# Overview ClusterCockpit uses the [InfluxData line-protocol](https://docs.influxdata.com/influxdb/v2.1/reference/syntax/line-protocol/) for transferring metrics between the its components. The line-protocol is a test-based representation of a metric with a value, time and describing tags. All metrics have the following format (if written to `stdout`): ``` , ``` where `` and `` are comma-separated lists of `key=value` entries. In a mind-model, think about tags as `indices` in the database for faster lookup and the `` as metric values. # Line-protocol in the ClusterCockpit ecosystem In ClusterCockpit we limit the flexibility of the InfluxData line-protocol slightly. The idea is to keep the format evaluatable by different components. Each metric is identifiable by the `measurement` (= metric name), the `hostname`, the `type` and, if required, a `type-id`. ## Mandatory tags per measurement: * `hostname` * `type` in `[node, socket, die, memoryDomain, llb, core, hwthread, (accelerator)]` * `type-id` for further specifying the type like CPU socket or HW Thread identifier ## Mandatory fields per measurement: The field key is always `value`. No other field keys are evaluated by the ClusterCockpit ecosystem. ## Optional tags depending on the measurment: In some cases, optional tags are required like `filesystem`, `device` or `version`. While you are free to do that, the ClusterCockpit components in the stack above will recognize `stype` (= sub type) and `stype-id` in the future. So `filesystem=/homes` should be better specified as `stype=filesystem,stype-id=/homes` ## Supported measurements While the measurements (metric names) can be chosen freely, there is a basic set of measurements which should be present as long as you navigate in the ClusterCockpit ecosystem * `flops_sp`: Single-precision floating point rate in `Flops/s` * `flops_dp`: Double-precision floating point rate in `Flops/s` * `flops_any`: Combined floating point rate in `Flops/s` (often `(flops_dp * 2) + flops_sp`) * `cpu_load`: The 1m load of the system (see `/proc/loadavg`) * `mem_used`: The amount of memory used by applications (see `/proc/meminfo`) * `ipc`: instructions-per-cycle metric * `mem_bw`: Main memory bandwidth (read and write) in `MByte/s` * `cpu_power`: Power consumption of the whole CPU package * `mem_power`: Power consumption of the memory subsystem * `clock`: CPU clock in `MHz` * ... For the whole list, see [job-data schema](../../datastructures/job-data.schema.json)