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I have a function that is doing memcpy, but it's taking up an enormous amount of cycles. Is there a faster alternative/approach than using memcpy to move a piece of memory?

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Short answer: Maybe, it is possible. Offer more details like architecture, platform and others. In the embedded world it is very probable to rewrite some functions from libc that do not perform so well. – INS Jun 3 '10 at 8:55

14 Answers 14

up vote 86 down vote accepted

memcpy is likely to be the fastest way you can copy bytes around in memory. If you need something faster - try figuring out a way of not copying things around, e.g. swap pointers only, not the data itself.

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+1 for "...figuring out a way of not copying..." – Jerry Coffin Jun 3 '10 at 7:11
+1: I agree entirely – High Performance Mark Jun 3 '10 at 7:11
+1, We recently had an issue when some of our code SUDDENLY slowed down tremendously and consumed lots of extra memory when processing a certain file. Turned out the file had some huge metadata block while other flies had no metadata or small blocks. And those metadata was copied, copied, copied, consuming both time and memory. Replaced copying with pass-by-const-reference. – sharptooth Jun 3 '10 at 7:36
It's a good question about faster memcpy, but this answer provides a workaround, not an answer. E.g. explains some pretty serious reasons why memcpy is often much less efficient than it could be. – DS. Jan 23 '12 at 14:26
The earlier link to Intel post on memcpy no longer seems public, but the article is available here and here. – DS. May 6 '15 at 16:11

Please offer us more details. On i386 architecture it is very possible that memcpy is the fastest way of copying. But on different architecture for which the compiler doesn't have an optimized version it is best that you rewrite your memcpy function. I did this on a custom ARM architecture using assembly language. If you transfer BIG chunks of memory then DMA is probably the answer you are looking for.

Please offer more details - architecture, operating system (if relevant).

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+1 for mentioning DMA – Eloff Jan 23 '12 at 3:46
For ARM the libc impl is now faster that what you will be able to create yourself. For small copies (anything less then a page) it can be faster to use a ASM loop inside your functions. But, for large copies you will not be able to beat the libc impl, because diff processors have slightly different "most optimal" code paths. For example a Cortex8 works best with NEON copy instructions, but a Cortex9 is faster with ldm/stm ARM instructions. You cannot write one piece of code that is fast for both processors, but you can just call memcpy for large buffers. – MoDJ Jul 4 '13 at 19:56
@MoDJ: I wish the standard C library had included a few different memcpy variants with generally-identical semantics in cases where all yielded defined behavior, but different optimized cases and--in somes--restrictions to aligned-vs-aligned usage. If code will typically need to copy small numbers of bytes or known-to-be-aligned words, a naive character-at-a-time implementation could do the job in less time than some fancier memcpy() implementations would require to decide on a course of action. – supercat Jul 26 '14 at 2:20

Usually the standard library shipped with the compiler will implement memcpy() the fastest way possible for the target platform already.

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Actually, memcpy is NOT the fastest way, especially if you call it many times. I also had some code that I really needed to speed up, and memcpy is slow because it has too many unnecessary checks. For example, it checks to see if the destination and source memory blocks overlap and if it should start copying from the back of the block rather than the front. If you do not care about such considerations, you can certainly do significantly better. I have some code, but here is perhaps an ever better version:

Very fast memcpy for image processing?.

If you search, you can find other implementations as well. But for true speed you need an assembly version.

