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Its been noted that access to data elements that fall in same cache-line performs badly due to ping-pong effect. However, the code I wrote doesn't and tested with valgrind --tool=cachegrind doesn't show this behaviour. Would appreciate any insights regarding this?.

Attached below is function that each pthread executes:

   void test_cache(void* arg)    
    long id = (long) arg;  
    uint32_t idx = (uint32_t) id;  
    uint32_t ctr = 0;  
    uint32_t total_sum = 0;  
    for(; ctr < 500000; ++ctr)  
      total_sum += shared[idx];  
      AO_fetch_and_add(&shared[idx], idx);    
    printf("%d %d,\n",id, total_sum);   
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2 Answers 2

up vote 0 down vote accepted

If you are running on a "dual core" whatever, you are hitting shared cache. You need separate physical CPUs to see the ping-pong effect. Include your hardware spec in the question.

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Thanks Nikolai. I was under impression that they have separate L2 caches. Thanks for pointing it out. I tried it on dual core and xeon processor. –  Sandeep Nov 6 '10 at 18:35

Reads are ok (once the cache is filled), writes are not, as that, depending on architecture, will cause all other processors to invalidate that cache line and fetch the line from memory. (Systems that do cache line snooping could avoid that penalty).

The initial cache line load would also have a penalty as a load per cache is required (shared caches are better), with the situation being the worst in NUMA (fetch from distant processor).

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Thanks Theatrus for taking a look. Turns out I am working in shared cache mode so I don't have to be worried. –  Sandeep Nov 6 '10 at 18:37

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