2020-04-06 11:36:47 -04:00
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[role="xpack"]
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[testenv="basic"]
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[[search-aggregations-metrics-ttest-aggregation]]
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2020-04-13 12:28:58 -04:00
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=== T-Test Aggregation
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2020-04-06 11:36:47 -04:00
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A `t_test` metrics aggregation that performs a statistical hypothesis test in which the test statistic follows a Student's t-distribution
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under the null hypothesis on numeric values extracted from the aggregated documents or generated by provided scripts. In practice, this
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will tell you if the difference between two population means are statistically significant and did not occur by chance alone.
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==== Syntax
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A `t_test` aggregation looks like this in isolation:
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[source,js]
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--------------------------------------------------
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{
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"t_test": {
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"a": "value_before",
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"b": "value_after",
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"type": "paired"
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}
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}
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--------------------------------------------------
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// NOTCONSOLE
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Assuming that we have a record of node start up times before and after upgrade, let's look at a t-test to see if upgrade affected
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the node start up time in a meaningful way.
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[source,console]
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--------------------------------------------------
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GET node_upgrade/_search
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{
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"size": 0,
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"aggs": {
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"startup_time_ttest": {
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"t_test": {
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"a": { "field": "startup_time_before" }, <1>
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"b": { "field": "startup_time_after" }, <2>
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"type": "paired" <3>
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}
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}
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2020-07-20 15:59:00 -04:00
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}
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2020-04-06 11:36:47 -04:00
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}
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--------------------------------------------------
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// TEST[setup:node_upgrade]
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<1> The field `startup_time_before` must be a numeric field.
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<2> The field `startup_time_after` must be a numeric field.
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<3> Since we have data from the same nodes, we are using paired t-test.
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The response will return the p-value or probability value for the test. It is the probability of obtaining results at least as extreme as
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the result processed by the aggregation, assuming that the null hypothesis is correct (which means there is no difference between
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population means). Smaller p-value means the null hypothesis is more likely to be incorrect and population means are indeed different.
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[source,console-result]
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--------------------------------------------------
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{
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...
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2020-07-20 15:59:00 -04:00
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"aggregations": {
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"startup_time_ttest": {
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"value": 0.1914368843365979 <1>
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}
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}
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2020-04-06 11:36:47 -04:00
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}
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--------------------------------------------------
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// TESTRESPONSE[s/\.\.\./"took": $body.took,"timed_out": false,"_shards": $body._shards,"hits": $body.hits,/]
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<1> The p-value.
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==== T-Test Types
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The `t_test` aggregation supports unpaired and paired two-sample t-tests. The type of the test can be specified using the `type` parameter:
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`"type": "paired"`:: performs paired t-test
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`"type": "homoscedastic"`:: performs two-sample equal variance test
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`"type": "heteroscedastic"`:: performs two-sample unequal variance test (this is default)
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2020-04-13 12:28:58 -04:00
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==== Filters
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It is also possible to run unpaired t-test on different sets of records using filters. For example, if we want to test the difference
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of startup times before upgrade between two different groups of nodes, we use the same field `startup_time_before` by separate groups of
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nodes using terms filters on the group name field:
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[source,console]
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--------------------------------------------------
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GET node_upgrade/_search
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{
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2020-07-20 15:59:00 -04:00
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"size": 0,
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"aggs": {
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"startup_time_ttest": {
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"t_test": {
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"a": {
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"field": "startup_time_before", <1>
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"filter": {
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"term": {
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"group": "A" <2>
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}
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2020-07-20 15:59:00 -04:00
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}
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},
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"b": {
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"field": "startup_time_before", <3>
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"filter": {
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"term": {
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"group": "B" <4>
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}
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}
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},
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"type": "heteroscedastic" <5>
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}
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2020-04-13 12:28:58 -04:00
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}
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2020-07-20 15:59:00 -04:00
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}
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2020-04-13 12:28:58 -04:00
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}
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--------------------------------------------------
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// TEST[setup:node_upgrade]
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<1> The field `startup_time_before` must be a numeric field.
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<2> Any query that separates two groups can be used here.
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<3> We are using the same field
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<4> but we are using different filters.
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<5> Since we have data from different nodes, we cannot use paired t-test.
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[source,console-result]
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--------------------------------------------------
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{
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...
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2020-04-13 12:28:58 -04:00
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2020-07-20 15:59:00 -04:00
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"aggregations": {
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"startup_time_ttest": {
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"value": 0.2981858007281437 <1>
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}
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}
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2020-04-13 12:28:58 -04:00
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}
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--------------------------------------------------
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// TESTRESPONSE[s/\.\.\./"took": $body.took,"timed_out": false,"_shards": $body._shards,"hits": $body.hits,/]
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<1> The p-value.
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In this example, we are using the same fields for both populations. However this is not a requirement and different fields and even
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combination of fields and scripts can be used. Populations don't have to be in the same index either. If data sets are located in different
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indices, the term filter on the <<mapping-index-field,`_index`>> field can be used to select populations.
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2020-04-06 11:36:47 -04:00
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==== Script
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The `t_test` metric supports scripting. For example, if we need to adjust out load times for the before values, we could use
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a script to recalculate them on-the-fly:
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[source,console]
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--------------------------------------------------
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GET node_upgrade/_search
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{
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2020-07-20 15:59:00 -04:00
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"size": 0,
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"aggs": {
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"startup_time_ttest": {
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"t_test": {
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"a": {
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"script": {
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"lang": "painless",
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"source": "doc['startup_time_before'].value - params.adjustment", <1>
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"params": {
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"adjustment": 10 <2>
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}
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}
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},
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"b": {
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"field": "startup_time_after" <3>
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},
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"type": "paired"
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}
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2020-04-06 11:36:47 -04:00
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}
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2020-07-20 15:59:00 -04:00
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}
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2020-04-06 11:36:47 -04:00
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}
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--------------------------------------------------
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// TEST[setup:node_upgrade]
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<1> The `field` parameter is replaced with a `script` parameter, which uses the
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script to generate values which percentiles are calculated on.
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<2> Scripting supports parameterized input just like any other script.
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<3> We can mix scripts and fields.
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