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I've being benchmarking an algorithm, it's not necessary to know the details. The main components are a buffer(raw array of integers) and an indexer (integer - used to access the elements in buffer).

The fastest types for the buffer seem to be unsigned char, and both signed and unsigned versions of short, int, long. However char/signed char was slower. Difference: 1.07x.

For the indexer there was no difference between signed and unsigned types. However int and long were 1.21x faster than char and short.

Is there a type that should be used by default when considering performance and not memory consumption?

NOTE: The operations used on the elements of the buffer and the indexer were assignment, increment, decrement and comparison.

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How are you measuring this? Is it on a system with next to no other processing running? Are you counting it using timers, or are you using a JTAG connection to a dev board and counting CPU cycles? – Dogbert Apr 4 '12 at 16:52
Yes it's important to know the details, because you're probably actually measuring memory bandwidth and type conversion at some point. – Jem Apr 4 '12 at 16:53
Have a look at stdint.h. You might be interested in the int_fast32_t type. (or whatever size you prefer) – Mysticial Apr 4 '12 at 16:53
I'm using std::clock() to measure the clocks taken to run the algorithm. The algorithm runs long enough for the results obtained with std::clock() to be valid. – NFRCR Apr 4 '12 at 16:55
Is your algorithm multi-threaded? – Branko Dimitrijevic Apr 4 '12 at 17:36

Generally the biggest win comes from cacheing.

If your data values are small enough that they fit in 8buts then you can fit more of the data in the CPU cache than if you used ints and wasted 3bytes/value. If you are processing a block of data you get a huge speed advantage for cache hits.

The type of the index is less important, as long as it fits in a CPU register (ie don't try using a long long on an 8bit CPU) it will have the same speed

edit: it's also worth mentioning that measuring speed is tricky. You need to run the algorithm several times to allow for caching, you need to watch what else is running on the CPU and even what other hardware might be interrupting. Speed differences of 10% might be considered noise unless you are very carefull

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Could it be that for the indexer unsigned int is faster than unsigned short, because on x86 the array [] operator expects an unsigned int? – NFRCR Apr 4 '12 at 16:57
The OP is noticing that the larger datatypes are faster. Wouldn't that work against your argument that the difference is caused by cache? – Mysticial Apr 4 '12 at 17:02
@Mysticial "The fastest types for the buffer seem to be unsigned char". The OP is also talking about 7% differences, unless you are really careful this is difficult to measure on a general purpose OS+PC – Martin Beckett Apr 4 '12 at 17:06
@NFRCR - any decent compiler will handle indexing arrays very well, anything that matters is done at compile time. – Martin Beckett Apr 4 '12 at 17:07
Oh right, I overlooked the first part of the question. I retract my statement. :) – Mysticial Apr 4 '12 at 17:10

There are no promises about which type is faster or slower. int is supposed to represent the natural word length of the machine, whatever that might mean, so it might go faster. Or slower, depending upon other factors.

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Can you please comment some of those factors that might make word-wide types slower? – m0skit0 Apr 4 '12 at 18:10
Not with any authority. – Robᵩ Apr 4 '12 at 18:13
@m0skit0: Bus speed, caching, or if the CPU can't naively handle that type, probably other factors. – Mooing Duck Apr 4 '12 at 18:13
Bus speed and cache should be optimized for word-size types in a well designed architecture. The CPU must excel at that data type because I said "word-size" types. – m0skit0 Apr 5 '12 at 10:52

It depends heavily on the underlying architecture. Usually fastest data types are those that are word-wide. In my experience with IA32 (x86-32), smaller/bigger than word data types incur in penalties, sometimes even more than one memory read for one single data.

Once on the CPU registers, usually data type length doesn't matter (if the whole data fits in one register, that is) but what operations you accomplish with them. Of course floating point operations are the most costly; the fastest being adding, subtracting (which is also comparing), bit-wise (shift and the like), and logical operations (and, or...).

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As it was said int in most cases represent the machine word. So int will have the same length as processor register has, so no additional actions won't be done to put int to register and than back to RAM.

While if you use char it is 4 times smaller (on x86 systems) than int and also 4 times smaller than processor register. So before it will be put to RAM it should be truncated. As a result more time is used.

Furthermore, processor which has 32bits register can't perform operations with 8bits number. If char is add to char they both are put to register. So the each register will have 8bits of char value and 24bits of trash. Two 32bits values will be added and then the result will be back truncated to 8bits. The reason why char and short works the same time is the fact that the same number of additional operations is used. While for int additional operations are not done.

I would like to add that for processor int and unsigned int is completely the same as it treats them in the same way. For some compilers int and long int also may be the same.

So the fastest integer type is the type which length is the same as machine word. If you use types with smaller size than machine word the program will work slower.

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None of this is actually true on most modern machines. Machine words are 64 bits, but int is 32. Intel architecture has instructions to load and store bytes, and to operate on bytes, so truncation has 0 cost. Intel architecture also supports direct operations on bytes. And the "fastest integer type" will depend on what you're doing; on a modern machine, memory accesses and locality generally play a predominant role. – James Kanze Apr 4 '12 at 18:06

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