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I am trying to understand how bank conflicts take place.
if i have an array of size 256 in global memory and i have 256 threads in a single Block, and i want to copy the array to shared memory. therefore every thread copies one element.


does this simple action result in a bank conflict?

suppose now that the size of the array is larger than the number of threads, so i am now using this to copy the global memory to the shared memory:

tid = threadIdx.x;
for(int i=0;tid+i<N;i+=blockDim.x)

does the above code result in a bank conflict?

share|improve this question
256 what? bytes? – fabrizioM Dec 9 '10 at 19:38
256 elements in the array. – scatman Dec 10 '10 at 10:38
up vote 13 down vote accepted

The best way to check this would be to profile your code using the "Compute Visual Profiler"; this comes with the CUDA Toolkit. Also there's a great section in GPU Gems 3 on this - "39.2.3 Avoiding Bank Conflicts".

"When multiple threads in the same warp access the same bank, a bank conflict occurs unless all threads of the warp access the same address within the same 32-bit word" - First thing there are 16 memory banks each 4bytes wide. So essentially, if you have any thread in a half warp reading memory from the same 4bytes in a shared memory bank, you're going to have bank conflicts and serialization etc.

OK so your first example:

First lets assume your arrays are say for example of the type int (a 32-bit word). Your code saves these ints into shared memory, across any half warp the Kth thread is saving to the Kth memory bank. So for example thread 0 of the first half warp will save to shared_a[0] which is in the first memory bank, thread 1 will save to shared_a[1], each half warp has 16 threads these map to the 16 4byte banks. In the next half warp, the first thread will now save its value into shared_a[16] which is in the first memory bank again. So if you use a 4byte word such int, float etc then your first example will not result in a bank conflict. If you use a 1 byte word such as char, in the first half warp threads 0, 1, 2 and 3 will all save their values to the first bank of shared memory which will cause a bank conflict.

Second example:

Again this will all depend on the size of the word you are using, but for the example I'll use a 4byte word. So looking at the first half warp:

Number of threads = 32

N = 64

Thread 0: Will write to 0, 31, 63 Thread 1: Will write to 1, 32

All threads across the half warp execute concurrently so the writes to shared memory shouldn't cause bank conflicts. I'll have to double check this one though.

Hope this helps, sorry for the huge reply!

share|improve this answer
actually for the second part, thread 0 will write to 0,32 and thread 1 will write to 1,33 and so on..... until the last thread 31 writes to 31,63. but thanks for the 1st part of ur post.It was very informative – scatman Dec 9 '10 at 10:02
Edited to reflect your comment, does this answer your question? – Ljdawson Dec 9 '10 at 10:31
Yup.. and thx for the huge reply – scatman Dec 9 '10 at 10:51
Note that on sm_20 and later devices there are 32 banks, and accesses must be considered per-warp instead of per-half-warp. – Tom Dec 9 '10 at 16:22
Regarding the second part of the question, you're correct there are no bank conflicts since thread 0 writes to 0, 32, 64 and thread 1 to 1, 33, 65 and so on (slight fix from your answer). This is commonly written as for (int i = tid ; i < N ; i += blockDim.x) shared_a[i] = global_a[i]; – Tom Dec 9 '10 at 16:25

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