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[role="xpack"]
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[[ml-delayed-data-detection]]
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=== Handling delayed data
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Delayed data are documents that are indexed late. That is to say, it is data
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related to a time that the {dfeed} has already processed.
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2019-01-28 16:04:38 -05:00
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When you create a datafeed, you can specify a
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{ref}/ml-datafeed-resource.html[`query_delay`] setting. This setting enables the
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datafeed to wait for some time past real-time, which means any "late" data in
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this period is fully indexed before the datafeed tries to gather it. However, if
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the setting is set too low, the datafeed may query for data before it has been
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indexed and consequently miss that document. Conversely, if it is set too high,
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analysis drifts farther away from real-time. The balance that is struck depends
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upon each use case and the environmental factors of the cluster.
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==== Why worry about delayed data?
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2019-01-28 16:04:38 -05:00
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This is a particularly prescient question. If data are delayed randomly (and
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consequently are missing from analysis), the results of certain types of
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functions are not really affected. In these situations, it all comes out okay in
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the end as the delayed data is distributed randomly. An example would be a `mean`
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metric for a field in a large collection of data. In this case, checking for
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delayed data may not provide much benefit. If data are consistently delayed,
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however, jobs with a `low_count` function may provide false positives. In this
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situation, it would be useful to see if data comes in after an anomaly is
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recorded so that you can determine a next course of action.
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2018-12-18 20:14:18 -05:00
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==== How do we detect delayed data?
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In addition to the `query_delay` field, there is a
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{ref}/ml-datafeed-resource.html#ml-datafeed-delayed-data-check-config[delayed data check config],
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which enables you to configure the datafeed to look in the past for delayed data.
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Every 15 minutes or every `check_window`, whichever is smaller, the datafeed
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triggers a document search over the configured indices. This search looks over a
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time span with a length of `check_window` ending with the latest finalized bucket.
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That time span is partitioned into buckets, whose length equals the bucket span
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of the associated job. The `doc_count` of those buckets are then compared with
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the job's finalized analysis buckets to see whether any data has arrived since
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the analysis. If there is indeed missing data due to their ingest delay, the end
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user is notified. For example, you can see annotations in {kib} for the periods
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where these delays occur.
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==== What to do about delayed data?
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2019-01-28 16:04:38 -05:00
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The most common course of action is to simply to do nothing. For many functions
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and situations, ignoring the data is acceptable. However, if the amount of
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delayed data is too great or the situation calls for it, the next course of
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action to consider is to increase the `query_delay` of the datafeed. This
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increased delay allows more time for data to be indexed. If you have real-time
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constraints, however, an increased delay might not be desirable. In which case,
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you would have to {ref}/tune-for-indexing-speed.html[tune for better indexing speed].
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2018-12-18 20:14:18 -05:00
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