Kam*_*ami 8 c arm sse multiplication neon
我正在尝试使用neon intrinsics将ac代码转换为优化代码.
以下是操作超过2个操作符而不是操作符向量的c代码.
uint16_t mult_z216(uint16_t a,uint16_t b){
unsigned int c1 = a*b;
if(c1)
{
int c1h = c1 >> 16;
int c1l = c1 & 0xffff;
return (c1l - c1h + ((c1l<c1h)?1:0)) & 0xffff;
}
return (1-a-b) & 0xffff;
}
此操作的SEE优化版本已通过以下方式实现:
#define MULT_Z216_SSE(a, b, c) \
t0 = _mm_or_si128 ((a), (b)); \ //Computes the bitwise OR of the 128-bit value in a and the 128-bit value in b.
(c) = _mm_mullo_epi16 ((a), (b)); \ //low 16-bits of the product of two 16-bit integers
(a) = _mm_mulhi_epu16 ((a), (b)); \ //high 16-bits of the product of two 16-bit unsigned integers
(b) = _mm_subs_epu16((c), (a)); \ //Subtracts the 8 unsigned 16-bit integers of a from the 8 unsigned 16-bit integers of c and saturates
(b) = _mm_cmpeq_epi16 ((b), C_0x0_XMM); \ //Compares the 8 signed or unsigned 16-bit integers in a and the 8 signed or unsigned 16-bit integers in b for equality. (0xFFFF or 0x0)
(b) = _mm_srli_epi16 ((b), 15); \ //shift right 16 bits
(c) = _mm_sub_epi16 ((c), (a)); \ //Subtracts the 8 signed or unsigned 16-bit integers of b from the 8 signed or unsigned 16-bit integers of a.
(a) = _mm_cmpeq_epi16 ((c), C_0x0_XMM); \ ////Compares the 8 signed or unsigned 16-bit integers in a and the 8 signed or unsigned 16-bit integers in b for equality. (0xFFFF or 0x0)
(c) = _mm_add_epi16 ((c), (b)); \ // Adds the 8 signed or unsigned 16-bit integers in a to the 8 signed or unsigned 16-bit integers in b.
t0 = _mm_and_si128 (t0, (a)); \ //Computes the bitwise AND of the 128-bit value in a and the 128-bit value in b.
(c) = _mm_sub_epi16 ((c), t0); ///Subtracts the 8 signed or unsigned 16-bit integers of b from the 8 signed or unsigned 16-bit integers of a.
我几乎用霓虹内在函数转换了这个:
#define MULT_Z216_NEON(a, b, out) \
temp = vorrq_u16 (*a, *b); \
// ??
// ??
*b = vsubq_u16(*out, *a); \
*b = vceqq_u16(*out, vdupq_n_u16(0x0000)); \
*b = vshrq_n_u16(*b, 15); \
*out = vsubq_s16(*out, *a); \
*a = vceqq_s16(*c, vdupq_n_u16(0x0000)); \
*c = vaddq_s16(*c, *b); \
*temp = vandq_u16(*temp, *a); \
*out = vsubq_s16(*out, *a);
我只是错过了霓虹灯_mm_mullo_epi16 ((a), (b));和_mm_mulhi_epu16 ((a), (b));.要么我误解了某些东西,要么在NEON中没有这样的内在函数.如果没有相同的方法如何使用NEONS内在函数存档这些步骤?
更新:
我忘了强调以下几点:函数的操作数是uint16x8_t NEON向量(每个元素是一个uint16_t => 0到65535之间的整数).在一个答案中有人建议使用内在的vqdmulhq_s16().这个的使用将与给定的实现不匹配,因为乘法内在将把向量解释为有符号值并产生错误的输出.
您可以使用:
uint32x4_t vmull_u16 (uint16x4_t, uint16x4_t)
返回32位产品的向量.如果要将结果分解为高低部分,可以使用NEON解压缩内在函数.