[[release-highlights-7.3.0]]
== 7.3.0 release highlights
++++
7.3.0
++++
coming[7.3.0]
//NOTE: The notable-highlights tagged regions are re-used in the
//Installation and Upgrade Guide
// tag::notable-highlights[]
[float]
==== Voting-only master nodes
A new <> role has been introduced that
allows nodes to participate in elections even though they are not eligible to become the master.
The benefit is that these nodes still help with high availability while
requiring less CPU and heap than master nodes.
NOTE: The `node.voting-only` role is only available with the default
distribution of {es}.
// end::notable-highlights[]
// tag::notable-highlights[]
[float]
==== Reloading of search-time synonyms
A new <> allows to reload the
definition of search-time analyzers and their associated resources. A common
use-case for this API is the reloading of search-time synonyms. In earlier
versions of Elasticsearch, users could force synonyms to be reloaded by closing
the index and then opening it again. With this new API, synonyms can be updated
without closing the index.
NOTE: The Analyzer reload API is only available with the default distribution
of {es}.
// end::notable-highlights[]
// tag::notable-highlights[]
[float]
==== New `flattened` field type
A new <> field type has been added, which can index
arbitrary `json` objects into a single field. This helps avoid hitting issues
due to many fields in mappings, at the cost of more limited search
functionality.
NOTE: The <> field type is only available with the
default distribution of {es}.
// end::notable-highlights[]
// tag::notable-highlights[]
[float]
==== Functions on vector fields
Painless now support computing the <> and
the <> of a query vector and either values of a
<> or <> field.
NOTE: These functions are only available with the default distribution of {es}.
// end::notable-highlights[]
// tag::notable-highlights[]
[float]
==== Prefix and wildcard support for intervals
<> now support querying by
<> or <>.
// end::notable-highlights[]
// tag::notable-highlights[]
[float]
==== Rare terms aggregation
A new
<>
allows to find the least frequent values in a field. It is intended to replace
the `"order" : { "_count" : "asc" }` option of the
<>.
// end::notable-highlights[]
// tag::notable-highlights[]
[float]
==== Aliases are replicated via {ccr}
Read aliases are now replicated via <>. Note that write
aliases are still not replicated since they only make sense for indices that
are being written to while follower indices do not receive direct writes.
// end::notable-highlights[]
// tag::notable-highlights[]
[float]
==== SQL supports frozen indices
{es-sql} now supports querying <> via the new
<> keyword.
// end::notable-highlights[]
// tag::notable-highlights[]
[float]
==== Fixed memory leak when using templates in document-level security
{xpack-ref}/document-level-security.html[Document-level security] was using an
unbounded cache for the set of visible documents. This could lead to a memory
leak when using a templated query as a role query. The cache has been fixed to
evict based on memory usage and has a limit of 50MB.
// end::notable-highlights[]
// tag::notable-highlights[]
[float]
==== More memory-efficient aggregations on `keyword` fields
<> generally
need to build
<>
in order to run. Unfortunately this operation became more memory-intensive in
6.0 due to the move to doc-value iterators in order to improve handling of
sparse fields. Memory pressure of global ordinals now goes back to a more
similar level as what you could have on pre-6.0 releases.
// end::notable-highlights[]
// tag::notable-highlights[]
[float]
==== Data frame pivot transforms to create entity-centric indexes
<>, released in 7.2, allow to transform an
existing index to a secondary, summarized index. 7.3 now introduces Data frame
pivot transforms in order to create entity-centric indexes that can summarize
the behavior of an entity.
NOTE: Data frames are only available with the default distribution of {es}.
// end::notable-highlights[]
// tag::notable-highlights[]
[discrete]
[[release-highlights-7.3.0-outlier-detection]]
==== Discover your most unusual data using {oldetection}
The goal of {stack-ov}/dfa-outlier-detection.html[{oldetection}] is to find
the most unusual data points in an index. We analyse the numerical fields of
each data point (document in an index) and annotate them with how unusual they
are.
We use unsupervised {oldetection} which means there is no need to provide a
training data set to teach {oldetection} to recognize outliers. In practice,
this is achieved by using an ensemble of distance based and density based
techniques to identify those data points which are the most different from the
bulk of the data in the index. We assign to each analysed data point an
{olscore}, which captures how different the entity is from other entities in the
index.
In addition to new {oldetection} functionality, we are introducing the
{ref}/evaluate-dfanalytics.html[evaluate {dfanalytics} API], which enables you to compute a range of performance metrics such
as confusion matrices, precision, recall, the
https://en.wikipedia.org/wiki/Receiver_operating_characteristic[receiver-operating characteristics (ROC) curve]
and the area under the ROC curve. If you are running {oldetection} on a source
index that has already been labeled to indicate which points are truly outliers
and which are normal, you can use the
evaluate {dfanalytics} API to assess the performance of the
{oldetection} analytics on your dataset.
// end::notable-highlights[]