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Provision GitLab Cloud Native Hybrid on AWS EKS (FREE SELF)

GitLab "Cloud Native Hybrid" is a hybrid of the cloud native technology Kubernetes (EKS) and EC2. While as much of the GitLab application as possible runs in Kubernetes or on AWS services (PaaS), the GitLab service Gitaly must still be run on EC2. Gitaly is a layer designed to overcome limitations of the Git binaries in a horizontally scaled architecture. You can read more here about why Gitaly was built and why the limitations of Git mean that it must currently run on instance compute in Git Characteristics That Make Horizontal Scaling Difficult.

Amazon provides a managed Kubernetes service offering known as Amazon Elastic Kubernetes Service (EKS).

Tested AWS Bill of Materials by reference architecture size

GitLab Cloud Native Hybrid Ref Arch GitLab Baseline Performance Test Results Omnibus on Instances AWS Bill of Materials (BOM) for CNH AWS Build Performance Testing Results for CNH CNH Cost Estimate 3 AZs*
2K Omnibus 2K Baseline 2K Cloud Native Hybrid on EKS GPT Test Results 1 YR Ec2 Compute Savings + 1 YR RDS & ElastiCache RIs
(2 AZ Cost Estimate is in BOM Below)
3K 3k Baseline 3K Cloud Native Hybrid on EKS 3K Full Fixed Scale GPT Test Results

3K Elastic Auto Scale GPT Test Results
1 YR Ec2 Compute Savings + 1 YR RDS & ElastiCache RIs
(2 AZ Cost Estimate is in BOM Below)
5K 5k Baseline 5K Cloud Native Hybrid on EKS 5K Full Fixed Scale GPT Test Results

5K AutoScale from 25% GPT Test Results
1 YR Ec2 Compute Savings + 1 YR RDS & ElastiCache RIs
10K 10k Baseline 10K Cloud Native Hybrid on EKS 10K Full Fixed Scale GPT Test Results

10K Elastic Auto Scale GPT Test Results
10K 1 YR Ec2 Compute Savings + 1 YR RDS & ElastiCache RIs
50K 50k Baseline 50K Cloud Native Hybrid on EKS 50K Full Fixed Scale GPT Test Results

10K Elastic Auto Scale GPT Test Results
50K 1 YR Ec2 Compute Savings + 1 YR RDS & ElastiCache RIs

*Cost calculations for actual implementations are a rough guideline with the following considerations:

  • Actual choices about instance types should be based on GPT testing of your configuration.
  • The first year of actual usage will reveal potential savings due to lower than expected usage, especially for ramping migrations where the full loading takes months, so be careful not to commit to savings plans too early or for too long.
  • The cost estimates assume full scale of the Kubernetes cluster nodes 24 x 7 x 365. Savings due to 'idling scale-in' are not considered because they are highly dependent on the usage patterns of the specific implementation.
  • Costs such as GitLab Runners, data egress and storage costs are not included as they are very dependent on the configuration of a specific implementation and on development behaviors (for example, frequency of committing or frequency of builds).
  • These estimates will change over time as GitLab tests and optimizes compute choices.

Available Infrastructure as Code for GitLab Cloud Native Hybrid

The GitLab Environment Toolkit (GET) is an effort made by GitLab to create a multi-cloud, multi-GitLab (Omnibus + Cloud Native Hybrid) toolkit to provision GitLab. GET is developed by GitLab developers and is open to community contributions. GET is where GitLab is investing its resources as the primary option for Infrastructure as Code, and is being actively used in production as a part of GitLab Dedicated.

For more information about the project, see GitLab Environment Toolkit.

The AWS Quick Start for GitLab Cloud Native Hybrid on EKS is developed by AWS, GitLab, and the community that contributes to AWS Quick Starts, whether directly to the GitLab Quick Start or to the underlying Quick Start dependencies GitLab inherits (for example, EKS Quick Start).

GET is recommended for most deployments. The AWS Quick Start can be used if the IaC language of choice is CloudFormation, integration with AWS services like Control Tower is desired, or preference for a UI-driven configuration experience or when any aspect in the below table is an overriding concern.

NOTE: This automation is in Open Beta. GitLab is working with AWS on resolving the outstanding issues before it is fully released. You can subscribe to this issue to be notified of progress and release announcements: AWS Quick Start for GitLab Cloud Native Hybrid on EKS Status: Beta.

