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---
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type: reference, concepts
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---
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# Scaling and High Availability
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GitLab supports a number of options for scaling your self-managed instance and configuring high availability (HA).
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The solution you choose will be based on the level of scalability and
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availability you require. The easiest solutions are scalable, but not necessarily
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highly available.
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GitLab provides a service that is essential to most organizations: it
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enables people to collaborate on code in a timely fashion. Any downtime should
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therefore be short and planned. Due to the distributed nature
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of Git, developers can continue to commit code locally even when GitLab is not
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available. However, some GitLab features such as the issue tracker and
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continuous integration are not available when GitLab is down.
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If you require all GitLab functionality to be highly available,
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consider the options outlined below.
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**Keep in mind that all highly-available solutions come with a trade-off between
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cost/complexity and uptime**. The more uptime you want, the more complex the
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solution. And the more complex the solution, the more work is involved in
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setting up and maintaining it. High availability is not free and every HA
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solution should balance the costs against the benefits.
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There are many options when choosing a highly-available GitLab architecture. We
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recommend engaging with GitLab Support to choose the best architecture for your
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use case. This page contains recommendations based on
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experience with GitLab.com and internal scale testing.
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For detailed insight into how GitLab scales and configures GitLab.com, you can
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watch [this 1 hour Q&A](https://www.youtube.com/watch?v=uCU8jdYzpac)
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with [John Northrup](https://gitlab.com/northrup), and live questions coming in from some of our customers.
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## GitLab Components
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The following components need to be considered for a scaled or highly-available
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environment. In many cases, components can be combined on the same nodes to reduce
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complexity.
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- GitLab application nodes (Unicorn / Puma, Workhorse) - Web-requests (UI, API, Git over HTTP)
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- Sidekiq - Asynchronous/Background jobs
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- PostgreSQL - Database
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- Consul - Database service discovery and health checks/failover
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- PgBouncer - Database pool manager
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- Redis - Key/Value store (User sessions, cache, queue for Sidekiq)
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- Sentinel - Redis health check/failover manager
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- Gitaly - Provides high-level storage and RPC access to Git repositories
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- S3 Object Storage service[^4] and / or NFS storage servers[^5] for entities such as Uploads, Artifacts, LFS Objects, etc...
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- Load Balancer[^6] - Main entry point and handles load balancing for the GitLab application nodes.
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- Monitor - Prometheus and Grafana monitoring with auto discovery.
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## Scalable Architecture Examples
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When an organization reaches a certain threshold it will be necessary to scale
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the GitLab instance. Still, true high availability may not be necessary. There
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are options for scaling GitLab instances relatively easily without incurring the
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infrastructure and maintenance costs of full high availability.
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### Basic Scaling
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This is the simplest form of scaling and will work for the majority of
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cases. Backend components such as PostgreSQL, Redis, and storage are offloaded
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to their own nodes while the remaining GitLab components all run on 2 or more
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application nodes.
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This form of scaling also works well in a cloud environment when it is more
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cost effective to deploy several small nodes rather than a single
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larger one.
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- 1 PostgreSQL node
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- 1 Redis node
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- 1 Gitaly node
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- 1 or more Object Storage services[^4] and / or NFS storage server[^5]
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- 2 or more GitLab application nodes (Unicorn / Puma, Workhorse, Sidekiq)
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- 1 or more Load Balancer nodes[^6]
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- 1 Monitoring node (Prometheus, Grafana)
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#### Installation Instructions
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Complete the following installation steps in order. A link at the end of each
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section will bring you back to the Scalable Architecture Examples section so
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you can continue with the next step.
