72 lines
3.3 KiB
Plaintext
72 lines
3.3 KiB
Plaintext
[role="xpack"]
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[[ml-transform-overview]]
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== {transform-cap} overview
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<titleabbrev>Overview</titleabbrev>
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beta[]
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A _{dataframe}_ is a two-dimensional tabular data structure. In the context of
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the {stack}, it is a transformation of data that is indexed in {es}. For
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example, you can use {dataframes} to _pivot_ your data into a new entity-centric
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index. By transforming and summarizing your data, it becomes possible to
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visualize and analyze it in alternative and interesting ways.
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A lot of {es} indices are organized as a stream of events: each event is an
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individual document, for example a single item purchase. {dataframes-cap} enable
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you to summarize this data, bringing it into an organized, more
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analysis-friendly format. For example, you can summarize all the purchases of a
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single customer.
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You can create {dataframes} by using {transforms}.
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{transforms-cap} enable you to define a pivot, which is a set of
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features that transform the index into a different, more digestible format.
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Pivoting results in a summary of your data, which is the {dataframe}.
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To define a pivot, first you select one or more fields that you will use to
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group your data. You can select categorical fields (terms) and numerical fields
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for grouping. If you use numerical fields, the field values are bucketed using
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an interval that you specify.
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The second step is deciding how you want to aggregate the grouped data. When
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using aggregations, you practically ask questions about the index. There are
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different types of aggregations, each with its own purpose and output. To learn
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more about the supported aggregations and group-by fields, see
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{ref}/transform-resource.html[{transform-cap} resources].
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As an optional step, you can also add a query to further limit the scope of the
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aggregation.
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The {transform} performs a composite aggregation that
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paginates through all the data defined by the source index query. The output of
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the aggregation is stored in a destination index. Each time the
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{transform} queries the source index, it creates a _checkpoint_. You
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can decide whether you want the {transform} to run once (batch
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{transform}) or continuously ({transform}). A batch
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{transform} is a single operation that has a single checkpoint.
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{ctransforms-cap} continually increment and process checkpoints as new
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source data is ingested.
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.Example
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Imagine that you run a webshop that sells clothes. Every order creates a document
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that contains a unique order ID, the name and the category of the ordered product,
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its price, the ordered quantity, the exact date of the order, and some customer
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information (name, gender, location, etc). Your dataset contains all the transactions
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from last year.
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If you want to check the sales in the different categories in your last fiscal
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year, define a {transform} that groups the data by the product
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categories (women's shoes, men's clothing, etc.) and the order date. Use the
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last year as the interval for the order date. Then add a sum aggregation on the
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ordered quantity. The result is a {dataframe} that shows the number of sold
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items in every product category in the last year.
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[role="screenshot"]
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image::images/ml-dataframepivot.jpg["Example of a data frame pivot in {kib}"]
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IMPORTANT: The {transform} leaves your source index intact. It
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creates a new index that is dedicated to the {dataframe}.
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