[role="xpack"] [testenv="basic"] [[frozen-indices]] = Frozen indices [partintro] -- {es} indices keep some data structures in memory to allow you to search them efficiently and to index into them. If you have a lot of indices then the memory required for these data structures can add up to a significant amount. For indices that are searched frequently it is better to keep these structures in memory because it takes time to rebuild them. However, you might access some of your indices so rarely that you would prefer to release the corresponding memory and rebuild these data structures on each search. For example, if you are using time-based indices to store log messages or time series data then it is likely that older indices are searched much less often than the more recent ones. Older indices also receive no indexing requests. Furthermore, it is usually the case that searches of older indices are for performing longer-term analyses for which a slower response is acceptable. If you have such indices then they are good candidates for becoming _frozen indices_. {es} builds the transient data structures of each shard of a frozen index each time that shard is searched, and discards these data structures as soon as the search is complete. Because {es} does not maintain these transient data structures in memory, frozen indices consume much less heap than normal indices. This allows for a much higher disk-to-heap ratio than would otherwise be possible. You can freeze the index using the <>. Searches performed on frozen indices use the small, dedicated, <> to control the number of concurrent searches that hit frozen shards on each node. This limits the amount of extra memory required for the transient data structures corresponding to frozen shards, which consequently protects nodes against excessive memory consumption. Frozen indices are read-only: you cannot index into them. Searches on frozen indices are expected to execute slowly. Frozen indices are not intended for high search load. It is possible that a search of a frozen index may take seconds or minutes to complete, even if the same searches completed in milliseconds when the indices were not frozen. To make a frozen index writable again, use the <>. -- [role="xpack"] [testenv="basic"] [[best_practices]] == Best practices Since frozen indices provide a much higher disk to heap ratio at the expense of search latency, it is advisable to allocate frozen indices to dedicated nodes to prevent searches on frozen indices influencing traffic on low latency nodes. There is significant overhead in loading data structures on demand which can cause page faults and garbage collections, which further slow down query execution. Since indices that are eligible for freezing are unlikely to change in the future, disk space can be optimized as described in <>. It's highly recommended to <> your indices prior to freezing to ensure that each shard has only a single segment on disk. This not only provides much better compression but also simplifies the data structures needed to service aggregation or sorted search requests. [source,console] -------------------------------------------------- POST /my-index-000001/_forcemerge?max_num_segments=1 -------------------------------------------------- // TEST[setup:my_index] [role="xpack"] [testenv="basic"] [[searching_a_frozen_index]] == Searching a frozen index Frozen indices are throttled in order to limit memory consumptions per node. The number of concurrently loaded frozen indices per node is limited by the number of threads in the <> threadpool, which is `1` by default. Search requests will not be executed against frozen indices by default, even if a frozen index is named explicitly. This is to prevent accidental slowdowns by targeting a frozen index by mistake. To include frozen indices a search request must be executed with the query parameter `ignore_throttled=false`. [source,console] -------------------------------------------------- GET /my-index-000001/_search?q=user.id:kimchy&ignore_throttled=false -------------------------------------------------- // TEST[setup:my_index] [role="xpack"] [testenv="basic"] [[monitoring_frozen_indices]] == Monitoring frozen indices Frozen indices are ordinary indices that use search throttling and a memory efficient shard implementation. For API's like the <> frozen indices may identified by an index's `search.throttled` property (`sth`). [source,console] -------------------------------------------------- GET /_cat/indices/my-index-000001?v=true&h=i,sth -------------------------------------------------- // TEST[s/^/PUT my-index-000001\nPOST my-index-000001\/_freeze\n/] The response looks like: [source,txt] -------------------------------------------------- i sth my-index-000001 true -------------------------------------------------- // TESTRESPONSE[non_json]