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1. [Load Balancer(s)](load_balancer.md)[^6]
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1. [Consul](consul.md)
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1. [PostgreSQL](database.md#postgresql-in-a-scaled-environment) with [PgBouncer](pgbouncer.md)
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1. [Redis](redis.md#redis-in-a-scaled-environment)
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1. [Gitaly](gitaly.md) (recommended) and / or [NFS](nfs.md)[^5]
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1. [GitLab application nodes](gitlab.md)
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- With [Object Storage service enabled](../gitaly/index.md#eliminating-nfs-altogether)[^4]
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1. [Monitoring node (Prometheus and Grafana)](monitoring_node.md)
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### Full Scaling
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For very large installations, it might be necessary to further split components
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for maximum scalability. In a fully-scaled architecture, the application node
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is split into separate Sidekiq and Unicorn/Workhorse nodes. One indication that
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this architecture is required is if Sidekiq queues begin to periodically increase
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in size, indicating that there is contention or there are not enough resources.
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- 1 or more PostgreSQL nodes
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- 1 or more Redis nodes
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- 1 or more Gitaly storage servers
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- 1 or more Object Storage services[^4] and / or NFS storage server[^5]
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- 2 or more Sidekiq nodes
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- 2 or more GitLab application nodes (Unicorn / Puma, Workhorse, Sidekiq)
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- 1 or more Load Balancer nodes[^6]
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- 1 Monitoring node (Prometheus, Grafana)
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## High Availability Architecture Examples
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When organizations require scaling *and* high availability, the following
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architectures can be utilized. As the introduction section at the top of this
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page mentions, there is a tradeoff between cost/complexity and uptime. Be sure
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this complexity is absolutely required before taking the step into full
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high availability.
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For all examples below, we recommend running Consul and Redis Sentinel separately
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from the services they monitor. If Consul is running on PostgreSQL nodes or Sentinel on
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Redis nodes, there is a potential that high resource usage by PostgreSQL or
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Redis could prevent communication between the other Consul and Sentinel nodes.
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This may lead to the other nodes believing a failure has occurred and initiating
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automated failover. Isolating Consul and Redis Sentinel from the services they monitor
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reduces the chances of a false positive that a failure has occurred.
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The examples below do not address high availability of NFS for objects. We recommend a
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S3 Object Storage service[^4] is used where possible over NFS but it's still required in
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certain cases[^5]. Where NFS is to be used some enterprises have access to NFS appliances
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that manage availability and this would be best case scenario.
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There are many options in between each of these examples. Work with GitLab Support
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to understand the best starting point for your workload and adapt from there.
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### Horizontal
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This is the simplest form of high availability and scaling. It requires the
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fewest number of individual servers (virtual or physical) but does have some
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trade-offs and limits.
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This architecture will work well for many GitLab customers. Larger customers
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may begin to notice certain events cause contention/high load - for example,
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cloning many large repositories with binary files, high API usage, a large
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number of enqueued Sidekiq jobs, and so on. If this happens, you should consider
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moving to a hybrid or fully distributed architecture depending on what is causing
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the contention.
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- 3 PostgreSQL nodes
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- 3 Redis nodes
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- 3 Consul / Sentinel nodes
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- 2 or more GitLab application nodes (Unicorn / Puma, Workhorse, Sidekiq)
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- 1 Gitaly storage servers
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- 1 Object Storage service[^4] and / or NFS storage server[^5]
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- 1 or more Load Balancer nodes[^6]
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- 1 Monitoring node (Prometheus, Grafana)
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![Horizontal architecture diagram](img/horizontal.png)
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### Hybrid
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In this architecture, certain components are split on dedicated nodes so high
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resource usage of one component does not interfere with others. In larger
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environments this is a good architecture to consider if you foresee or do have
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contention due to certain workloads.
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- 3 PostgreSQL nodes
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- 1 PgBouncer node
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- 3 Redis nodes
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- 3 Consul / Sentinel nodes
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- 2 or more Sidekiq nodes
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- 2 or more GitLab application nodes (Unicorn / Puma, Workhorse, Sidekiq)
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- 1 Gitaly storage servers
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- 1 Object Storage service[^4] and / or NFS storage server[^5]
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- 1 or more Load Balancer nodes[^6]
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- 1 Monitoring node (Prometheus, Grafana)
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![Hybrid architecture diagram](img/hybrid.png)
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### Fully Distributed
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This architecture scales to hundreds of thousands of users and projects and is
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the basis of the GitLab.com architecture. While this scales well it also comes
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with the added complexity of many more nodes to configure, manage, and monitor.
