# Derivative Aggregator Plugin This plugin computes the derivative for all fields of the aggregated metrics. ⭐ Telegraf v1.18.0 🏷️ math 💻 all ## Global configuration options In addition to the plugin-specific configuration settings, plugins support additional global and plugin configuration settings. These settings are used to modify metrics, tags, and field or create aliases and configure ordering, etc. See the [CONFIGURATION.md][CONFIGURATION.md] for more details. [CONFIGURATION.md]: ../../../docs/CONFIGURATION.md#plugins ## Configuration ```toml @sample.conf # Calculates a derivative for every field. [[aggregators.derivative]] ## The period in which to flush the aggregator. # period = "30s" ## Suffix to append for the resulting derivative field. # suffix = "_rate" ## Field to use for the quotient when computing the derivative. ## When using a field as the derivation parameter the name of that field will ## be used for the resulting derivative, e.g. *fieldname_by_parameter*. ## By default the timestamps of the metrics are used and the suffix is omitted. # variable = "" ## Maximum number of roll-overs in case only one measurement is found during a period. # max_roll_over = 10 ``` This aggregator will estimate a derivative for each field of a metric, which is contained in both the first and last metric of the aggregation interval. Without further configuration the derivative will be calculated with respect to the time difference between these two measurements in seconds. The following formula is applied is for every field ```text derivative = (value_last - value_first) / (time_last - time_first) ``` The resulting derivative will be named `_rate` if no `suffix` is configured. To calculate a derivative for every field use ```toml [[aggregators.derivative]] ## Specific Derivative Aggregator Arguments: ## Configure a custom derivation variable. Timestamp is used if none is given. # variable = "" ## Suffix to add to the field name for the derivative name. # suffix = "_rate" ## Roll-Over last measurement to first measurement of next period # max_roll_over = 10 ## General Aggregator Arguments: ## calculate derivative every 30 seconds period = "30s" ``` ## Time Derivatives In its default configuration it determines the first and last measurement of the period. From these measurements the time difference in seconds is calculated. This time difference is than used to divide the difference of each field using the following formula: ```text derivative = (value_last - value_first) / (time_last - time_first) ``` For each field the derivative is emitted with a naming pattern `_rate`. ## Custom Derivation Variable The plugin supports to use a field of the aggregated measurements as derivation variable in the denominator. This variable is assumed to be a monotonically increasing value. In this feature the following formula is used: ```text derivative = (value_last - value_first) / (variable_last - variable_first) ``` **Make sure the specified variable is not filtered and exists in the metrics passed to this aggregator!** When using a custom derivation variable, you should change the `suffix` of the derivative name. See the next section on [customizing the derivative name](#customize-the-derivative-name) for details. ## Customize the Derivative Name The derivatives generated by the aggregator are named `_rate`, i.e. they are composed of the field name and a suffix `_rate`. You can configure the suffix to be used by changing the `suffix` parameter. ## Roll-Over to next Period Calculating the derivative for a period requires at least two distinct measurements during that period. Whether those are available depends on the configuration of the aggregator `period` and the agent `interval`. By default the last measurement is used as first measurement in the next aggregation period. This enables a continuous calculation of the derivative. If within the next period an earlier timestamp is encountered this measurement will replace the roll-over metric. A main benefit of this roll-over is the ability to cope