The Beta version deploys Aurora PostgreSQL, but the release version will deploy Amazon RDS PostgreSQL due to known issues with Aurora. All performance testing results will also be redone after this change has been made.

AWS Quick Start for GitLab Cloud Native Hybrid on EKS GitLab Environment Toolkit (GET)
Overview and Vision AWS Quick Start GitLab Environment Toolkit
Licensing Open Source (Apache 2.0) GitLab Enterprise Edition license (GitLab Premium tier)
GitLab Support GitLab Beta Support GitLab GA Support
GitLab Reference Architecture Compliant Yes Yes
GitLab Performance Tool (GPT) Tested Yes Yes
Amazon Well Architected Compliant Yes
(via Quick Start program)
Critical portions
reviewed by AWS
Target Cloud Platforms AWS AWS, Google, Azure
IaC Languages CloudFormation (Quick Starts) Terraform, Ansible
Community Contributions and Participation (EcoSystem) GitLab QSG: Getting Started
For QSG Dependencies (for example, EKS): Substantial
Getting Started
Compatible with AWS Meta-Automation Services (via CloudFormation) - AWS Service Catalog (Direct Import)
- ServiceNow via an AWS Service Catalog Connector
- Jira Service Manager via an AWS Service Catalog Connector
- AWS Control Tower (Integration)
- Quick Starts
- AWS SaaS Factory
No
Results in a Ready-to-Use instance Yes Manual Actions or
Supplemental IaC Required
Configuration Features
Can deploy Omnibus GitLab (non-Kubernetes) No Yes
Can deploy Single Instance Omnibus GitLab (non-Kubernetes) No Yes
Complete Internal Encryption 85%, Targeting 100% Manual
AWS GovCloud Support Yes TBD
No Code Form-Based Deployment User Experience Available Yes No
Full IaC User Experience Available Yes Yes

Two and Three Zone High Availability

While GitLab Reference Architectures generally encourage three zone redundancy, AWS Quick Starts and AWS Well Architected consider two zone redundancy as AWS Well Architected. Individual implementations should weigh the costs of two and three zone configurations against their own high availability requirements for a final configuration.

Gitaly Cluster uses a consistency voting system to implement strong consistency between synchronized nodes. Regardless of the number of availability zones implemented, there will always need to be a minimum of three Gitaly and three Praefect nodes in the cluster to avoid voting stalemates cause by an even number of nodes.

Streamlined Performance Testing of AWS Quick Start Prepared GitLab Instances

A set of performance testing instructions have been abbreviated for testing a GitLab instance prepared using the AWS Quick Start for GitLab Cloud Native Hybrid on EKS. They assume zero familiarity with GitLab Performance Tool. They can be accessed here: Performance Testing an Instance Prepared using AWS Quick Start for GitLab Cloud Native Hybrid on EKS.

AWS GovCloud Support for AWS Quick Start for GitLab CNH on EKS

The AWS Quick Start for GitLab Cloud Native Hybrid on EKS has been tested with GovCloud and works with the following restrictions and understandings.

  • GovCloud does not have public Route53 hosted zones, so you must set the following parameters:

    CloudFormation Quick Start form field CloudFormation Parameter Setting
    Create Route 53 hosted zone CreatedHostedZone No
    Request AWS Certificate Manager SSL certificate CreateSslCertificate No
  • The Quick Start creates public load balancer IPs, so that you can easily configure your local hosts file to get to the GUI for GitLab when deploying tests. However, you may need to manually alter this if public load balancers are not part of your provisioning plan. We are planning to make non-public load balancers a configuration option issue link: Short Term: Documentation and/or Automation for private GitLab instance with no internet Ingress

  • As of 2021-08-19, AWS GovCloud has Graviton instances for Amazon RDS PostgreSQL available, but does not for ElastiCache Redis.

  • It is challenging to get the Quick Start template to load in GovCloud from the Standard Quick Start URL, so the generic ones are provided here:

AWS PaaS qualified for all GitLab implementations

For both Omnibus GitLab or Cloud Native Hybrid implementations, the following GitLab Service roles can be performed by AWS Services (PaaS). Any PaaS solutions that require preconfigured sizing based on the scale of your instance will also be listed in the per-instance size Bill of Materials lists. Those PaaS that do not require specific sizing, are not repeated in the BOM lists (for example, AWS Certification Manager).

