It is widely known common sense, that for most algorithms, allocating and deallocating data on the stack is much faster than doing so on the heap. In C++, the difference in the code is like

double foo[n*n]


double* foo = new int[n*n]

But there are any significant differences, when it comes to accessing and calculating with data that lie either on the heap or on the stack? I.e. is there a speed difference for


The code is ought to run on several different architectures, therefore try and measure will not work.

  • In case it helps, here's a simple benchmark that just reads from and writes to each element of a big array. On my machine, it runs at least 5x faster when the array is on the stack. May 5, 2019 at 9:05

4 Answers 4


There might be (highly system depending) issues about cache locality and read/write misses. If you run your program on the stack and heap data, then it is conceivable (depending on your cache architecture) that you to run into more cache misses, than if you run it entirely on one continuos region of the stack. Here is the paper to this issue by Andrew Appel (from SML/NJ) and Zhong Shao where they investigate exactly this thing, because stack/heap allocation is a topic for the implementation of functional languages:


They found some performance problems with write misses but estimated these would be resolved by advances in caching.

So my guess for a contemporary desktop/server machine is that, unless you're running heavily optimized, architecture specific code which streams data along the cache lines, you won't notice any difference between stack and heap accesses. Things might be different for devices with small caches (like ARM/MIPS controller), where ignoring the cache can have noticeable performance effects anyway.


The stack will be in the CPU cache more often, so that might be faster in some (most?) cases.

But the most precise answer is probably: it depends...


Taken as single statements, it doesn't matter.
Little can be said without more context. There are a few effects in favor of the stack which are negligible virtually all of the time.

  • the stack is likely in the cache already, a freshly allocated heap block likely is not. However, this is a first execution penalty only. For significant amounts of data, you'd thrash the cache anyway

  • Stack allocation itself is a bit cheaper than heap allocation, because the allocation is simpler

  • Long term, the main problem of a heap is usually fragmentation, an "accumulated cost" that (usually) cannot be attributed to single allocations, but may significantly increase the cost of further allocations

Measuring these effects is tricky at least.

Recommendation: performance is not the decider here. Portability and Scalability recommend using the heap for all but very small amount of data.


Barring allocation, there should be no discernable difference between accessing data whether it be stack- or heap- based - it's all memory at the end of the day.

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