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- 3 PostgreSQL nodes
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- 1 or more PgBouncer nodes (with associated internal load balancers)
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- 4 or more Redis nodes (2 separate clusters for persistent and cache data)
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- 3 Consul nodes
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- 3 Sentinel nodes
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- Multiple dedicated Sidekiq nodes (Split into real-time, best effort, ASAP,
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CI Pipeline and Pull Mirror sets)
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- 2 or more Git nodes (Git over SSH/Git over HTTP)
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- 2 or more API nodes (All requests to `/api`)
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- 2 or more Web nodes (All other web requests)
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- 2 or more Gitaly storage servers
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- 1 or more Object Storage services[^4] and / or NFS storage servers[^5]
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- 1 or more Load Balancer nodes[^6]
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- 1 Monitoring node (Prometheus, Grafana)
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![Fully Distributed architecture diagram](img/fully-distributed.png)
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## Reference Architecture Recommendations
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The Support and Quality teams build, performance test, and validate Reference
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Architectures that support large numbers of users. The specifications below are
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a representation of this work so far and may be adjusted in the future based on
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additional testing and iteration.
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The architectures have been tested with specific coded workloads, and the
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throughputs used for testing were calculated based on sample customer data. We
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test each endpoint type with the following number of requests per second (RPS)
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per 1000 users:
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- API: 20 RPS
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- Web: 2 RPS
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- Git: 2 RPS
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NOTE: **Note:** Note that depending on your workflow the below recommended
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reference architectures may need to be adapted accordingly. Your workload
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is influenced by factors such as - but not limited to - how active your users are,
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how much automation you use, mirroring, and repo/change size. Additionally the
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shown memory values are given directly by [GCP machine types](https://cloud.google.com/compute/docs/machine-types).
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On different cloud vendors a best effort like for like can be used.
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### 2,000 User Configuration
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- **Supported Users (approximate):** 2,000
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- **Test RPS Rates:** API: 40 RPS, Web: 4 RPS, Git: 4 RPS
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- **Known Issues:** For the latest list of known performance issues head
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[here](https://gitlab.com/gitlab-org/gitlab/issues?label_name%5B%5D=Quality%3Aperformance-issues).
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| Service | Nodes | Configuration | GCP type |
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| ----------------------------|-------|-----------------------|---------------|
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| GitLab Rails[^1] | 3 | 8 vCPU, 7.2GB Memory | n1-highcpu-8 |
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| PostgreSQL | 3 | 2 vCPU, 7.5GB Memory | n1-standard-2 |
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| PgBouncer | 3 | 2 vCPU, 1.8GB Memory | n1-highcpu-2 |
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| Gitaly[^2] [^7] | X | 4 vCPU, 15GB Memory | n1-standard-4 |
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| Redis[^3] | 3 | 2 vCPU, 7.5GB Memory | n1-standard-2 |
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| Consul + Sentinel[^3] | 3 | 2 vCPU, 1.8GB Memory | n1-highcpu-2 |
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| Sidekiq | 4 | 2 vCPU, 7.5GB Memory | n1-standard-2 |
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| S3 Object Storage[^4] | - | - | - |
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| NFS Server[^5] [^7] | 1 | 4 vCPU, 3.6GB Memory | n1-highcpu-4 |
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| Monitoring node | 1 | 2 vCPU, 1.8GB Memory | n1-highcpu-2 |
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| External load balancing node[^6] | 1 | 2 vCPU, 1.8GB Memory | n1-highcpu-2 |
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| Internal load balancing node[^6] | 1 | 2 vCPU, 1.8GB Memory | n1-highcpu-2 |
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### 5,000 User Configuration
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- **Supported Users (approximate):** 5,000
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- **Test RPS Rates:** API: 100 RPS, Web: 10 RPS, Git: 10 RPS
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- **Known Issues:** For the latest list of known performance issues head
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|
|
[here](https://gitlab.com/gitlab-org/gitlab/issues?label_name%5B%5D=Quality%3Aperformance-issues).