These services have been tested with GitLab.

Some services, such as log aggregation, outbound email are not specified by GitLab, but where provided are noted.

GitLab Services AWS PaaS (Tested) Provided by AWS Cloud
Native Hybrid Quick Start
Tested PaaS Mentioned in Reference Architectures
PostgreSQL Database Amazon RDS PostgreSQL Yes.
Redis Caching Redis ElastiCache Yes.
Gitaly Cluster (Git Repository Storage)
(Including Praefect and PostgreSQL)
ASG and Instances Yes - ASG and Instances
Note: Gitaly cannot be put into a Kubernetes Cluster.
All GitLab storages besides Git Repository Storage
(Includes Git-LFS which is S3 Compatible)
AWS S3 Yes
Tested PaaS for Supplemental Services
Front End Load Balancing AWS ELB Yes
Internal Load Balancing AWS ELB Yes
Outbound Email Services AWS Simple Email Service (SES) Yes
Certificate Authority and Management AWS Certificate Manager (ACM) Yes
DNS AWS Route53 (tested) Yes
GitLab and Infrastructure Log Aggregation AWS CloudWatch Logs Yes (ContainerInsights Agent for EKS)
Infrastructure Performance Metrics AWS CloudWatch Metrics Yes
Supplemental Services and Configurations (Tested)
Prometheus for GitLab AWS EKS (Cloud Native Only) Yes
Grafana for GitLab AWS EKS (Cloud Native Only) Yes
Administrative Access to GitLab Backend Bastion Host in VPC Yes - HA - Preconfigured for Cluster Management.
Encryption (In Transit / At Rest) AWS KMS Yes
Secrets Storage for Provisioning AWS Secrets Manager Yes
Configuration Data for Provisioning AWS Parameter Store Yes
AutoScaling Kubernetes EKS AutoScaling Agent Yes

GitLab Cloud Native Hybrid on AWS

2K Cloud Native Hybrid on EKS

2K Cloud Native Hybrid on EKS Bill of Materials (BOM)

GPT Test Results

  • TBD

Deploy Now Deploy Now links leverage the AWS Quick Start automation and only pre-populate the number of instances and instance types for the Quick Start based on the Bill of Materials below. You must provide appropriate input for all other parameters by following the guidance in the Quick Start documentation's Deployment steps section.

  • Deploy Now: AWS Quick Start for 2 AZs
  • Deploy Now: AWS Quick Start for 3 AZs

NOTE: On Demand pricing is used in this table for comparisons, but should not be used for budgeting nor purchasing AWS resources for a GitLab production instance. Do not use these tables to calculate actual monthly or yearly price estimates, instead use the AWS Calculator links in the "GitLab on AWS Compute" table above and customize it with your desired savings plan.

BOM Total: = Bill of Materials Total - this is what you use when building this configuration

Ref Arch Raw Total: = The totals if the configuration was built on regular VMs with no PaaS services. Configuring on pure VMs generally requires additional VMs for cluster management activities.

Idle Configuration (Scaled-In) = can be used to scale-in during time of low demand and/or for warm standby Geo instances. Requires configuration, testing and management of EKS autoscaling to meet your internal requirements.

Service Ref Arch Raw (Full Scaled) AWS BOM Example Full Scaled Cost
(On Demand, US East)
Webservice 12 vCPU,16 GB
Sidekiq 2 vCPU, 8 GB
Supporting services such as NGINX, Prometheus, etc 2 vCPU, 8 GB
GitLab Ref Arch Raw Total K8s Node Capacity 16 vCPU, 32 GB
One Node for Overhead and Miscellaneous (EKS Cluster AutoScaler, Grafana, Prometheus, etc) + 8 vCPU, 16GB
Grand Total w/ Overheads
Minimum hosts = 3
24 vCPU, 48 GB c5.2xlarge
(8vCPU/16GB) x 3 nodes
24 vCPU, 48 GB
$1.02/hr
Idle Configuration (Scaled-In) 16 vCPU, 32 GB c5.2xlarge x 2 $0.68/hr

NOTE: If EKS node autoscaling is employed, it is likely that your average loading will run lower than this, especially during non-working hours and weekends.

