Can someone please help me to understand this following partial parallel sum algorithm implementation of CUDA-C? I have problem to understand the initial fill up of the shared `partialSum`

array [line 3 to 8]. I have traced it for hours now but I am not getting why should start in the following code should be `2*blockIdx.x*blockDim.x;`

in stead of `blockIdx.x*blockDim.x;`

?

Host code:

```
numOutputElements = numInputElements / (BLOCK_SIZE<<1);
if (numInputElements % (BLOCK_SIZE<<1)) {
numOutputElements++;
}
#define BLOCK_SIZE 512
dim3 dimGrid(numOutputElements, 1, 1);
dim3 dimBlock(BLOCK_SIZE, 1, 1);
total<<<dimGrid, dimBlock>>>(deviceInput, deviceOutput, numInputElements);
```

Kernel code:

```
1 __global__ void total(float * input, float * output, int len) {
2
3 __shared__ float partialSum[2*BLOCK_SIZE];
4
5 unsigned int t = threadIdx.x;
6 unsigned int start = 2*blockIdx.x*blockDim.x;
7 partialSum[t] = input[start + t];
8 partialSum[blockDim.x + t] = input[start + blockDim.x + t];
9
10 for (unsigned int stride = blockDim.x; stride >=1; stride >>=1)
11 {
12 __syncthreads();
13
14 if (t < stride)
15 partialSum[t] += partialSum[t + stride];
16 }
17 output[blockIdx.x] = partialSum[0];
18 }
```

suppose I have 10 elements to sum and I chose to make blocksize of 4, and 4 thread per block, so there will be 3 block in use, right? [Lets forget about the warp size and things for a while]

When blockIdx.x is 2 (the last block which has 2 elements) then the start is becoming (2*2*4=)16 and it is greater than 10 and it exceeds `input`

length (so both of `partialSum[t]`

and `partialSum[blockDim.x + t]`

will remain unchanged and `block2`

's shared memory will remain empty. ) if so then last 2 element of my array will get lost!!

It makes me think that i am getting blockIdx.x, blockDim.x wrong way. Can some one please correct me? Please!

2 valuesinto shared memory. – talonmies Jan 12 '13 at 7:36`2*`

– Eric Jan 12 '13 at 7:40`start`

'? – Eric Jan 12 '13 at 12:21