From what I have found so far it's clear that programs compiled for a 64-bit architecture use twice as much RAM for pointers as their 32-bit alternatives - https://superuser.com/questions/56540/32-bit-vs-64-bit-systems.

Does that mean that code compiled for 64-bit uses on average two times more RAM than the 32-bit version?

I somehow doubt it, but I am wondering what the real overhead is. I suppose that small types, like short, byte and char are same sized in a 64-bit architecture? I am not really sure about byte though. Given that many applications work with large strings (like web browsers, etc.), that consist mostly of char arrays in most implementations, the overhead may not be so large.

So even if numeric types like int and long are larger on 64 bit, would it have a significant effect on usage of RAM or not?

  • 3
    byte is not a standardized type. With C99 or better, include <stdint.h> then use uint8_t if you need unsigned 8 bits "bytes". Mar 19, 2015 at 8:42
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    memory usage will increase, but (almost) never double
    – phuclv
    Mar 19, 2015 at 8:50
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    The whole point of creating new CPUs with wider address and data buses is to increase execution speed at the cost of program size and RAM consumption. This has been the case from 8 to 16 to 32 to 64. So nothing new here.
    – Lundin
    Mar 19, 2015 at 9:03
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    @Lundin I realize that there is overhead caused by that, but what I would like to know is how big that overhead is. Some systems may need to be optimized more for RAM consumption rather than CPU consumption
    – Petr
    Mar 19, 2015 at 9:25
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    Of course. RAM doesn't matter, a 64-bit program uses the processor cache much less effectively. Not quite twice as bad, depends what else is going on. An int is still 32 bits for this very reason. Credit due to AMD, they did compensate for this loss for perf by adding all the right features to get a comparable outcome. Starting with an extra 8 registers. Mar 19, 2015 at 10:09

3 Answers 3


It depends on the programming style (and on the language, but you are referring to C).

  • If you work a lot with pointers (or you have a lot of references in some languages), RAM consumption goes up.
  • If you use a lot of data with fixed size, such as double or int32_t, RAM consumption does not go up.
  • For types like int or long, it depends on the architecture; there may be differences between Linux and Windows. Here you see the alternatives you have. In short, Windows uses LLP64, meaning that long long and pointers are 64 bit, while Linux uses LP64, where longis 64 bit as well. Other architectures might make int or even short 64 bit as well, but these are quite uncommon.
  • float and double should remain the same in size in all cases.

So you see it strongly depends on the usage of the data types.

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    x86-64 also has the x32 ABI which uses 32-bit pointers. It has the advantage over using 32-bit x86 of having a more-register-oriented calling convention and being able to use the additional 8 GPRs (and additional 8 SIMD/FP registers). Also, GCC supports ILP32 on AArch64.
    – user2467198
    Mar 19, 2015 at 11:25
  • So languages like Java/C# are more likely to get this 2x effect than C/C++ (especially if you don't use a ton of pointers), correct? Mar 19, 2015 at 16:02
  • @DavidGrinberg Here as well, that depends on the data. E. g., a program wich has most of its data in a native array such an int[] or double[], not much will change. However, a program dealing with lots of small objects will need more RAM.
    – glglgl
    Mar 19, 2015 at 20:14
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    @DavidGrinberg Due to compressed oops, Java programs using less than ~4GiB of heap will probably stay the same. Mar 19, 2015 at 20:16
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    @TavianBarnes actually a JVM can address 64 GB with 32 bit references by using a object alignment of 8 or 26 bytes. Mar 25, 2015 at 3:21

There are a few reasons for the memory consumption to go up. However the overhead of 64b vs 32b depends from an app to another.

  • Main reason is using a lot of pointers in your code. However, an array allocated dynamically in a code compiled for 64bit and running on a 64bit OS would be the same size as the array allocated on a 32 bit system. Only the address to the array will be larger, the content size will be the same (except when the type size changed - however that should not happen and should be well documented).

  • Another footprint increase would be due to memory alignment. In 64 bit mode the alignment needs to consider a 64bit address so that should add a small overhead.

  • Probably the size of the code will increase. On some architectures the 64bit ISA could be slightly larger. Also, you would now have to make calls to 64bit addresses.

  • When running in 64bit registers are larger (64bit) so if you use many numerical types the compiler might as well place them in registers so that shouldn't necessarily mean that your RAM footprint would go up. Using double variables is likely to produce a memory footprint increase if they are not stored into 64b registers.

  • When using JIT compiled languages like Java, .NET it is likely that the footprint increase of 64b code would be larger as the runtime environment will generate additional overhead through pointer usage, hidden control structures, etc.

However there is no magic number describing the 64bit memory footprint overhead. That needs to be measured from an application to another. From what I've seen, I never got more than 20% increase in footprint for an application running on 64bit, compared to 32bit. However that's purely based on the applications I encountered and I'm using mostly C and C++.

  • A jump typically will be relative 32 bit. You can't jump to an absolute 64-bit address with a single jmp instruction
    – phuclv
    Mar 19, 2015 at 8:50
  • the only instruction that has 64-bit immediate is movabs, so you can't call a function at 64-bit immediate address either
    – phuclv
    Mar 19, 2015 at 9:05
  • I'm quite sure you can make a call to a 64b absolute address. Check here: intel.com/content/dam/www/public/us/en/documents/manuals/…
    – VAndrei
    Mar 19, 2015 at 9:19
  • Also a jump with a 64bit offset is possible according to the same reference.
    – VAndrei
    Mar 19, 2015 at 9:25
  • you're misreading something. "In 64-bit mode, immediates and displacements are generally only 32 bits wide. NASM will therefore truncate most displacements and immediates to 32 bits. The only instruction which takes a full 64-bit immediate is: MOV reg64,imm64" nasm.us/doc/nasmdo11.html
    – phuclv
    Mar 19, 2015 at 13:31

I think there may be another reason which goes way back in that variables need to be stored in memory on a 64bit boundary at an address that's ...xxxxx000 to be read in one bite, if it's not it needs to read it in a byte at a time.

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