Non-Kubernetes Compute Ref Arch Raw Total AWS BOM
(Directly Usable in AWS Quick Start)
Example Cost
US East, 3 AZ
Example Cost
US East, 2 AZ
Bastion Host (Quick Start) 1 HA instance in ASG t2.micro for prod, m4.2xlarge for performance testing
PostgreSQL
AWS Amazon RDS PostgreSQL Nodes Configuration (GPT tested)
2vCPU, 7.5 GB
Tested with Graviton ARM
db.r6g.large x 3 nodes
(6vCPU, 48 GB)
3 nodes x $0.26 = $0.78/hr 3 nodes x $0.26 = $0.78/hr
Redis 1vCPU, 3.75GB
(across 12 nodes for Redis Cache, Redis Queues/Shared State, Sentinel Cache, Sentinel Queues/Shared State)
cache.m6g.large x 3 nodes
(6vCPU, 19GB)
3 nodes x $0.15 = $0.45/hr 2 nodes x $0.15 = $0.30/hr
Gitaly Cluster Details Gitaly & Praefect Must Have an Uneven Node Count for HA
Gitaly Instances (in ASG) 12 vCPU, 45GB
(across 3 nodes)
m5.xlarge x 3 nodes
(48 vCPU, 180 GB)
$0.192 x 3 = $0.58/hr $0.192 x 3 = $0.58/hr
The GitLab Reference architecture for 2K is not Highly Available and therefore has a single Gitaly no Praefect. AWS Quick Starts MUST be HA, so it implements Praefect from the 3K Ref Architecture to meet that requirement
Praefect (Instances in ASG with load balancer) 6 vCPU, 10 GB
(across 3 nodes)
c5.large x 3 nodes
(6 vCPU, 12 GB)
$0.09 x 3 = $0.21/hr $0.09 x 3 = $0.21/hr
Praefect PostgreSQL(1) (AWS RDS) 6 vCPU, 5.4 GB
(across 3 nodes)
Not applicable; reuses GitLab PostgreSQL $0 $0
Internal Load Balancing Node 2 vCPU, 1.8 GB AWS ELB $0.10/hr $0.10/hr

3K Cloud Native Hybrid on EKS

3K Cloud Native Hybrid on EKS Bill of Materials (BOM)

GPT Test Results

  • 3K Full Fixed Scale GPT Test Results

  • 3K AutoScale from 25% GPT Test Results

    Elastic Auto Scale GPT Test Results start with an idle scaled cluster and then start the standard GPT test to determine if the EKS Auto Scaler performs well enough to keep up with performance test demands. In general this is substantially harder ramping than the scaling required when the ramping is driven my normal production workloads.

Deploy Now

Deploy Now links leverage the AWS Quick Start automation and only pre-populate the number of instances and instance types for the Quick Start based on the Bill of Materials below. You must provide appropriate input for all other parameters by following the guidance in the Quick Start documentation's Deployment steps section.

NOTE: On Demand pricing is used in this table for comparisons, but should not be used for budgeting nor purchasing AWS resources for a GitLab production instance. Do not use these tables to calculate actual monthly or yearly price estimates, instead use the AWS Calculator links in the "GitLab on AWS Compute" table above and customize it with your desired savings plan.

BOM Total: = Bill of Materials Total - this is what you use when building this configuration

Ref Arch Raw Total: = The totals if the configuration was built on regular VMs with no PaaS services. Configuring on pure VMs generally requires additional VMs for cluster management activities.

Idle Configuration (Scaled-In) = can be used to scale-in during time of low demand and/or for warm standby Geo instances. Requires configuration, testing and management of EKS autoscaling to meet your internal requirements.

Service Ref Arch Raw (Full Scaled) AWS BOM Example Full Scaled Cost
(On Demand, US East)
Webservice 4 pods x (5 vCPU & 6.25 GB) =
20 vCPU, 25 GB
Sidekiq 8 pods x (1 vCPU & 2 GB) =
8 vCPU, 16 GB
Supporting services such as NGINX, Prometheus, etc 2 allocations x (2 vCPU and 7.5 GB) =
4 vCPU, 15 GB
GitLab Ref Arch Raw Total K8s Node Capacity 32 vCPU, 56 GB
One Node for Overhead and Miscellaneous (EKS Cluster AutoScaler, Grafana, Prometheus, etc) + 16 vCPU, 32GB
Grand Total w/ Overheads Full Scale
Minimum hosts = 3
48 vCPU, 88 GB c5.2xlarge (8vCPU/16GB) x 5 nodes
40 vCPU, 80 GB
Full Fixed Scale GPT Test Results
$1.70/hr
Possible Idle Configuration (Scaled-In 75% - round up)
Pod autoscaling must be also adjusted to enable lower idling configuration.
24 vCPU, 48 GB c5.2xlarge x 4 $1.36/hr

Other combinations of node type and quantity can be used to meet the Grand Total. Due to the properties of pods, hosts that are overly small may have significant unused capacity.

