- Elasticsearch Guide: other versions:
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analyzer
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- ILM: Manage the index lifecycle
- Tutorial: Customize built-in policies
- Tutorial: Automate rollover
- Index management in Kibana
- Overview
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- Index lifecycle actions
- Configure a lifecycle policy
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- User authorization
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- Optimizations
- Troubleshooting
- Fix common cluster issues
- Diagnose unassigned shards
- Add a missing tier to the system
- Allow Elasticsearch to allocate the data in the system
- Allow Elasticsearch to allocate the index
- Indices mix index allocation filters with data tiers node roles to move through data tiers
- Not enough nodes to allocate all shard replicas
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- Troubleshooting corruption
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- Start index lifecycle management
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- Restore from snapshot
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- Troubleshooting Watcher
- Troubleshooting searches
- Troubleshooting shards capacity health issues
- Troubleshooting an unbalanced cluster
- Capture diagnostics
- Migration guide
- Release notes
- Elasticsearch version 8.17.1
- Elasticsearch version 8.17.0
- Elasticsearch version 8.16.2
- Elasticsearch version 8.16.1
- Elasticsearch version 8.16.0
- Elasticsearch version 8.15.5
- Elasticsearch version 8.15.4
- Elasticsearch version 8.15.3
- Elasticsearch version 8.15.2
- Elasticsearch version 8.15.1
- Elasticsearch version 8.15.0
- Elasticsearch version 8.14.3
- Elasticsearch version 8.14.2
- Elasticsearch version 8.14.1
- Elasticsearch version 8.14.0
- Elasticsearch version 8.13.4
- Elasticsearch version 8.13.3
- Elasticsearch version 8.13.2
- Elasticsearch version 8.13.1
- Elasticsearch version 8.13.0
- Elasticsearch version 8.12.2
- Elasticsearch version 8.12.1
- Elasticsearch version 8.12.0
- Elasticsearch version 8.11.4
- Elasticsearch version 8.11.3
- Elasticsearch version 8.11.2
- Elasticsearch version 8.11.1
- Elasticsearch version 8.11.0
- Elasticsearch version 8.10.4
- Elasticsearch version 8.10.3
- Elasticsearch version 8.10.2
- Elasticsearch version 8.10.1
- Elasticsearch version 8.10.0
- Elasticsearch version 8.9.2
- Elasticsearch version 8.9.1
- Elasticsearch version 8.9.0
- Elasticsearch version 8.8.2
- Elasticsearch version 8.8.1
- Elasticsearch version 8.8.0
- Elasticsearch version 8.7.1
- Elasticsearch version 8.7.0
- Elasticsearch version 8.6.2
- Elasticsearch version 8.6.1
- Elasticsearch version 8.6.0
- Elasticsearch version 8.5.3
- Elasticsearch version 8.5.2
- Elasticsearch version 8.5.1
- Elasticsearch version 8.5.0
- Elasticsearch version 8.4.3
- Elasticsearch version 8.4.2
- Elasticsearch version 8.4.1
- Elasticsearch version 8.4.0
- Elasticsearch version 8.3.3
- Elasticsearch version 8.3.2
- Elasticsearch version 8.3.1
- Elasticsearch version 8.3.0
- Elasticsearch version 8.2.3
- Elasticsearch version 8.2.2
- Elasticsearch version 8.2.1
- Elasticsearch version 8.2.0
- Elasticsearch version 8.1.3
- Elasticsearch version 8.1.2
- Elasticsearch version 8.1.1
- Elasticsearch version 8.1.0
- Elasticsearch version 8.0.1
- Elasticsearch version 8.0.0
- Elasticsearch version 8.0.0-rc2
- Elasticsearch version 8.0.0-rc1
- Elasticsearch version 8.0.0-beta1
- Elasticsearch version 8.0.0-alpha2
- Elasticsearch version 8.0.0-alpha1
- Dependencies and versions
Tune for indexing speed
editTune for indexing speed
editUse bulk requests
editBulk requests will yield much better performance than single-document index requests. In order to know the optimal size of a bulk request, you should run a benchmark on a single node with a single shard. First try to index 100 documents at once, then 200, then 400, etc. doubling the number of documents in a bulk request in every benchmark run. When the indexing speed starts to plateau then you know you reached the optimal size of a bulk request for your data. In case of tie, it is better to err in the direction of too few rather than too many documents. Beware that too large bulk requests might put the cluster under memory pressure when many of them are sent concurrently, so it is advisable to avoid going beyond a couple tens of megabytes per request even if larger requests seem to perform better.
Use multiple workers/threads to send data to Elasticsearch
editA single thread sending bulk requests is unlikely to be able to max out the indexing capacity of an Elasticsearch cluster. In order to use all resources of the cluster, you should send data from multiple threads or processes. In addition to making better use of the resources of the cluster, this should help reduce the cost of each fsync.
Make sure to watch for TOO_MANY_REQUESTS (429)
response codes
(EsRejectedExecutionException
with the Java client), which is the way that
Elasticsearch tells you that it cannot keep up with the current indexing rate.
