I'm developing a Litecoin Miner for a processor that has only 32KB of internal memory. So I was looking at SCrypt algorithms and for Litecoin it uses N = 1024, that gives me 2^10 * 1 * 128 = 128KB memory use aproximate.

So I was looking into GPU Algorithms that has the parameter Lookup Gap. For reading I'm using kepler code from CudaMiner: https://github.com/cbuchner1/CudaMiner/blob/master/kepler_kernel.cu (Line 535)

So I understand that lookup gap is a tradeoff between CPU and Memory. So higher is it, higher is my CPU use and lower my memory. What I didnt understand is how it works exactly.

In the code I have

```
int pos = c_N_1/LOOKUP_GAP, loop = 1 + (c_N_1-pos*LOOKUP_GAP);
```

That will make it look the scratchpad every LOOKUP_GAP byte (if its 2, it will be 0,2,4,6,8,10), but where is the more CPU Use of the algorithm?

My implementation will not be highly optimized, is something like *try to run*.

I also saw a FPGA Implementation that uses Interpolation ( https://github.com/kramble/FPGA-Litecoin-Miner ) this is more strange to me. I dunno how they could do interpolation of the values in scratchpad.

Thanks!