NOTE: If EKS node autoscaling is employed, it is likely that your average loading will run lower than this, especially during non-working hours and weekends.

Non-Kubernetes Compute Ref Arch Raw Total AWS BOM
(Directly Usable in AWS Quick Start)
Example Cost
US East, 3 AZ
Example Cost
US East, 2 AZ
Bastion Host (Quick Start) 1 HA instance in ASG t2.micro for prod, m4.2xlarge for performance testing
PostgreSQL
Amazon RDS PostgreSQL Nodes Configuration (GPT tested)
18vCPU, 36 GB
(across 9 nodes for PostgreSQL, PgBouncer, Consul)
Tested with Graviton ARM
db.r6g.xlarge x 3 nodes
(12vCPU, 96 GB)
3 nodes x $0.52 = $1.56/hr 3 nodes x $0.52 = $1.56/hr
Redis 6vCPU, 18GB
(across 6 nodes for Redis Cache, Sentinel)
cache.m6g.large x 3 nodes
(6vCPU, 19GB)
3 nodes x $0.15 = $0.45/hr 2 nodes x $0.15 = $0.30/hr
Gitaly Cluster Details
Gitaly Instances (in ASG) 12 vCPU, 45GB
(across 3 nodes)
m5.large x 3 nodes
(12 vCPU, 48 GB)
$0.192 x 3 = $0.58/hr Gitaly & Praefect Must Have an Uneven Node Count for HA
Praefect (Instances in ASG with load balancer) 6 vCPU, 5.4 GB
(across 3 nodes)
c5.large x 3 nodes
(6 vCPU, 12 GB)
$0.09 x 3 = $0.21/hr Gitaly & Praefect Must Have an Uneven Node Count for HA
Praefect PostgreSQL(1) (Amazon RDS) 6 vCPU, 5.4 GB
(across 3 nodes)
Not applicable; reuses GitLab PostgreSQL $0
Internal Load Balancing Node 2 vCPU, 1.8 GB AWS ELB $0.10/hr $0.10/hr

5K Cloud Native Hybrid on EKS

5K Cloud Native Hybrid on EKS Bill of Materials (BOM)

GPT Test Results

  • 5K Full Fixed Scale GPT Test Results

  • 5K AutoScale from 25% GPT Test Results

    Elastic Auto Scale GPT Test Results start with an idle scaled cluster and then start the standard GPT test to determine if the EKS Auto Scaler performs well enough to keep up with performance test demands. In general this is substantially harder ramping than the scaling required when the ramping is driven my normal production workloads.

Deploy Now

Deploy Now links leverage the AWS Quick Start automation and only prepopulate the number of instances and instance types for the Quick Start based on the Bill of Materials below. You must provide appropriate input for all other parameters by following the guidance in the Quick Start documentation's Deployment steps section.

NOTE: On Demand pricing is used in this table for comparisons, but should not be used for budgeting nor purchasing AWS resources for a GitLab production instance. Do not use these tables to calculate actual monthly or yearly price estimates, instead use the AWS Calculator links in the "GitLab on AWS Compute" table above and customize it with your desired savings plan.

BOM Total: = Bill of Materials Total - this is what you use when building this configuration

Ref Arch Raw Total: = The totals if the configuration was built on regular VMs with no PaaS services. Configuring on pure VMs generally requires additional VMs for cluster management activities.

Idle Configuration (Scaled-In) = can be used to scale-in during time of low demand and/or for warm standby Geo instances. Requires configuration, testing and management of EKS autoscaling to meet your internal requirements.