When it happens, you should pause indexing a bit before trying again, ideally
with randomized exponential backoff.
Similarly to sizing bulk requests, only testing can tell what the optimal number of workers is. This can be tested by progressively increasing the number of workers until either I/O or CPU is saturated on the cluster.
Unset or increase the refresh interval
editThe operation that consists of making changes visible to search - called a refresh - is costly, and calling it often while there is ongoing indexing activity can hurt indexing speed.
By default, Elasticsearch periodically refreshes indices every second, but only on indices that have received one search request or more in the last 30 seconds.
This is the optimal configuration if you have no or very little search traffic (e.g. less than one search request every 5 minutes) and want to optimize for indexing speed. This behavior aims to automatically optimize bulk indexing in the default case when no searches are performed. In order to opt out of this behavior set the refresh interval explicitly.
On the other hand, if your index experiences regular search requests, this
default behavior means that Elasticsearch will refresh your index every 1
second. If you can afford to increase the amount of time between when a document
gets indexed and when it becomes visible, increasing the
index.refresh_interval
to a larger value, e.g.
30s
, might help improve indexing speed.
Disable replicas for initial loads
editIf you have a large amount of data that you want to load all at once into
Elasticsearch, it may be beneficial to set index.number_of_replicas
to 0
in
order to speed up indexing. Having no replicas means that losing a single node
may incur data loss, so it is important that the data lives elsewhere so that
this initial load can be retried in case of an issue. Once the initial load is
finished, you can set index.number_of_replicas
back to its original value.
If index.refresh_interval
is configured in the index settings, it may further
help to unset it during this initial load and setting it back to its original
value once the initial load is finished.
Disable swapping
editYou should make sure that the operating system is not swapping out the java process by disabling swapping.
Give memory to the filesystem cache
editThe filesystem cache will be used in order to buffer I/O operations. You should make sure to give at least half the memory of the machine running Elasticsearch to the filesystem cache.
Use auto-generated ids
editWhen indexing a document that has an explicit id, Elasticsearch needs to check whether a document with the same id already exists within the same shard, which is a costly operation and gets even more costly as the index grows. By using auto-generated ids, Elasticsearch can skip this check, which makes indexing faster.
Use faster hardware
editIf indexing is I/O-bound, consider increasing the size of the filesystem cache (see above) or using faster storage. Elasticsearch generally creates individual files with sequential writes. However, indexing involves writing multiple files concurrently, and a mix of random and sequential reads too, so SSD drives tend to perform better than spinning disks.
Stripe your index across multiple SSDs by configuring a RAID 0 array. Remember that it will increase the risk of failure since the failure of any one SSD destroys the index. However this is typically the right tradeoff to make: optimize single shards for maximum performance, and then add replicas across different nodes so there’s redundancy for any node failures. You can also use snapshot and restore to backup the index for further insurance.
Local vs.remote storage
editDirectly-attached (local) storage generally performs better than remote storage because it is simpler to configure well and avoids communications overheads.
Some remote storage performs very poorly, especially under the kind of load that Elasticsearch imposes. However, with careful tuning, it is sometimes possible to achieve acceptable performance using remote storage too. Before committing to a particular storage architecture, benchmark your system with a realistic workload to determine the effects of any tuning parameters. If you cannot achieve the performance you expect, work with the vendor of your storage system to identify the problem.
Indexing buffer size
editIf your node is doing only heavy indexing, be sure
indices.memory.index_buffer_size
is large enough to give
at most 512 MB indexing buffer per shard doing heavy indexing (beyond that
indexing performance does not typically improve). Elasticsearch takes that
setting (a percentage of the java heap or an absolute byte-size), and
uses it as a shared buffer across all active shards. Very active shards will
naturally use this buffer more than shards that are performing lightweight
indexing.
The default is 10%
which is often plenty: for example, if you give the JVM
10GB of memory, it will give 1GB to the index buffer, which is enough to host
two shards that are heavily indexing.
Use cross-cluster replication to prevent searching from stealing resources from indexing
editWithin a single cluster, indexing and searching can compete for resources. By setting up two clusters, configuring cross-cluster replication to replicate data from one cluster to the other one, and routing all searches to the cluster that has the follower indices, search activity will no longer steal resources from indexing on the cluster that hosts the leader indices.
Avoid hot spotting
editHot Spotting can occur when node resources, shards, or requests are not evenly distributed. Elasticsearch maintains cluster state by syncing it across nodes, so continually hot spotted nodes can cause overall cluster performance degredation.
Additional optimizations
editMany of the strategies outlined in Tune for disk usage also provide an improvement in the speed of indexing.
On this page
- Use bulk requests
- Use multiple workers/threads to send data to Elasticsearch
- Unset or increase the refresh interval
- Disable replicas for initial loads
- Disable swapping
- Give memory to the filesystem cache
- Use auto-generated ids
- Use faster hardware
- Local vs.remote storage
- Indexing buffer size
- Use cross-cluster replication to prevent searching from stealing resources from indexing
- Avoid hot spotting
- Additional optimizations