--- weight: 1 title: Presets menu: docs: parent: "anomaly-detection" weight: 1 title: Presets --- > Please check the [Quick Start Guide](./QuickStart.md) to install and run `vmanomaly` > Presets are available starting from [v1.13.0](./CHANGELOG.md#v1130) **Preset** mode allows for simpler configuration and anomaly detection with `vmanomaly` on widely-recognized metrics, such as those generated by [node_exporter](https://github.com/prometheus/node_exporter), which are typically challenging to monitor using static threshold-based alerting rules. This approach represents a paradigm shift from traditional [static threshold-based alerting rules](https://victoriametrics.com/blog/victoriametrics-anomaly-detection-handbook-chapter-1/#rule-based-alerting), focused on *raw metric values*, to *static* rules based on [`anomaly_scores`](./FAQ.md#what-is-anomaly-score). These scores offer a consistent, default threshold that remains stable over time, being adjusted for trends, seasonality, data scale, thus, reducing the engineering effort required for maintenance. Anomaly scores are produced by [machine learning models](./components/models.md), which are regularly retrained on varying time frames, ensuring alerts remain current and responsive to evolving data patterns. Additionally, **preset mode** minimizes user input needed to run the service. You can configure `vmanomaly` by specifying only the preset name and data sources in the [`reader`](./components/reader.md) and [`writer`](./components/writer.md) sections of the configuration file. All other parameters are already preconfigured. Available presets: - [Node-Exporter](#node-exporter) To enable preset mode, `preset` arg should be set to particular preset name: ```yaml preset: "chosen_preset_name" # i.e. "node-exporter" ``` Also, additional minimal set of arguments may be required from user to run the preset. See corresponding preset sections below for the details. Run a service using config file with one of the [available options](./QuickStart.md#how-to-install-and-run-vmanomaly). After you run `vmanomaly` with `preset` arg specified, available assets can be viewed, copied and downloaded at `http://localhost:8490/presets/` endpoint. ![preset-localhost](presets-localhost.webp) ## Node-Exporter The Node-Exporter preset simplifies the monitoring and anomaly detection of key system metrics collected by [`node_exporter`](https://github.com/prometheus/node_exporter). This preset reduces the need for manual configuration and detects anomalies in metrics such as CPU usage, network errors, and disk latency, ensuring timely identification of potential issues. Below are detailed instructions on enabling and using the Node-Exporter preset, along with a list of included assets like alerting rules and Grafana dashboard. > **Note: Node-Exporter preset assets can be also found [here](https://github.com/VictoriaMetrics/VictoriaMetrics/tree/master/deployment/docker/vmanomaly/vmanomaly-node-exporter-preset/)** For enabling Node-Exporter in config file set the `preset` arg accordingly. Also, include at least `datasource_url`-s (and `tenant_id` if using cluster version of VictoriaMetrics) in reader and writer sections, like that: ```yaml preset: "node-exporter" reader: datasource_url: "http://victoriametrics:8428/" # source victoriametrics/prometheus # tenant_id: '0:0' # specify for cluster version writer: datasource_url: "http://victoriametrics:8428/" # destination victoriametrics/prometheus # tenant_id: '0:0' # specify for cluster version ``` Run a service using such config file with one of the [available options](./QuickStart.md#how-to-install-and-run-vmanomaly). ### Generated anomaly scores Machine learning models will be fit for each timeseries, returned by underlying [MetricsQL](../MetricsQL.md) queries. Anomaly score metric labels will also contain [model classes](./components/models.md) and [schedulers](./components/scheduler.md) for labelset uniqueness. Here's an example of produced metrics: ```promtextmetric anomaly_score{for="cpu_seconds_total", instance="node-exporter:9100", preset="node-exporter", mode="system", model_alias="prophet", scheduler_alias="1d_1m"} 0.23451242720277776 anomaly_score{for="cpu_seconds_total", instance="node-exporter:9100", preset="node-exporter", mode="user", model_alias="prophet", scheduler_alias="1d_1m"} 0.2637952255694444 anomaly_score{for="page_faults", instance="node-exporter:9100", job="node-exporter", preset="node-exporter", model_alias="prophet", scheduler_alias="1d_1m"} 0.00593712535 