with multiple "quiet" periods, where no new measurement is pushed to the aggregator. The roll-over will take place at most `max_roll_over` times. ### Example of Roll-Over Let us assume we have an input plugin, that generates a measurement with a single metric "test" every 2 seconds. Let this metric increase the first 10 seconds from 0.0 to 10.0 and then decrease the next 10 seconds form 10.0 to 0.0: | timestamp | value | |-----------|-------| | 0 | 0.0 | | 2 | 2.0 | | 4 | 4.0 | | 6 | 6.0 | | 8 | 8.0 | | 10 | 10.0 | | 12 | 8.0 | | 14 | 6.0 | | 16 | 4.0 | | 18 | 2.0 | | 20 | 0.0 | To avoid thinking about border values, we consider periods to be inclusive at the start but exclusive in the end. Using `period = "10s"` and `max_roll_over = 0` we would get the following aggregates: | timestamp | value | aggregate | explanation | |-----------|-------|-----------|--------------| | 0 | 0.0 | | | | 2 | 2.0 | | | | 4 | 4.0 | | | | 6 | 6.0 | | | | 8 | 8.0 | | | ||| 1.0 | (8.0 - 0.0) / (8 - 0) | | 10 | 10.0 | | | | 12 | 8.0 | | | | 14 | 6.0 | | | | 16 | 4.0 | | | | 18 | 2.0 | | | ||| -1.0 | (2.0 - 10.0) / (18 - 10) | | 20 | 0.0 | | | If we now decrease the period with `period = 2s`, no derivative could be calculated since there would only one measurement for each period. The aggregator will emit the log messages `Same first and last event for "test", skipping.`. This changes, if we use `max_roll_over = 1`, since now end measurements of a period are taking as start for the next period. | timestamp | value | aggregate | explanation | |-----------|-------|-----------|-------------| | 0 | 0.0 | | | | 2 | 2.0 | 1.0 | (2.0 - 0.0) / (2 - 0) | | 4 | 4.0 | 1.0 | (4.0 - 2.0) / (4 - 2) | | 6 | 6.0 | 1.0 | (6.0 - 4.0) / (6 - 4) | | 8 | 8.0 | 1.0 | (8.0 - 6.0) / (8 - 6) | | 10 | 10.0 | 1.0 | (10.0 - 8.0) / (10 - 8) | | 12 | 8.0 | -1.0 | (8.0 - 10.0) / (12 - 10) | | 14 | 6.0 | -1.0 | (6.0 - 8.0) / (14 - 12) | | 16 | 4.0 | -1.0 | (4.0 - 6.0) / (16 - 14) | | 18 | 2.0 | -1.0 | (2.0 - 4.0) / (18 - 16) | | 20 | 0.0 | -1.0 | (0.0 - 2.0) / (20 - 18) | The default `max_roll_over = 10` allows for multiple periods without measurements either due to configuration or missing input. There may be a slight difference in the calculation when using `max_roll_over` compared to running without. To illustrate this, let us compare the derivatives for `period = "7s"`. | timestamp | value | `max_roll_over = 0` | explanation | `max_roll_over = 1` | explanation | |-----------|-------|---------------------|-------------|---------------------|-------------| | 0 | 0.0 | | | | | | 2 | 2.0 | | | | | | 4 | 4.0 | | | | | | 6 | 6.0 | | | | | | 7 | | 0.8571... | (6-0) / (7-0) | 0.8571... | (6-0) / (7-0) | | 8 | 8.0 | | | | | | 10 | 10.0 | | | | | | 12 | 8.0 | | | | | | 14 | 8.0 | 0.0 | (8-8) / (14-7) | 0.2857... | (8-6) / (14-7) | | 16 | 4.0 | | | | | | 18 | 2.0 | | | | | | 20 | 0.0 | | | | | ||| -1.0 | -1.0 | | | The difference stems from the change of the value between periods, e.g. from 6.0 to 8.0 between first and second period. Those changes are omitted with `max_roll_over = 0` but are respected with `max_roll_over = 1`. That there are no more differences in the calculated derivatives is due to the example data, which has constant derivatives in during the first and last period, even when including the gap between the periods. Using `max_roll_over` with a value greater 0 may be important, if you need to detect changes between periods, e.g. when you have very few measurements in a period or quasi-constant metrics with only occasional changes. ### Tags No tags are applied by this aggregator. Existing tags are passed through the aggregator untouched. ## Example Output ```text net bytes_recv=15409i,packets_recv=164i,bytes_sent=16649i,packets_sent=120i 1508843640000000000 net bytes_recv=73987i,packets_recv=364i,bytes_sent=87328i,packets_sent=452i 1508843660000000000 net bytes_recv_by_packets_recv=292.89 1508843660000000000 net packets_sent_rate=16.6,bytes_sent_rate=3533.95 1508843660000000000 net bytes_sent_by_packet=292.89 1508843660000000000 ```