# How to optimize this Delphi function with SSE2?

I need a hint, how to implement this Delphi function using SSE2 assembly (32 Bit). Other optimizations are welcome too. Maybe one can tell me, what kind of instructions could be used, so I have a starting point for further reading.

Actual:

``````const Precision = 10000;

// This function adds all Pixels into one. The pixels are weighted before adding.
// A weight can range from 0 to "Precision". "Size" is typically 10 to 50.

function TFilter.Combine(Pixels: PByte; Weights: PCardinal; const Size: Cardinal): Cardinal;
var
i, R, G, B, A: Cardinal;
begin
B := Pixels^ * Weights^; Inc(Pixels);
G := Pixels^ * Weights^; Inc(Pixels);
R := Pixels^ * Weights^; Inc(Pixels);
A := Pixels^ * Weights^; Inc(Pixels);
Inc(Weights); // goto next weight
for i := 1 to Size - 1 do
begin
Inc(B, Pixels^ * Weights^); Inc(Pixels);
Inc(G, Pixels^ * Weights^); Inc(Pixels);
Inc(R, Pixels^ * Weights^); Inc(Pixels);
Inc(A, Pixels^ * Weights^); Inc(Pixels);
Inc(Weights); // goto next weight
end;
B := B div Precision;
G := G div Precision;
R := R div Precision;
A := A div Precision;

Result := A shl 24 or R shl 16 or G shl 8 or B;
end;
``````

Expected:

``````function TFilter.Combine(Pixels: PByte; Weights: PCardinal; const Size: Cardinal): Cardinal;
asm
// Insert fast SSE2-Code here ;-)
end;
``````
-
I'd look at GR32 and see if it has the routine you need. If not then it's got lots of optimized SSE2 that you could use as a learning resource. –  David Heffernan Apr 12 '12 at 15:00
How many pixels does this combine at once? I ask because if the number is small enough, you won't see any notable speedup because of all the overhead. Also, do the Weight values need to be 32 bits? Will 16 bits contain them? –  Multimedia Mike Apr 13 '12 at 1:06
Weight Values don't have to be 32 Bits as they range only to precision which is 10000 (fits in 16 Bits). –  Stebi Apr 13 '12 at 9:00

Rather straightforward implementation. I've changed your function prototype - regular function (against object method).

This code works about 3x times faster than byte-per-byte function (1500 ms for 1000000 iterations on 256-element array, roughly 0.7 GB/sec at my old Athlon XP 2.2 GHz)

``````function Combine(Pixels: PByte; Weights: PInteger; const Size: Cardinal): Integer;
//x86, register calling convention - three parameters in EAX, EDX, ECX
const
Precision: Single = 1.0;
asm
pxor XMM6, XMM6 //zero const
pxor XMM4, XMM4 // zero accum

@@cycle:
movd XMM1, [eax] //load color data
movss XMM3, [edx]  //load weight

punpcklbw XMM1, XMM6 //bytes to words
shufps XMM3, XMM3, 0 // 4 x weight
punpcklwd XMM1, XMM6 //words to ints
cvtdq2ps XMM2, XMM3  //ints to singles
cvtdq2ps XMM0, XMM1  //ints to singles

mulps XMM0, XMM2    //data * weight
addps XMM4, XMM0    //accum  = accum + data * weight

add eax, 4        // inc pointers
loop @@cycle

movss XMM5, Precision
shufps XMM5, XMM5, 0 // 4 x precision constant

divps XMM4, XMM5    //accum/precision

cvtps2dq XMM2, XMM4  //rounding singles to ints
packssdw XMM2, XMM2 //ints to ShortInts
packuswb XMM2, XMM2  //ShortInts to bytes

movd eax, XMM2  //result
end;
``````
-
Wow, I didn't expect a fully working version! ;-) And yes, it works like charm. The speed up on my machine (Core i7-920): about 4x times faster! –  Stebi Apr 13 '12 at 8:56
Some questions: Why are you using floating point calculcations? Aren't there any possibilities to do it only with integers? I'd think it would be even faster. And if not, I could store the weights as singles so no conversions would be needed. –  Stebi Apr 13 '12 at 8:59
About floating point - I don't see SSE2 command for multiplication of 4 packed integer. May be, I've missed it. And yes, it is possible to store the weights as singles (i doubt about significant acceleration) –  MBo Apr 13 '12 at 10:35
@Stebi: You should consider to accept the question if it helps you. –  menjaraz Apr 14 '12 at 4:25
@Stebi: SSE as SIMD instruction set extension targets floating point data. You should only stick to MMX instead of SSE if you want to do it with Integer. –  menjaraz Apr 14 '12 at 4:37