|
|
|
|
|
|
|
|
| Service | Nodes | Configuration | GCP type |
|
|
|
|
| ----------------------------|-------|-----------------------|---------------|
|
2020-03-09 13:42:32 +05:30
|
|
|
| GitLab Rails[^1] | 3 | 16 vCPU, 14.4GB Memory | n1-highcpu-16 |
|
2020-01-01 13:55:28 +05:30
|
|
|
| PostgreSQL | 3 | 2 vCPU, 7.5GB Memory | n1-standard-2 |
|
|
|
|
| PgBouncer | 3 | 2 vCPU, 1.8GB Memory | n1-highcpu-2 |
|
2020-03-09 13:42:32 +05:30
|
|
|
| Gitaly[^2] [^7] | X | 8 vCPU, 30GB Memory | n1-standard-8 |
|
|
|
|
| Redis[^3] | 3 | 2 vCPU, 7.5GB Memory | n1-standard-2 |
|
|
|
|
| Consul + Sentinel[^3] | 3 | 2 vCPU, 1.8GB Memory | n1-highcpu-2 |
|
2020-01-01 13:55:28 +05:30
|
|
|
| Sidekiq | 4 | 2 vCPU, 7.5GB Memory | n1-standard-2 |
|
2020-03-09 13:42:32 +05:30
|
|
|
| S3 Object Storage[^4] | - | - | - |
|
|
|
|
| NFS Server[^5] [^7] | 1 | 4 vCPU, 3.6GB Memory | n1-highcpu-4 |
|
2020-01-01 13:55:28 +05:30
|
|
|
| Monitoring node | 1 | 2 vCPU, 1.8GB Memory | n1-highcpu-2 |
|
2020-03-09 13:42:32 +05:30
|
|
|
| External load balancing node[^6] | 1 | 2 vCPU, 1.8GB Memory | n1-highcpu-2 |
|
|
|
|
| Internal load balancing node[^6] | 1 | 2 vCPU, 1.8GB Memory | n1-highcpu-2 |
|
2020-01-01 13:55:28 +05:30
|
|
|
|
2019-12-21 20:55:43 +05:30
|
|
|
### 10,000 User Configuration
|
|
|
|
|
|
|
|
- **Supported Users (approximate):** 10,000
|
2019-12-26 22:10:19 +05:30
|
|
|
- **Test RPS Rates:** API: 200 RPS, Web: 20 RPS, Git: 20 RPS
|
2020-01-01 13:55:28 +05:30
|
|
|
- **Known Issues:** For the latest list of known performance issues head
|
|
|
|
[here](https://gitlab.com/gitlab-org/gitlab/issues?label_name%5B%5D=Quality%3Aperformance-issues).
