Storage Engine

At the very bottom of the ArangoDB database system lies the storage engine. The storage engine is responsible for persisting the documents on disk, holding copies in memory, providing indexes and caches to speed up queries.

ArangoDB’s storage engine is based on Facebook’s RocksDB and the only storage engine available in ArangoDB 3.7 and above.


RocksDB is an embeddable persistent key-value store. It is a log structure database and is optimized for fast storage.

The RocksDB engine is optimized for large data-sets and allows for a steady insert performance even if the data-set is much larger than the main memory. Indexes are always stored on disk but caches are used to speed up performance. RocksDB uses document-level locks allowing for concurrent writes. Writes do not block reads. Reads do not block writes.


RocksDB is a very flexible engine that can be configured for various use cases.

The main advantages of RocksDB are:

  • document-level locks
  • support for large data-sets
  • persistent indexes


RocksDB allows concurrent writes. However, when touching the same document a write conflict is raised. It is possible to exclusively lock collections when executing AQL. This will avoid write conflicts but also inhibits concurrent writes.

Currently, another restriction is due to the transaction handling in RocksDB. Transactions are limited in total size. If you have a statement modifying a lot of documents it is necessary to commit data in-between. This will be done automatically for AQL by default. Transactions that get too big (in terms of number of operations involved or the total size of data modified by the transaction) will be committed automatically. Effectively this means that big user transactions are split into multiple smaller RocksDB transactions that are committed individually. The entire user transaction will not necessarily have ACID properties in this case.

The threshold values for transaction sizes can be configured globally using the startup options

It is also possible to override these thresholds per transaction.


RocksDB is based on a log-structured merge tree. A good introduction can be found in:

The basic idea is that data is organized in levels were each level is a factor larger than the previous. New data will reside in smaller levels while old data is moved down to the larger levels. This allows to support high rate of inserts over an extended period. In principle it is possible that the different levels reside on different storage media. The smaller ones on fast SSD, the larger ones on bigger spinning disks.

RocksDB itself provides a lot of different knobs to fine tune the storage engine according to your use-case. ArangoDB supports the most common ones using the options below.

Performance reports for the storage engine can be found here:

ArangoDB options

ArangoDB has a cache for the persistent indexes in RocksDB. The total size of this cache is controlled by the option


RocksDB also has a cache for the blocks stored on disk. The size of this cache is controlled by the option


ArangoDB distributes the available memory equally between the two caches by default.

ArangoDB chooses a size for the various levels in RocksDB that is suitable for general purpose applications.

RocksDB log strutured data levels have increasing size

MEM: --
L0:  --
L1:  -- --
L2:  -- -- -- --

New or updated Documents are first stored in memory. If this memtable reaches the limit given by


it will converted to an SST file and inserted at level 0.

The following option controls the size of each level and the depth.

--rocksdb.num-levels N

Limits the number of levels to N. By default it is 7 and there is seldom a reason to change this. A new level is only opened if there is too much data in the previous one.

--rocksdb.max-bytes-for-level-base B

L0 will hold at most B bytes.

--rocksdb.max-bytes-for-level-multiplier M

Each level is at most M times as much bytes as the previous one. Therefore the maximum number of bytes-for-level L can be calculated as

max-bytes-for-level-base * (max-bytes-for-level-multiplier ^ (L-1))


RocksDB imposes a limit on the transaction size. It is optimized to handle small transactions very efficiently, but is effectively limiting the total size of transactions.

ArangoDB currently uses RocksDB’s transactions to implement the ArangoDB transaction handling. Therefore the same restrictions apply for ArangoDB transactions when using the RocksDB engine.

We will improve this by introducing distributed transactions in a future version of ArangoDB. This will allow handling large transactions as a series of small RocksDB transactions and hence removing the size restriction.