _A1 : ... (_Imm == 7) ? _A7), //_Imm must be an immediate, zero extendsextern int _mm_extract_epi16(__m128i _A, int _Imm);//返回一個__m128i的寄存器，根據_Imm將_A中8個16bit數中對應編號的數替換為_B,//r0=(_Imm == 0) ? _B : _A0; r1=(_Imm == 1) : _B : _A1, ... r7=(_Imm == 7) ? _B : _A7extern __m128i _mm_insert_epi16(__m128i _A, int _B, int _Imm);//返回一個16bit整數，r=(_A15[7] << 15) | (_A14[7] << 14) ... (_A1[7] << 1) | _A0[7], //zero extends the upper bitsextern int _mm_movemask_epi8(__m128i _A);//返回一個__m128i的寄存器，它是將_A中128bit數據以32bit為單位重新排列得到的，_Imm為有//一個四元組，表示重新排列的順序。當_A中原本存儲的整數為16bit時，這條指令將其兩兩一組//進行排列。例如，_A=(_A0,_A1,_A2,_A3,_A4,_A5,_A6,_A7), _Imm=(2,3,0,1),其中_Ai為16bit整數，//_A0為低位，返回結果為(_A2,_A3,_A0,_A1,_A6,_A7,_A4,_A5),  _Imm must be an immediateextern __m128i _mm_shuffle_epi32(__m128i _A, int _Imm);//返回一個__m128i的寄存器，它是將_A中高64bit數據以16bit為單位重新排列得到的，_Imm為一個四元組，//表示重新排列的順序。_A中低64bit數據順序不變。例如，_A=(_A0,_A1,_A2,_A3,_A4,_A5,_A6,_A7), //_Imm=(2,3,0,1),其中_Ai為16bit整數，_A0為低位，返回結果為(_A0,_A1,_A2,_A3,_A5,_A4,_A7,_A6), //_Imm must be an immediate extern __m128i _mm_shufflehi_epi16(__m128i _A, int _Imm);//返回一個__m128i的寄存器，它是將_A中低64bit數據以16bit為單位重新排列得到的，_Imm為一個四元組，//表示重新排列的順序。_A中高64bit數據順序不變。例如，_A=(_A0,_A1,_A2,_A3,_A4,_A5,_A6,_A7),//_Imm=(2,3,0,1),其中_Ai為16bit整數，_A0為低位，返回結果為(_A1,_A0,_A3,_A2,_A5,_A4,_A7,_A6),   //_Imm must be an immediateextern __m128i _mm_shufflelo_epi16(__m128i _A, int _Imm);//返回一個__m128i的寄存器，r0=_A8, r1=_B8, r2=_A9, r3=_B9, ... r14=_A15, r15=_B15extern __m128i _mm_unpackhi_epi8(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，它將寄存器_A和寄存器_B的高64bit數以16bit為單位交織在一塊。//例如，_A=(_A0,_A1,_A2,_A3,_A4,_A5,_A6,_A7),_B=(_B0,_B1,_B2,_B3,_B4,_B5,_B6,_B7),//其中_Ai,_Bi為16bit整數，_A0,_B0為低位，返回結果為(_A4,_B4,_A5,_B5,_A6,_B6,_A7,_B7),//r0=_A4, r1=_B4, r2=_A5, r3=_B5, r4=_A6, r5=_B6, r6=_A7, r7=_B7extern __m128i _mm_unpackhi_epi16(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，它將寄存器_A和寄存器_B的高64bit數以32bit為單位交織在一塊。//例如，_A=(_A0,_A1,_A2,_A3,_A4,_A5,_A6,_A7),_B=(_B0,_B1,_B2,_B3,_B4,_B5,_B6,_B7),//其中_Ai,_Bi為16bit整數，_A0,_B0為低位，返回結果為(_A4,_A5,_B4,_B5,_A6,_A7,_B6,_B7),//r0=_A2, r1=_B2, r2=_A3, r3=_B3extern __m128i _mm_unpackhi_epi32(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，它將寄存器_A和寄存器_B的高64bit數以64bit為單位交織在一塊。//例如，_A=(_A0,_A1,_A2,_A3,_A4,_A5,_A6,_A7),_B=(_B0,_B1,_B2,_B3,_B4,_B5,_B6,_B7),//其中_Ai,_Bi為16bit整數，_A0,_B0為低位，//返回結果為(_A4,_A5,_A6,_A7,_B4,_B5,_B6,_B7), r0=_A1, r1=_B1extern __m128i _mm_unpackhi_epi64(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，r0=_A0, r1=_B0, r2=_A1, r3=_B1, ... r14=_A7, r15=_B7extern __m128i _mm_unpacklo_epi8(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，它將寄存器_A和寄存器_B的低64bit數以16bit為單位交織在一塊。//例如，_A=(_A0,_A1,_A2,_A3,_A4,_A5,_A6,_A7),_B=(_B0,_B1,_B2,_B3,_B4,_B5,_B6,_B7),//其中_Ai,_Bi為16bit整數，_A0,_B0為低位，返回結果為(_A0,_B0,_A1,_B1,_A2,_B2,_A3,_B3),//r0=_A0, r1=_B0, r2=_A1, r3=_B1, r4=_A2, r5=_B2, r6=_A3, r7=_B3extern __m128i _mm_unpacklo_epi16(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，它將寄存器_A和寄存器_B的低64bit數以32bit為單位交織在一塊。