|
2019-12-21 20:55:43 +05:30
|
|
|
|
2019-12-26 22:10:19 +05:30
|
|
|
| Service | Nodes | Configuration | GCP type |
|
|
|
|
| ----------------------------|-------|-----------------------|---------------|
|
2020-03-09 13:42:32 +05:30
|
|
|
| GitLab Rails[^1] | 3 | 32 vCPU, 28.8GB Memory | n1-highcpu-32 |
|
2019-12-26 22:10:19 +05:30
|
|
|
| PostgreSQL | 3 | 4 vCPU, 15GB Memory | n1-standard-4 |
|
|
|
|
| PgBouncer | 3 | 2 vCPU, 1.8GB Memory | n1-highcpu-2 |
|
2020-03-09 13:42:32 +05:30
|
|
|
| Gitaly[^2] [^7] | X | 16 vCPU, 60GB Memory | n1-standard-16 |
|
|
|
|
| Redis[^3] - Cache | 3 | 4 vCPU, 15GB Memory | n1-standard-4 |
|
|
|
|
| Redis[^3] - Queues / Shared State | 3 | 4 vCPU, 15GB Memory | n1-standard-4 |
|
|
|
|
| Redis Sentinel[^3] - Cache | 3 | 1 vCPU, 1.7GB Memory | g1-small |
|
|
|
|
| Redis Sentinel[^3] - Queues / Shared State | 3 | 1 vCPU, 1.7GB Memory | g1-small |
|
2019-12-26 22:10:19 +05:30
|
|
|
| Consul | 3 | 2 vCPU, 1.8GB Memory | n1-highcpu-2 |
|
2020-03-09 13:42:32 +05:30
|
|
|
| Sidekiq | 4 | 4 vCPU, 15GB Memory | n1-standard-4 |
|
|
|
|
| S3 Object Storage[^4] | - | - | - |
|
|
|
|
| NFS Server[^5] [^7] | 1 | 4 vCPU, 3.6GB Memory | n1-highcpu-4 |
|
2019-12-26 22:10:19 +05:30
|
|
|
| Monitoring node | 1 | 4 vCPU, 3.6GB Memory | n1-highcpu-4 |
|
2020-03-09 13:42:32 +05:30
|
|
|
| External load balancing node[^6] | 1 | 2 vCPU, 1.8GB Memory | n1-highcpu-2 |
|
|
|
|
| Internal load balancing node[^6] | 1 | 2 vCPU, 1.8GB Memory | n1-highcpu-2 |
|
2019-12-21 20:55:43 +05:30
|
|
|
|
|
|
|
### 25,000 User Configuration
|
|
|
|
|
|
|
|
- **Supported Users (approximate):** 25,000
|
2019-12-26 22:10:19 +05:30
|
|
|
- **Test RPS Rates:** API: 500 RPS, Web: 50 RPS, Git: 50 RPS
|
2020-01-01 13:55:28 +05:30
|
|
|
- **Known Issues:** For the latest list of known performance issues head
|
|
|
|
[here](https://gitlab.com/gitlab-org/gitlab/issues?label_name%5B%5D=Quality%3Aperformance-issues).
|
2019-12-21 20:55:43 +05:30
|
|
|
|
2019-12-26 22:10:19 +05:30
|
|
|
| Service | Nodes | Configuration | GCP type |
|
|
|
|
| ----------------------------|-------|-----------------------|---------------|
|
2020-03-09 13:42:32 +05:30
|
|
|
| GitLab Rails[^1] | 7 | 32 vCPU, 28.8GB Memory | n1-highcpu-32 |
|
2019-12-26 22:10:19 +05:30
|
|
|
| PostgreSQL | 3 | 8 vCPU, 30GB Memory | n1-standard-8 |
|
|
|
|
| PgBouncer | 3 | 2 vCPU, 1.8GB Memory | n1-highcpu-2 |
|
2020-03-09 13:42:32 +05:30
|
|
|
| Gitaly[^2] [^7] | X | 32 vCPU, 120GB Memory | n1-standard-32 |
|
|
|
|
| Redis[^3] - Cache | 3 | 4 vCPU, 15GB Memory | n1-standard-4 |
|
|
|
|
| Redis[^3] - Queues / Shared State | 3 | 4 vCPU, 15GB Memory | n1-standard-4 |
|
|
|
|
| Redis Sentinel[^3] - Cache | 3 | 1 vCPU, 1.7GB Memory | g1-small |
|
|
|
|
| Redis Sentinel[^3] - Queues / Shared State | 3 | 1 vCPU, 1.7GB Memory | g1-small |
