I am trying to construct a summed area table for later use in an adaptive thresholding routine. Since this code is going to be used in time critical software, I am trying to squeeze as many cycles as possible out of it.

For performance, the table is unsigned integers for every pixel.

When I attach my profiler, I am showing that my largest performance bottleneck occurs when performing the x-pass.

The simple math expression for the computation is:

```
sat_[y * width + x] = sat_[y * width + x - 1] + buff_[y * width + x]
where the running sum resets at every new y position.
```

In this case, `sat_`

is a 1-D pointer of unsigned integers representing the SAT, and `buff_`

is an 8-bit unsigned monochrome buffer.

My implementation looks like the following:

```
uint *pSat = sat_;
char *pBuff = buff_;
for (size_t y = 0; y < height; ++y, pSat += width, pBuff += width)
{
uint curr = 0;
for (uint x = 0; x < width; x += 4)
{
pSat[x + 0] = curr += pBuff[x + 0];
pSat[x + 1] = curr += pBuff[x + 1];
pSat[x + 2] = curr += pBuff[x + 2];
pSat[x + 3] = curr += pBuff[x + 3];
}
}
```

The loop is unrolled manually because my compiler (VC11) didn't do it for me. The problem I have is that the entire segmentation routine is spending an extraordinary amount of time just running through that loop, and I am wondering if anyone has any thoughts on what might speed it up. I have access to all of the SSE's sets, and AVX for any machine this routine will run on, so if there is something there, that would be extremely useful.

Also, once I squeeze out the last cycles, I then plan on extending this to multi-core, but I want to get the single thread computation as tight as possible before I make the model more complex.

`curr`

at the beginning of every row, but that's not implied by the expression. – Oliver Charlesworth Mar 6 '13 at 23:01