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I tried out code similar to this using sse2. Turns out it was slower on my amd system by a factor of 4x than the builtin. It's always better not to copy if you can help it. – Matt Apr 3 '13 at 21:31
Although memmove must check for and handle overlap, memcpy is not required to do so. The bigger problem is that in order to be efficient when copying large blocks, implementations of memcpy need to select a copying approach before they can begin work. If code needs to be able to copy an arbitrary number of bytes, but that number will be one 90% of the time, two 9% of the time, three 0.9% of the time, etc. and the values of count, dest, and src won't be needed afterward, then an in-lined if (count) do *dest+=*src; while(--count > 0); could better than "smarter" routine. – supercat Mar 16 '15 at 17:41
BTW, on some embedded systems, another reason memcpy may not be the fastest approach is that a DMA controller may sometimes be able to copy a block of memory with less overhead than the CPU, but the most efficient way to do the copy might be to start the DMA and then do other processing while the DMA is running. On a system with separate front-end code and data buses, it may be possible to configure the DMA so that it will copy data on every cycle when the CPU doesn't need the data bus for anything else. This may achieve much better performance than using the CPU for the copy, using... – supercat Apr 5 '15 at 19:18
...start_memcpy() and await_memcpy_complete() functions, but any code would generally have to be customized for particular application requirements and nothing like that is included in the standard library. – supercat Apr 5 '15 at 19:22

Agner Fog has fast memcpy implementation

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It's generally faster not to make a copy at all. Whether you can adapt your function to not copy I don't know but it's worth looking in to.

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Sometimes functions like memcpy, memset, ... are implemented in two different ways:

  • once as a real function
  • once as some assembly that's immediately inlined

Not all compilers take the inlined-assembly version by default, your compiler may use the function variant by default, causing some overhead because of the function call. Sheck your compiler to see how to take the intrinsic variant of the function (command line option, pragma's, ...).

Edit: See for an explanation of intrinsics on the Microsoft C compiler.

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Check you Compiler/Platform manual. For some micro-processors and DSP-kits using memcpy is much slower than intrinsic functions or DMA operations.

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If your platform supports it, look into if you can use the mmap() system call to leave your data in the file... generally the OS can manage that better. And, as everyone has been saying, avoid copying if at all possible; pointers are your friend in cases like this.

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You may want to have a look at this:

Another idea I would try is to use COW techniques to duplicate the memory block and let the OS handle the copying on demand as soon as the page is written to. There are some hints here using mmap():

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I assume you must have huge areas of memory that you want to copy around, if the performance of memcpy has become an issue for you?

In this case, I'd agree with nos's suggestion to figure out some way NOT to copy stuff..

Instead of having one huge blob of memory to be copied around whenever you need to change it, you should probably try some alternative data structures instead.

Without really knowing anything about your problem area, I would suggest taking a good look at persistent data structures and either implementing one of your own or reusing an existing implementation.

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nos is right, you're calling it too much.

To see where you are calling it from and why, just pause it a few times under the debugger and look at the stack.

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memory to memory is usually supported in CPU's command set, and memcpy will usually use that. And this is usually the fastest way.

You should check what exactly your CPU is doing. On Linux, watch for swapi in and out and virtual memory effectiveness with sar -B 1 or vmstat 1 or by looking in /proc/memstat. You may see that your copy has to push out a lot of pages to free space, or read them in, etc.

That would mean your problem isn't in what you use for the copy, but how your system uses memory. You may need to decrease file cache or start writing out earlier, or lock the pages in memory, etc.

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You should check the assembly code generated for your code. What you don't want is to have the memcpy call generate a call to the memcpy function in the standard library - what you want is to have a repeated call to the best ASM instruction to copy the largest amount of data - something like rep movsq.

How can you achieve this? Well, the compiler optimizes calls to memcpy by replacing it with simple movs as long as it knows how much data it should copy. You can see this if you write a memcpy with a well determined (constexpr) value. If the compiler doesn't know the value, it will have to fall back to the byte-level implementation of memcpy - the issue being that memcpy has to respect the one-byte granularity. It will still move 128 bits at a time, but after each 128b it will have to check if it has enough data to copy as 128b or it has to fall back to 64bits, then to 32 and 8 (I think that 16 might be suboptimal anyway, but I don't know for sure).

So what you want is either be able to tell to memcpy what's the size of your data with const expressions that the compiler can optimize. This way no call to memcpy is performed. What you don't want is to pass to memcpy a variable that will only be known at run-time. That translates into a function call and tons of tests to check the best copy instruction. Sometimes, a simple for loop is better than memcpy for this reason (eliminating one function call). And what you really really don't want is pass to memcpy an odd number of bytes to copy.

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