anomaly_score{for="read_latency", instance="node-exporter:9100", preset="node-exporter", model_alias="mad", scheduler_alias="1d_1m"} 0.27773362795333334 anomaly_score{for="receive_bytes", instance="node-exporter:9100", preset="node-exporter", model_alias="mad", scheduler_alias="1d_1m"} 0.037753486136666674 anomaly_score{for="transmit_bytes", instance="node-exporter:9100", preset="node-exporter", model_alias="mad", scheduler_alias="1d_1m"} 0.17633085235 anomaly_score{for="write_latency", instance="node-exporter:9100", preset="node-exporter", model_alias="mad", scheduler_alias="1d_1m"} 0.019314370926666668 anomaly_score{for="cpu_seconds_total", instance="node-exporter:9100", preset="node-exporter", mode="idle", model_alias="mad", scheduler_alias="1d_1m"} 4.2323617935 anomaly_score{for="cpu_seconds_total", instance="node-exporter:9100", preset="node-exporter", mode="idle", model_alias="mad", scheduler_alias="2w_1m"} 1.5261359215 anomaly_score{for="cpu_seconds_total", instance="node-exporter:9100", preset="node-exporter", mode="idle", model_alias="prophet", scheduler_alias="2w_1m"} 0.5850743651 anomaly_score{for="cpu_seconds_total", instance="node-exporter:9100", preset="node-exporter", mode="idle", model_alias="z-score", scheduler_alias="1d_1m"} 1.6496064663 anomaly_score{for="cpu_seconds_total", instance="node-exporter:9100", preset="node-exporter", mode="idle", model_alias="z-score", scheduler_alias="2w_1m"} 0.924392581 anomaly_score{for="cpu_seconds_total", instance="node-exporter:9100", preset="node-exporter", mode="iowait", model_alias="mad", scheduler_alias="1d_1m"} 0.8571428657 ... ``` ### Alerts > For optimal alerting experience, we include [Awesome alerts](https://github.com/samber/awesome-prometheus-alerts) to cover indicators not addressed by the preset, as static thresholds can effectively complement our machine learning approach. > Provided `vmanomaly` alerts are set to fire only if *all anomaly detection models* vote that the datapoint is anomalous. You can find corresponding alerting rules here: - `vmanomaly` [Anomaly Detection alerts](https://github.com/VictoriaMetrics/VictoriaMetrics/tree/master/deployment/docker/vmanomaly/vmanomaly-node-exporter-preset/vmanomaly_alerts.yml): `http://localhost:8490/presets/vmanomaly_alerts.yml` - [Modified Awesome Alerts](https://github.com/VictoriaMetrics/VictoriaMetrics/tree/master/deployment/docker/vmanomaly/vmanomaly-node-exporter-preset/awesome_alerts.yml): `http://localhost:8490/presets/awesome_alerts.yml` #### Awesome Alerts replaced by Machine Learning alerts - HostMemoryUnderMemoryPressure - HostContextSwitching - HostHighCpuLoad - HostCpuIsUnderutilized - HostCpuStealNoisyNeighbor - HostCpuHighIowait - HostNetworkReceiveErrors - HostNetworkTransmitErrors - HostUnusualNetworkThroughputIn - HostUnusualNetworkThroughputOut ### Grafana dashboard Grafana dashboard `.json` file can be found [here](https://github.com/VictoriaMetrics/VictoriaMetrics/tree/master/deployment/docker/vmanomaly/vmanomaly-node-exporter-preset/dashboard.json): `http://localhost:8490/presets/dashboard.json` ### Indicators monitored by preset The produced anomaly scores will have a label `for` containing the name of corresponding indicator.
Indicator | Based on metrics | Description |
---|---|---|
`page_faults` | `node_vmstat_pgmajfault` | Number of major faults that have occurred since the last update. Major faults occur when a process tries to access a page in memory that is not currently mapped in the process's address space, and it requires loading data from the disk. |
`context_switch` | `node_context_switches_total` | This metric represents the total number of context switches across all CPUs. |
`cpu_seconds_total` | `node_cpu_seconds_total` | Total amount of CPU time consumed by the system in seconds by CPU processing mode (e.g., user, system, idle). |
`host_network_receive_errors` & `host_network_transmit_errors` | `node_network_receive_errs_total`, `node_network_receive_packets_total`, `node_network_transmit_errs_total`, `node_network_transmit_packets_total` | Total number of errors encountered while receiving/transmitting packets on the network interfaces of a node. |
`receive_bytes` & `transmit_bytes` | `node_network_receive_bytes_total`, `node_network_transmit_bytes_total` | Total number of bytes received/transmitted on network interfaces of a node. |
`read_latency` & `write_latency` | `node_disk_read_time_seconds_total`, `node_disk_reads_completed_total`, `node_disk_write_time_seconds_total`, `node_disk_writes_completed_total` | Disk latency. The total read/write time spent in seconds. / The total number of reads/writes completed successfully. |