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Why do we need aligned memory for SSE/AVX?

One of the answer I often get is aligned memory load is much faster than unaligned memory load. Then, why is this aligned memory load is much faster than unaligned memory load?

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up vote 9 down vote accepted

This is not just specific to SSE (or even x86). On most architectures loads and stores need to be naturally aligned otherwise they either (a) generate an exception or (b) need two or more cycles plus some fix up in order to handle the misaligned load/store transparently. On x86 (b) is true for data types < 16 bytes but (a) is true for SSE data types unless you explicitly use misaligned versions of the load/store instructions which can handle misaligned data.

You might wonder: why not just use the misaligned versions of these SSE load/store instructions regardless of alignment? The answer is that these instructions are typically much slower than their aligned counterparts as they generally behave as per (b) above, which makes them typically 2x or more slower, apart from recent Intel CPUs such as Core i7, where the penalty is much smaller, but not insignificant.

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And keep in mind that even on modern cores where misaligned accesses are generally fast, page-crossing accesses are still quite slow. If your buffer is large enough and misaligned, it will contain page crossings. –  Stephen Canon Feb 12 '13 at 0:39
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True, and crossing cache line boundaries due to misaligned loads can result in a bigger cache footprint which may also have a negative impact on performance. –  Paul R Feb 12 '13 at 0:48
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Crossing pages is even worse... –  Mysticial Feb 12 '13 at 0:52
    
Ok, but, why? I enjoy this answer, but why do all these perf hits and cache misregistrations happen? Another words, what does alignment solve? –  codekaizen Feb 12 '13 at 1:39
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@codekaizen: as with everything, hardware design involves compromises - for CPUs this typically means trading off the finite resource of silicon area against features. Supporting arbitrary data alignment would require a significant amount of silicon to implement and is probably not a particularly useful feature - the silicon could be used for something much more beneficial, like another ALU. –  Paul R Feb 12 '13 at 2:34
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