Why is a B-Tree the preferred structure for on-disk storage.
What quality makes it preferrable over a binary tree for secondary storage.
Is that specific 'quality' a feature of the alogrithm itself;or the way in which it is implemented?
Any reference or pointer would be much appreciated.

  • 1
    (1) Binary tree we use as in-memory data-structure, where is B-Tree we uses for storage structure storage/access structure. (2) In Binary tree (or in-memory) data struct we want minimize operation for efficiency purpose whereas in B-tree we wants minimized number of block access. (3) In binary tree we always have two choices either left or right so searching a key done in log2(n) whereas in B-Tree we have m choices so searching a key takes in logm(n) much efficient. Sep 23, 2013 at 9:17

1 Answer 1


Disk seeks are expensive. B-Tree structure is designed specifically to avoid disk seeks as much as possible. Therefore B-Tree packs much more keys/pointers into a single node than a binary tree. This property makes the tree very flat. Usually most B-Trees are only 3 or 4 levels deep and the root node can be easily cached. This requires only 2-3 seeks to find anything in the tree. Leaves are also "packed" this way, so iterating a tree (e.g. full scan or range scan) is very efficient, because you read hundreds/thousands data-rows per single block (seek).

In binary tree of the same capacity, you'd have several tens of levels and sequential visiting every single value would require at least one seek.

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    is there a good reference for b-tree which illustrates this feature of B-tree well(programming language does not matter)
    – IUnknown
    Sep 24, 2013 at 4:36
  • Please tell me if my understanding is correct - B-Tree is stored on disk. Whenever a new record is added or deleted, B-Tree on the disk is updated. We stored the head or possibly 2 levels in the RAM, thereby reducing the disk accesses. Is that correct?
    – AV94
    Sep 29, 2016 at 13:19
  • @IUnknown — many years late, but here are some resources I've found helpful concerning B-trees: cglab.ca/~abeinges/blah/rust-btree-case opendatastructures.org/ods-cpp/14_2_B_Trees.html
    – kibowki
    Jan 25, 2020 at 18:45

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