//例如，_A=(_A0,_A1,_A2,_A3,_A4,_A5,_A6,_A7),_B=(_B0,_B1,_B2,_B3,_B4,_B5,_B6,_B7),//其中_Ai,_Bi為16bit整數，_A0,_B0為低位，返回結果為(_A0,_A1,_B0,_B1,_A2,_A3,_B2,_B3),//r0=_A0, r1=_B0, r2=_A1, r3=_B1extern __m128i _mm_unpacklo_epi32(__m128i _A, __m128i _B);//返回一個__m128i的寄存器，它將寄存器_A和寄存器_B的低64bit數以32bit為單位交織在一塊。//例如，_A=(_A0,_A1,_A2,_A3,_A4,_A5,_A6,_A7),_B=(_B0,_B1,_B2,_B3,_B4,_B5,_B6,_B7),//其中_Ai,_Bi為16bit整數，_A0,_B0為低位，返回結果為(_A0,_A1,_A2,_A3,_B0,_B1,_B2,_B3), //ro=_A0, r1=_B0extern __m128i _mm_unpacklo_epi64(__m128i _A, __m128i _B);//Load Operations(Integer SSE2 Intrinsics)//返回為一個__m128i的寄存器，它將_P指向的數據讀到指定寄存器中，實際使用時，//_P一般是通過類型轉換得到的, Address _P must be 16-byte alignedextern __m128i _mm_load_si128(__m128i const*_P);//返回一個__m128i的寄存器，Loads 128-bit value, Address _P does not need be 16-byte alignedextern __m128i _mm_loadu_si128(__m128i const*_P);//返回一個__m128i的寄存器，r0=*p[63:0], r1=0x0, zeroing the upper 64 bits of the resultextern __m128i _mm_loadl_epi64(__m128i const*_P);//Set Operations(Integer SSE2 Intrinsics)//返回一個__m128i的寄存器，r0=_Q0, r1=_Q1extern __m128i _mm_set_epi64(__m64 _Q1, __m64 _Q0);//返回一個__m128i的寄存器，r0=_I0, r1=_I1, r2=_I2, r3=_I3extern __m128i _mm_set_epi32(int _I3, int _I2, int _I1, int _I0);//返回一個__m128i的寄存器，使用8個具體的short型數據來設置寄存器存放數據,//r0=_W0, r1=_W1, ... r7=_W7extern __m128i _mm_set_epi16(short _W7, short _W6, short _W5, short _W4, short _W3, short _W2, short _W1, short _W0);//返回一個__m128i的寄存器，r0=_B0, r1=_B1, ... r15=_B15extern __m128i _mm_set_epi8(char _B15, char _B14, char _B13, char _B12, char _B11, char _B10, char _B9,char _B8, char _B7, char _B6, char _B5, char _B4, char _B3, char _B2, char _B1, char _B0);//返回一個__m128i的寄存器，r0=_Q, r1=_Qextern __m128i _mm_set1_epi64(__m64 _Q);//返回一個__m128i的寄存器，r0=_I, r1=_I, r2=_I, r3=_Iextern __m128i _mm_set1_epi32(int _I);//返回一個__m128i的寄存器，r0=_W, r1=_W, ... r7=_Wextern __m128i _mm_set1_epi16(short _W);//返回一個__m128i的寄存器，r0=_B, r1=_B, ... r15=_Bextern __m128i _mm_set1_epi8(char _B);//返回一個__m128i的寄存器，r=_Qextern __m128i _mm_setl_epi64(__m128i _Q);//返回一個__m128i的寄存器，r0=_Q0, r1=_Q1extern __m128i _mm_setr_epi64(__m64 _Q0, __m64 _Q1);//返回一個__m128i的寄存器，r0=_I0, r1=_I1, r2=_I2, r3=_I3extern __m128i _mm_setr_epi32(int _I0, int _I1, int _I2, int _I3);//返回一個__m128i的寄存器，r0=_W0, r1=_W1, ... r7=_W7extern __m128i _mm_setr_epi16(short _W0, short _W1, short _W2, short _W3, short _W4, short _W5, short _W6, short _W7);//返回一個__m128i的寄存器，r0=_B15, r1=_B14, ... r15=_B0extern __m128i _mm_setr_epi8(char _B15, char _B14, char _B13, char _B12, char _B11, char _B10, char _B9, char _B8, char _B7, char _B6, char _B5, char _B4,  char _B3, char _B2, char _B1, char _B0);//返回一個__m128i的寄存器，r=0x0extern __m128i _mm_setzero_si128(void);//Store Operations(Integer SSE2 Intrinsics)//返回為空，它將寄存器_B中的數據存儲到_P指向的地址中，實際使用時，//_P一般是通過類型轉換得到的, *_P = _B, Address _P must be 16-byte alignedextern void _mm_store_si128(__m128i *_P, __m128i _B);//返回為空，*_P=_B, Address _P does not need to be 16-byte alignedextern void _mm_storeu_si128(__m128i *_P, __m128i _B);//返回為空，*_P[63:0] =_Q0, lower 64 bitsextern void _mm_storel_epi64(__m128i *_P, __m128i _Q);//返回為空，if(_N0[7]) _P[0]=_D0, if(_N1[7]) _P[1]=_D1, ... if(_N15[7]) _P[15]=_D15, //The high bit of each byte in the selector _N determines whether the corresponding