I've recently been reading about AoS vs SoA structure design and data-oriented design. It's oddly difficult to find information about either, and what I have found seems to assume greater understanding of processor functionality than I possess. That said, what I do understand about the former topic in particular leads to some questions that I think I should be able to understand the answers to.
Firstly, to make sure I am not basing my understanding off of a false premise, my understanding of the functionality and pros and cons of AoS vs SoA, as applied to a collection of 'Person' records with 'Name' and 'Age' fields associated with them:
Structure of Arrays
- Stores data as a single structure consisting of multiple arrays, for example as a
Peopleobject with fields
Namesas an array of strings and
Agesas an array of integers.
- Information for, say, the third person in the list would be given by something like
- When working with only some of the data from many 'Person' records, only that data needs to be loaded from memory.
- Said data is stored in a homogeneous way, allowing the cache to be put to better use by SIMD instructions in most such situations.
- Cons: - When multiple fields need to be accessed at once, the above advantages go away. - Accessing all the data for one or a few of the objects becomes less efficient. - Most programming languages require much more verbose and hard to read/write code, since there is no explicit 'Person' structure.
Array of Structures
- Stores data as multiple structures, each of which has a full set of fields, themselves stored in an array of all such structures, for example a
Personobjects, which have
Nameas a string field and
Ageas an integer field.
- Information for the third person would be given by something like
- Code is structured around a simpler mental model, with the indirection being abstracted away.
- Single records are easy to access and work with.
- The presence of a
Personstructure makes writing code in most programming languages much more straightforward.
- When working with just some of the data from a large number of records, the entire set of structures needs to be loaded into memory including the irrelevant data.
- The array of structures is not homogeneous, which in such situations limits the advantage that can be provided by SIMD instructions.
The long and short of it seems to be that, assuming for the sake of argument that your bottleneck for performance is data access and ease of coding is irrelevant, if you almost exclusively need to access a single field at a time on a large amount of data SoA is likely to be more performant while if you often need to access multiple fields from the same object or deal with single objects rather than many at once, AoS will be more performant.
That said, some of what I've been reading seems to muddy the picture. Firstly, multiple sources have stated that SoA requires indexed addressing which is claimed to be inefficient. I cannot make sense of this, and have been unable to find any explanations. It seems to me that AoS and SoA require exactly the same operations to access any particular piece of data, though in differing orders, except that SoA requires an additional pointer (possibly more than one, depending on the kind of structure used). Oversimplifying a bit, to get the age of the fifth person in my above example under AoS, you would first get the pointer to the array, add 4 to it, get the structure pointer at that element of the array, add the size of a string pointer to it since the age is the second field, then access the integer at that pointer. Under SoA, you would get the pointer to the structure and add the size of a string array pointer to it to get to the list of ages, then get the pointer to the list of integers stored there and add 4 to it, then get the integer stored there.
Secondly, it's not clear to me the degree to which the benefits from SoA are reliant on particular CPU architectures. On the one hand, what I understand of the benefits as described above does not rely on any particular architecture except that SIMD instructions can provide additional benefits not available under AoS in some cases. On the other, I've seen claims that SoA's benefits can be limited depending on the number of lanes available in a particular SIMD architecture. Again, that would seem to affect only the additional benefit that the SIMD instructions can provide over the more general cache benefit.
Finally, I've seen the claim that SoA can require more cache ways when traversing data. I'm not completely sure what cache ways are or what, if anything, specifically is meant by 'traversing' data. My best guess is that 'cache ways' either refers to or correlates with the number of potential collisions in an associative cache, and that it relates to the second Con I mentioned above.