Service Ref Arch Raw (Full Scaled) AWS BOM Example Full Scaled Cost
(On Demand, US East)
Webservice 10 pods x (5 vCPU & 6.25GB) =
50 vCPU, 62.5 GB
Sidekiq 8 pods x (1 vCPU & 2 GB) =
8 vCPU, 16 GB
Supporting services such as NGINX, Prometheus, etc 2 allocations x (2 vCPU and 7.5 GB) =
4 vCPU, 15 GB
GitLab Ref Arch Raw Total K8s Node Capacity 62 vCPU, 96.5 GB
One Node for Quick Start Overhead and Miscellaneous (EKS Cluster AutoScaler, Grafana, Prometheus, etc) + 8 vCPU, 16GB
Grand Total w/ Overheads Full Scale
Minimum hosts = 3
70 vCPU, 112.5 GB c5.2xlarge (8vCPU/16GB) x 9 nodes
72 vCPU, 144 GB
Full Fixed Scale GPT Test Results
$2.38/hr
Possible Idle Configuration (Scaled-In 75% - round up)
Pod autoscaling must be also adjusted to enable lower idling configuration.
24 vCPU, 48 GB c5.2xlarge x 7 $1.85/hr

Other combinations of node type and quantity can be used to meet the Grand Total. Due to the CPU and memory requirements of pods, hosts that are overly small may have significant unused capacity.

NOTE: If EKS node autoscaling is employed, it is likely that your average loading will run lower than this, especially during non-working hours and weekends.

Non-Kubernetes Compute Ref Arch Raw Total AWS BOM
(Directly Usable in AWS Quick Start)
Example Cost
US East, 3 AZ
Example Cost
US East, 2 AZ
Bastion Host (Quick Start) 1 HA instance in ASG t2.micro for prod, m4.2xlarge for performance testing
PostgreSQL
Amazon RDS PostgreSQL Nodes Configuration (GPT tested)
21vCPU, 51 GB
(across 9 nodes for PostgreSQL, PgBouncer, Consul)
Tested with Graviton ARM
db.r6g.2xlarge x 3 nodes
(24vCPU, 192 GB)
3 nodes x $1.04 = $3.12/hr 3 nodes x $1.04 = $3.12/hr
Redis 9vCPU, 27GB
(across 6 nodes for Redis, Sentinel)
cache.m6g.xlarge x 3 nodes
(12vCPU, 39GB)
3 nodes x $0.30 = $0.90/hr 2 nodes x $0.30 = $0.60/hr
Gitaly Cluster Details
Gitaly Instances (in ASG) 24 vCPU, 90GB
(across 3 nodes)
m5.2xlarge x 3 nodes
(24 vCPU, 96GB)
$0.384 x 3 = $1.15/hr Gitaly & Praefect Must Have an Uneven Node Count for HA
Praefect (Instances in ASG with load balancer) 6 vCPU, 5.4 GB
(across 3 nodes)
c5.large x 3 nodes
(6 vCPU, 12 GB)
$0.09 x 3 = $0.21/hr Gitaly & Praefect Must Have an Uneven Node Count for HA
Praefect PostgreSQL(1) (Amazon RDS) 6 vCPU, 5.4 GB
(across 3 nodes)
Not applicable; reuses GitLab PostgreSQL $0
Internal Load Balancing Node 2 vCPU, 1.8 GB AWS ELB $0.10/hr $0.10/hr

10K Cloud Native Hybrid on EKS

10K Cloud Native Hybrid on EKS Bill of Materials (BOM)

GPT Test Results

  • 10K Full Fixed Scale GPT Test Results

  • 10K Elastic Auto Scale GPT Test Results

    Elastic Auto Scale GPT Test Results start with an idle scaled cluster and then start the standard GPT test to determine if the EKS Auto Scaler performs well enough to keep up with performance test demands. In general this is substantially harder ramping than the scaling required when the ramping is driven my normal production workloads.

Deploy Now

Deploy Now links leverage the AWS Quick Start automation and only prepopulate the number of instances and instance types for the Quick Start based on the Bill of Materials below. You must provide appropriate input for all other parameters by following the guidance in the Quick Start documentation's Deployment steps section.

NOTE: On Demand pricing is used in this table for comparisons, but should not be used for budgeting nor purchasing AWS resources for a GitLab production instance. Do not use these tables to calculate actual monthly or yearly price estimates, instead use the AWS Calculator links in the "GitLab on AWS Compute" table above and customize it with your desired savings plan.

BOM Total: = Bill of Materials Total - this is what you use when building this configuration

Ref Arch Raw Total: = The totals if the configuration was built on regular VMs with no PaaS services. Configuring on pure VMs generally requires additional VMs for cluster management activities.

