To prevent false sharing, I want to align each element of an array to a cache line. So first I need to know the size of a cache line, so I assign each element that amount of bytes. Secondly I want the start of the array to be aligned to a cache line.

I am using Linux and 8-core x86 platform. First how do I find the cache line size. Secondly, how do I align to a cache line in C. I am using the gcc compiler.

So the structure would be following for example, assuming a cache line size of 64.

element[0] occupies bytes 0-63
element[1] occupies bytes 64-127
element[2] occupies bytes 128-191

and so on, assuming of-course that 0-63 is aligned to a cache line.


To know the sizes, you need to look it up using the documentation for the processor, afaik there is no programatic way to do it. On the plus side however, most cache lines are of a standard size, based on intels standards. On x86 cache lines are 64 bytes, however, to prevent false sharing, you need to follow the guidelines of the processor you are targeting (intel has some special notes on its netburst based processors), generally you need to align to 64 bytes for this (intel states that you should also avoid crossing 16 byte boundries).

To do this in C or C++ requires that you use the standard aligned_alloc function or one of the compiler specific specifiers such as __attribute__((align(64))) or __declspec(align(64)). To pad between members in a struct to split them onto different cache lines, you need on insert a member big enough to align it to the next 64 byte boundery

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    @MetallicPriest: gcc and g++ both support __attributes__ – Sebastian Mach Sep 2 '11 at 10:06
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    @MetallicPriest: mmap & VirtualAlloc allocate page aligned memory, generally page granularity is 64kb (under windows), and since 64kb is a power of 64, it will be aligned properly. – Necrolis Sep 2 '11 at 10:45
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    You can get the cache line size programatically. Check here. Also you can not generalize to having 64 byte cache lines on x86. It is only true for recent ones. – tothphu Jun 20 '12 at 22:11
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    C++11 addes alignas that is portable way of specifying alignment – NoSenseEtAl Oct 19 '18 at 2:43
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    @NoSenseEtAl alignas officially only supports alignment up till the size of the type std::max_align_t, which is typically the alignment requirement of a long double, aka 8 or 16 bytes - not 64 unfortunately. See for example stackoverflow.com/questions/49373287/… – Carlo Wood Jul 20 at 15:40

I am using Linux and 8-core x86 platform. First how do I find the cache line size.


Pass the value as a macro definition to the compiler.


At run-time sysconf(_SC_LEVEL1_DCACHE_LINESIZE) can be used to get L1 cache size.

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    Couple years late, but in C code you can also use sysconf(__SC_LEVEL1_DCACHE_LINESIZE) – Alfredo Gimenez Aug 13 '13 at 17:23
  • Where are these sysconf()s specified? POSIX / IEEE Std 1003.1-20xx ? – Brian Cain Jun 16 '17 at 21:20
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  • @BrianCain I use Linux, so I just did man sysconf. Linux is not exactly POSIX compilant, so that Linux-specific documentation is often more useful. Sometimes it is out of date, so you just egrep -nH -r /usr/include -e '\b_SC'. – Maxim Egorushkin Jun 16 '17 at 22:01
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    In case of Mac, use sysctl hw.cachelinesize. – Dení Jan 21 '18 at 0:12

There's no completely portable way to get the cacheline size. But if you're on x86/64, you can call the cpuid instruction to get everything you need to know about the cache - including size, cacheline size, how many levels, etc...


(scroll down a little bit, the page is about SIMD, but it has a section getting the cacheline.)

As for aligning your data structures, there's also no completely portable way to do it. GCC and VS10 have different ways to specify alignment of a struct. One way to "hack" it is to pad your struct with unused variables until it matches the alignment you want.

To align your mallocs(), all the mainstream compilers also have aligned malloc functions for that purpose.


Another simple way is to just cat the /proc/cpuinfo:

cat /proc/cpuinfo | grep cache_alignment

  • Perhaps you want to remove a useless use of cat. – maxschlepzig Oct 6 at 17:57

posix_memalign or valloc can be used to align allocated memory to a cache line.

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    I know this is your own question, but for future readers you could answer both parts of it :-) – Steve Jessop Sep 2 '11 at 10:10
  • Steve, do you know if memory mapped by mmap is aligned to a cache line. – MetallicPriest Sep 2 '11 at 10:34
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    I don't think it's guaranteed by Posix, but I also wouldn't be in the least surprised if linux always selects addresses that are page-aligned, never mind just cache-line aligned. Posix says that if the caller specifies the first parameter (address hint), that has to be page-aligned, and the mapping itself is always a whole number of pages. That's strongly suggestive without actually guaranteeing anything. – Steve Jessop Sep 2 '11 at 10:45
  • Yes, mmap only works in terms of pages, and pages are always larger than cache lines. Even in some theoretical weird architecture, there are extremely good reasons why cache lines won't be larger than pages (caches are normally physically tagged, so one line can't be split across 2 virtual pages without extreme pain for the CPU designers). – Peter Cordes Mar 12 '18 at 4:29

If anyone is curious about how to do this easily in C++, I've built a library with a CacheAligned<T> class which handles determining the cache line size as well as the alignment for your T object, referenced by calling .Ref() on your CacheAligned<T> object. You can also use Aligned<typename T, size_t Alignment> if you know the cache line size beforehand, or just want to stick with the very common value of 64 (bytes).


  • Doesn't alignas make all that work irrelevant? – James Jun 8 '15 at 20:56
  • @James - alignas is C++11. Its not available for C++03. And it won't work on a number of Apple platforms. On some of their OSes, Apple provides and ancient C++ Standard Library that pretends to be C++11, but lacks unique_ptr, alignas, etc. – jww Oct 13 '15 at 15:59
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    @James also, the standard only requires alignas to support up to 16 bytes, so any higher value won't be portable. And since virtually all modern processors have a cache line size of 64 bytes, alignas isn't useful unless you know your compiler supports alignas(64). – Nick Strupat Apr 20 '16 at 6:09
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    alignas is also in C11, not just C++11. – Alnitak Nov 14 '18 at 15:39
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    @NickStrupat It seems that support for alignment to cache line sizes has finally been added to C++17. My last comment seems also not to be correct anymore for C++17 (the problem was merely that operator new would not guaranteed return memory aligned better than std::max_align_t). I just found this: en.cppreference.com/w/cpp/thread/… – Carlo Wood Jul 20 at 16:14

Here's a table I made that has most Arm/Intel processors on it. You can use it for reference when defining constants, that way you don't have to generalize the cache line size for all architectures.

For C++, hopefully, we will soon see hardware interface size which should be an accurate way to get this information (assuming you tell the compiler your target architecture).

  • Compilers are reluctant to implement hardware_destructive_interference_size because you really want it to be a compile-time-constant, but it can't always be if you're compiling for a "generic" target that could run on multiple CPUs of the same ISA. A conservative choice would be possible but not guaranteed future-proof. (Like 128 bytes to account for current x86 CPU with 64-byte lines and an L2 spatial prefetch that likes to complete an aligned pair of lines. (mainstream Intel)) – Peter Cordes Nov 29 at 13:34

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