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Important: This documentation is about an older version. It's relevant only to the release noted, many of the features and functions have been updated or replaced. Please view the current version.

Open source

Scaling with Grafana Loki

See Loki: Prometheus-inspired, open source logging for cloud natives for a discussion about Grafana Loki’s scalability.

When scaling Loki, operators should consider running several Loki processes partitioned by role (ingester, distributor, querier) rather than a single Loki process. Grafana Labs’ production setup contains .libsonnet files that demonstrates configuring separate components and scaling for resource usage.

Separate Query Scheduler

The Query frontend has an in-memory queue that can be moved out into a separate process similar to the Cortex Query Scheduler. This allows running multiple query frontends.

In order to run with the Query Scheduler, the frontend needs to be passed the scheduler’s address via -frontend.scheduler-address and the querier processes needs to be started with -querier.scheduler-address set to the same address. Both options can also be defined via the configuration file.

It is not valid to start the querier with both a configured frontend and a scheduler address.

The query scheduler process itself can be started via the -target=query-scheduler option of the Loki Docker image. For instance, docker run grafana/loki:latest -config.file=/cortex/config/cortex.yaml -target=query-scheduler -server.http-listen-port=8009 -server.grpc-listen-port=9009 starts the query scheduler listening on ports 8009 and 9009.

Memory ballast

In compute-constrained environments, garbage collection can become a significant performance factor. Frequently-run garbage collection interferes with running the application by using CPU resources. The use of memory ballast can mitigate the issue. Memory ballast allocates extra, but unused virtual memory in order to inflate the quantity of live heap space. Garbage collection is triggered by the growth of heap space usage. The inflated quantity of heap space reduces the perceived growth, so garbage collection occurs less frequently.

Configure memory ballast using the ballast_bytes configuration option.