Idle Configuration (Scaled-In) = can be used to scale-in during time of low demand and/or for warm standby Geo instances. Requires configuration, testing and management of EKS autoscaling to meet your internal requirements.

Service Ref Arch Raw (Full Scaled) AWS BOM
(Directly Usable in AWS Quick Start)
Example Full Scaled Cost
(On Demand, US East)
Webservice 20 pods x (5 vCPU & 6.25 GB) =
100 vCPU, 125 GB
Sidekiq 14 pods x (1 vCPU & 2 GB)
14 vCPU, 28 GB
Supporting services such as NGINX, Prometheus, etc 2 allocations x (2 vCPU and 7.5 GB)
4 vCPU, 15 GB
GitLab Ref Arch Raw Total K8s Node Capacity 128 vCPU, 158 GB
One Node for Overhead and Miscellaneous (EKS Cluster AutoScaler, Grafana, Prometheus, etc) + 16 vCPU, 32GB
Grand Total w/ Overheads Fully Scaled
Minimum hosts = 3
142 vCPU, 190 GB c5.4xlarge (16vCPU/32GB) x 9 nodes
144 vCPU, 288GB

Full Fixed Scale GPT Test Results
$6.12/hr
Possible Idle Configuration (Scaled-In 75% - round up)
Pod autoscaling must be also adjusted to enable lower idling configuration.
40 vCPU, 80 GB c5.4xlarge x 7

Elastic Auto Scale GPT Test Results
$4.76/hr

Other combinations of node type and quantity can be used to meet the Grand Total. Due to the CPU and memory requirements of pods, hosts that are overly small may have significant unused capacity.

NOTE: If EKS node autoscaling is employed, it is likely that your average loading will run lower than this, especially during non-working hours and weekends.

Non-Kubernetes Compute Ref Arch Raw Total AWS BOM Example Cost
US East, 3 AZ
Example Cost
US East, 2 AZ
Bastion Host (Quick Start) 1 HA instance in ASG t2.micro for prod, m4.2xlarge for performance testing
PostgreSQL
Amazon RDS PostgreSQL Nodes Configuration (GPT tested)
36vCPU, 102 GB
(across 9 nodes for PostgreSQL, PgBouncer, Consul)
db.r6g.2xlarge x 3 nodes
(24vCPU, 192 GB)
3 nodes x $1.04 = $3.12/hr 3 nodes x $1.04 = $3.12/hr
Redis 30vCPU, 114GB
(across 12 nodes for Redis Cache, Redis Queues/Shared State, Sentinel Cache, Sentinel Queues/Shared State)
cache.m5.2xlarge x 3 nodes
(24vCPU, 78GB)
3 nodes x $0.62 = $1.86/hr 2 nodes x $0.62 = $1.24/hr
Gitaly Cluster Details
Gitaly Instances (in ASG) 48 vCPU, 180GB
(across 3 nodes)
m5.4xlarge x 3 nodes
(48 vCPU, 180 GB)
$0.77 x 3 = $2.31/hr Gitaly & Praefect Must Have an Uneven Node Count for HA
Praefect (Instances in ASG with load balancer) 6 vCPU, 5.4 GB
(across 3 nodes)
c5.large x 3 nodes
(6 vCPU, 12 GB)
$0.09 x 3 = $0.21/hr Gitaly & Praefect Must Have an Uneven Node Count for HA
Praefect PostgreSQL(1) (Amazon RDS) 6 vCPU, 5.4 GB
(across 3 nodes)
Not applicable; reuses GitLab PostgreSQL $0
Internal Load Balancing Node 2 vCPU, 1.8 GB AWS ELB $0.10/hr $0.10/hr

50K Cloud Native Hybrid on EKS

50K Cloud Native Hybrid on EKS Bill of Materials (BOM)

GPT Test Results

  • 50K Full Fixed Scale GPT Test Results

  • 50K Elastic Auto Scale GPT Test Results

    Elastic Auto Scale GPT Test Results start with an idle scaled cluster and then start the standard GPT test to determine if the EKS Auto Scaler performs well enough to keep up with performance test demands. In general this is substantially harder ramping than the scaling required when the ramping is driven my normal production workloads.

