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I am building a cuda fortran and a strange behavior occurs. I don't really understand why my code runs like this and would appreciate your help.

It seems that the value 0 is never assigned and even the loops executes beyond the boarders.

I tried to put the if condition after the loops but it did not help either. Thank you for your help

    real, shared :: s_d_aaa_adk(0:15,0:15)
    real, shared :: s_d_bbb_adk(0:15,0:15)
    real, shared :: s_d_ccc_adk(0:15,0:15)

    d_k = (blockIdx%x-1)
    s_d_j = threadIdx%x-1
    s_d_l = threadIdx%y-1   

    if(d_k == kmax-1)then
        s_d_aaa_adk(s_d_j,s_d_l)  = 0 
        s_d_bbb_adk(s_d_j,s_d_l) = 0
        s_d_ccc_adk(s_d_j,s_d_l)  = 0       

    do d_k = 0, kmax-2              
        s_d_bbb_adk(s_d_j,s_d_l) = d_bbb(s_d_j,d_l,d_k+1)
        s_d_ccc_adk(s_d_j,s_d_l)  = d_ccc(d_j,s_d_l,d_k+1) 
        s_d_aaa_adk(s_d_j,s_d_l) = d_aaa(d_j,s_d_l,d_k+1)               
    end do  `

I set all global memory array size to be (16,16, kmax), the grid is (128,1,1), block (16,16,1), and the the kernel is launched as testkernell<<<grid,block>>>()

share|improve this question
what is the value of kmax ? – Robert Crovella Jul 4 '13 at 12:04
I am slicing a 3d to 2d array through z. kmax is the maximum of z. I want to put each slice in one block. – Adjeiinfo Jul 5 '13 at 5:38
It may not be necessary to use a do-loop in that case. What is the size of the 3d array in x,y,z ? – Robert Crovella Jul 5 '13 at 7:24
The size is (64,64,32).The example I post is not the full size because I wanted to see first how it behaves with small arrays. This is why I posted (16,16,4). All 3 arrays are of the same size. – Adjeiinfo Jul 5 '13 at 8:45

Since you're conditioning the if statement on d_k, which is derived from the block index:

d_k = (blockIdx%x-1)
if(d_k == kmax-1)then

This means that only one block out of the 128 in your grid will actually execute the if statement, setting those particular shared memory values to zero. Most of your blocks will not execute what's inside the if statement.

And if kmax happens to be greater than 128, then none of your blocks will execute the if statement.

If you want that if-statement to be executed within every threadblock, you will need to condition it on something other than the block index.

I would make a suggestion about how to restructure the code, but it's not clear to me what you want to achieve as far as loading data into shared memory. For instance, your do-loop doesn't make much sense to me:

do d_k = 0, kmax-2              
    s_d_bbb_adk(s_d_j,s_d_l) = d_bbb(s_d_j,d_l,d_k+1)
    s_d_ccc_adk(s_d_j,s_d_l)  = d_ccc(d_j,s_d_l,d_k+1) 
    s_d_aaa_adk(s_d_j,s_d_l) = d_aaa(d_j,s_d_l,d_k+1)               
end do            ^     ^
                  |     |
         a given thread has specific values for these indices

Your s_d_j and s_d_l variables are thread indices. So a given thread will see this do loop, and it will execute the loop iteratively, loading successive values from the various global memory arrays (d_bbb, d_ccc, etc.) into the exact same locations in each shared memory array.

It seems to me you don't really understand how thread execution works. Pretend that you are a given thread, assign specific values to s_d_j and s_d_l (and d_k, although you are overwriting the block index when re-use that variable as your loop index, which also seems strange to me), and then see if your code execution makes sense.

EDIT: Based on additional comments:

You have stated your overall data set size (x,y,z) is (64,64,32). You have stated "I am slicing ... array through z. ... I want to put each slice in one block"

That would suggest to me that you should launch one block per slice. Or maybe you have an algorithm in mind that has multiple blocks assigned to a single slice. Regardless, I will assume that you want all the slice data (64, 64) available to a given block that is assigned to that slice. I will assume for now that you will launch 32 blocks. It should not be difficult to extend to the case where multiple blocks are working on a single slice. I will also assume a 32x32 thread block rather than 16x16 that you have indicated. It should not be difficult to extend this to use 16x16 if you want to.

