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In terms of performance, what are the benefits of allocating a contiguous memory block versus separate memory blocks for a matrix? I.e., instead of writing code like this:

char **matrix = malloc(sizeof(char *) * 50);
for(i = 0; i < 50; i++)
    matrix[i] = malloc(50);

giving me 50 disparate blocks of 50 bytes each and one block of 50 pointers, if I were to instead write:

char **matrix = malloc(sizeof(char *) * 50 + 50 * 50);
char *data = matrix + sizeof(char *) * 50;
for(i = 0; i < 50; i++) {
    matrix[i] = data;
    data += 50;

giving me one contiguous block of data, what would the benefits be? Avoiding cache misses is the only thing I can think of, and even that's only for small amounts of data (small enough to fit on the cache), right? I've tested this on a small application and have noticed a small speed-up and was wondering why.

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Try both and measure? – Kerrek SB Jun 10 '14 at 22:40
Cache lines are (typically) 64 bytes, so beyond that the cache behaviour is largely unaffected by this technique. (Although in your case, each matrix "row" is only 50 bytes, so reading one row will pull part of the next row into cache as well.) – Oliver Charlesworth Jun 10 '14 at 22:40
You gain some cache performance (depends on your hardware) and you also reduce heap fragmentation. Not a real big swinger, but if it were done throughout a large app it might amount to something. – Hot Licks Jun 10 '14 at 22:42
Of course, it also depends on your access pattern to this matrix. If it's random, I'd expect to see almost no steady-state differences in performance. – Oliver Charlesworth Jun 10 '14 at 22:43
@KerrekSB: I'd assumed the comment about avoiding cache misses made it rather obvious that I wanted to know why it was faster. If you wish to be pedantic, however, I will edit the question. – wolfPack88 Jun 10 '14 at 22:47
up vote 2 down vote accepted

It's complicated - you need to measure.

Using an intermediate pointer instead of calculating addresses in a two-dimensional array is most likely a loss on current processors, and both of your examples do that.

Next, everything fitting into L1 cache is a big win. malloc () most likely rounds up to multiples of 64 bytes. 180 x 180 = 32,400 bytes might fit into L1 cache, while individual mallocs might allocate 180 x 192 = 34,560 bytes might not fit, especially if you add another 180 pointers.

One contiguous array means you know how the data fits into cache lines, and you know you'll have the minimum number of page table lookups in the hardware. With hundreds of mallocs, no guarantee.

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"Using an intermediate pointer instead of calculating addresses in a two-dimensional array is most likely a loss on current processors, and both of your examples do that." Not sure what this means. Are you saying I should use a 1-D vector and access the 2-D matrix as matrix[i * rows + j]? – wolfPack88 Jun 11 '14 at 12:01
@wolfPack88, that's exactly what he means. You could also cast the pointer to the contiguous memory to a pointer to a 2D array (char (*)[50][50]). With C99 VLA it even works when the actual array dimensions are only known at run-time. – Hristo Iliev Jun 11 '14 at 15:45

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