Deploy Now

Deploy Now links leverage the AWS Quick Start automation and only prepopulate the number of instances and instance types for the Quick Start based on the Bill of Materials below. You must provide appropriate input for all other parameters by following the guidance in the Quick Start documentation's Deployment steps section.

NOTE: On Demand pricing is used in this table for comparisons, but should not be used for budgeting nor purchasing AWS resources for a GitLab production instance. Do not use these tables to calculate actual monthly or yearly price estimates, instead use the AWS Calculator links in the "GitLab on AWS Compute" table above and customize it with your desired savings plan.

BOM Total: = Bill of Materials Total - this is what you use when building this configuration

Ref Arch Raw Total: = The totals if the configuration was built on regular VMs with no PaaS services. Configuring on pure VMs generally requires additional VMs for cluster management activities.

Idle Configuration (Scaled-In) = can be used to scale-in during time of low demand and/or for warm standby Geo instances. Requires configuration, testing and management of EKS autoscaling to meet your internal requirements.

Service Ref Arch Raw (Full Scaled) AWS BOM
(Directly Usable in AWS Quick Start)
Example Full Scaled Cost
(On Demand, US East)
Webservice 80 pods x (5 vCPU & 6.25 GB) =
400 vCPU, 500 GB
Sidekiq 14 pods x (1 vCPU & 2 GB)
14 vCPU, 28 GB
Supporting services such as NGINX, Prometheus, etc 2 allocations x (2 vCPU and 7.5 GB)
4 vCPU, 15 GB
GitLab Ref Arch Raw Total K8s Node Capacity 428 vCPU, 533 GB
One Node for Overhead and Miscellaneous (EKS Cluster AutoScaler, Grafana, Prometheus, etc) + 16 vCPU, 32GB
Grand Total w/ Overheads Fully Scaled
Minimum hosts = 3
444 vCPU, 565 GB c5.4xlarge (16vCPU/32GB) x 28 nodes
448 vCPU, 896GB

Full Fixed Scale GPT Test Results
$19.04/hr
Possible Idle Configuration (Scaled-In 75% - round up)
Pod autoscaling must be also adjusted to enable lower idling configuration.
40 vCPU, 80 GB c5.2xlarge x 10

Elastic Auto Scale GPT Test Results
$6.80/hr

Other combinations of node type and quantity can be used to meet the Grand Total. Due to the CPU and memory requirements of pods, hosts that are overly small may have significant unused capacity.

NOTE: If EKS node autoscaling is employed, it is likely that your average loading will run lower than this, especially during non-working hours and weekends.

Non-Kubernetes Compute Ref Arch Raw Total AWS BOM Example Cost
US East, 3 AZ
Example Cost
US East, 2 AZ
Bastion Host (Quick Start) 1 HA instance in ASG t2.micro for prod, m4.2xlarge for performance testing
PostgreSQL
Amazon RDS PostgreSQL Nodes Configuration (GPT tested)
96vCPU, 360 GB
(across 3 nodes)
db.r6g.8xlarge x 3 nodes
(96vCPU, 768 GB total)
3 nodes x $4.15 = $12.45/hr 3 nodes x $4.15 = $12.45/hr
Redis 30vCPU, 114GB
(across 12 nodes for Redis Cache, Redis Queues/Shared State, Sentinel Cache, Sentinel Queues/Shared State)
cache.m6g.2xlarge x 3 nodes
(24vCPU, 78GB total)
3 nodes x $0.60 = $1.80/hr 2 nodes x $0.60 = $1.20/hr
Gitaly Cluster Details
Gitaly Instances (in ASG) 64 vCPU, 240GB x 3 nodes m5.16xlarge x 3 nodes
(64 vCPU, 256 GB each)
$3.07 x 3 = $9.21/hr Gitaly & Praefect Must Have an Uneven Node Count for HA
Praefect (Instances in ASG with load balancer) 4 vCPU, 3.6 GB x 3 nodes c5.xlarge x 3 nodes
(4 vCPU, 8 GB each)
$0.17 x 3 = $0.51/hr Gitaly & Praefect Must Have an Uneven Node Count for HA
Praefect PostgreSQL(1) (AWS RDS) 2 vCPU, 1.8 GB x 3 nodes Not applicable; reuses GitLab PostgreSQL $0
Internal Load Balancing Node 2 vCPU, 1.8 GB AWS ELB $0.10/hr $0.10/hr

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