|
2019-12-26 22:10:19 +05:30
|
|
|
| Consul | 3 | 2 vCPU, 1.8GB Memory | n1-highcpu-2 |
|
2020-03-09 13:42:32 +05:30
|
|
|
| Sidekiq | 4 | 4 vCPU, 15GB Memory | n1-standard-4 |
|
|
|
|
| S3 Object Storage[^4] | - | - | - |
|
|
|
|
| NFS Server[^5] [^7] | 1 | 4 vCPU, 3.6GB Memory | n1-highcpu-4 |
|
2019-12-26 22:10:19 +05:30
|
|
|
| Monitoring node | 1 | 4 vCPU, 3.6GB Memory | n1-highcpu-4 |
|
2020-03-09 13:42:32 +05:30
|
|
|
| External load balancing node[^6] | 1 | 2 vCPU, 1.8GB Memory | n1-highcpu-2 |
|
|
|
|
| Internal load balancing node[^6] | 1 | 4 vCPU, 3.6GB Memory | n1-highcpu-4 |
|
2019-12-21 20:55:43 +05:30
|
|
|
|
|
|
|
### 50,000 User Configuration
|
|
|
|
|
|
|
|
- **Supported Users (approximate):** 50,000
|
2019-12-26 22:10:19 +05:30
|
|
|
- **Test RPS Rates:** API: 1000 RPS, Web: 100 RPS, Git: 100 RPS
|
2020-01-01 13:55:28 +05:30
|
|
|
- **Known Issues:** For the latest list of known performance issues head
|
|
|
|
[here](https://gitlab.com/gitlab-org/gitlab/issues?label_name%5B%5D=Quality%3Aperformance-issues).
|
2019-12-26 22:10:19 +05:30
|
|
|
|
|
|
|
| Service | Nodes | Configuration | GCP type |
|
|
|
|
| ----------------------------|-------|-----------------------|---------------|
|
2020-03-09 13:42:32 +05:30
|
|
|
| GitLab Rails[^1] | 15 | 32 vCPU, 28.8GB Memory | n1-highcpu-32 |
|
|
|
|
| PostgreSQL | 3 | 16 vCPU, 60GB Memory | n1-standard-16 |
|
2019-12-26 22:10:19 +05:30
|
|
|
| PgBouncer | 3 | 2 vCPU, 1.8GB Memory | n1-highcpu-2 |
|
2020-03-09 13:42:32 +05:30
|
|
|
| Gitaly[^2] [^7] | X | 64 vCPU, 240GB Memory | n1-standard-64 |
|
|
|
|
| Redis[^3] - Cache | 3 | 4 vCPU, 15GB Memory | n1-standard-4 |
|
|
|
|
| Redis[^3] - Queues / Shared State | 3 | 4 vCPU, 15GB Memory | n1-standard-4 |
|
|
|
|
| Redis Sentinel[^3] - Cache | 3 | 1 vCPU, 1.7GB Memory | g1-small |
|
|
|
|
| Redis Sentinel[^3] - Queues / Shared State | 3 | 1 vCPU, 1.7GB Memory | g1-small |
|
2019-12-26 22:10:19 +05:30
|
|
|
| Consul | 3 | 2 vCPU, 1.8GB Memory | n1-highcpu-2 |
|
2020-03-09 13:42:32 +05:30
|
|
|
| Sidekiq | 4 | 4 vCPU, 15GB Memory | n1-standard-4 |
|
|
|
|
| NFS Server[^5] [^7] | 1 | 4 vCPU, 3.6GB Memory | n1-highcpu-4 |
|
|
|
|
| S3 Object Storage[^4] | - | - | - |
|
2019-12-26 22:10:19 +05:30
|
|
|
| Monitoring node | 1 | 4 vCPU, 3.6GB Memory | n1-highcpu-4 |
|
2020-03-09 13:42:32 +05:30
|
|
|
| External load balancing node[^6] | 1 | 2 vCPU, 1.8GB Memory | n1-highcpu-2 |
|
|
|
|
| Internal load balancing node[^6] | 1 | 8 vCPU, 7.2GB Memory | n1-highcpu-8 |
|
2019-12-26 22:10:19 +05:30
|
|
|
|
2020-03-09 13:42:32 +05:30
|
|
|
[^1]: In our architectures we run each GitLab Rails node using the Puma webserver
|
|
|
|
and have its number of workers set to 90% of available CPUs along with 4 threads.