byte //in _D will be stored. Address _P does not need to be 16-byte alignedextern void _mm_maskmoveu_si128(__m128i _D, __m128i _N, char *_P);//Integer, moves//返回一個__m128i的寄存器，r0=_Q0, r1=0x0, zeroing the upper bitsextern __m128i _mm_move_epi64(__m128i _Q);//返回一個__m128i的寄存器，r0=_Q, r1=0x0, zeroing the upper bitsextern __m128i _mm_movpi64_epi64(__m64 _Q);//返回一個__m64的寄存器，r=_Q0extern __m64 _mm_movepi64_pi64(__m128i _Q);//Cache Support for Steaming SIMD Extensions 2 Integer Operations//返回為空，*_P=_A, Stores the data in _A to the address _P without polluting the caches.//If the cache line containing address _P is already in the cache, the cache will be updated. //Address _P must be 16-byte alignedextern void _mm_stream_si128(__m128i *_P, __m128i _A);//返回為空，Cache line containing _P is flushed and invalidated from //all caches in the coherency domainextern void _mm_clflush(void const*_P);//返回為空，Guarantees that every load instruction that precedes, in program order, the load //fence instruction is globally visible before any load instruction //that follows the fence in program orderextern void _mm_lfence(void);//返回為空，Guarantees that every memory access that precedes, in program order, //the memory fence instruction is globally visible before any memory instruction //that follows the fence in program orderextern void _mm_mfence(void);//返回為空，*_P=_I, Stores the data in _I to the address _P without polluting the caches. //If the cache line containing address _P is already in the cache, the cache will be updatedextern void _mm_stream_si32(int *_P, int _I);//返回為空，The execution of the next instruction is delayed an implementation specific //amount of time. The instruction does not modify the architectural state. This intrinsic//provides especially significant performance gainextern void _mm_pause(void);/*---Support for casting between various SP, DP, INT vector types. Note that these do no conversion of values, they just change the type----*///返回一個__m128的寄存器，Applies a type cast to reinterpret two 64-bit floating //point values passed in as a 128-bit parameter as packed 32-bit floating point valuesextern __m128  _mm_castpd_ps(__m128d);//返回一個__m128i的寄存器，Applies a type cast to reinterpret two 64-bit//floating point values passed in as a 128-bit parameter as packed 32-bit integersextern __m128i _mm_castpd_si128(__m128d);//返回一個__m128d的寄存器，Applies a type cast to reinterpret four 32-bit floating //point values passed in as a 128-bit parameter as packed 64-bit floating point valuesextern __m128d _mm_castps_pd(__m128);//返回一個__m128i的寄存器，Applies a type cast to reinterpret four 32-bit floating //point values passed in as a 128-bit parameter as packed 32-bit integersextern __m128i _mm_castps_si128(__m128);//返回一個__m128的寄存器，Applies a type cast to reinterpret four 32-bit integers //passed in as a 128-bit parameter as packed 32-bit floating point valuesextern __m128  _mm_castsi128_ps(__m128i);//返回一個__m128d的寄存器，Applies a type cast to reinterpret four 32-bit //integers passed in as a 128-bit parameter as packed 64-bit floating point valuesextern __m128d _mm_castsi128_pd(__m128i);