问题
I need to improve a loop, because is called by my application thousands of times. I suppose I need to do it with Neon, but I don´t know where to begin.
Assumptions / pre-conditions:
w
is always 320 (multiple of 16/32).pa
andpb
are 16-byte alignedma
andmb
are positive.
int whileInstruction (const unsigned char *pa,const unsigned char *pb,int ma,int mb,int w)
{
int sum=0;
do {
sum += ((*pa++)-ma)*((*pb++)-mb);
} while(--w);
return sum;
}
This attempt at vectorizing it is not working well, and isn't safe (missing clobbers), but demonstrates what I'm trying to do:
int whileInstruction (const unsigned char *pa,const unsigned char *pb,int ma,int mb,int w)
{
asm volatile("lsr %2, %2, #3 \n"
".loop: \n"
"# load 8 elements: \n"
"vld4.8 {d0-d3}, [%1]! \n"
"vld4.8 {d4-d7}, [%2]! \n"
"# do the operation: \n"
"vaddl.u8 q7, d0, r7 \n"
"vaddl.u8 q8, d1, d8 \n"
"vmlal.u8 q7, q7, q8 \n"
"# Sum the vector a save in sum (this is wrong):\n"
"vaddl.u8 q7, d0, r7 \n"
"subs %2, %2, #1 \n" // Decrement iteration count
"bne .loop \n" // Repeat unil iteration count is not zero
:
: "r"(pa), "r"(pb), "r"(w),"r"(ma),"r"(mb),"r"(sum)
: "r4", "r5", "r6","r7","r8","r9"
);
return sum;
}
回答1:
Here is a simple NEON implementation. I have tested this against the scalar code to make sure that it works. Note that for best performance both pa
and pb
should be 16 byte aligned.
#include <arm_neon.h>
int whileInstruction_neon(const unsigned char *pa, const unsigned char *pb, int ma, int mb, int w)
{
int sum = 0;
const int32x4_t vma = { ma, ma, ma, ma };
const int32x4_t vmb = { mb, mb, mb, mb };
int32x4_t vsumll = { 0 };
int32x4_t vsumlh = { 0 };
int32x4_t vsumhl = { 0 };
int32x4_t vsumhh = { 0 };
int32x4_t vsum;
int i;
for (i = 0; i <= (w - 16); i += 16)
{
uint8x16_t va = vld1q_u8(pa); // load vector from pa
uint8x16_t vb = vld1q_u8(pb); // load vector from pb
// unpack va into 4 vectors
int16x8_t val = (int16x8_t)vmovl_u8(vget_low_u8(va));
int16x8_t vah = (int16x8_t)vmovl_u8(vget_high_u8(va));
int32x4_t vall = vmovl_s16(vget_low_s16(val));
int32x4_t valh = vmovl_s16(vget_high_s16(val));
int32x4_t vahl = vmovl_s16(vget_low_s16(vah));
int32x4_t vahh = vmovl_s16(vget_high_s16(vah));
// subtract means
vall = vsubq_s32(vall, vma);
valh = vsubq_s32(valh, vma);
vahl = vsubq_s32(vahl, vma);
vahh = vsubq_s32(vahh, vma);
// unpack vb into 4 vectors
int16x8_t vbl = (int16x8_t)vmovl_u8(vget_low_u8(vb));
int16x8_t vbh = (int16x8_t)vmovl_u8(vget_high_u8(vb));
int32x4_t vbll = vmovl_s16(vget_low_s16(vbl));
int32x4_t vblh = vmovl_s16(vget_high_s16(vbl));
int32x4_t vbhl = vmovl_s16(vget_low_s16(vbh));
int32x4_t vbhh = vmovl_s16(vget_high_s16(vbh));
// subtract means
vbll = vsubq_s32(vbll, vmb);
vblh = vsubq_s32(vblh, vmb);
vbhl = vsubq_s32(vbhl, vmb);
vbhh = vsubq_s32(vbhh, vmb);
// update 4 partial sum of products vectors
vsumll = vmlaq_s32(vsumll, vall, vbll);
vsumlh = vmlaq_s32(vsumlh, valh, vblh);
vsumhl = vmlaq_s32(vsumhl, vahl, vbhl);
vsumhh = vmlaq_s32(vsumhh, vahh, vbhh);
pa += 16;
pb += 16;
}
// sum 4 partial sum of product vectors
vsum = vaddq_s32(vsumll, vsumlh);
vsum = vaddq_s32(vsum, vsumhl);
vsum = vaddq_s32(vsum, vsumhh);
// do scalar horizontal sum across final vector
sum = vgetq_lane_s32(vsum, 0);
sum += vgetq_lane_s32(vsum, 1);
sum += vgetq_lane_s32(vsum, 2);
sum += vgetq_lane_s32(vsum, 3);
// handle any residual non-multiple of 16 points
for ( ; i < w; ++i)
{
sum += (*pa++ - ma) * (*pb++ - mb);
}
return sum;
}
回答2:
Well another solution for my problem taken the perfect solution by Paul R, in the case the w is equal to 8, what happens usually it is possible to use this function:
int whileInstruction8Valors (const unsigned char *pa,const unsigned char *pb,int ma,int mb,int w)
{
int sum=0;
//int 32 bits /4 elementos?
const int32x4_t vma = { ma, ma, ma, ma };
const int32x4_t vmb = { mb, mb, mb, mb };
int32x4_t vsumll = { 0 };
int32x4_t vsumlh = { 0 };
int32x4_t vsum;
//char 8 bytes / 8 elementos
uint8x8_t va2= vld1_u8(pa); // VLD1.8 {d0}, [r0]
uint8x8_t vb2= vld1_u8(pb); // VLD1.8 {d0}, [r0]
//int 16 bytes /8 elementos
int16x8_t val = (int16x8_t)vmovl_u8(va2);
//int 32 /4 elementos *2
int32x4_t vall = vmovl_s16(vget_low_s16(val));
int32x4_t valh = vmovl_s16(vget_high_s16(val));
// subtract means
vall = vsubq_s32(vall, vma);
valh = vsubq_s32(valh, vma);
//int 16 bytes /8 elementos
int16x8_t vbl2 = (int16x8_t)vmovl_u8(vb2);
//int 32 /4 elementos *2
int32x4_t vbll = vmovl_s16(vget_low_s16(vbl2));
int32x4_t vblh = vmovl_s16(vget_high_s16(vbl2));
// subtract means
vbll = vsubq_s32(vbll, vmb);
vblh = vsubq_s32(vblh, vmb);
// update 4 partial sum of products vectors
vsumll = vmlaq_s32(vsumll, vall, vbll);
vsumlh = vmlaq_s32(vsumlh, valh, vblh);
// sum 4 partial sum of product vectors
vsum = vaddq_s32(vsumll, vsumlh);
// do scalar horizontal sum across final vector
sum = vgetq_lane_s32(vsum, 0);
sum += vgetq_lane_s32(vsum, 1);
sum += vgetq_lane_s32(vsum, 2);
sum += vgetq_lane_s32(vsum, 3);
return sum;
}
Maybe it is possible to improve it.
来源:https://stackoverflow.com/questions/8473537/neon-vectorize-sum-of-products-of-unsigned-bytes-ai-int1-bi-int2