|
2019-12-21 20:55:43 +05:30
|
|
|
|
2020-03-09 13:42:32 +05:30
|
|
|
[^2]: Gitaly node requirements are dependent on customer data, specifically the number of
|
2020-01-01 13:55:28 +05:30
|
|
|
projects and their sizes. We recommend 2 nodes as an absolute minimum for HA environments
|
|
|
|
and at least 4 nodes should be used when supporting 50,000 or more users.
|
2020-03-09 13:42:32 +05:30
|
|
|
We also recommend that each Gitaly node should store no more than 5TB of data
|
|
|
|
and have the number of [`gitaly-ruby` workers](../gitaly/index.md#gitaly-ruby)
|
|
|
|
set to 20% of available CPUs. Additional nodes should be considered in conjunction
|
|
|
|
with a review of expected data size and spread based on the recommendations above.
|
|
|
|
|
|
|
|
[^3]: Recommended Redis setup differs depending on the size of the architecture.
|
|
|
|
For smaller architectures (up to 5,000 users) we suggest one Redis cluster for all
|
|
|
|
classes and that Redis Sentinel is hosted alongside Consul.
|
|
|
|
For larger architectures (10,000 users or more) we suggest running a separate
|
|
|
|
[Redis Cluster](redis.md#running-multiple-redis-clusters) for the Cache class
|
|
|
|
and another for the Queues and Shared State classes respectively. We also recommend
|
|
|
|
that you run the Redis Sentinel clusters separately as well for each Redis Cluster.
|
|
|
|
|
|
|
|
[^4]: For data objects such as LFS, Uploads, Artifacts, etc... We recommend a S3 Object Storage
|
2019-12-26 22:10:19 +05:30
|
|
|
where possible over NFS due to better performance and availability. Several types of objects
|
|
|
|
are supported for S3 storage - [Job artifacts](../job_artifacts.md#using-object-storage),
|
|
|
|
[LFS](../lfs/lfs_administration.md#storing-lfs-objects-in-remote-object-storage),
|
|
|
|
[Uploads](../uploads.md#using-object-storage-core-only),
|
|
|
|
[Merge Request Diffs](../merge_request_diffs.md#using-object-storage),
|
|
|
|
[Packages](../packages/index.md#using-object-storage) (Optional Feature),
|
|
|
|
[Dependency Proxy](../packages/dependency_proxy.md#using-object-storage) (Optional Feature).
|
|
|
|
|
2020-03-09 13:42:32 +05:30
|
|
|
[^5]: NFS storage server is still required for [GitLab Pages](https://gitlab.com/gitlab-org/gitlab-pages/issues/196)
|
2019-12-26 22:10:19 +05:30
|
|
|
and optionally for CI Job Incremental Logging
|
2020-03-09 13:42:32 +05:30
|
|
|
([can be switched to use Redis instead](../job_logs.md#new-incremental-logging-architecture)).
|
|
|
|
|
|
|
|
[^6]: Our architectures have been tested and validated with [HAProxy](https://www.haproxy.org/)
|
|
|
|
as the load balancer. However other reputable load balancers with similar feature sets
|
|
|
|
should also work instead but be aware these aren't validated.
|
|
|
|
|
|
|
|
[^7]: We strongly recommend that the Gitaly and / or NFS nodes are set up with SSD disks over
|
|
|
|
HDD with a throughput of at least 8,000 IOPS for read operations and 2,000 IOPS for write
|
|
|
|
as these components have heavy I/O. These IOPS values are recommended only as a starter
|
|
|
|
as with time they may be adjusted higher or lower depending on the scale of your
|
|
|
|
environment's workload. If you're running the environment on a Cloud provider
|
|
|
|
you may need to refer to their documentation on how configure IOPS correctly.
|