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