You might do something like this then:

real, shared :: s_d_aaa_adk(0:63,0:63)
real, shared :: s_d_bbb_adk(0:63,0:63)
real, shared :: s_d_ccc_adk(0:63,0:63)

c above uses 48KB of shared mem, so assuming cc 2.0+ and cache config set accordingly

d_k = (blockIdx%x-1)
s_d_j = threadIdx%x-1
s_d_l = threadIdx%y-1   

c fill first quadrant
s_d_bbb_adk(s_d_j,s_d_l) = d_bbb(s_d_j,s_d_l,d_k+1)
s_d_ccc_adk(s_d_j,s_d_l) = d_ccc(s_d_j,s_d_l,d_k+1) 
s_d_aaa_adk(s_d_j,s_d_l) = d_aaa(s_d_j,s_d_l,d_k+1)
c fill second quadrant
s_d_bbb_adk(s_d_j+blockDim%x,s_d_l) = d_bbb(s_d_j+blockDim%x,s_d_l,d_k+1)
s_d_ccc_adk(s_d_j+blockDim%x,s_d_l) = d_ccc(s_d_j+blockDim%x,s_d_l,d_k+1) 
s_d_aaa_adk(s_d_j+blockDim%x,s_d_l) = d_aaa(s_d_j+blockDim%x,s_d_l,d_k+1)
c fill third quadrant
s_d_bbb_adk(s_d_j,s_d_l+blockDim%y) = d_bbb(s_d_j,s_d_l+blockDim%y,d_k+1)
s_d_ccc_adk(s_d_j,s_d_l+blockDim%y) = d_ccc(s_d_j,s_d_l+blockDim%y,d_k+1) 
s_d_aaa_adk(s_d_j,s_d_l+blockDim%y) = d_aaa(s_d_j,s_d_l+blockDim%y,d_k+1)
c fill fourth quadrant
s_d_bbb_adk(s_d_j+blockDim%x,s_d_l+blockDim%y) = d_bbb(s_d_j+blockDim%x,s_d_l+blockDim%y,d_k+1)
s_d_ccc_adk(s_d_j+blockDim%x,s_d_l+blockDim%y) = d_ccc(s_d_j+blockDim%x,s_d_l+blockDim%y,d_k+1) 
s_d_aaa_adk(s_d_j+blockDim%x,s_d_l+blockDim%y) = d_aaa(s_d_j+blockDim%x,s_d_l+blockDim%y,d_k+1)

c just guessing about what your intent was on filling with zeroes
c this just makes sure that one of the slices at the end gets zeroes
c instead of the values from the global arrays

if(d_k == kmax-1)then
c fill first quadrant
    s_d_bbb_adk(s_d_j,s_d_l) = 0
    s_d_ccc_adk(s_d_j,s_d_l) = 0
    s_d_aaa_adk(s_d_j,s_d_l) = 0
c fill second quadrant
    s_d_bbb_adk(s_d_j+blockDim%x,s_d_l) = 0
    s_d_ccc_adk(s_d_j+blockDim%x,s_d_l) = 0
    s_d_aaa_adk(s_d_j+blockDim%x,s_d_l) = 0
c fill third quadrant
    s_d_bbb_adk(s_d_j,s_d_l+blockDim%y) = 0
    s_d_ccc_adk(s_d_j,s_d_l+blockDim%y) = 0
    s_d_aaa_adk(s_d_j,s_d_l+blockDim%y) = 0
c fill fourth quadrant
    s_d_bbb_adk(s_d_j+blockDim%x,s_d_l+blockDim%y) = 0
    s_d_ccc_adk(s_d_j+blockDim%x,s_d_l+blockDim%y) = 0
    s_d_aaa_adk(s_d_j+blockDim%x,s_d_l+blockDim%y) = 0     
share|improve this answer
Thank you Robert. I am trying to work as new on CUDA. I understand that I should not loop other the blockId now. I have a 3D array (x,y,z) and want to extract plane (x,y) for each z and put these values in shared memory. – Adjeiinfo Jul 5 '13 at 5:46
Robert, This is really kind of you. Thank you for taking your time to explain this in detail. It is very clear now.I will implement to my code and let you know. You are right I have an algorithm which will present many thread blocks per slice. The last target will be to port it to a multi gpu environment. – Adjeiinfo Jul 5 '13 at 14:02
Actually it occurs to me that you probably won't be able to use all 48KB of shared memory, as the system uses a small part of it (usually a few bytes) for housekeeping purposes. So the code as I have written it still won't work. You don't have enough shared memory to make all the data of a single slice available to each block, so you will have to consider your algorithm and if you can work with a reduced set in shared memory, or else operate some portion of it out of global memory. – Robert Crovella Jul 5 '13 at 17:27
Thank you Robert. But the 48KB is per SM right? In this case lunching the kernels multiple times should help solve the issue of the memory. I was also thinking about stream to overlap the the sending and processing. – Adjeiinfo Jul 5 '13 at 23:11
Yes, it's 48KB per SM. Using streams to overlap the data copy with the compute is a good idea. – Robert Crovella Jul 5 '13 at 23:18

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